author | wenzelm |
Fri, 16 Apr 2010 21:28:09 +0200 | |
changeset 36176 | 3fe7e97ccca8 |
parent 34976 | 06df18c9a091 |
child 37023 | efc202e1677e |
permissions | -rw-r--r-- |
31807 | 1 |
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(* Author: Florian Haftmann, TU Muenchen *) |
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header {* Executable finite sets *} |
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theory Fset |
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imports List_Set |
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begin |
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declare mem_def [simp] |
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subsection {* Lifting *} |
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datatype 'a fset = Fset "'a set" |
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primrec member :: "'a fset \<Rightarrow> 'a set" where |
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"member (Fset A) = A" |
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lemma member_inject [simp]: |
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"member A = member B \<Longrightarrow> A = B" |
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by (cases A, cases B) simp |
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lemma Fset_member [simp]: |
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"Fset (member A) = A" |
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by (cases A) simp |
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definition Set :: "'a list \<Rightarrow> 'a fset" where |
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"Set xs = Fset (set xs)" |
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lemma member_Set [simp]: |
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"member (Set xs) = set xs" |
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by (simp add: Set_def) |
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definition Coset :: "'a list \<Rightarrow> 'a fset" where |
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"Coset xs = Fset (- set xs)" |
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lemma member_Coset [simp]: |
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"member (Coset xs) = - set xs" |
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by (simp add: Coset_def) |
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code_datatype Set Coset |
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lemma member_code [code]: |
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"member (Set xs) y \<longleftrightarrow> List.member y xs" |
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"member (Coset xs) y \<longleftrightarrow> \<not> List.member y xs" |
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by (simp_all add: mem_iff fun_Compl_def bool_Compl_def) |
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lemma member_image_UNIV [simp]: |
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"member ` UNIV = UNIV" |
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proof - |
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have "\<And>A \<Colon> 'a set. \<exists>B \<Colon> 'a fset. A = member B" |
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proof |
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fix A :: "'a set" |
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show "A = member (Fset A)" by simp |
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qed |
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then show ?thesis by (simp add: image_def) |
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qed |
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subsection {* Lattice instantiation *} |
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instantiation fset :: (type) boolean_algebra |
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begin |
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definition less_eq_fset :: "'a fset \<Rightarrow> 'a fset \<Rightarrow> bool" where |
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[simp]: "A \<le> B \<longleftrightarrow> member A \<subseteq> member B" |
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definition less_fset :: "'a fset \<Rightarrow> 'a fset \<Rightarrow> bool" where |
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[simp]: "A < B \<longleftrightarrow> member A \<subset> member B" |
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definition inf_fset :: "'a fset \<Rightarrow> 'a fset \<Rightarrow> 'a fset" where |
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[simp]: "inf A B = Fset (member A \<inter> member B)" |
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definition sup_fset :: "'a fset \<Rightarrow> 'a fset \<Rightarrow> 'a fset" where |
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[simp]: "sup A B = Fset (member A \<union> member B)" |
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definition bot_fset :: "'a fset" where |
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[simp]: "bot = Fset {}" |
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definition top_fset :: "'a fset" where |
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[simp]: "top = Fset UNIV" |
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definition uminus_fset :: "'a fset \<Rightarrow> 'a fset" where |
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[simp]: "- A = Fset (- (member A))" |
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definition minus_fset :: "'a fset \<Rightarrow> 'a fset \<Rightarrow> 'a fset" where |
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[simp]: "A - B = Fset (member A - member B)" |
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instance proof |
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qed auto |
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end |
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instantiation fset :: (type) complete_lattice |
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begin |
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definition Inf_fset :: "'a fset set \<Rightarrow> 'a fset" where |
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[simp, code del]: "Inf_fset As = Fset (Inf (image member As))" |
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definition Sup_fset :: "'a fset set \<Rightarrow> 'a fset" where |
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[simp, code del]: "Sup_fset As = Fset (Sup (image member As))" |
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instance proof |
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qed (auto simp add: le_fun_def le_bool_def) |
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end |
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subsection {* Basic operations *} |
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definition is_empty :: "'a fset \<Rightarrow> bool" where |
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[simp]: "is_empty A \<longleftrightarrow> List_Set.is_empty (member A)" |
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lemma is_empty_Set [code]: |
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"is_empty (Set xs) \<longleftrightarrow> null xs" |
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by (simp add: is_empty_set) |
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lemma empty_Set [code]: |
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"bot = Set []" |
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by simp |
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lemma UNIV_Set [code]: |
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"top = Coset []" |
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by simp |
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definition insert :: "'a \<Rightarrow> 'a fset \<Rightarrow> 'a fset" where |
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[simp]: "insert x A = Fset (Set.insert x (member A))" |
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lemma insert_Set [code]: |
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34976
06df18c9a091
generalized lemma foldl_apply_inv to foldl_apply
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parents:
34048
diff
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"insert x (Set xs) = Set (List.insert x xs)" |
06df18c9a091
generalized lemma foldl_apply_inv to foldl_apply
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parents:
34048
diff
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"insert x (Coset xs) = Coset (removeAll x xs)" |
06df18c9a091
generalized lemma foldl_apply_inv to foldl_apply
haftmann
parents:
34048
diff
changeset
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by (simp_all add: Set_def Coset_def set_insert) |
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definition remove :: "'a \<Rightarrow> 'a fset \<Rightarrow> 'a fset" where |
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[simp]: "remove x A = Fset (List_Set.remove x (member A))" |
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lemma remove_Set [code]: |
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34976
06df18c9a091
generalized lemma foldl_apply_inv to foldl_apply
haftmann
parents:
34048
diff
changeset
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"remove x (Set xs) = Set (removeAll x xs)" |
06df18c9a091
generalized lemma foldl_apply_inv to foldl_apply
haftmann
parents:
34048
diff
changeset
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"remove x (Coset xs) = Coset (List.insert x xs)" |
06df18c9a091
generalized lemma foldl_apply_inv to foldl_apply
haftmann
parents:
34048
diff
changeset
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by (simp_all add: Set_def Coset_def remove_set_compl) |
06df18c9a091
generalized lemma foldl_apply_inv to foldl_apply
haftmann
parents:
34048
diff
changeset
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(simp add: List_Set.remove_def) |
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definition map :: "('a \<Rightarrow> 'b) \<Rightarrow> 'a fset \<Rightarrow> 'b fset" where |
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[simp]: "map f A = Fset (image f (member A))" |
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lemma map_Set [code]: |
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"map f (Set xs) = Set (remdups (List.map f xs))" |
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by (simp add: Set_def) |
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definition filter :: "('a \<Rightarrow> bool) \<Rightarrow> 'a fset \<Rightarrow> 'a fset" where |
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[simp]: "filter P A = Fset (List_Set.project P (member A))" |
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lemma filter_Set [code]: |
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"filter P (Set xs) = Set (List.filter P xs)" |
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by (simp add: Set_def project_set) |
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definition forall :: "('a \<Rightarrow> bool) \<Rightarrow> 'a fset \<Rightarrow> bool" where |
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[simp]: "forall P A \<longleftrightarrow> Ball (member A) P" |
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lemma forall_Set [code]: |
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"forall P (Set xs) \<longleftrightarrow> list_all P xs" |
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by (simp add: Set_def ball_set) |
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definition exists :: "('a \<Rightarrow> bool) \<Rightarrow> 'a fset \<Rightarrow> bool" where |
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[simp]: "exists P A \<longleftrightarrow> Bex (member A) P" |
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lemma exists_Set [code]: |
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"exists P (Set xs) \<longleftrightarrow> list_ex P xs" |
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by (simp add: Set_def bex_set) |
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definition card :: "'a fset \<Rightarrow> nat" where |
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[simp]: "card A = Finite_Set.card (member A)" |
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lemma card_Set [code]: |
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"card (Set xs) = length (remdups xs)" |
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proof - |
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have "Finite_Set.card (set (remdups xs)) = length (remdups xs)" |
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by (rule distinct_card) simp |
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then show ?thesis by (simp add: Set_def card_def) |
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qed |
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subsection {* Derived operations *} |
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lemma subfset_eq_forall [code]: |
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"A \<le> B \<longleftrightarrow> forall (member B) A" |
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by (simp add: subset_eq) |
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lemma subfset_subfset_eq [code]: |
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"A < B \<longleftrightarrow> A \<le> B \<and> \<not> B \<le> (A :: 'a fset)" |
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by (fact less_le_not_le) |
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lemma eq_fset_subfset_eq [code]: |
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"eq_class.eq A B \<longleftrightarrow> A \<le> B \<and> B \<le> (A :: 'a fset)" |
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by (cases A, cases B) (simp add: eq set_eq) |
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subsection {* Functorial operations *} |
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lemma inter_project [code]: |
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"inf A (Set xs) = Set (List.filter (member A) xs)" |
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"inf A (Coset xs) = foldl (\<lambda>A x. remove x A) A xs" |
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proof - |
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show "inf A (Set xs) = Set (List.filter (member A) xs)" |
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by (simp add: inter project_def Set_def) |
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have "foldl (\<lambda>A x. List_Set.remove x A) (member A) xs = |
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member (foldl (\<lambda>A x. Fset (List_Set.remove x (member A))) A xs)" |
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34976
06df18c9a091
generalized lemma foldl_apply_inv to foldl_apply
haftmann
parents:
34048
diff
changeset
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by (rule foldl_apply) (simp add: expand_fun_eq) |
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then show "inf A (Coset xs) = foldl (\<lambda>A x. remove x A) A xs" |
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by (simp add: Diff_eq [symmetric] minus_set) |
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qed |
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lemma subtract_remove [code]: |
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"A - Set xs = foldl (\<lambda>A x. remove x A) A xs" |
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"A - Coset xs = Set (List.filter (member A) xs)" |
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proof - |
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have "foldl (\<lambda>A x. List_Set.remove x A) (member A) xs = |
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member (foldl (\<lambda>A x. Fset (List_Set.remove x (member A))) A xs)" |
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34976
06df18c9a091
generalized lemma foldl_apply_inv to foldl_apply
haftmann
parents:
34048
diff
changeset
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by (rule foldl_apply) (simp add: expand_fun_eq) |
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then show "A - Set xs = foldl (\<lambda>A x. remove x A) A xs" |
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by (simp add: minus_set) |
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show "A - Coset xs = Set (List.filter (member A) xs)" |
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by (auto simp add: Coset_def Set_def) |
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qed |
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lemma union_insert [code]: |
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"sup (Set xs) A = foldl (\<lambda>A x. insert x A) A xs" |
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"sup (Coset xs) A = Coset (List.filter (Not \<circ> member A) xs)" |
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proof - |
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have "foldl (\<lambda>A x. Set.insert x A) (member A) xs = |
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member (foldl (\<lambda>A x. Fset (Set.insert x (member A))) A xs)" |
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34976
06df18c9a091
generalized lemma foldl_apply_inv to foldl_apply
haftmann
parents:
34048
diff
changeset
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by (rule foldl_apply) (simp add: expand_fun_eq) |
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then show "sup (Set xs) A = foldl (\<lambda>A x. insert x A) A xs" |
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by (simp add: union_set) |
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show "sup (Coset xs) A = Coset (List.filter (Not \<circ> member A) xs)" |
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by (auto simp add: Coset_def) |
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qed |
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context complete_lattice |
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begin |
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definition Infimum :: "'a fset \<Rightarrow> 'a" where |
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[simp]: "Infimum A = Inf (member A)" |
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lemma Infimum_inf [code]: |
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"Infimum (Set As) = foldl inf top As" |
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"Infimum (Coset []) = bot" |
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by (simp_all add: Inf_set_fold Inf_UNIV) |
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definition Supremum :: "'a fset \<Rightarrow> 'a" where |
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[simp]: "Supremum A = Sup (member A)" |
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lemma Supremum_sup [code]: |
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"Supremum (Set As) = foldl sup bot As" |
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"Supremum (Coset []) = top" |
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by (simp_all add: Sup_set_fold Sup_UNIV) |
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end |
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subsection {* Misc operations *} |
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lemma size_fset [code]: |
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"fset_size f A = 0" |
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"size A = 0" |
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by (cases A, simp) (cases A, simp) |
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lemma fset_case_code [code]: |
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"fset_case f A = f (member A)" |
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by (cases A) simp |
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lemma fset_rec_code [code]: |
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"fset_rec f A = f (member A)" |
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by (cases A) simp |
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subsection {* Simplified simprules *} |
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lemma is_empty_simp [simp]: |
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"is_empty A \<longleftrightarrow> member A = {}" |
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by (simp add: List_Set.is_empty_def) |
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declare is_empty_def [simp del] |
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lemma remove_simp [simp]: |
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"remove x A = Fset (member A - {x})" |
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by (simp add: List_Set.remove_def) |
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declare remove_def [simp del] |
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lemma filter_simp [simp]: |
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"filter P A = Fset {x \<in> member A. P x}" |
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by (simp add: List_Set.project_def) |
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declare filter_def [simp del] |
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declare mem_def [simp del] |
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31849 | 295 |
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36176
3fe7e97ccca8
replaced generic 'hide' command by more conventional 'hide_class', 'hide_type', 'hide_const', 'hide_fact' -- frees some popular keywords;
wenzelm
parents:
34976
diff
changeset
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296 |
hide_const (open) is_empty insert remove map filter forall exists card |
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Inter Union |
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end |