src/HOL/Library/Multiset.thy
author Christian Sternagel
Wed, 29 Aug 2012 12:24:26 +0900
changeset 49084 e3973567ed4f
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child 49388 1ffd5a055acf
permissions -rw-r--r--
base Sublist_Order on Sublist (using a simplified form of embedding as sublist relation)
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(*  Title:      HOL/Library/Multiset.thy
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    Author:     Tobias Nipkow, Markus Wenzel, Lawrence C Paulson, Norbert Voelker
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*)
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header {* (Finite) multisets *}
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theory Multiset
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imports Main DAList
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begin
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subsection {* The type of multisets *}
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definition "multiset = {f :: 'a => nat. finite {x. f x > 0}}"
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typedef (open) 'a multiset = "multiset :: ('a => nat) set"
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  morphisms count Abs_multiset
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  unfolding multiset_def
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proof
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  show "(\<lambda>x. 0::nat) \<in> {f. finite {x. f x > 0}}" by simp
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qed
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setup_lifting type_definition_multiset
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abbreviation Melem :: "'a => 'a multiset => bool"  ("(_/ :# _)" [50, 51] 50) where
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  "a :# M == 0 < count M a"
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notation (xsymbols)
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  Melem (infix "\<in>#" 50)
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lemma multiset_eq_iff:
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  "M = N \<longleftrightarrow> (\<forall>a. count M a = count N a)"
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  by (simp only: count_inject [symmetric] fun_eq_iff)
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lemma multiset_eqI:
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  "(\<And>x. count A x = count B x) \<Longrightarrow> A = B"
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  using multiset_eq_iff by auto
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text {*
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 \medskip Preservation of the representing set @{term multiset}.
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*}
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lemma const0_in_multiset:
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  "(\<lambda>a. 0) \<in> multiset"
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  by (simp add: multiset_def)
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lemma only1_in_multiset:
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  "(\<lambda>b. if b = a then n else 0) \<in> multiset"
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  by (simp add: multiset_def)
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lemma union_preserves_multiset:
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  "M \<in> multiset \<Longrightarrow> N \<in> multiset \<Longrightarrow> (\<lambda>a. M a + N a) \<in> multiset"
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  by (simp add: multiset_def)
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lemma diff_preserves_multiset:
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  assumes "M \<in> multiset"
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  shows "(\<lambda>a. M a - N a) \<in> multiset"
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proof -
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  have "{x. N x < M x} \<subseteq> {x. 0 < M x}"
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    by auto
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  with assms show ?thesis
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    by (auto simp add: multiset_def intro: finite_subset)
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qed
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lemma filter_preserves_multiset:
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  assumes "M \<in> multiset"
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  shows "(\<lambda>x. if P x then M x else 0) \<in> multiset"
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proof -
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  have "{x. (P x \<longrightarrow> 0 < M x) \<and> P x} \<subseteq> {x. 0 < M x}"
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    by auto
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  with assms show ?thesis
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    by (auto simp add: multiset_def intro: finite_subset)
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qed
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lemmas in_multiset = const0_in_multiset only1_in_multiset
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  union_preserves_multiset diff_preserves_multiset filter_preserves_multiset
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subsection {* Representing multisets *}
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text {* Multiset enumeration *}
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instantiation multiset :: (type) cancel_comm_monoid_add
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begin
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lift_definition zero_multiset :: "'a multiset" is "\<lambda>a. 0"
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by (rule const0_in_multiset)
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abbreviation Mempty :: "'a multiset" ("{#}") where
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  "Mempty \<equiv> 0"
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lift_definition plus_multiset :: "'a multiset => 'a multiset => 'a multiset" is "\<lambda>M N. (\<lambda>a. M a + N a)"
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by (rule union_preserves_multiset)
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instance
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by default (transfer, simp add: fun_eq_iff)+
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end
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lift_definition single :: "'a => 'a multiset" is "\<lambda>a b. if b = a then 1 else 0"
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by (rule only1_in_multiset)
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syntax
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  "_multiset" :: "args => 'a multiset"    ("{#(_)#}")
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translations
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  "{#x, xs#}" == "{#x#} + {#xs#}"
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  "{#x#}" == "CONST single x"
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lemma count_empty [simp]: "count {#} a = 0"
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  by (simp add: zero_multiset.rep_eq)
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lemma count_single [simp]: "count {#b#} a = (if b = a then 1 else 0)"
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  by (simp add: single.rep_eq)
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subsection {* Basic operations *}
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subsubsection {* Union *}
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lemma count_union [simp]: "count (M + N) a = count M a + count N a"
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  by (simp add: plus_multiset.rep_eq)
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e4d13d8a9011 Multisets (from HOL/Induct/Multiset and friends);
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e4d13d8a9011 Multisets (from HOL/Induct/Multiset and friends);
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subsubsection {* Difference *}
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instantiation multiset :: (type) minus
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begin
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lift_definition minus_multiset :: "'a multiset => 'a multiset => 'a multiset" is "\<lambda> M N. \<lambda>a. M a - N a"
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by (rule diff_preserves_multiset)
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instance ..
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end
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lemma count_diff [simp]: "count (M - N) a = count M a - count N a"
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  by (simp add: minus_multiset.rep_eq)
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lemma diff_empty [simp]: "M - {#} = M \<and> {#} - M = {#}"
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by(simp add: multiset_eq_iff)
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lemma diff_cancel[simp]: "A - A = {#}"
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by (rule multiset_eqI) simp
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lemma diff_union_cancelR [simp]: "M + N - N = (M::'a multiset)"
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by(simp add: multiset_eq_iff)
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lemma diff_union_cancelL [simp]: "N + M - N = (M::'a multiset)"
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by(simp add: multiset_eq_iff)
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lemma insert_DiffM:
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  "x \<in># M \<Longrightarrow> {#x#} + (M - {#x#}) = M"
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  by (clarsimp simp: multiset_eq_iff)
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lemma insert_DiffM2 [simp]:
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  "x \<in># M \<Longrightarrow> M - {#x#} + {#x#} = M"
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  by (clarsimp simp: multiset_eq_iff)
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lemma diff_right_commute:
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  "(M::'a multiset) - N - Q = M - Q - N"
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  by (auto simp add: multiset_eq_iff)
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lemma diff_add:
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  "(M::'a multiset) - (N + Q) = M - N - Q"
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by (simp add: multiset_eq_iff)
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lemma diff_union_swap:
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  "a \<noteq> b \<Longrightarrow> M - {#a#} + {#b#} = M + {#b#} - {#a#}"
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  by (auto simp add: multiset_eq_iff)
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lemma diff_union_single_conv:
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  "a \<in># J \<Longrightarrow> I + J - {#a#} = I + (J - {#a#})"
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  by (simp add: multiset_eq_iff)
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subsubsection {* Equality of multisets *}
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lemma single_not_empty [simp]: "{#a#} \<noteq> {#} \<and> {#} \<noteq> {#a#}"
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  by (simp add: multiset_eq_iff)
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lemma single_eq_single [simp]: "{#a#} = {#b#} \<longleftrightarrow> a = b"
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  by (auto simp add: multiset_eq_iff)
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lemma union_eq_empty [iff]: "M + N = {#} \<longleftrightarrow> M = {#} \<and> N = {#}"
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  by (auto simp add: multiset_eq_iff)
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lemma empty_eq_union [iff]: "{#} = M + N \<longleftrightarrow> M = {#} \<and> N = {#}"
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  by (auto simp add: multiset_eq_iff)
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lemma multi_self_add_other_not_self [simp]: "M = M + {#x#} \<longleftrightarrow> False"
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  by (auto simp add: multiset_eq_iff)
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lemma diff_single_trivial:
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  "\<not> x \<in># M \<Longrightarrow> M - {#x#} = M"
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   194
  by (auto simp add: multiset_eq_iff)
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lemma diff_single_eq_union:
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  "x \<in># M \<Longrightarrow> M - {#x#} = N \<longleftrightarrow> M = N + {#x#}"
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   198
  by auto
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lemma union_single_eq_diff:
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  "M + {#x#} = N \<Longrightarrow> M = N - {#x#}"
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   202
  by (auto dest: sym)
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   203
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lemma union_single_eq_member:
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  "M + {#x#} = N \<Longrightarrow> x \<in># N"
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  by auto
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   207
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lemma union_is_single:
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  "M + N = {#a#} \<longleftrightarrow> M = {#a#} \<and> N={#} \<or> M = {#} \<and> N = {#a#}" (is "?lhs = ?rhs")
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   210
proof
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  assume ?rhs then show ?lhs by auto
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   212
next
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   213
  assume ?lhs then show ?rhs
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    by (simp add: multiset_eq_iff split:if_splits) (metis add_is_1)
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   215
qed
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lemma single_is_union:
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   218
  "{#a#} = M + N \<longleftrightarrow> {#a#} = M \<and> N = {#} \<or> M = {#} \<and> {#a#} = N"
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   219
  by (auto simp add: eq_commute [of "{#a#}" "M + N"] union_is_single)
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   220
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lemma add_eq_conv_diff:
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   222
  "M + {#a#} = N + {#b#} \<longleftrightarrow> M = N \<and> a = b \<or> M = N - {#a#} + {#b#} \<and> N = M - {#b#} + {#a#}"  (is "?lhs = ?rhs")
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   223
(* shorter: by (simp add: multiset_eq_iff) fastforce *)
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   224
proof
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  assume ?rhs then show ?lhs
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   226
  by (auto simp add: add_assoc add_commute [of "{#b#}"])
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   227
    (drule sym, simp add: add_assoc [symmetric])
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   228
next
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   229
  assume ?lhs
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
   230
  show ?rhs
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
   231
  proof (cases "a = b")
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
   232
    case True with `?lhs` show ?thesis by simp
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
   233
  next
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
   234
    case False
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
   235
    from `?lhs` have "a \<in># N + {#b#}" by (rule union_single_eq_member)
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
   236
    with False have "a \<in># N" by auto
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
   237
    moreover from `?lhs` have "M = N + {#b#} - {#a#}" by (rule union_single_eq_diff)
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
   238
    moreover note False
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
   239
    ultimately show ?thesis by (auto simp add: diff_right_commute [of _ "{#a#}"] diff_union_swap)
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
   240
  qed
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
   241
qed
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
   242
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
   243
lemma insert_noteq_member: 
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
   244
  assumes BC: "B + {#b#} = C + {#c#}"
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
   245
   and bnotc: "b \<noteq> c"
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
   246
  shows "c \<in># B"
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
   247
proof -
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
   248
  have "c \<in># C + {#c#}" by simp
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
   249
  have nc: "\<not> c \<in># {#b#}" using bnotc by simp
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
   250
  then have "c \<in># B + {#b#}" using BC by simp
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
   251
  then show "c \<in># B" using nc by simp
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
   252
qed
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
   253
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
   254
lemma add_eq_conv_ex:
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
   255
  "(M + {#a#} = N + {#b#}) =
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
   256
    (M = N \<and> a = b \<or> (\<exists>K. M = K + {#b#} \<and> N = K + {#a#}))"
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
   257
  by (auto simp add: add_eq_conv_diff)
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
   258
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
   259
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
   260
subsubsection {* Pointwise ordering induced by count *}
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
   261
35268
04673275441a switched notations for pointwise and multiset order
haftmann
parents: 35028
diff changeset
   262
instantiation multiset :: (type) ordered_ab_semigroup_add_imp_le
04673275441a switched notations for pointwise and multiset order
haftmann
parents: 35028
diff changeset
   263
begin
04673275441a switched notations for pointwise and multiset order
haftmann
parents: 35028
diff changeset
   264
47429
ec64d94cbf9c multiset operations are defined with lift_definitions;
bulwahn
parents: 47308
diff changeset
   265
lift_definition less_eq_multiset :: "'a multiset \<Rightarrow> 'a multiset \<Rightarrow> bool" is "\<lambda> A B. (\<forall>a. A a \<le> B a)"
ec64d94cbf9c multiset operations are defined with lift_definitions;
bulwahn
parents: 47308
diff changeset
   266
by simp
ec64d94cbf9c multiset operations are defined with lift_definitions;
bulwahn
parents: 47308
diff changeset
   267
lemmas mset_le_def = less_eq_multiset_def
34943
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
   268
35268
04673275441a switched notations for pointwise and multiset order
haftmann
parents: 35028
diff changeset
   269
definition less_multiset :: "'a multiset \<Rightarrow> 'a multiset \<Rightarrow> bool" where
04673275441a switched notations for pointwise and multiset order
haftmann
parents: 35028
diff changeset
   270
  mset_less_def: "(A::'a multiset) < B \<longleftrightarrow> A \<le> B \<and> A \<noteq> B"
34943
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
   271
46921
aa862ff8a8a9 some proof indentation;
wenzelm
parents: 46756
diff changeset
   272
instance
aa862ff8a8a9 some proof indentation;
wenzelm
parents: 46756
diff changeset
   273
  by default (auto simp add: mset_le_def mset_less_def multiset_eq_iff intro: order_trans antisym)
35268
04673275441a switched notations for pointwise and multiset order
haftmann
parents: 35028
diff changeset
   274
04673275441a switched notations for pointwise and multiset order
haftmann
parents: 35028
diff changeset
   275
end
34943
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
   276
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
   277
lemma mset_less_eqI:
35268
04673275441a switched notations for pointwise and multiset order
haftmann
parents: 35028
diff changeset
   278
  "(\<And>x. count A x \<le> count B x) \<Longrightarrow> A \<le> B"
34943
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
   279
  by (simp add: mset_le_def)
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
   280
35268
04673275441a switched notations for pointwise and multiset order
haftmann
parents: 35028
diff changeset
   281
lemma mset_le_exists_conv:
04673275441a switched notations for pointwise and multiset order
haftmann
parents: 35028
diff changeset
   282
  "(A::'a multiset) \<le> B \<longleftrightarrow> (\<exists>C. B = A + C)"
34943
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
   283
apply (unfold mset_le_def, rule iffI, rule_tac x = "B - A" in exI)
39302
d7728f65b353 renamed lemmas: ext_iff -> fun_eq_iff, set_ext_iff -> set_eq_iff, set_ext -> set_eqI
nipkow
parents: 39301
diff changeset
   284
apply (auto intro: multiset_eq_iff [THEN iffD2])
34943
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
   285
done
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
   286
35268
04673275441a switched notations for pointwise and multiset order
haftmann
parents: 35028
diff changeset
   287
lemma mset_le_mono_add_right_cancel [simp]:
04673275441a switched notations for pointwise and multiset order
haftmann
parents: 35028
diff changeset
   288
  "(A::'a multiset) + C \<le> B + C \<longleftrightarrow> A \<le> B"
04673275441a switched notations for pointwise and multiset order
haftmann
parents: 35028
diff changeset
   289
  by (fact add_le_cancel_right)
34943
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
   290
35268
04673275441a switched notations for pointwise and multiset order
haftmann
parents: 35028
diff changeset
   291
lemma mset_le_mono_add_left_cancel [simp]:
04673275441a switched notations for pointwise and multiset order
haftmann
parents: 35028
diff changeset
   292
  "C + (A::'a multiset) \<le> C + B \<longleftrightarrow> A \<le> B"
04673275441a switched notations for pointwise and multiset order
haftmann
parents: 35028
diff changeset
   293
  by (fact add_le_cancel_left)
04673275441a switched notations for pointwise and multiset order
haftmann
parents: 35028
diff changeset
   294
04673275441a switched notations for pointwise and multiset order
haftmann
parents: 35028
diff changeset
   295
lemma mset_le_mono_add:
04673275441a switched notations for pointwise and multiset order
haftmann
parents: 35028
diff changeset
   296
  "(A::'a multiset) \<le> B \<Longrightarrow> C \<le> D \<Longrightarrow> A + C \<le> B + D"
04673275441a switched notations for pointwise and multiset order
haftmann
parents: 35028
diff changeset
   297
  by (fact add_mono)
34943
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
   298
35268
04673275441a switched notations for pointwise and multiset order
haftmann
parents: 35028
diff changeset
   299
lemma mset_le_add_left [simp]:
04673275441a switched notations for pointwise and multiset order
haftmann
parents: 35028
diff changeset
   300
  "(A::'a multiset) \<le> A + B"
04673275441a switched notations for pointwise and multiset order
haftmann
parents: 35028
diff changeset
   301
  unfolding mset_le_def by auto
04673275441a switched notations for pointwise and multiset order
haftmann
parents: 35028
diff changeset
   302
04673275441a switched notations for pointwise and multiset order
haftmann
parents: 35028
diff changeset
   303
lemma mset_le_add_right [simp]:
04673275441a switched notations for pointwise and multiset order
haftmann
parents: 35028
diff changeset
   304
  "B \<le> (A::'a multiset) + B"
04673275441a switched notations for pointwise and multiset order
haftmann
parents: 35028
diff changeset
   305
  unfolding mset_le_def by auto
34943
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
   306
35268
04673275441a switched notations for pointwise and multiset order
haftmann
parents: 35028
diff changeset
   307
lemma mset_le_single:
04673275441a switched notations for pointwise and multiset order
haftmann
parents: 35028
diff changeset
   308
  "a :# B \<Longrightarrow> {#a#} \<le> B"
04673275441a switched notations for pointwise and multiset order
haftmann
parents: 35028
diff changeset
   309
  by (simp add: mset_le_def)
34943
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
   310
35268
04673275441a switched notations for pointwise and multiset order
haftmann
parents: 35028
diff changeset
   311
lemma multiset_diff_union_assoc:
04673275441a switched notations for pointwise and multiset order
haftmann
parents: 35028
diff changeset
   312
  "C \<le> B \<Longrightarrow> (A::'a multiset) + B - C = A + (B - C)"
39302
d7728f65b353 renamed lemmas: ext_iff -> fun_eq_iff, set_ext_iff -> set_eq_iff, set_ext -> set_eqI
nipkow
parents: 39301
diff changeset
   313
  by (simp add: multiset_eq_iff mset_le_def)
34943
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
   314
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
   315
lemma mset_le_multiset_union_diff_commute:
36867
6c28c702ed22 simplified proof
nipkow
parents: 36635
diff changeset
   316
  "B \<le> A \<Longrightarrow> (A::'a multiset) - B + C = A + C - B"
39302
d7728f65b353 renamed lemmas: ext_iff -> fun_eq_iff, set_ext_iff -> set_eq_iff, set_ext -> set_eqI
nipkow
parents: 39301
diff changeset
   317
by (simp add: multiset_eq_iff mset_le_def)
34943
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
   318
39301
e1bd8a54c40f added and renamed lemmas
nipkow
parents: 39198
diff changeset
   319
lemma diff_le_self[simp]: "(M::'a multiset) - N \<le> M"
e1bd8a54c40f added and renamed lemmas
nipkow
parents: 39198
diff changeset
   320
by(simp add: mset_le_def)
e1bd8a54c40f added and renamed lemmas
nipkow
parents: 39198
diff changeset
   321
35268
04673275441a switched notations for pointwise and multiset order
haftmann
parents: 35028
diff changeset
   322
lemma mset_lessD: "A < B \<Longrightarrow> x \<in># A \<Longrightarrow> x \<in># B"
34943
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
   323
apply (clarsimp simp: mset_le_def mset_less_def)
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
   324
apply (erule_tac x=x in allE)
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
   325
apply auto
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
   326
done
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
   327
35268
04673275441a switched notations for pointwise and multiset order
haftmann
parents: 35028
diff changeset
   328
lemma mset_leD: "A \<le> B \<Longrightarrow> x \<in># A \<Longrightarrow> x \<in># B"
34943
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
   329
apply (clarsimp simp: mset_le_def mset_less_def)
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
   330
apply (erule_tac x = x in allE)
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
   331
apply auto
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
   332
done
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
   333
  
35268
04673275441a switched notations for pointwise and multiset order
haftmann
parents: 35028
diff changeset
   334
lemma mset_less_insertD: "(A + {#x#} < B) \<Longrightarrow> (x \<in># B \<and> A < B)"
34943
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
   335
apply (rule conjI)
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
   336
 apply (simp add: mset_lessD)
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
   337
apply (clarsimp simp: mset_le_def mset_less_def)
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
   338
apply safe
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
   339
 apply (erule_tac x = a in allE)
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
   340
 apply (auto split: split_if_asm)
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
   341
done
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
   342
35268
04673275441a switched notations for pointwise and multiset order
haftmann
parents: 35028
diff changeset
   343
lemma mset_le_insertD: "(A + {#x#} \<le> B) \<Longrightarrow> (x \<in># B \<and> A \<le> B)"
34943
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
   344
apply (rule conjI)
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
   345
 apply (simp add: mset_leD)
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
   346
apply (force simp: mset_le_def mset_less_def split: split_if_asm)
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
   347
done
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
   348
35268
04673275441a switched notations for pointwise and multiset order
haftmann
parents: 35028
diff changeset
   349
lemma mset_less_of_empty[simp]: "A < {#} \<longleftrightarrow> False"
39302
d7728f65b353 renamed lemmas: ext_iff -> fun_eq_iff, set_ext_iff -> set_eq_iff, set_ext -> set_eqI
nipkow
parents: 39301
diff changeset
   350
  by (auto simp add: mset_less_def mset_le_def multiset_eq_iff)
34943
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
   351
35268
04673275441a switched notations for pointwise and multiset order
haftmann
parents: 35028
diff changeset
   352
lemma multi_psub_of_add_self[simp]: "A < A + {#x#}"
04673275441a switched notations for pointwise and multiset order
haftmann
parents: 35028
diff changeset
   353
  by (auto simp: mset_le_def mset_less_def)
34943
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
   354
35268
04673275441a switched notations for pointwise and multiset order
haftmann
parents: 35028
diff changeset
   355
lemma multi_psub_self[simp]: "(A::'a multiset) < A = False"
04673275441a switched notations for pointwise and multiset order
haftmann
parents: 35028
diff changeset
   356
  by simp
34943
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
   357
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
   358
lemma mset_less_add_bothsides:
35268
04673275441a switched notations for pointwise and multiset order
haftmann
parents: 35028
diff changeset
   359
  "T + {#x#} < S + {#x#} \<Longrightarrow> T < S"
04673275441a switched notations for pointwise and multiset order
haftmann
parents: 35028
diff changeset
   360
  by (fact add_less_imp_less_right)
04673275441a switched notations for pointwise and multiset order
haftmann
parents: 35028
diff changeset
   361
04673275441a switched notations for pointwise and multiset order
haftmann
parents: 35028
diff changeset
   362
lemma mset_less_empty_nonempty:
04673275441a switched notations for pointwise and multiset order
haftmann
parents: 35028
diff changeset
   363
  "{#} < S \<longleftrightarrow> S \<noteq> {#}"
04673275441a switched notations for pointwise and multiset order
haftmann
parents: 35028
diff changeset
   364
  by (auto simp: mset_le_def mset_less_def)
04673275441a switched notations for pointwise and multiset order
haftmann
parents: 35028
diff changeset
   365
04673275441a switched notations for pointwise and multiset order
haftmann
parents: 35028
diff changeset
   366
lemma mset_less_diff_self:
04673275441a switched notations for pointwise and multiset order
haftmann
parents: 35028
diff changeset
   367
  "c \<in># B \<Longrightarrow> B - {#c#} < B"
39302
d7728f65b353 renamed lemmas: ext_iff -> fun_eq_iff, set_ext_iff -> set_eq_iff, set_ext -> set_eqI
nipkow
parents: 39301
diff changeset
   368
  by (auto simp: mset_le_def mset_less_def multiset_eq_iff)
35268
04673275441a switched notations for pointwise and multiset order
haftmann
parents: 35028
diff changeset
   369
04673275441a switched notations for pointwise and multiset order
haftmann
parents: 35028
diff changeset
   370
04673275441a switched notations for pointwise and multiset order
haftmann
parents: 35028
diff changeset
   371
subsubsection {* Intersection *}
04673275441a switched notations for pointwise and multiset order
haftmann
parents: 35028
diff changeset
   372
04673275441a switched notations for pointwise and multiset order
haftmann
parents: 35028
diff changeset
   373
instantiation multiset :: (type) semilattice_inf
04673275441a switched notations for pointwise and multiset order
haftmann
parents: 35028
diff changeset
   374
begin
04673275441a switched notations for pointwise and multiset order
haftmann
parents: 35028
diff changeset
   375
04673275441a switched notations for pointwise and multiset order
haftmann
parents: 35028
diff changeset
   376
definition inf_multiset :: "'a multiset \<Rightarrow> 'a multiset \<Rightarrow> 'a multiset" where
04673275441a switched notations for pointwise and multiset order
haftmann
parents: 35028
diff changeset
   377
  multiset_inter_def: "inf_multiset A B = A - (A - B)"
04673275441a switched notations for pointwise and multiset order
haftmann
parents: 35028
diff changeset
   378
46921
aa862ff8a8a9 some proof indentation;
wenzelm
parents: 46756
diff changeset
   379
instance
aa862ff8a8a9 some proof indentation;
wenzelm
parents: 46756
diff changeset
   380
proof -
35268
04673275441a switched notations for pointwise and multiset order
haftmann
parents: 35028
diff changeset
   381
  have aux: "\<And>m n q :: nat. m \<le> n \<Longrightarrow> m \<le> q \<Longrightarrow> m \<le> n - (n - q)" by arith
46921
aa862ff8a8a9 some proof indentation;
wenzelm
parents: 46756
diff changeset
   382
  show "OFCLASS('a multiset, semilattice_inf_class)"
aa862ff8a8a9 some proof indentation;
wenzelm
parents: 46756
diff changeset
   383
    by default (auto simp add: multiset_inter_def mset_le_def aux)
35268
04673275441a switched notations for pointwise and multiset order
haftmann
parents: 35028
diff changeset
   384
qed
04673275441a switched notations for pointwise and multiset order
haftmann
parents: 35028
diff changeset
   385
04673275441a switched notations for pointwise and multiset order
haftmann
parents: 35028
diff changeset
   386
end
04673275441a switched notations for pointwise and multiset order
haftmann
parents: 35028
diff changeset
   387
04673275441a switched notations for pointwise and multiset order
haftmann
parents: 35028
diff changeset
   388
abbreviation multiset_inter :: "'a multiset \<Rightarrow> 'a multiset \<Rightarrow> 'a multiset" (infixl "#\<inter>" 70) where
04673275441a switched notations for pointwise and multiset order
haftmann
parents: 35028
diff changeset
   389
  "multiset_inter \<equiv> inf"
34943
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
   390
41069
6fabc0414055 name filter operation just filter (c.f. List.filter and list comprehension syntax)
haftmann
parents: 40968
diff changeset
   391
lemma multiset_inter_count [simp]:
35268
04673275441a switched notations for pointwise and multiset order
haftmann
parents: 35028
diff changeset
   392
  "count (A #\<inter> B) x = min (count A x) (count B x)"
47429
ec64d94cbf9c multiset operations are defined with lift_definitions;
bulwahn
parents: 47308
diff changeset
   393
  by (simp add: multiset_inter_def)
35268
04673275441a switched notations for pointwise and multiset order
haftmann
parents: 35028
diff changeset
   394
04673275441a switched notations for pointwise and multiset order
haftmann
parents: 35028
diff changeset
   395
lemma multiset_inter_single: "a \<noteq> b \<Longrightarrow> {#a#} #\<inter> {#b#} = {#}"
46730
e3b99d0231bc tuned proofs;
wenzelm
parents: 46394
diff changeset
   396
  by (rule multiset_eqI) auto
34943
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
   397
35268
04673275441a switched notations for pointwise and multiset order
haftmann
parents: 35028
diff changeset
   398
lemma multiset_union_diff_commute:
04673275441a switched notations for pointwise and multiset order
haftmann
parents: 35028
diff changeset
   399
  assumes "B #\<inter> C = {#}"
04673275441a switched notations for pointwise and multiset order
haftmann
parents: 35028
diff changeset
   400
  shows "A + B - C = A - C + B"
39302
d7728f65b353 renamed lemmas: ext_iff -> fun_eq_iff, set_ext_iff -> set_eq_iff, set_ext -> set_eqI
nipkow
parents: 39301
diff changeset
   401
proof (rule multiset_eqI)
35268
04673275441a switched notations for pointwise and multiset order
haftmann
parents: 35028
diff changeset
   402
  fix x
04673275441a switched notations for pointwise and multiset order
haftmann
parents: 35028
diff changeset
   403
  from assms have "min (count B x) (count C x) = 0"
46730
e3b99d0231bc tuned proofs;
wenzelm
parents: 46394
diff changeset
   404
    by (auto simp add: multiset_eq_iff)
35268
04673275441a switched notations for pointwise and multiset order
haftmann
parents: 35028
diff changeset
   405
  then have "count B x = 0 \<or> count C x = 0"
04673275441a switched notations for pointwise and multiset order
haftmann
parents: 35028
diff changeset
   406
    by auto
04673275441a switched notations for pointwise and multiset order
haftmann
parents: 35028
diff changeset
   407
  then show "count (A + B - C) x = count (A - C + B) x"
04673275441a switched notations for pointwise and multiset order
haftmann
parents: 35028
diff changeset
   408
    by auto
04673275441a switched notations for pointwise and multiset order
haftmann
parents: 35028
diff changeset
   409
qed
04673275441a switched notations for pointwise and multiset order
haftmann
parents: 35028
diff changeset
   410
04673275441a switched notations for pointwise and multiset order
haftmann
parents: 35028
diff changeset
   411
41069
6fabc0414055 name filter operation just filter (c.f. List.filter and list comprehension syntax)
haftmann
parents: 40968
diff changeset
   412
subsubsection {* Filter (with comprehension syntax) *}
6fabc0414055 name filter operation just filter (c.f. List.filter and list comprehension syntax)
haftmann
parents: 40968
diff changeset
   413
6fabc0414055 name filter operation just filter (c.f. List.filter and list comprehension syntax)
haftmann
parents: 40968
diff changeset
   414
text {* Multiset comprehension *}
6fabc0414055 name filter operation just filter (c.f. List.filter and list comprehension syntax)
haftmann
parents: 40968
diff changeset
   415
47429
ec64d94cbf9c multiset operations are defined with lift_definitions;
bulwahn
parents: 47308
diff changeset
   416
lift_definition filter :: "('a \<Rightarrow> bool) \<Rightarrow> 'a multiset \<Rightarrow> 'a multiset" is "\<lambda>P M. \<lambda>x. if P x then M x else 0"
ec64d94cbf9c multiset operations are defined with lift_definitions;
bulwahn
parents: 47308
diff changeset
   417
by (rule filter_preserves_multiset)
35268
04673275441a switched notations for pointwise and multiset order
haftmann
parents: 35028
diff changeset
   418
41069
6fabc0414055 name filter operation just filter (c.f. List.filter and list comprehension syntax)
haftmann
parents: 40968
diff changeset
   419
hide_const (open) filter
35268
04673275441a switched notations for pointwise and multiset order
haftmann
parents: 35028
diff changeset
   420
41069
6fabc0414055 name filter operation just filter (c.f. List.filter and list comprehension syntax)
haftmann
parents: 40968
diff changeset
   421
lemma count_filter [simp]:
6fabc0414055 name filter operation just filter (c.f. List.filter and list comprehension syntax)
haftmann
parents: 40968
diff changeset
   422
  "count (Multiset.filter P M) a = (if P a then count M a else 0)"
47429
ec64d94cbf9c multiset operations are defined with lift_definitions;
bulwahn
parents: 47308
diff changeset
   423
  by (simp add: filter.rep_eq)
41069
6fabc0414055 name filter operation just filter (c.f. List.filter and list comprehension syntax)
haftmann
parents: 40968
diff changeset
   424
6fabc0414055 name filter operation just filter (c.f. List.filter and list comprehension syntax)
haftmann
parents: 40968
diff changeset
   425
lemma filter_empty [simp]:
6fabc0414055 name filter operation just filter (c.f. List.filter and list comprehension syntax)
haftmann
parents: 40968
diff changeset
   426
  "Multiset.filter P {#} = {#}"
39302
d7728f65b353 renamed lemmas: ext_iff -> fun_eq_iff, set_ext_iff -> set_eq_iff, set_ext -> set_eqI
nipkow
parents: 39301
diff changeset
   427
  by (rule multiset_eqI) simp
35268
04673275441a switched notations for pointwise and multiset order
haftmann
parents: 35028
diff changeset
   428
41069
6fabc0414055 name filter operation just filter (c.f. List.filter and list comprehension syntax)
haftmann
parents: 40968
diff changeset
   429
lemma filter_single [simp]:
6fabc0414055 name filter operation just filter (c.f. List.filter and list comprehension syntax)
haftmann
parents: 40968
diff changeset
   430
  "Multiset.filter P {#x#} = (if P x then {#x#} else {#})"
6fabc0414055 name filter operation just filter (c.f. List.filter and list comprehension syntax)
haftmann
parents: 40968
diff changeset
   431
  by (rule multiset_eqI) simp
6fabc0414055 name filter operation just filter (c.f. List.filter and list comprehension syntax)
haftmann
parents: 40968
diff changeset
   432
6fabc0414055 name filter operation just filter (c.f. List.filter and list comprehension syntax)
haftmann
parents: 40968
diff changeset
   433
lemma filter_union [simp]:
6fabc0414055 name filter operation just filter (c.f. List.filter and list comprehension syntax)
haftmann
parents: 40968
diff changeset
   434
  "Multiset.filter P (M + N) = Multiset.filter P M + Multiset.filter P N"
39302
d7728f65b353 renamed lemmas: ext_iff -> fun_eq_iff, set_ext_iff -> set_eq_iff, set_ext -> set_eqI
nipkow
parents: 39301
diff changeset
   435
  by (rule multiset_eqI) simp
35268
04673275441a switched notations for pointwise and multiset order
haftmann
parents: 35028
diff changeset
   436
41069
6fabc0414055 name filter operation just filter (c.f. List.filter and list comprehension syntax)
haftmann
parents: 40968
diff changeset
   437
lemma filter_diff [simp]:
6fabc0414055 name filter operation just filter (c.f. List.filter and list comprehension syntax)
haftmann
parents: 40968
diff changeset
   438
  "Multiset.filter P (M - N) = Multiset.filter P M - Multiset.filter P N"
6fabc0414055 name filter operation just filter (c.f. List.filter and list comprehension syntax)
haftmann
parents: 40968
diff changeset
   439
  by (rule multiset_eqI) simp
6fabc0414055 name filter operation just filter (c.f. List.filter and list comprehension syntax)
haftmann
parents: 40968
diff changeset
   440
6fabc0414055 name filter operation just filter (c.f. List.filter and list comprehension syntax)
haftmann
parents: 40968
diff changeset
   441
lemma filter_inter [simp]:
6fabc0414055 name filter operation just filter (c.f. List.filter and list comprehension syntax)
haftmann
parents: 40968
diff changeset
   442
  "Multiset.filter P (M #\<inter> N) = Multiset.filter P M #\<inter> Multiset.filter P N"
39302
d7728f65b353 renamed lemmas: ext_iff -> fun_eq_iff, set_ext_iff -> set_eq_iff, set_ext -> set_eqI
nipkow
parents: 39301
diff changeset
   443
  by (rule multiset_eqI) simp
10249
e4d13d8a9011 Multisets (from HOL/Induct/Multiset and friends);
wenzelm
parents:
diff changeset
   444
41069
6fabc0414055 name filter operation just filter (c.f. List.filter and list comprehension syntax)
haftmann
parents: 40968
diff changeset
   445
syntax
6fabc0414055 name filter operation just filter (c.f. List.filter and list comprehension syntax)
haftmann
parents: 40968
diff changeset
   446
  "_MCollect" :: "pttrn \<Rightarrow> 'a multiset \<Rightarrow> bool \<Rightarrow> 'a multiset"    ("(1{# _ :# _./ _#})")
6fabc0414055 name filter operation just filter (c.f. List.filter and list comprehension syntax)
haftmann
parents: 40968
diff changeset
   447
syntax (xsymbol)
6fabc0414055 name filter operation just filter (c.f. List.filter and list comprehension syntax)
haftmann
parents: 40968
diff changeset
   448
  "_MCollect" :: "pttrn \<Rightarrow> 'a multiset \<Rightarrow> bool \<Rightarrow> 'a multiset"    ("(1{# _ \<in># _./ _#})")
6fabc0414055 name filter operation just filter (c.f. List.filter and list comprehension syntax)
haftmann
parents: 40968
diff changeset
   449
translations
6fabc0414055 name filter operation just filter (c.f. List.filter and list comprehension syntax)
haftmann
parents: 40968
diff changeset
   450
  "{#x \<in># M. P#}" == "CONST Multiset.filter (\<lambda>x. P) M"
6fabc0414055 name filter operation just filter (c.f. List.filter and list comprehension syntax)
haftmann
parents: 40968
diff changeset
   451
10249
e4d13d8a9011 Multisets (from HOL/Induct/Multiset and friends);
wenzelm
parents:
diff changeset
   452
e4d13d8a9011 Multisets (from HOL/Induct/Multiset and friends);
wenzelm
parents:
diff changeset
   453
subsubsection {* Set of elements *}
e4d13d8a9011 Multisets (from HOL/Induct/Multiset and friends);
wenzelm
parents:
diff changeset
   454
34943
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
   455
definition set_of :: "'a multiset => 'a set" where
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
   456
  "set_of M = {x. x :# M}"
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
   457
17161
57c69627d71a tuned some proofs;
wenzelm
parents: 15869
diff changeset
   458
lemma set_of_empty [simp]: "set_of {#} = {}"
26178
nipkow
parents: 26176
diff changeset
   459
by (simp add: set_of_def)
10249
e4d13d8a9011 Multisets (from HOL/Induct/Multiset and friends);
wenzelm
parents:
diff changeset
   460
17161
57c69627d71a tuned some proofs;
wenzelm
parents: 15869
diff changeset
   461
lemma set_of_single [simp]: "set_of {#b#} = {b}"
26178
nipkow
parents: 26176
diff changeset
   462
by (simp add: set_of_def)
10249
e4d13d8a9011 Multisets (from HOL/Induct/Multiset and friends);
wenzelm
parents:
diff changeset
   463
17161
57c69627d71a tuned some proofs;
wenzelm
parents: 15869
diff changeset
   464
lemma set_of_union [simp]: "set_of (M + N) = set_of M \<union> set_of N"
26178
nipkow
parents: 26176
diff changeset
   465
by (auto simp add: set_of_def)
10249
e4d13d8a9011 Multisets (from HOL/Induct/Multiset and friends);
wenzelm
parents:
diff changeset
   466
17161
57c69627d71a tuned some proofs;
wenzelm
parents: 15869
diff changeset
   467
lemma set_of_eq_empty_iff [simp]: "(set_of M = {}) = (M = {#})"
39302
d7728f65b353 renamed lemmas: ext_iff -> fun_eq_iff, set_ext_iff -> set_eq_iff, set_ext -> set_eqI
nipkow
parents: 39301
diff changeset
   468
by (auto simp add: set_of_def multiset_eq_iff)
10249
e4d13d8a9011 Multisets (from HOL/Induct/Multiset and friends);
wenzelm
parents:
diff changeset
   469
17161
57c69627d71a tuned some proofs;
wenzelm
parents: 15869
diff changeset
   470
lemma mem_set_of_iff [simp]: "(x \<in> set_of M) = (x :# M)"
26178
nipkow
parents: 26176
diff changeset
   471
by (auto simp add: set_of_def)
26016
f9d1bf2fc59c added multiset comprehension
nipkow
parents: 25759
diff changeset
   472
41069
6fabc0414055 name filter operation just filter (c.f. List.filter and list comprehension syntax)
haftmann
parents: 40968
diff changeset
   473
lemma set_of_filter [simp]: "set_of {# x:#M. P x #} = set_of M \<inter> {x. P x}"
26178
nipkow
parents: 26176
diff changeset
   474
by (auto simp add: set_of_def)
10249
e4d13d8a9011 Multisets (from HOL/Induct/Multiset and friends);
wenzelm
parents:
diff changeset
   475
34943
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
   476
lemma finite_set_of [iff]: "finite (set_of M)"
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
   477
  using count [of M] by (simp add: multiset_def set_of_def)
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
   478
46756
faf62905cd53 adding finiteness of intervals on integer sets; adding another finiteness theorem for multisets
bulwahn
parents: 46730
diff changeset
   479
lemma finite_Collect_mem [iff]: "finite {x. x :# M}"
faf62905cd53 adding finiteness of intervals on integer sets; adding another finiteness theorem for multisets
bulwahn
parents: 46730
diff changeset
   480
  unfolding set_of_def[symmetric] by simp
10249
e4d13d8a9011 Multisets (from HOL/Induct/Multiset and friends);
wenzelm
parents:
diff changeset
   481
e4d13d8a9011 Multisets (from HOL/Induct/Multiset and friends);
wenzelm
parents:
diff changeset
   482
subsubsection {* Size *}
e4d13d8a9011 Multisets (from HOL/Induct/Multiset and friends);
wenzelm
parents:
diff changeset
   483
34943
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
   484
instantiation multiset :: (type) size
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
   485
begin
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
   486
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
   487
definition size_def:
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
   488
  "size M = setsum (count M) (set_of M)"
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
   489
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
   490
instance ..
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
   491
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
   492
end
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
   493
28708
a1a436f09ec6 explicit check for pattern discipline before code translation
haftmann
parents: 28562
diff changeset
   494
lemma size_empty [simp]: "size {#} = 0"
26178
nipkow
parents: 26176
diff changeset
   495
by (simp add: size_def)
10249
e4d13d8a9011 Multisets (from HOL/Induct/Multiset and friends);
wenzelm
parents:
diff changeset
   496
28708
a1a436f09ec6 explicit check for pattern discipline before code translation
haftmann
parents: 28562
diff changeset
   497
lemma size_single [simp]: "size {#b#} = 1"
26178
nipkow
parents: 26176
diff changeset
   498
by (simp add: size_def)
10249
e4d13d8a9011 Multisets (from HOL/Induct/Multiset and friends);
wenzelm
parents:
diff changeset
   499
17161
57c69627d71a tuned some proofs;
wenzelm
parents: 15869
diff changeset
   500
lemma setsum_count_Int:
26178
nipkow
parents: 26176
diff changeset
   501
  "finite A ==> setsum (count N) (A \<inter> set_of N) = setsum (count N) A"
nipkow
parents: 26176
diff changeset
   502
apply (induct rule: finite_induct)
nipkow
parents: 26176
diff changeset
   503
 apply simp
nipkow
parents: 26176
diff changeset
   504
apply (simp add: Int_insert_left set_of_def)
nipkow
parents: 26176
diff changeset
   505
done
10249
e4d13d8a9011 Multisets (from HOL/Induct/Multiset and friends);
wenzelm
parents:
diff changeset
   506
28708
a1a436f09ec6 explicit check for pattern discipline before code translation
haftmann
parents: 28562
diff changeset
   507
lemma size_union [simp]: "size (M + N::'a multiset) = size M + size N"
26178
nipkow
parents: 26176
diff changeset
   508
apply (unfold size_def)
nipkow
parents: 26176
diff changeset
   509
apply (subgoal_tac "count (M + N) = (\<lambda>a. count M a + count N a)")
nipkow
parents: 26176
diff changeset
   510
 prefer 2
nipkow
parents: 26176
diff changeset
   511
 apply (rule ext, simp)
nipkow
parents: 26176
diff changeset
   512
apply (simp (no_asm_simp) add: setsum_Un_nat setsum_addf setsum_count_Int)
nipkow
parents: 26176
diff changeset
   513
apply (subst Int_commute)
nipkow
parents: 26176
diff changeset
   514
apply (simp (no_asm_simp) add: setsum_count_Int)
nipkow
parents: 26176
diff changeset
   515
done
10249
e4d13d8a9011 Multisets (from HOL/Induct/Multiset and friends);
wenzelm
parents:
diff changeset
   516
17161
57c69627d71a tuned some proofs;
wenzelm
parents: 15869
diff changeset
   517
lemma size_eq_0_iff_empty [iff]: "(size M = 0) = (M = {#})"
39302
d7728f65b353 renamed lemmas: ext_iff -> fun_eq_iff, set_ext_iff -> set_eq_iff, set_ext -> set_eqI
nipkow
parents: 39301
diff changeset
   518
by (auto simp add: size_def multiset_eq_iff)
26016
f9d1bf2fc59c added multiset comprehension
nipkow
parents: 25759
diff changeset
   519
f9d1bf2fc59c added multiset comprehension
nipkow
parents: 25759
diff changeset
   520
lemma nonempty_has_size: "(S \<noteq> {#}) = (0 < size S)"
26178
nipkow
parents: 26176
diff changeset
   521
by (metis gr0I gr_implies_not0 size_empty size_eq_0_iff_empty)
10249
e4d13d8a9011 Multisets (from HOL/Induct/Multiset and friends);
wenzelm
parents:
diff changeset
   522
17161
57c69627d71a tuned some proofs;
wenzelm
parents: 15869
diff changeset
   523
lemma size_eq_Suc_imp_elem: "size M = Suc n ==> \<exists>a. a :# M"
26178
nipkow
parents: 26176
diff changeset
   524
apply (unfold size_def)
nipkow
parents: 26176
diff changeset
   525
apply (drule setsum_SucD)
nipkow
parents: 26176
diff changeset
   526
apply auto
nipkow
parents: 26176
diff changeset
   527
done
10249
e4d13d8a9011 Multisets (from HOL/Induct/Multiset and friends);
wenzelm
parents:
diff changeset
   528
34943
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
   529
lemma size_eq_Suc_imp_eq_union:
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
   530
  assumes "size M = Suc n"
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
   531
  shows "\<exists>a N. M = N + {#a#}"
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
   532
proof -
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
   533
  from assms obtain a where "a \<in># M"
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
   534
    by (erule size_eq_Suc_imp_elem [THEN exE])
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
   535
  then have "M = M - {#a#} + {#a#}" by simp
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
   536
  then show ?thesis by blast
23611
65b168646309 more interpretations
nipkow
parents: 23373
diff changeset
   537
qed
15869
3aca7f05cd12 intersection
kleing
parents: 15867
diff changeset
   538
26016
f9d1bf2fc59c added multiset comprehension
nipkow
parents: 25759
diff changeset
   539
f9d1bf2fc59c added multiset comprehension
nipkow
parents: 25759
diff changeset
   540
subsection {* Induction and case splits *}
10249
e4d13d8a9011 Multisets (from HOL/Induct/Multiset and friends);
wenzelm
parents:
diff changeset
   541
18258
836491e9b7d5 tuned induct proofs;
wenzelm
parents: 17778
diff changeset
   542
theorem multiset_induct [case_names empty add, induct type: multiset]:
48009
9b9150033b5a shortened some proofs
huffman
parents: 48008
diff changeset
   543
  assumes empty: "P {#}"
9b9150033b5a shortened some proofs
huffman
parents: 48008
diff changeset
   544
  assumes add: "\<And>M x. P M \<Longrightarrow> P (M + {#x#})"
9b9150033b5a shortened some proofs
huffman
parents: 48008
diff changeset
   545
  shows "P M"
9b9150033b5a shortened some proofs
huffman
parents: 48008
diff changeset
   546
proof (induct n \<equiv> "size M" arbitrary: M)
9b9150033b5a shortened some proofs
huffman
parents: 48008
diff changeset
   547
  case 0 thus "P M" by (simp add: empty)
9b9150033b5a shortened some proofs
huffman
parents: 48008
diff changeset
   548
next
9b9150033b5a shortened some proofs
huffman
parents: 48008
diff changeset
   549
  case (Suc k)
9b9150033b5a shortened some proofs
huffman
parents: 48008
diff changeset
   550
  obtain N x where "M = N + {#x#}"
9b9150033b5a shortened some proofs
huffman
parents: 48008
diff changeset
   551
    using `Suc k = size M` [symmetric]
9b9150033b5a shortened some proofs
huffman
parents: 48008
diff changeset
   552
    using size_eq_Suc_imp_eq_union by fast
9b9150033b5a shortened some proofs
huffman
parents: 48008
diff changeset
   553
  with Suc add show "P M" by simp
10249
e4d13d8a9011 Multisets (from HOL/Induct/Multiset and friends);
wenzelm
parents:
diff changeset
   554
qed
e4d13d8a9011 Multisets (from HOL/Induct/Multiset and friends);
wenzelm
parents:
diff changeset
   555
25610
72e1563aee09 a fold operation for multisets + more lemmas
kleing
parents: 25595
diff changeset
   556
lemma multi_nonempty_split: "M \<noteq> {#} \<Longrightarrow> \<exists>A a. M = A + {#a#}"
26178
nipkow
parents: 26176
diff changeset
   557
by (induct M) auto
25610
72e1563aee09 a fold operation for multisets + more lemmas
kleing
parents: 25595
diff changeset
   558
72e1563aee09 a fold operation for multisets + more lemmas
kleing
parents: 25595
diff changeset
   559
lemma multiset_cases [cases type, case_names empty add]:
26178
nipkow
parents: 26176
diff changeset
   560
assumes em:  "M = {#} \<Longrightarrow> P"
nipkow
parents: 26176
diff changeset
   561
assumes add: "\<And>N x. M = N + {#x#} \<Longrightarrow> P"
nipkow
parents: 26176
diff changeset
   562
shows "P"
48009
9b9150033b5a shortened some proofs
huffman
parents: 48008
diff changeset
   563
using assms by (induct M) simp_all
25610
72e1563aee09 a fold operation for multisets + more lemmas
kleing
parents: 25595
diff changeset
   564
72e1563aee09 a fold operation for multisets + more lemmas
kleing
parents: 25595
diff changeset
   565
lemma multi_member_split: "x \<in># M \<Longrightarrow> \<exists>A. M = A + {#x#}"
48009
9b9150033b5a shortened some proofs
huffman
parents: 48008
diff changeset
   566
by (rule_tac x="M - {#x#}" in exI, simp)
25610
72e1563aee09 a fold operation for multisets + more lemmas
kleing
parents: 25595
diff changeset
   567
34943
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
   568
lemma multi_drop_mem_not_eq: "c \<in># B \<Longrightarrow> B - {#c#} \<noteq> B"
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
   569
by (cases "B = {#}") (auto dest: multi_member_split)
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
   570
26033
278025d5282d modified MCollect syntax
nipkow
parents: 26016
diff changeset
   571
lemma multiset_partition: "M = {# x:#M. P x #} + {# x:#M. \<not> P x #}"
39302
d7728f65b353 renamed lemmas: ext_iff -> fun_eq_iff, set_ext_iff -> set_eq_iff, set_ext -> set_eqI
nipkow
parents: 39301
diff changeset
   572
apply (subst multiset_eq_iff)
26178
nipkow
parents: 26176
diff changeset
   573
apply auto
nipkow
parents: 26176
diff changeset
   574
done
10249
e4d13d8a9011 Multisets (from HOL/Induct/Multiset and friends);
wenzelm
parents:
diff changeset
   575
35268
04673275441a switched notations for pointwise and multiset order
haftmann
parents: 35028
diff changeset
   576
lemma mset_less_size: "(A::'a multiset) < B \<Longrightarrow> size A < size B"
34943
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
   577
proof (induct A arbitrary: B)
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
   578
  case (empty M)
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
   579
  then have "M \<noteq> {#}" by (simp add: mset_less_empty_nonempty)
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
   580
  then obtain M' x where "M = M' + {#x#}" 
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
   581
    by (blast dest: multi_nonempty_split)
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
   582
  then show ?case by simp
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
   583
next
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
   584
  case (add S x T)
35268
04673275441a switched notations for pointwise and multiset order
haftmann
parents: 35028
diff changeset
   585
  have IH: "\<And>B. S < B \<Longrightarrow> size S < size B" by fact
04673275441a switched notations for pointwise and multiset order
haftmann
parents: 35028
diff changeset
   586
  have SxsubT: "S + {#x#} < T" by fact
04673275441a switched notations for pointwise and multiset order
haftmann
parents: 35028
diff changeset
   587
  then have "x \<in># T" and "S < T" by (auto dest: mset_less_insertD)
34943
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
   588
  then obtain T' where T: "T = T' + {#x#}" 
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
   589
    by (blast dest: multi_member_split)
35268
04673275441a switched notations for pointwise and multiset order
haftmann
parents: 35028
diff changeset
   590
  then have "S < T'" using SxsubT 
34943
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
   591
    by (blast intro: mset_less_add_bothsides)
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
   592
  then have "size S < size T'" using IH by simp
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
   593
  then show ?case using T by simp
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
   594
qed
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
   595
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
   596
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
   597
subsubsection {* Strong induction and subset induction for multisets *}
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
   598
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
   599
text {* Well-foundedness of proper subset operator: *}
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
   600
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
   601
text {* proper multiset subset *}
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
   602
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
   603
definition
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
   604
  mset_less_rel :: "('a multiset * 'a multiset) set" where
35268
04673275441a switched notations for pointwise and multiset order
haftmann
parents: 35028
diff changeset
   605
  "mset_less_rel = {(A,B). A < B}"
10249
e4d13d8a9011 Multisets (from HOL/Induct/Multiset and friends);
wenzelm
parents:
diff changeset
   606
34943
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
   607
lemma multiset_add_sub_el_shuffle: 
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
   608
  assumes "c \<in># B" and "b \<noteq> c" 
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
   609
  shows "B - {#c#} + {#b#} = B + {#b#} - {#c#}"
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
   610
proof -
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
   611
  from `c \<in># B` obtain A where B: "B = A + {#c#}" 
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
   612
    by (blast dest: multi_member_split)
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
   613
  have "A + {#b#} = A + {#b#} + {#c#} - {#c#}" by simp
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
   614
  then have "A + {#b#} = A + {#c#} + {#b#} - {#c#}" 
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
   615
    by (simp add: add_ac)
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
   616
  then show ?thesis using B by simp
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
   617
qed
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
   618
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
   619
lemma wf_mset_less_rel: "wf mset_less_rel"
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
   620
apply (unfold mset_less_rel_def)
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
   621
apply (rule wf_measure [THEN wf_subset, where f1=size])
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
   622
apply (clarsimp simp: measure_def inv_image_def mset_less_size)
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
   623
done
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
   624
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
   625
text {* The induction rules: *}
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
   626
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
   627
lemma full_multiset_induct [case_names less]:
35268
04673275441a switched notations for pointwise and multiset order
haftmann
parents: 35028
diff changeset
   628
assumes ih: "\<And>B. \<forall>(A::'a multiset). A < B \<longrightarrow> P A \<Longrightarrow> P B"
34943
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
   629
shows "P B"
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
   630
apply (rule wf_mset_less_rel [THEN wf_induct])
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
   631
apply (rule ih, auto simp: mset_less_rel_def)
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
   632
done
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
   633
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
   634
lemma multi_subset_induct [consumes 2, case_names empty add]:
35268
04673275441a switched notations for pointwise and multiset order
haftmann
parents: 35028
diff changeset
   635
assumes "F \<le> A"
34943
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
   636
  and empty: "P {#}"
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
   637
  and insert: "\<And>a F. a \<in># A \<Longrightarrow> P F \<Longrightarrow> P (F + {#a#})"
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
   638
shows "P F"
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
   639
proof -
35268
04673275441a switched notations for pointwise and multiset order
haftmann
parents: 35028
diff changeset
   640
  from `F \<le> A`
34943
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
   641
  show ?thesis
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
   642
  proof (induct F)
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
   643
    show "P {#}" by fact
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
   644
  next
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
   645
    fix x F
35268
04673275441a switched notations for pointwise and multiset order
haftmann
parents: 35028
diff changeset
   646
    assume P: "F \<le> A \<Longrightarrow> P F" and i: "F + {#x#} \<le> A"
34943
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
   647
    show "P (F + {#x#})"
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
   648
    proof (rule insert)
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
   649
      from i show "x \<in># A" by (auto dest: mset_le_insertD)
35268
04673275441a switched notations for pointwise and multiset order
haftmann
parents: 35028
diff changeset
   650
      from i have "F \<le> A" by (auto dest: mset_le_insertD)
34943
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
   651
      with P show "P F" .
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
   652
    qed
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
   653
  qed
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
   654
qed
26145
95670b6e1fa3 tuned document;
wenzelm
parents: 26143
diff changeset
   655
17161
57c69627d71a tuned some proofs;
wenzelm
parents: 15869
diff changeset
   656
48023
6dfe5e774012 reordered sections
huffman
parents: 48012
diff changeset
   657
subsection {* The fold combinator *}
6dfe5e774012 reordered sections
huffman
parents: 48012
diff changeset
   658
6dfe5e774012 reordered sections
huffman
parents: 48012
diff changeset
   659
text {*
6dfe5e774012 reordered sections
huffman
parents: 48012
diff changeset
   660
  The intended behaviour is
6dfe5e774012 reordered sections
huffman
parents: 48012
diff changeset
   661
  @{text "fold_mset f z {#x\<^isub>1, ..., x\<^isub>n#} = f x\<^isub>1 (\<dots> (f x\<^isub>n z)\<dots>)"}
6dfe5e774012 reordered sections
huffman
parents: 48012
diff changeset
   662
  if @{text f} is associative-commutative. 
6dfe5e774012 reordered sections
huffman
parents: 48012
diff changeset
   663
*}
6dfe5e774012 reordered sections
huffman
parents: 48012
diff changeset
   664
6dfe5e774012 reordered sections
huffman
parents: 48012
diff changeset
   665
text {*
6dfe5e774012 reordered sections
huffman
parents: 48012
diff changeset
   666
  The graph of @{text "fold_mset"}, @{text "z"}: the start element,
6dfe5e774012 reordered sections
huffman
parents: 48012
diff changeset
   667
  @{text "f"}: folding function, @{text "A"}: the multiset, @{text
6dfe5e774012 reordered sections
huffman
parents: 48012
diff changeset
   668
  "y"}: the result.
6dfe5e774012 reordered sections
huffman
parents: 48012
diff changeset
   669
*}
6dfe5e774012 reordered sections
huffman
parents: 48012
diff changeset
   670
inductive 
6dfe5e774012 reordered sections
huffman
parents: 48012
diff changeset
   671
  fold_msetG :: "('a \<Rightarrow> 'b \<Rightarrow> 'b) \<Rightarrow> 'b \<Rightarrow> 'a multiset \<Rightarrow> 'b \<Rightarrow> bool" 
6dfe5e774012 reordered sections
huffman
parents: 48012
diff changeset
   672
  for f :: "'a \<Rightarrow> 'b \<Rightarrow> 'b" 
6dfe5e774012 reordered sections
huffman
parents: 48012
diff changeset
   673
  and z :: 'b
6dfe5e774012 reordered sections
huffman
parents: 48012
diff changeset
   674
where
6dfe5e774012 reordered sections
huffman
parents: 48012
diff changeset
   675
  emptyI [intro]:  "fold_msetG f z {#} z"
6dfe5e774012 reordered sections
huffman
parents: 48012
diff changeset
   676
| insertI [intro]: "fold_msetG f z A y \<Longrightarrow> fold_msetG f z (A + {#x#}) (f x y)"
6dfe5e774012 reordered sections
huffman
parents: 48012
diff changeset
   677
6dfe5e774012 reordered sections
huffman
parents: 48012
diff changeset
   678
inductive_cases empty_fold_msetGE [elim!]: "fold_msetG f z {#} x"
6dfe5e774012 reordered sections
huffman
parents: 48012
diff changeset
   679
inductive_cases insert_fold_msetGE: "fold_msetG f z (A + {#}) y" 
6dfe5e774012 reordered sections
huffman
parents: 48012
diff changeset
   680
6dfe5e774012 reordered sections
huffman
parents: 48012
diff changeset
   681
definition
6dfe5e774012 reordered sections
huffman
parents: 48012
diff changeset
   682
  fold_mset :: "('a \<Rightarrow> 'b \<Rightarrow> 'b) \<Rightarrow> 'b \<Rightarrow> 'a multiset \<Rightarrow> 'b" where
6dfe5e774012 reordered sections
huffman
parents: 48012
diff changeset
   683
  "fold_mset f z A = (THE x. fold_msetG f z A x)"
6dfe5e774012 reordered sections
huffman
parents: 48012
diff changeset
   684
6dfe5e774012 reordered sections
huffman
parents: 48012
diff changeset
   685
lemma Diff1_fold_msetG:
6dfe5e774012 reordered sections
huffman
parents: 48012
diff changeset
   686
  "fold_msetG f z (A - {#x#}) y \<Longrightarrow> x \<in># A \<Longrightarrow> fold_msetG f z A (f x y)"
6dfe5e774012 reordered sections
huffman
parents: 48012
diff changeset
   687
apply (frule_tac x = x in fold_msetG.insertI)
6dfe5e774012 reordered sections
huffman
parents: 48012
diff changeset
   688
apply auto
6dfe5e774012 reordered sections
huffman
parents: 48012
diff changeset
   689
done
6dfe5e774012 reordered sections
huffman
parents: 48012
diff changeset
   690
6dfe5e774012 reordered sections
huffman
parents: 48012
diff changeset
   691
lemma fold_msetG_nonempty: "\<exists>x. fold_msetG f z A x"
6dfe5e774012 reordered sections
huffman
parents: 48012
diff changeset
   692
apply (induct A)
6dfe5e774012 reordered sections
huffman
parents: 48012
diff changeset
   693
 apply blast
6dfe5e774012 reordered sections
huffman
parents: 48012
diff changeset
   694
apply clarsimp
6dfe5e774012 reordered sections
huffman
parents: 48012
diff changeset
   695
apply (drule_tac x = x in fold_msetG.insertI)
6dfe5e774012 reordered sections
huffman
parents: 48012
diff changeset
   696
apply auto
6dfe5e774012 reordered sections
huffman
parents: 48012
diff changeset
   697
done
6dfe5e774012 reordered sections
huffman
parents: 48012
diff changeset
   698
6dfe5e774012 reordered sections
huffman
parents: 48012
diff changeset
   699
lemma fold_mset_empty[simp]: "fold_mset f z {#} = z"
6dfe5e774012 reordered sections
huffman
parents: 48012
diff changeset
   700
unfolding fold_mset_def by blast
6dfe5e774012 reordered sections
huffman
parents: 48012
diff changeset
   701
6dfe5e774012 reordered sections
huffman
parents: 48012
diff changeset
   702
context comp_fun_commute
6dfe5e774012 reordered sections
huffman
parents: 48012
diff changeset
   703
begin
6dfe5e774012 reordered sections
huffman
parents: 48012
diff changeset
   704
6dfe5e774012 reordered sections
huffman
parents: 48012
diff changeset
   705
lemma fold_msetG_insertE_aux:
6dfe5e774012 reordered sections
huffman
parents: 48012
diff changeset
   706
  "fold_msetG f z A y \<Longrightarrow> a \<in># A \<Longrightarrow> \<exists>y'. y = f a y' \<and> fold_msetG f z (A - {#a#}) y'"
6dfe5e774012 reordered sections
huffman
parents: 48012
diff changeset
   707
proof (induct set: fold_msetG)
6dfe5e774012 reordered sections
huffman
parents: 48012
diff changeset
   708
  case (insertI A y x) show ?case
6dfe5e774012 reordered sections
huffman
parents: 48012
diff changeset
   709
  proof (cases "x = a")
6dfe5e774012 reordered sections
huffman
parents: 48012
diff changeset
   710
    assume "x = a" with insertI show ?case by auto
6dfe5e774012 reordered sections
huffman
parents: 48012
diff changeset
   711
  next
6dfe5e774012 reordered sections
huffman
parents: 48012
diff changeset
   712
    assume "x \<noteq> a"
6dfe5e774012 reordered sections
huffman
parents: 48012
diff changeset
   713
    then obtain y' where y: "y = f a y'" and y': "fold_msetG f z (A - {#a#}) y'"
6dfe5e774012 reordered sections
huffman
parents: 48012
diff changeset
   714
      using insertI by auto
6dfe5e774012 reordered sections
huffman
parents: 48012
diff changeset
   715
    have "f x y = f a (f x y')"
6dfe5e774012 reordered sections
huffman
parents: 48012
diff changeset
   716
      unfolding y by (rule fun_left_comm)
6dfe5e774012 reordered sections
huffman
parents: 48012
diff changeset
   717
    moreover have "fold_msetG f z (A + {#x#} - {#a#}) (f x y')"
6dfe5e774012 reordered sections
huffman
parents: 48012
diff changeset
   718
      using y' and `x \<noteq> a`
6dfe5e774012 reordered sections
huffman
parents: 48012
diff changeset
   719
      by (simp add: diff_union_swap [symmetric] fold_msetG.insertI)
6dfe5e774012 reordered sections
huffman
parents: 48012
diff changeset
   720
    ultimately show ?case by fast
6dfe5e774012 reordered sections
huffman
parents: 48012
diff changeset
   721
  qed
6dfe5e774012 reordered sections
huffman
parents: 48012
diff changeset
   722
qed simp
6dfe5e774012 reordered sections
huffman
parents: 48012
diff changeset
   723
6dfe5e774012 reordered sections
huffman
parents: 48012
diff changeset
   724
lemma fold_msetG_insertE:
6dfe5e774012 reordered sections
huffman
parents: 48012
diff changeset
   725
  assumes "fold_msetG f z (A + {#x#}) v"
6dfe5e774012 reordered sections
huffman
parents: 48012
diff changeset
   726
  obtains y where "v = f x y" and "fold_msetG f z A y"
6dfe5e774012 reordered sections
huffman
parents: 48012
diff changeset
   727
using assms by (auto dest: fold_msetG_insertE_aux [where a=x])
6dfe5e774012 reordered sections
huffman
parents: 48012
diff changeset
   728
6dfe5e774012 reordered sections
huffman
parents: 48012
diff changeset
   729
lemma fold_msetG_determ:
6dfe5e774012 reordered sections
huffman
parents: 48012
diff changeset
   730
  "fold_msetG f z A x \<Longrightarrow> fold_msetG f z A y \<Longrightarrow> y = x"
6dfe5e774012 reordered sections
huffman
parents: 48012
diff changeset
   731
proof (induct arbitrary: y set: fold_msetG)
6dfe5e774012 reordered sections
huffman
parents: 48012
diff changeset
   732
  case (insertI A y x v)
6dfe5e774012 reordered sections
huffman
parents: 48012
diff changeset
   733
  from `fold_msetG f z (A + {#x#}) v`
6dfe5e774012 reordered sections
huffman
parents: 48012
diff changeset
   734
  obtain y' where "v = f x y'" and "fold_msetG f z A y'"
6dfe5e774012 reordered sections
huffman
parents: 48012
diff changeset
   735
    by (rule fold_msetG_insertE)
6dfe5e774012 reordered sections
huffman
parents: 48012
diff changeset
   736
  from `fold_msetG f z A y'` have "y' = y" by (rule insertI)
6dfe5e774012 reordered sections
huffman
parents: 48012
diff changeset
   737
  with `v = f x y'` show "v = f x y" by simp
6dfe5e774012 reordered sections
huffman
parents: 48012
diff changeset
   738
qed fast
6dfe5e774012 reordered sections
huffman
parents: 48012
diff changeset
   739
6dfe5e774012 reordered sections
huffman
parents: 48012
diff changeset
   740
lemma fold_mset_equality: "fold_msetG f z A y \<Longrightarrow> fold_mset f z A = y"
6dfe5e774012 reordered sections
huffman
parents: 48012
diff changeset
   741
unfolding fold_mset_def by (blast intro: fold_msetG_determ)
6dfe5e774012 reordered sections
huffman
parents: 48012
diff changeset
   742
6dfe5e774012 reordered sections
huffman
parents: 48012
diff changeset
   743
lemma fold_msetG_fold_mset: "fold_msetG f z A (fold_mset f z A)"
6dfe5e774012 reordered sections
huffman
parents: 48012
diff changeset
   744
proof -
6dfe5e774012 reordered sections
huffman
parents: 48012
diff changeset
   745
  from fold_msetG_nonempty fold_msetG_determ
6dfe5e774012 reordered sections
huffman
parents: 48012
diff changeset
   746
  have "\<exists>!x. fold_msetG f z A x" by (rule ex_ex1I)
6dfe5e774012 reordered sections
huffman
parents: 48012
diff changeset
   747
  then show ?thesis unfolding fold_mset_def by (rule theI')
6dfe5e774012 reordered sections
huffman
parents: 48012
diff changeset
   748
qed
6dfe5e774012 reordered sections
huffman
parents: 48012
diff changeset
   749
6dfe5e774012 reordered sections
huffman
parents: 48012
diff changeset
   750
lemma fold_mset_insert:
6dfe5e774012 reordered sections
huffman
parents: 48012
diff changeset
   751
  "fold_mset f z (A + {#x#}) = f x (fold_mset f z A)"
6dfe5e774012 reordered sections
huffman
parents: 48012
diff changeset
   752
by (intro fold_mset_equality fold_msetG.insertI fold_msetG_fold_mset)
6dfe5e774012 reordered sections
huffman
parents: 48012
diff changeset
   753
6dfe5e774012 reordered sections
huffman
parents: 48012
diff changeset
   754
lemma fold_mset_commute: "f x (fold_mset f z A) = fold_mset f (f x z) A"
6dfe5e774012 reordered sections
huffman
parents: 48012
diff changeset
   755
by (induct A) (auto simp: fold_mset_insert fun_left_comm [of x])
6dfe5e774012 reordered sections
huffman
parents: 48012
diff changeset
   756
6dfe5e774012 reordered sections
huffman
parents: 48012
diff changeset
   757
lemma fold_mset_single [simp]: "fold_mset f z {#x#} = f x z"
6dfe5e774012 reordered sections
huffman
parents: 48012
diff changeset
   758
using fold_mset_insert [of z "{#}"] by simp
6dfe5e774012 reordered sections
huffman
parents: 48012
diff changeset
   759
6dfe5e774012 reordered sections
huffman
parents: 48012
diff changeset
   760
lemma fold_mset_union [simp]:
6dfe5e774012 reordered sections
huffman
parents: 48012
diff changeset
   761
  "fold_mset f z (A+B) = fold_mset f (fold_mset f z A) B"
6dfe5e774012 reordered sections
huffman
parents: 48012
diff changeset
   762
proof (induct A)
6dfe5e774012 reordered sections
huffman
parents: 48012
diff changeset
   763
  case empty then show ?case by simp
6dfe5e774012 reordered sections
huffman
parents: 48012
diff changeset
   764
next
6dfe5e774012 reordered sections
huffman
parents: 48012
diff changeset
   765
  case (add A x)
6dfe5e774012 reordered sections
huffman
parents: 48012
diff changeset
   766
  have "A + {#x#} + B = (A+B) + {#x#}" by (simp add: add_ac)
6dfe5e774012 reordered sections
huffman
parents: 48012
diff changeset
   767
  then have "fold_mset f z (A + {#x#} + B) = f x (fold_mset f z (A + B))" 
6dfe5e774012 reordered sections
huffman
parents: 48012
diff changeset
   768
    by (simp add: fold_mset_insert)
6dfe5e774012 reordered sections
huffman
parents: 48012
diff changeset
   769
  also have "\<dots> = fold_mset f (fold_mset f z (A + {#x#})) B"
6dfe5e774012 reordered sections
huffman
parents: 48012
diff changeset
   770
    by (simp add: fold_mset_commute[of x,symmetric] add fold_mset_insert)
6dfe5e774012 reordered sections
huffman
parents: 48012
diff changeset
   771
  finally show ?case .
6dfe5e774012 reordered sections
huffman
parents: 48012
diff changeset
   772
qed
6dfe5e774012 reordered sections
huffman
parents: 48012
diff changeset
   773
6dfe5e774012 reordered sections
huffman
parents: 48012
diff changeset
   774
lemma fold_mset_fusion:
6dfe5e774012 reordered sections
huffman
parents: 48012
diff changeset
   775
  assumes "comp_fun_commute g"
6dfe5e774012 reordered sections
huffman
parents: 48012
diff changeset
   776
  shows "(\<And>x y. h (g x y) = f x (h y)) \<Longrightarrow> h (fold_mset g w A) = fold_mset f (h w) A" (is "PROP ?P")
6dfe5e774012 reordered sections
huffman
parents: 48012
diff changeset
   777
proof -
6dfe5e774012 reordered sections
huffman
parents: 48012
diff changeset
   778
  interpret comp_fun_commute g by (fact assms)
6dfe5e774012 reordered sections
huffman
parents: 48012
diff changeset
   779
  show "PROP ?P" by (induct A) auto
6dfe5e774012 reordered sections
huffman
parents: 48012
diff changeset
   780
qed
6dfe5e774012 reordered sections
huffman
parents: 48012
diff changeset
   781
6dfe5e774012 reordered sections
huffman
parents: 48012
diff changeset
   782
lemma fold_mset_rec:
6dfe5e774012 reordered sections
huffman
parents: 48012
diff changeset
   783
  assumes "a \<in># A" 
6dfe5e774012 reordered sections
huffman
parents: 48012
diff changeset
   784
  shows "fold_mset f z A = f a (fold_mset f z (A - {#a#}))"
6dfe5e774012 reordered sections
huffman
parents: 48012
diff changeset
   785
proof -
6dfe5e774012 reordered sections
huffman
parents: 48012
diff changeset
   786
  from assms obtain A' where "A = A' + {#a#}"
6dfe5e774012 reordered sections
huffman
parents: 48012
diff changeset
   787
    by (blast dest: multi_member_split)
6dfe5e774012 reordered sections
huffman
parents: 48012
diff changeset
   788
  then show ?thesis by simp
6dfe5e774012 reordered sections
huffman
parents: 48012
diff changeset
   789
qed
6dfe5e774012 reordered sections
huffman
parents: 48012
diff changeset
   790
6dfe5e774012 reordered sections
huffman
parents: 48012
diff changeset
   791
end
6dfe5e774012 reordered sections
huffman
parents: 48012
diff changeset
   792
6dfe5e774012 reordered sections
huffman
parents: 48012
diff changeset
   793
text {*
6dfe5e774012 reordered sections
huffman
parents: 48012
diff changeset
   794
  A note on code generation: When defining some function containing a
6dfe5e774012 reordered sections
huffman
parents: 48012
diff changeset
   795
  subterm @{term"fold_mset F"}, code generation is not automatic. When
6dfe5e774012 reordered sections
huffman
parents: 48012
diff changeset
   796
  interpreting locale @{text left_commutative} with @{text F}, the
6dfe5e774012 reordered sections
huffman
parents: 48012
diff changeset
   797
  would be code thms for @{const fold_mset} become thms like
6dfe5e774012 reordered sections
huffman
parents: 48012
diff changeset
   798
  @{term"fold_mset F z {#} = z"} where @{text F} is not a pattern but
6dfe5e774012 reordered sections
huffman
parents: 48012
diff changeset
   799
  contains defined symbols, i.e.\ is not a code thm. Hence a separate
6dfe5e774012 reordered sections
huffman
parents: 48012
diff changeset
   800
  constant with its own code thms needs to be introduced for @{text
6dfe5e774012 reordered sections
huffman
parents: 48012
diff changeset
   801
  F}. See the image operator below.
6dfe5e774012 reordered sections
huffman
parents: 48012
diff changeset
   802
*}
6dfe5e774012 reordered sections
huffman
parents: 48012
diff changeset
   803
6dfe5e774012 reordered sections
huffman
parents: 48012
diff changeset
   804
6dfe5e774012 reordered sections
huffman
parents: 48012
diff changeset
   805
subsection {* Image *}
6dfe5e774012 reordered sections
huffman
parents: 48012
diff changeset
   806
6dfe5e774012 reordered sections
huffman
parents: 48012
diff changeset
   807
definition image_mset :: "('a \<Rightarrow> 'b) \<Rightarrow> 'a multiset \<Rightarrow> 'b multiset" where
6dfe5e774012 reordered sections
huffman
parents: 48012
diff changeset
   808
  "image_mset f = fold_mset (op + o single o f) {#}"
6dfe5e774012 reordered sections
huffman
parents: 48012
diff changeset
   809
6dfe5e774012 reordered sections
huffman
parents: 48012
diff changeset
   810
interpretation image_fun_commute: comp_fun_commute "op + o single o f" for f
6dfe5e774012 reordered sections
huffman
parents: 48012
diff changeset
   811
proof qed (simp add: add_ac fun_eq_iff)
6dfe5e774012 reordered sections
huffman
parents: 48012
diff changeset
   812
6dfe5e774012 reordered sections
huffman
parents: 48012
diff changeset
   813
lemma image_mset_empty [simp]: "image_mset f {#} = {#}"
6dfe5e774012 reordered sections
huffman
parents: 48012
diff changeset
   814
by (simp add: image_mset_def)
6dfe5e774012 reordered sections
huffman
parents: 48012
diff changeset
   815
6dfe5e774012 reordered sections
huffman
parents: 48012
diff changeset
   816
lemma image_mset_single [simp]: "image_mset f {#x#} = {#f x#}"
6dfe5e774012 reordered sections
huffman
parents: 48012
diff changeset
   817
by (simp add: image_mset_def)
6dfe5e774012 reordered sections
huffman
parents: 48012
diff changeset
   818
6dfe5e774012 reordered sections
huffman
parents: 48012
diff changeset
   819
lemma image_mset_insert:
6dfe5e774012 reordered sections
huffman
parents: 48012
diff changeset
   820
  "image_mset f (M + {#a#}) = image_mset f M + {#f a#}"
6dfe5e774012 reordered sections
huffman
parents: 48012
diff changeset
   821
by (simp add: image_mset_def add_ac)
6dfe5e774012 reordered sections
huffman
parents: 48012
diff changeset
   822
6dfe5e774012 reordered sections
huffman
parents: 48012
diff changeset
   823
lemma image_mset_union [simp]:
6dfe5e774012 reordered sections
huffman
parents: 48012
diff changeset
   824
  "image_mset f (M+N) = image_mset f M + image_mset f N"
6dfe5e774012 reordered sections
huffman
parents: 48012
diff changeset
   825
apply (induct N)
6dfe5e774012 reordered sections
huffman
parents: 48012
diff changeset
   826
 apply simp
6dfe5e774012 reordered sections
huffman
parents: 48012
diff changeset
   827
apply (simp add: add_assoc [symmetric] image_mset_insert)
6dfe5e774012 reordered sections
huffman
parents: 48012
diff changeset
   828
done
6dfe5e774012 reordered sections
huffman
parents: 48012
diff changeset
   829
48040
4caf6cd063be add lemma set_of_image_mset
huffman
parents: 48023
diff changeset
   830
lemma set_of_image_mset [simp]: "set_of (image_mset f M) = image f (set_of M)"
4caf6cd063be add lemma set_of_image_mset
huffman
parents: 48023
diff changeset
   831
by (induct M) simp_all
4caf6cd063be add lemma set_of_image_mset
huffman
parents: 48023
diff changeset
   832
48023
6dfe5e774012 reordered sections
huffman
parents: 48012
diff changeset
   833
lemma size_image_mset [simp]: "size (image_mset f M) = size M"
6dfe5e774012 reordered sections
huffman
parents: 48012
diff changeset
   834
by (induct M) simp_all
6dfe5e774012 reordered sections
huffman
parents: 48012
diff changeset
   835
6dfe5e774012 reordered sections
huffman
parents: 48012
diff changeset
   836
lemma image_mset_is_empty_iff [simp]: "image_mset f M = {#} \<longleftrightarrow> M = {#}"
6dfe5e774012 reordered sections
huffman
parents: 48012
diff changeset
   837
by (cases M) auto
6dfe5e774012 reordered sections
huffman
parents: 48012
diff changeset
   838
6dfe5e774012 reordered sections
huffman
parents: 48012
diff changeset
   839
syntax
6dfe5e774012 reordered sections
huffman
parents: 48012
diff changeset
   840
  "_comprehension1_mset" :: "'a \<Rightarrow> 'b \<Rightarrow> 'b multiset \<Rightarrow> 'a multiset"
6dfe5e774012 reordered sections
huffman
parents: 48012
diff changeset
   841
      ("({#_/. _ :# _#})")
6dfe5e774012 reordered sections
huffman
parents: 48012
diff changeset
   842
translations
6dfe5e774012 reordered sections
huffman
parents: 48012
diff changeset
   843
  "{#e. x:#M#}" == "CONST image_mset (%x. e) M"
6dfe5e774012 reordered sections
huffman
parents: 48012
diff changeset
   844
6dfe5e774012 reordered sections
huffman
parents: 48012
diff changeset
   845
syntax
6dfe5e774012 reordered sections
huffman
parents: 48012
diff changeset
   846
  "_comprehension2_mset" :: "'a \<Rightarrow> 'b \<Rightarrow> 'b multiset \<Rightarrow> bool \<Rightarrow> 'a multiset"
6dfe5e774012 reordered sections
huffman
parents: 48012
diff changeset
   847
      ("({#_/ | _ :# _./ _#})")
6dfe5e774012 reordered sections
huffman
parents: 48012
diff changeset
   848
translations
6dfe5e774012 reordered sections
huffman
parents: 48012
diff changeset
   849
  "{#e | x:#M. P#}" => "{#e. x :# {# x:#M. P#}#}"
6dfe5e774012 reordered sections
huffman
parents: 48012
diff changeset
   850
6dfe5e774012 reordered sections
huffman
parents: 48012
diff changeset
   851
text {*
6dfe5e774012 reordered sections
huffman
parents: 48012
diff changeset
   852
  This allows to write not just filters like @{term "{#x:#M. x<c#}"}
6dfe5e774012 reordered sections
huffman
parents: 48012
diff changeset
   853
  but also images like @{term "{#x+x. x:#M #}"} and @{term [source]
6dfe5e774012 reordered sections
huffman
parents: 48012
diff changeset
   854
  "{#x+x|x:#M. x<c#}"}, where the latter is currently displayed as
6dfe5e774012 reordered sections
huffman
parents: 48012
diff changeset
   855
  @{term "{#x+x|x:#M. x<c#}"}.
6dfe5e774012 reordered sections
huffman
parents: 48012
diff changeset
   856
*}
6dfe5e774012 reordered sections
huffman
parents: 48012
diff changeset
   857
6dfe5e774012 reordered sections
huffman
parents: 48012
diff changeset
   858
enriched_type image_mset: image_mset
6dfe5e774012 reordered sections
huffman
parents: 48012
diff changeset
   859
proof -
6dfe5e774012 reordered sections
huffman
parents: 48012
diff changeset
   860
  fix f g show "image_mset f \<circ> image_mset g = image_mset (f \<circ> g)"
6dfe5e774012 reordered sections
huffman
parents: 48012
diff changeset
   861
  proof
6dfe5e774012 reordered sections
huffman
parents: 48012
diff changeset
   862
    fix A
6dfe5e774012 reordered sections
huffman
parents: 48012
diff changeset
   863
    show "(image_mset f \<circ> image_mset g) A = image_mset (f \<circ> g) A"
6dfe5e774012 reordered sections
huffman
parents: 48012
diff changeset
   864
      by (induct A) simp_all
6dfe5e774012 reordered sections
huffman
parents: 48012
diff changeset
   865
  qed
6dfe5e774012 reordered sections
huffman
parents: 48012
diff changeset
   866
  show "image_mset id = id"
6dfe5e774012 reordered sections
huffman
parents: 48012
diff changeset
   867
  proof
6dfe5e774012 reordered sections
huffman
parents: 48012
diff changeset
   868
    fix A
6dfe5e774012 reordered sections
huffman
parents: 48012
diff changeset
   869
    show "image_mset id A = id A"
6dfe5e774012 reordered sections
huffman
parents: 48012
diff changeset
   870
      by (induct A) simp_all
6dfe5e774012 reordered sections
huffman
parents: 48012
diff changeset
   871
  qed
6dfe5e774012 reordered sections
huffman
parents: 48012
diff changeset
   872
qed
6dfe5e774012 reordered sections
huffman
parents: 48012
diff changeset
   873
6dfe5e774012 reordered sections
huffman
parents: 48012
diff changeset
   874
34943
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
   875
subsection {* Alternative representations *}
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
   876
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
   877
subsubsection {* Lists *}
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
   878
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
   879
primrec multiset_of :: "'a list \<Rightarrow> 'a multiset" where
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
   880
  "multiset_of [] = {#}" |
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
   881
  "multiset_of (a # x) = multiset_of x + {# a #}"
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
   882
37107
1535aa1c943a more lemmas
haftmann
parents: 37074
diff changeset
   883
lemma in_multiset_in_set:
1535aa1c943a more lemmas
haftmann
parents: 37074
diff changeset
   884
  "x \<in># multiset_of xs \<longleftrightarrow> x \<in> set xs"
1535aa1c943a more lemmas
haftmann
parents: 37074
diff changeset
   885
  by (induct xs) simp_all
1535aa1c943a more lemmas
haftmann
parents: 37074
diff changeset
   886
1535aa1c943a more lemmas
haftmann
parents: 37074
diff changeset
   887
lemma count_multiset_of:
1535aa1c943a more lemmas
haftmann
parents: 37074
diff changeset
   888
  "count (multiset_of xs) x = length (filter (\<lambda>y. x = y) xs)"
1535aa1c943a more lemmas
haftmann
parents: 37074
diff changeset
   889
  by (induct xs) simp_all
1535aa1c943a more lemmas
haftmann
parents: 37074
diff changeset
   890
34943
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
   891
lemma multiset_of_zero_iff[simp]: "(multiset_of x = {#}) = (x = [])"
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
   892
by (induct x) auto
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
   893
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
   894
lemma multiset_of_zero_iff_right[simp]: "({#} = multiset_of x) = (x = [])"
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
   895
by (induct x) auto
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
   896
40950
a370b0fb6f09 lemma multiset_of_rev
haftmann
parents: 40606
diff changeset
   897
lemma set_of_multiset_of[simp]: "set_of (multiset_of x) = set x"
34943
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
   898
by (induct x) auto
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
   899
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
   900
lemma mem_set_multiset_eq: "x \<in> set xs = (x :# multiset_of xs)"
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
   901
by (induct xs) auto
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
   902
48012
b6e5e86a7303 shortened yet more multiset proofs;
huffman
parents: 48011
diff changeset
   903
lemma size_multiset_of [simp]: "size (multiset_of xs) = length xs"
b6e5e86a7303 shortened yet more multiset proofs;
huffman
parents: 48011
diff changeset
   904
  by (induct xs) simp_all
b6e5e86a7303 shortened yet more multiset proofs;
huffman
parents: 48011
diff changeset
   905
34943
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
   906
lemma multiset_of_append [simp]:
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
   907
  "multiset_of (xs @ ys) = multiset_of xs + multiset_of ys"
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
   908
  by (induct xs arbitrary: ys) (auto simp: add_ac)
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
   909
40303
2d507370e879 lemmas multiset_of_filter, sort_key_by_quicksort
haftmann
parents: 40250
diff changeset
   910
lemma multiset_of_filter:
2d507370e879 lemmas multiset_of_filter, sort_key_by_quicksort
haftmann
parents: 40250
diff changeset
   911
  "multiset_of (filter P xs) = {#x :# multiset_of xs. P x #}"
2d507370e879 lemmas multiset_of_filter, sort_key_by_quicksort
haftmann
parents: 40250
diff changeset
   912
  by (induct xs) simp_all
2d507370e879 lemmas multiset_of_filter, sort_key_by_quicksort
haftmann
parents: 40250
diff changeset
   913
40950
a370b0fb6f09 lemma multiset_of_rev
haftmann
parents: 40606
diff changeset
   914
lemma multiset_of_rev [simp]:
a370b0fb6f09 lemma multiset_of_rev
haftmann
parents: 40606
diff changeset
   915
  "multiset_of (rev xs) = multiset_of xs"
a370b0fb6f09 lemma multiset_of_rev
haftmann
parents: 40606
diff changeset
   916
  by (induct xs) simp_all
a370b0fb6f09 lemma multiset_of_rev
haftmann
parents: 40606
diff changeset
   917
34943
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
   918
lemma surj_multiset_of: "surj multiset_of"
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
   919
apply (unfold surj_def)
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
   920
apply (rule allI)
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
   921
apply (rule_tac M = y in multiset_induct)
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
   922
 apply auto
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
   923
apply (rule_tac x = "x # xa" in exI)
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
   924
apply auto
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
   925
done
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
   926
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
   927
lemma set_count_greater_0: "set x = {a. count (multiset_of x) a > 0}"
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
   928
by (induct x) auto
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
   929
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
   930
lemma distinct_count_atmost_1:
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
   931
  "distinct x = (! a. count (multiset_of x) a = (if a \<in> set x then 1 else 0))"
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
   932
apply (induct x, simp, rule iffI, simp_all)
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
   933
apply (rule conjI)
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
   934
apply (simp_all add: set_of_multiset_of [THEN sym] del: set_of_multiset_of)
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
   935
apply (erule_tac x = a in allE, simp, clarify)
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
   936
apply (erule_tac x = aa in allE, simp)
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
   937
done
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
   938
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
   939
lemma multiset_of_eq_setD:
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
   940
  "multiset_of xs = multiset_of ys \<Longrightarrow> set xs = set ys"
39302
d7728f65b353 renamed lemmas: ext_iff -> fun_eq_iff, set_ext_iff -> set_eq_iff, set_ext -> set_eqI
nipkow
parents: 39301
diff changeset
   941
by (rule) (auto simp add:multiset_eq_iff set_count_greater_0)
34943
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
   942
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
   943
lemma set_eq_iff_multiset_of_eq_distinct:
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
   944
  "distinct x \<Longrightarrow> distinct y \<Longrightarrow>
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
   945
    (set x = set y) = (multiset_of x = multiset_of y)"
39302
d7728f65b353 renamed lemmas: ext_iff -> fun_eq_iff, set_ext_iff -> set_eq_iff, set_ext -> set_eqI
nipkow
parents: 39301
diff changeset
   946
by (auto simp: multiset_eq_iff distinct_count_atmost_1)
34943
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
   947
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
   948
lemma set_eq_iff_multiset_of_remdups_eq:
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
   949
   "(set x = set y) = (multiset_of (remdups x) = multiset_of (remdups y))"
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
   950
apply (rule iffI)
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
   951
apply (simp add: set_eq_iff_multiset_of_eq_distinct[THEN iffD1])
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
   952
apply (drule distinct_remdups [THEN distinct_remdups
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
   953
      [THEN set_eq_iff_multiset_of_eq_distinct [THEN iffD2]]])
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
   954
apply simp
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
   955
done
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
   956
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
   957
lemma multiset_of_compl_union [simp]:
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
   958
  "multiset_of [x\<leftarrow>xs. P x] + multiset_of [x\<leftarrow>xs. \<not>P x] = multiset_of xs"
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
   959
  by (induct xs) (auto simp: add_ac)
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
   960
41069
6fabc0414055 name filter operation just filter (c.f. List.filter and list comprehension syntax)
haftmann
parents: 40968
diff changeset
   961
lemma count_multiset_of_length_filter:
39533
91a0ff0ff237 generalized lemmas multiset_of_insort, multiset_of_sort, properties_for_sort for *_key variants
haftmann
parents: 39314
diff changeset
   962
  "count (multiset_of xs) x = length (filter (\<lambda>y. x = y) xs)"
91a0ff0ff237 generalized lemmas multiset_of_insort, multiset_of_sort, properties_for_sort for *_key variants
haftmann
parents: 39314
diff changeset
   963
  by (induct xs) auto
34943
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
   964
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
   965
lemma nth_mem_multiset_of: "i < length ls \<Longrightarrow> (ls ! i) :# multiset_of ls"
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
   966
apply (induct ls arbitrary: i)
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
   967
 apply simp
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
   968
apply (case_tac i)
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
   969
 apply auto
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
   970
done
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
   971
36903
489c1fbbb028 Multiset: renamed, added and tuned lemmas;
nipkow
parents: 36867
diff changeset
   972
lemma multiset_of_remove1[simp]:
489c1fbbb028 Multiset: renamed, added and tuned lemmas;
nipkow
parents: 36867
diff changeset
   973
  "multiset_of (remove1 a xs) = multiset_of xs - {#a#}"
39302
d7728f65b353 renamed lemmas: ext_iff -> fun_eq_iff, set_ext_iff -> set_eq_iff, set_ext -> set_eqI
nipkow
parents: 39301
diff changeset
   974
by (induct xs) (auto simp add: multiset_eq_iff)
34943
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
   975
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
   976
lemma multiset_of_eq_length:
37107
1535aa1c943a more lemmas
haftmann
parents: 37074
diff changeset
   977
  assumes "multiset_of xs = multiset_of ys"
1535aa1c943a more lemmas
haftmann
parents: 37074
diff changeset
   978
  shows "length xs = length ys"
48012
b6e5e86a7303 shortened yet more multiset proofs;
huffman
parents: 48011
diff changeset
   979
  using assms by (metis size_multiset_of)
34943
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
   980
39533
91a0ff0ff237 generalized lemmas multiset_of_insort, multiset_of_sort, properties_for_sort for *_key variants
haftmann
parents: 39314
diff changeset
   981
lemma multiset_of_eq_length_filter:
91a0ff0ff237 generalized lemmas multiset_of_insort, multiset_of_sort, properties_for_sort for *_key variants
haftmann
parents: 39314
diff changeset
   982
  assumes "multiset_of xs = multiset_of ys"
91a0ff0ff237 generalized lemmas multiset_of_insort, multiset_of_sort, properties_for_sort for *_key variants
haftmann
parents: 39314
diff changeset
   983
  shows "length (filter (\<lambda>x. z = x) xs) = length (filter (\<lambda>y. z = y) ys)"
48012
b6e5e86a7303 shortened yet more multiset proofs;
huffman
parents: 48011
diff changeset
   984
  using assms by (metis count_multiset_of)
39533
91a0ff0ff237 generalized lemmas multiset_of_insort, multiset_of_sort, properties_for_sort for *_key variants
haftmann
parents: 39314
diff changeset
   985
45989
b39256df5f8a moved theorem requiring multisets from More_List to Multiset
haftmann
parents: 45866
diff changeset
   986
lemma fold_multiset_equiv:
b39256df5f8a moved theorem requiring multisets from More_List to Multiset
haftmann
parents: 45866
diff changeset
   987
  assumes f: "\<And>x y. x \<in> set xs \<Longrightarrow> y \<in> set xs \<Longrightarrow> f x \<circ> f y = f y \<circ> f x"
b39256df5f8a moved theorem requiring multisets from More_List to Multiset
haftmann
parents: 45866
diff changeset
   988
    and equiv: "multiset_of xs = multiset_of ys"
b39256df5f8a moved theorem requiring multisets from More_List to Multiset
haftmann
parents: 45866
diff changeset
   989
  shows "fold f xs = fold f ys"
46921
aa862ff8a8a9 some proof indentation;
wenzelm
parents: 46756
diff changeset
   990
using f equiv [symmetric]
aa862ff8a8a9 some proof indentation;
wenzelm
parents: 46756
diff changeset
   991
proof (induct xs arbitrary: ys)
45989
b39256df5f8a moved theorem requiring multisets from More_List to Multiset
haftmann
parents: 45866
diff changeset
   992
  case Nil then show ?case by simp
b39256df5f8a moved theorem requiring multisets from More_List to Multiset
haftmann
parents: 45866
diff changeset
   993
next
b39256df5f8a moved theorem requiring multisets from More_List to Multiset
haftmann
parents: 45866
diff changeset
   994
  case (Cons x xs)
b39256df5f8a moved theorem requiring multisets from More_List to Multiset
haftmann
parents: 45866
diff changeset
   995
  then have *: "set ys = set (x # xs)" by (blast dest: multiset_of_eq_setD)
b39256df5f8a moved theorem requiring multisets from More_List to Multiset
haftmann
parents: 45866
diff changeset
   996
  have "\<And>x y. x \<in> set ys \<Longrightarrow> y \<in> set ys \<Longrightarrow> f x \<circ> f y = f y \<circ> f x" 
b39256df5f8a moved theorem requiring multisets from More_List to Multiset
haftmann
parents: 45866
diff changeset
   997
    by (rule Cons.prems(1)) (simp_all add: *)
b39256df5f8a moved theorem requiring multisets from More_List to Multiset
haftmann
parents: 45866
diff changeset
   998
  moreover from * have "x \<in> set ys" by simp
b39256df5f8a moved theorem requiring multisets from More_List to Multiset
haftmann
parents: 45866
diff changeset
   999
  ultimately have "fold f ys = fold f (remove1 x ys) \<circ> f x" by (fact fold_remove1_split)
b39256df5f8a moved theorem requiring multisets from More_List to Multiset
haftmann
parents: 45866
diff changeset
  1000
  moreover from Cons.prems have "fold f xs = fold f (remove1 x ys)" by (auto intro: Cons.hyps)
b39256df5f8a moved theorem requiring multisets from More_List to Multiset
haftmann
parents: 45866
diff changeset
  1001
  ultimately show ?case by simp
b39256df5f8a moved theorem requiring multisets from More_List to Multiset
haftmann
parents: 45866
diff changeset
  1002
qed
b39256df5f8a moved theorem requiring multisets from More_List to Multiset
haftmann
parents: 45866
diff changeset
  1003
39533
91a0ff0ff237 generalized lemmas multiset_of_insort, multiset_of_sort, properties_for_sort for *_key variants
haftmann
parents: 39314
diff changeset
  1004
context linorder
91a0ff0ff237 generalized lemmas multiset_of_insort, multiset_of_sort, properties_for_sort for *_key variants
haftmann
parents: 39314
diff changeset
  1005
begin
91a0ff0ff237 generalized lemmas multiset_of_insort, multiset_of_sort, properties_for_sort for *_key variants
haftmann
parents: 39314
diff changeset
  1006
40210
aee7ef725330 sorting: avoid _key suffix if lemma applies both to simple and generalized variant; generalized insort_insert to insort_insert_key; additional lemmas
haftmann
parents: 39533
diff changeset
  1007
lemma multiset_of_insort [simp]:
39533
91a0ff0ff237 generalized lemmas multiset_of_insort, multiset_of_sort, properties_for_sort for *_key variants
haftmann
parents: 39314
diff changeset
  1008
  "multiset_of (insort_key k x xs) = {#x#} + multiset_of xs"
37107
1535aa1c943a more lemmas
haftmann
parents: 37074
diff changeset
  1009
  by (induct xs) (simp_all add: ac_simps)
39533
91a0ff0ff237 generalized lemmas multiset_of_insort, multiset_of_sort, properties_for_sort for *_key variants
haftmann
parents: 39314
diff changeset
  1010
 
40210
aee7ef725330 sorting: avoid _key suffix if lemma applies both to simple and generalized variant; generalized insort_insert to insort_insert_key; additional lemmas
haftmann
parents: 39533
diff changeset
  1011
lemma multiset_of_sort [simp]:
39533
91a0ff0ff237 generalized lemmas multiset_of_insort, multiset_of_sort, properties_for_sort for *_key variants
haftmann
parents: 39314
diff changeset
  1012
  "multiset_of (sort_key k xs) = multiset_of xs"
37107
1535aa1c943a more lemmas
haftmann
parents: 37074
diff changeset
  1013
  by (induct xs) (simp_all add: ac_simps)
1535aa1c943a more lemmas
haftmann
parents: 37074
diff changeset
  1014
34943
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
  1015
text {*
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
  1016
  This lemma shows which properties suffice to show that a function
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
  1017
  @{text "f"} with @{text "f xs = ys"} behaves like sort.
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
  1018
*}
37074
322d065ebef7 localized properties_for_sort
haftmann
parents: 36903
diff changeset
  1019
39533
91a0ff0ff237 generalized lemmas multiset_of_insort, multiset_of_sort, properties_for_sort for *_key variants
haftmann
parents: 39314
diff changeset
  1020
lemma properties_for_sort_key:
91a0ff0ff237 generalized lemmas multiset_of_insort, multiset_of_sort, properties_for_sort for *_key variants
haftmann
parents: 39314
diff changeset
  1021
  assumes "multiset_of ys = multiset_of xs"
40305
41833242cc42 tuned lemma proposition of properties_for_sort_key
haftmann
parents: 40303
diff changeset
  1022
  and "\<And>k. k \<in> set ys \<Longrightarrow> filter (\<lambda>x. f k = f x) ys = filter (\<lambda>x. f k = f x) xs"
39533
91a0ff0ff237 generalized lemmas multiset_of_insort, multiset_of_sort, properties_for_sort for *_key variants
haftmann
parents: 39314
diff changeset
  1023
  and "sorted (map f ys)"
91a0ff0ff237 generalized lemmas multiset_of_insort, multiset_of_sort, properties_for_sort for *_key variants
haftmann
parents: 39314
diff changeset
  1024
  shows "sort_key f xs = ys"
46921
aa862ff8a8a9 some proof indentation;
wenzelm
parents: 46756
diff changeset
  1025
using assms
aa862ff8a8a9 some proof indentation;
wenzelm
parents: 46756
diff changeset
  1026
proof (induct xs arbitrary: ys)
34943
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
  1027
  case Nil then show ?case by simp
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
  1028
next
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
  1029
  case (Cons x xs)
39533
91a0ff0ff237 generalized lemmas multiset_of_insort, multiset_of_sort, properties_for_sort for *_key variants
haftmann
parents: 39314
diff changeset
  1030
  from Cons.prems(2) have
40305
41833242cc42 tuned lemma proposition of properties_for_sort_key
haftmann
parents: 40303
diff changeset
  1031
    "\<forall>k \<in> set ys. filter (\<lambda>x. f k = f x) (remove1 x ys) = filter (\<lambda>x. f k = f x) xs"
39533
91a0ff0ff237 generalized lemmas multiset_of_insort, multiset_of_sort, properties_for_sort for *_key variants
haftmann
parents: 39314
diff changeset
  1032
    by (simp add: filter_remove1)
91a0ff0ff237 generalized lemmas multiset_of_insort, multiset_of_sort, properties_for_sort for *_key variants
haftmann
parents: 39314
diff changeset
  1033
  with Cons.prems have "sort_key f xs = remove1 x ys"
91a0ff0ff237 generalized lemmas multiset_of_insort, multiset_of_sort, properties_for_sort for *_key variants
haftmann
parents: 39314
diff changeset
  1034
    by (auto intro!: Cons.hyps simp add: sorted_map_remove1)
91a0ff0ff237 generalized lemmas multiset_of_insort, multiset_of_sort, properties_for_sort for *_key variants
haftmann
parents: 39314
diff changeset
  1035
  moreover from Cons.prems have "x \<in> set ys"
91a0ff0ff237 generalized lemmas multiset_of_insort, multiset_of_sort, properties_for_sort for *_key variants
haftmann
parents: 39314
diff changeset
  1036
    by (auto simp add: mem_set_multiset_eq intro!: ccontr)
91a0ff0ff237 generalized lemmas multiset_of_insort, multiset_of_sort, properties_for_sort for *_key variants
haftmann
parents: 39314
diff changeset
  1037
  ultimately show ?case using Cons.prems by (simp add: insort_key_remove1)
34943
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
  1038
qed
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
  1039
39533
91a0ff0ff237 generalized lemmas multiset_of_insort, multiset_of_sort, properties_for_sort for *_key variants
haftmann
parents: 39314
diff changeset
  1040
lemma properties_for_sort:
91a0ff0ff237 generalized lemmas multiset_of_insort, multiset_of_sort, properties_for_sort for *_key variants
haftmann
parents: 39314
diff changeset
  1041
  assumes multiset: "multiset_of ys = multiset_of xs"
91a0ff0ff237 generalized lemmas multiset_of_insort, multiset_of_sort, properties_for_sort for *_key variants
haftmann
parents: 39314
diff changeset
  1042
  and "sorted ys"
91a0ff0ff237 generalized lemmas multiset_of_insort, multiset_of_sort, properties_for_sort for *_key variants
haftmann
parents: 39314
diff changeset
  1043
  shows "sort xs = ys"
91a0ff0ff237 generalized lemmas multiset_of_insort, multiset_of_sort, properties_for_sort for *_key variants
haftmann
parents: 39314
diff changeset
  1044
proof (rule properties_for_sort_key)
91a0ff0ff237 generalized lemmas multiset_of_insort, multiset_of_sort, properties_for_sort for *_key variants
haftmann
parents: 39314
diff changeset
  1045
  from multiset show "multiset_of ys = multiset_of xs" .
91a0ff0ff237 generalized lemmas multiset_of_insort, multiset_of_sort, properties_for_sort for *_key variants
haftmann
parents: 39314
diff changeset
  1046
  from `sorted ys` show "sorted (map (\<lambda>x. x) ys)" by simp
91a0ff0ff237 generalized lemmas multiset_of_insort, multiset_of_sort, properties_for_sort for *_key variants
haftmann
parents: 39314
diff changeset
  1047
  from multiset have "\<And>k. length (filter (\<lambda>y. k = y) ys) = length (filter (\<lambda>x. k = x) xs)"
91a0ff0ff237 generalized lemmas multiset_of_insort, multiset_of_sort, properties_for_sort for *_key variants
haftmann
parents: 39314
diff changeset
  1048
    by (rule multiset_of_eq_length_filter)
91a0ff0ff237 generalized lemmas multiset_of_insort, multiset_of_sort, properties_for_sort for *_key variants
haftmann
parents: 39314
diff changeset
  1049
  then have "\<And>k. replicate (length (filter (\<lambda>y. k = y) ys)) k = replicate (length (filter (\<lambda>x. k = x) xs)) k"
91a0ff0ff237 generalized lemmas multiset_of_insort, multiset_of_sort, properties_for_sort for *_key variants
haftmann
parents: 39314
diff changeset
  1050
    by simp
40305
41833242cc42 tuned lemma proposition of properties_for_sort_key
haftmann
parents: 40303
diff changeset
  1051
  then show "\<And>k. k \<in> set ys \<Longrightarrow> filter (\<lambda>y. k = y) ys = filter (\<lambda>x. k = x) xs"
39533
91a0ff0ff237 generalized lemmas multiset_of_insort, multiset_of_sort, properties_for_sort for *_key variants
haftmann
parents: 39314
diff changeset
  1052
    by (simp add: replicate_length_filter)
91a0ff0ff237 generalized lemmas multiset_of_insort, multiset_of_sort, properties_for_sort for *_key variants
haftmann
parents: 39314
diff changeset
  1053
qed
91a0ff0ff237 generalized lemmas multiset_of_insort, multiset_of_sort, properties_for_sort for *_key variants
haftmann
parents: 39314
diff changeset
  1054
40303
2d507370e879 lemmas multiset_of_filter, sort_key_by_quicksort
haftmann
parents: 40250
diff changeset
  1055
lemma sort_key_by_quicksort:
2d507370e879 lemmas multiset_of_filter, sort_key_by_quicksort
haftmann
parents: 40250
diff changeset
  1056
  "sort_key f xs = sort_key f [x\<leftarrow>xs. f x < f (xs ! (length xs div 2))]
2d507370e879 lemmas multiset_of_filter, sort_key_by_quicksort
haftmann
parents: 40250
diff changeset
  1057
    @ [x\<leftarrow>xs. f x = f (xs ! (length xs div 2))]
2d507370e879 lemmas multiset_of_filter, sort_key_by_quicksort
haftmann
parents: 40250
diff changeset
  1058
    @ sort_key f [x\<leftarrow>xs. f x > f (xs ! (length xs div 2))]" (is "sort_key f ?lhs = ?rhs")
2d507370e879 lemmas multiset_of_filter, sort_key_by_quicksort
haftmann
parents: 40250
diff changeset
  1059
proof (rule properties_for_sort_key)
2d507370e879 lemmas multiset_of_filter, sort_key_by_quicksort
haftmann
parents: 40250
diff changeset
  1060
  show "multiset_of ?rhs = multiset_of ?lhs"
2d507370e879 lemmas multiset_of_filter, sort_key_by_quicksort
haftmann
parents: 40250
diff changeset
  1061
    by (rule multiset_eqI) (auto simp add: multiset_of_filter)
2d507370e879 lemmas multiset_of_filter, sort_key_by_quicksort
haftmann
parents: 40250
diff changeset
  1062
next
2d507370e879 lemmas multiset_of_filter, sort_key_by_quicksort
haftmann
parents: 40250
diff changeset
  1063
  show "sorted (map f ?rhs)"
2d507370e879 lemmas multiset_of_filter, sort_key_by_quicksort
haftmann
parents: 40250
diff changeset
  1064
    by (auto simp add: sorted_append intro: sorted_map_same)
2d507370e879 lemmas multiset_of_filter, sort_key_by_quicksort
haftmann
parents: 40250
diff changeset
  1065
next
40305
41833242cc42 tuned lemma proposition of properties_for_sort_key
haftmann
parents: 40303
diff changeset
  1066
  fix l
41833242cc42 tuned lemma proposition of properties_for_sort_key
haftmann
parents: 40303
diff changeset
  1067
  assume "l \<in> set ?rhs"
40346
58af2b8327b7 tuned proof
haftmann
parents: 40307
diff changeset
  1068
  let ?pivot = "f (xs ! (length xs div 2))"
58af2b8327b7 tuned proof
haftmann
parents: 40307
diff changeset
  1069
  have *: "\<And>x. f l = f x \<longleftrightarrow> f x = f l" by auto
40306
e4461b9854a5 tuned proof
haftmann
parents: 40305
diff changeset
  1070
  have "[x \<leftarrow> sort_key f xs . f x = f l] = [x \<leftarrow> xs. f x = f l]"
40305
41833242cc42 tuned lemma proposition of properties_for_sort_key
haftmann
parents: 40303
diff changeset
  1071
    unfolding filter_sort by (rule properties_for_sort_key) (auto intro: sorted_map_same)
40346
58af2b8327b7 tuned proof
haftmann
parents: 40307
diff changeset
  1072
  with * have **: "[x \<leftarrow> sort_key f xs . f l = f x] = [x \<leftarrow> xs. f l = f x]" by simp
58af2b8327b7 tuned proof
haftmann
parents: 40307
diff changeset
  1073
  have "\<And>x P. P (f x) ?pivot \<and> f l = f x \<longleftrightarrow> P (f l) ?pivot \<and> f l = f x" by auto
58af2b8327b7 tuned proof
haftmann
parents: 40307
diff changeset
  1074
  then have "\<And>P. [x \<leftarrow> sort_key f xs . P (f x) ?pivot \<and> f l = f x] =
58af2b8327b7 tuned proof
haftmann
parents: 40307
diff changeset
  1075
    [x \<leftarrow> sort_key f xs. P (f l) ?pivot \<and> f l = f x]" by simp
58af2b8327b7 tuned proof
haftmann
parents: 40307
diff changeset
  1076
  note *** = this [of "op <"] this [of "op >"] this [of "op ="]
40306
e4461b9854a5 tuned proof
haftmann
parents: 40305
diff changeset
  1077
  show "[x \<leftarrow> ?rhs. f l = f x] = [x \<leftarrow> ?lhs. f l = f x]"
40305
41833242cc42 tuned lemma proposition of properties_for_sort_key
haftmann
parents: 40303
diff changeset
  1078
  proof (cases "f l" ?pivot rule: linorder_cases)
46730
e3b99d0231bc tuned proofs;
wenzelm
parents: 46394
diff changeset
  1079
    case less
e3b99d0231bc tuned proofs;
wenzelm
parents: 46394
diff changeset
  1080
    then have "f l \<noteq> ?pivot" and "\<not> f l > ?pivot" by auto
e3b99d0231bc tuned proofs;
wenzelm
parents: 46394
diff changeset
  1081
    with less show ?thesis
40346
58af2b8327b7 tuned proof
haftmann
parents: 40307
diff changeset
  1082
      by (simp add: filter_sort [symmetric] ** ***)
40305
41833242cc42 tuned lemma proposition of properties_for_sort_key
haftmann
parents: 40303
diff changeset
  1083
  next
40306
e4461b9854a5 tuned proof
haftmann
parents: 40305
diff changeset
  1084
    case equal then show ?thesis
40346
58af2b8327b7 tuned proof
haftmann
parents: 40307
diff changeset
  1085
      by (simp add: * less_le)
40305
41833242cc42 tuned lemma proposition of properties_for_sort_key
haftmann
parents: 40303
diff changeset
  1086
  next
46730
e3b99d0231bc tuned proofs;
wenzelm
parents: 46394
diff changeset
  1087
    case greater
e3b99d0231bc tuned proofs;
wenzelm
parents: 46394
diff changeset
  1088
    then have "f l \<noteq> ?pivot" and "\<not> f l < ?pivot" by auto
e3b99d0231bc tuned proofs;
wenzelm
parents: 46394
diff changeset
  1089
    with greater show ?thesis
40346
58af2b8327b7 tuned proof
haftmann
parents: 40307
diff changeset
  1090
      by (simp add: filter_sort [symmetric] ** ***)
40306
e4461b9854a5 tuned proof
haftmann
parents: 40305
diff changeset
  1091
  qed
40303
2d507370e879 lemmas multiset_of_filter, sort_key_by_quicksort
haftmann
parents: 40250
diff changeset
  1092
qed
2d507370e879 lemmas multiset_of_filter, sort_key_by_quicksort
haftmann
parents: 40250
diff changeset
  1093
2d507370e879 lemmas multiset_of_filter, sort_key_by_quicksort
haftmann
parents: 40250
diff changeset
  1094
lemma sort_by_quicksort:
2d507370e879 lemmas multiset_of_filter, sort_key_by_quicksort
haftmann
parents: 40250
diff changeset
  1095
  "sort xs = sort [x\<leftarrow>xs. x < xs ! (length xs div 2)]
2d507370e879 lemmas multiset_of_filter, sort_key_by_quicksort
haftmann
parents: 40250
diff changeset
  1096
    @ [x\<leftarrow>xs. x = xs ! (length xs div 2)]
2d507370e879 lemmas multiset_of_filter, sort_key_by_quicksort
haftmann
parents: 40250
diff changeset
  1097
    @ sort [x\<leftarrow>xs. x > xs ! (length xs div 2)]" (is "sort ?lhs = ?rhs")
2d507370e879 lemmas multiset_of_filter, sort_key_by_quicksort
haftmann
parents: 40250
diff changeset
  1098
  using sort_key_by_quicksort [of "\<lambda>x. x", symmetric] by simp
2d507370e879 lemmas multiset_of_filter, sort_key_by_quicksort
haftmann
parents: 40250
diff changeset
  1099
40347
429bf4388b2f added code lemmas for stable parametrized quicksort
haftmann
parents: 40346
diff changeset
  1100
text {* A stable parametrized quicksort *}
429bf4388b2f added code lemmas for stable parametrized quicksort
haftmann
parents: 40346
diff changeset
  1101
429bf4388b2f added code lemmas for stable parametrized quicksort
haftmann
parents: 40346
diff changeset
  1102
definition part :: "('b \<Rightarrow> 'a) \<Rightarrow> 'a \<Rightarrow> 'b list \<Rightarrow> 'b list \<times> 'b list \<times> 'b list" where
429bf4388b2f added code lemmas for stable parametrized quicksort
haftmann
parents: 40346
diff changeset
  1103
  "part f pivot xs = ([x \<leftarrow> xs. f x < pivot], [x \<leftarrow> xs. f x = pivot], [x \<leftarrow> xs. pivot < f x])"
429bf4388b2f added code lemmas for stable parametrized quicksort
haftmann
parents: 40346
diff changeset
  1104
429bf4388b2f added code lemmas for stable parametrized quicksort
haftmann
parents: 40346
diff changeset
  1105
lemma part_code [code]:
429bf4388b2f added code lemmas for stable parametrized quicksort
haftmann
parents: 40346
diff changeset
  1106
  "part f pivot [] = ([], [], [])"
429bf4388b2f added code lemmas for stable parametrized quicksort
haftmann
parents: 40346
diff changeset
  1107
  "part f pivot (x # xs) = (let (lts, eqs, gts) = part f pivot xs; x' = f x in
429bf4388b2f added code lemmas for stable parametrized quicksort
haftmann
parents: 40346
diff changeset
  1108
     if x' < pivot then (x # lts, eqs, gts)
429bf4388b2f added code lemmas for stable parametrized quicksort
haftmann
parents: 40346
diff changeset
  1109
     else if x' > pivot then (lts, eqs, x # gts)
429bf4388b2f added code lemmas for stable parametrized quicksort
haftmann
parents: 40346
diff changeset
  1110
     else (lts, x # eqs, gts))"
429bf4388b2f added code lemmas for stable parametrized quicksort
haftmann
parents: 40346
diff changeset
  1111
  by (auto simp add: part_def Let_def split_def)
429bf4388b2f added code lemmas for stable parametrized quicksort
haftmann
parents: 40346
diff changeset
  1112
429bf4388b2f added code lemmas for stable parametrized quicksort
haftmann
parents: 40346
diff changeset
  1113
lemma sort_key_by_quicksort_code [code]:
429bf4388b2f added code lemmas for stable parametrized quicksort
haftmann
parents: 40346
diff changeset
  1114
  "sort_key f xs = (case xs of [] \<Rightarrow> []
429bf4388b2f added code lemmas for stable parametrized quicksort
haftmann
parents: 40346
diff changeset
  1115
    | [x] \<Rightarrow> xs
429bf4388b2f added code lemmas for stable parametrized quicksort
haftmann
parents: 40346
diff changeset
  1116
    | [x, y] \<Rightarrow> (if f x \<le> f y then xs else [y, x])
429bf4388b2f added code lemmas for stable parametrized quicksort
haftmann
parents: 40346
diff changeset
  1117
    | _ \<Rightarrow> (let (lts, eqs, gts) = part f (f (xs ! (length xs div 2))) xs
429bf4388b2f added code lemmas for stable parametrized quicksort
haftmann
parents: 40346
diff changeset
  1118
       in sort_key f lts @ eqs @ sort_key f gts))"
429bf4388b2f added code lemmas for stable parametrized quicksort
haftmann
parents: 40346
diff changeset
  1119
proof (cases xs)
429bf4388b2f added code lemmas for stable parametrized quicksort
haftmann
parents: 40346
diff changeset
  1120
  case Nil then show ?thesis by simp
429bf4388b2f added code lemmas for stable parametrized quicksort
haftmann
parents: 40346
diff changeset
  1121
next
46921
aa862ff8a8a9 some proof indentation;
wenzelm
parents: 46756
diff changeset
  1122
  case (Cons _ ys) note hyps = Cons show ?thesis
aa862ff8a8a9 some proof indentation;
wenzelm
parents: 46756
diff changeset
  1123
  proof (cases ys)
40347
429bf4388b2f added code lemmas for stable parametrized quicksort
haftmann
parents: 40346
diff changeset
  1124
    case Nil with hyps show ?thesis by simp
429bf4388b2f added code lemmas for stable parametrized quicksort
haftmann
parents: 40346
diff changeset
  1125
  next
46921
aa862ff8a8a9 some proof indentation;
wenzelm
parents: 46756
diff changeset
  1126
    case (Cons _ zs) note hyps = hyps Cons show ?thesis
aa862ff8a8a9 some proof indentation;
wenzelm
parents: 46756
diff changeset
  1127
    proof (cases zs)
40347
429bf4388b2f added code lemmas for stable parametrized quicksort
haftmann
parents: 40346
diff changeset
  1128
      case Nil with hyps show ?thesis by auto
429bf4388b2f added code lemmas for stable parametrized quicksort
haftmann
parents: 40346
diff changeset
  1129
    next
429bf4388b2f added code lemmas for stable parametrized quicksort
haftmann
parents: 40346
diff changeset
  1130
      case Cons 
429bf4388b2f added code lemmas for stable parametrized quicksort
haftmann
parents: 40346
diff changeset
  1131
      from sort_key_by_quicksort [of f xs]
429bf4388b2f added code lemmas for stable parametrized quicksort
haftmann
parents: 40346
diff changeset
  1132
      have "sort_key f xs = (let (lts, eqs, gts) = part f (f (xs ! (length xs div 2))) xs
429bf4388b2f added code lemmas for stable parametrized quicksort
haftmann
parents: 40346
diff changeset
  1133
        in sort_key f lts @ eqs @ sort_key f gts)"
429bf4388b2f added code lemmas for stable parametrized quicksort
haftmann
parents: 40346
diff changeset
  1134
      by (simp only: split_def Let_def part_def fst_conv snd_conv)
429bf4388b2f added code lemmas for stable parametrized quicksort
haftmann
parents: 40346
diff changeset
  1135
      with hyps Cons show ?thesis by (simp only: list.cases)
429bf4388b2f added code lemmas for stable parametrized quicksort
haftmann
parents: 40346
diff changeset
  1136
    qed
429bf4388b2f added code lemmas for stable parametrized quicksort
haftmann
parents: 40346
diff changeset
  1137
  qed
429bf4388b2f added code lemmas for stable parametrized quicksort
haftmann
parents: 40346
diff changeset
  1138
qed
429bf4388b2f added code lemmas for stable parametrized quicksort
haftmann
parents: 40346
diff changeset
  1139
39533
91a0ff0ff237 generalized lemmas multiset_of_insort, multiset_of_sort, properties_for_sort for *_key variants
haftmann
parents: 39314
diff changeset
  1140
end
91a0ff0ff237 generalized lemmas multiset_of_insort, multiset_of_sort, properties_for_sort for *_key variants
haftmann
parents: 39314
diff changeset
  1141
40347
429bf4388b2f added code lemmas for stable parametrized quicksort
haftmann
parents: 40346
diff changeset
  1142
hide_const (open) part
429bf4388b2f added code lemmas for stable parametrized quicksort
haftmann
parents: 40346
diff changeset
  1143
35268
04673275441a switched notations for pointwise and multiset order
haftmann
parents: 35028
diff changeset
  1144
lemma multiset_of_remdups_le: "multiset_of (remdups xs) \<le> multiset_of xs"
04673275441a switched notations for pointwise and multiset order
haftmann
parents: 35028
diff changeset
  1145
  by (induct xs) (auto intro: order_trans)
34943
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
  1146
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
  1147
lemma multiset_of_update:
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
  1148
  "i < length ls \<Longrightarrow> multiset_of (ls[i := v]) = multiset_of ls - {#ls ! i#} + {#v#}"
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
  1149
proof (induct ls arbitrary: i)
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
  1150
  case Nil then show ?case by simp
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
  1151
next
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
  1152
  case (Cons x xs)
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
  1153
  show ?case
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
  1154
  proof (cases i)
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
  1155
    case 0 then show ?thesis by simp
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
  1156
  next
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
  1157
    case (Suc i')
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
  1158
    with Cons show ?thesis
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
  1159
      apply simp
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
  1160
      apply (subst add_assoc)
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
  1161
      apply (subst add_commute [of "{#v#}" "{#x#}"])
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
  1162
      apply (subst add_assoc [symmetric])
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
  1163
      apply simp
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
  1164
      apply (rule mset_le_multiset_union_diff_commute)
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
  1165
      apply (simp add: mset_le_single nth_mem_multiset_of)
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
  1166
      done
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
  1167
  qed
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
  1168
qed
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
  1169
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
  1170
lemma multiset_of_swap:
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
  1171
  "i < length ls \<Longrightarrow> j < length ls \<Longrightarrow>
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
  1172
    multiset_of (ls[j := ls ! i, i := ls ! j]) = multiset_of ls"
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
  1173
  by (cases "i = j") (simp_all add: multiset_of_update nth_mem_multiset_of)
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
  1174
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
  1175
46168
bef8c811df20 improving code generation for multisets; adding exhaustive quickcheck generators for multisets
bulwahn
parents: 45989
diff changeset
  1176
subsubsection {* Association lists -- including code generation *}
bef8c811df20 improving code generation for multisets; adding exhaustive quickcheck generators for multisets
bulwahn
parents: 45989
diff changeset
  1177
bef8c811df20 improving code generation for multisets; adding exhaustive quickcheck generators for multisets
bulwahn
parents: 45989
diff changeset
  1178
text {* Preliminaries *}
bef8c811df20 improving code generation for multisets; adding exhaustive quickcheck generators for multisets
bulwahn
parents: 45989
diff changeset
  1179
bef8c811df20 improving code generation for multisets; adding exhaustive quickcheck generators for multisets
bulwahn
parents: 45989
diff changeset
  1180
text {* Raw operations on lists *}
bef8c811df20 improving code generation for multisets; adding exhaustive quickcheck generators for multisets
bulwahn
parents: 45989
diff changeset
  1181
bef8c811df20 improving code generation for multisets; adding exhaustive quickcheck generators for multisets
bulwahn
parents: 45989
diff changeset
  1182
definition join_raw :: "('key \<Rightarrow> 'val \<times> 'val \<Rightarrow> 'val) \<Rightarrow> ('key \<times> 'val) list \<Rightarrow> ('key \<times> 'val) list \<Rightarrow> ('key \<times> 'val) list"
bef8c811df20 improving code generation for multisets; adding exhaustive quickcheck generators for multisets
bulwahn
parents: 45989
diff changeset
  1183
where
bef8c811df20 improving code generation for multisets; adding exhaustive quickcheck generators for multisets
bulwahn
parents: 45989
diff changeset
  1184
  "join_raw f xs ys = foldr (\<lambda>(k, v). map_default k v (%v'. f k (v', v))) ys xs"
bef8c811df20 improving code generation for multisets; adding exhaustive quickcheck generators for multisets
bulwahn
parents: 45989
diff changeset
  1185
bef8c811df20 improving code generation for multisets; adding exhaustive quickcheck generators for multisets
bulwahn
parents: 45989
diff changeset
  1186
lemma join_raw_Nil [simp]:
bef8c811df20 improving code generation for multisets; adding exhaustive quickcheck generators for multisets
bulwahn
parents: 45989
diff changeset
  1187
  "join_raw f xs [] = xs"
bef8c811df20 improving code generation for multisets; adding exhaustive quickcheck generators for multisets
bulwahn
parents: 45989
diff changeset
  1188
by (simp add: join_raw_def)
bef8c811df20 improving code generation for multisets; adding exhaustive quickcheck generators for multisets
bulwahn
parents: 45989
diff changeset
  1189
bef8c811df20 improving code generation for multisets; adding exhaustive quickcheck generators for multisets
bulwahn
parents: 45989
diff changeset
  1190
lemma join_raw_Cons [simp]:
bef8c811df20 improving code generation for multisets; adding exhaustive quickcheck generators for multisets
bulwahn
parents: 45989
diff changeset
  1191
  "join_raw f xs ((k, v) # ys) = map_default k v (%v'. f k (v', v)) (join_raw f xs ys)"
bef8c811df20 improving code generation for multisets; adding exhaustive quickcheck generators for multisets
bulwahn
parents: 45989
diff changeset
  1192
by (simp add: join_raw_def)
bef8c811df20 improving code generation for multisets; adding exhaustive quickcheck generators for multisets
bulwahn
parents: 45989
diff changeset
  1193
bef8c811df20 improving code generation for multisets; adding exhaustive quickcheck generators for multisets
bulwahn
parents: 45989
diff changeset
  1194
lemma map_of_join_raw:
bef8c811df20 improving code generation for multisets; adding exhaustive quickcheck generators for multisets
bulwahn
parents: 45989
diff changeset
  1195
  assumes "distinct (map fst ys)"
47429
ec64d94cbf9c multiset operations are defined with lift_definitions;
bulwahn
parents: 47308
diff changeset
  1196
  shows "map_of (join_raw f xs ys) x = (case map_of xs x of None => map_of ys x | Some v =>
ec64d94cbf9c multiset operations are defined with lift_definitions;
bulwahn
parents: 47308
diff changeset
  1197
    (case map_of ys x of None => Some v | Some v' => Some (f x (v, v'))))"
46168
bef8c811df20 improving code generation for multisets; adding exhaustive quickcheck generators for multisets
bulwahn
parents: 45989
diff changeset
  1198
using assms
bef8c811df20 improving code generation for multisets; adding exhaustive quickcheck generators for multisets
bulwahn
parents: 45989
diff changeset
  1199
apply (induct ys)
bef8c811df20 improving code generation for multisets; adding exhaustive quickcheck generators for multisets
bulwahn
parents: 45989
diff changeset
  1200
apply (auto simp add: map_of_map_default split: option.split)
bef8c811df20 improving code generation for multisets; adding exhaustive quickcheck generators for multisets
bulwahn
parents: 45989
diff changeset
  1201
apply (metis map_of_eq_None_iff option.simps(2) weak_map_of_SomeI)
bef8c811df20 improving code generation for multisets; adding exhaustive quickcheck generators for multisets
bulwahn
parents: 45989
diff changeset
  1202
by (metis Some_eq_map_of_iff map_of_eq_None_iff option.simps(2))
bef8c811df20 improving code generation for multisets; adding exhaustive quickcheck generators for multisets
bulwahn
parents: 45989
diff changeset
  1203
bef8c811df20 improving code generation for multisets; adding exhaustive quickcheck generators for multisets
bulwahn
parents: 45989
diff changeset
  1204
lemma distinct_join_raw:
bef8c811df20 improving code generation for multisets; adding exhaustive quickcheck generators for multisets
bulwahn
parents: 45989
diff changeset
  1205
  assumes "distinct (map fst xs)"
bef8c811df20 improving code generation for multisets; adding exhaustive quickcheck generators for multisets
bulwahn
parents: 45989
diff changeset
  1206
  shows "distinct (map fst (join_raw f xs ys))"
bef8c811df20 improving code generation for multisets; adding exhaustive quickcheck generators for multisets
bulwahn
parents: 45989
diff changeset
  1207
using assms
bef8c811df20 improving code generation for multisets; adding exhaustive quickcheck generators for multisets
bulwahn
parents: 45989
diff changeset
  1208
proof (induct ys)
bef8c811df20 improving code generation for multisets; adding exhaustive quickcheck generators for multisets
bulwahn
parents: 45989
diff changeset
  1209
  case (Cons y ys)
bef8c811df20 improving code generation for multisets; adding exhaustive quickcheck generators for multisets
bulwahn
parents: 45989
diff changeset
  1210
  thus ?case by (cases y) (simp add: distinct_map_default)
bef8c811df20 improving code generation for multisets; adding exhaustive quickcheck generators for multisets
bulwahn
parents: 45989
diff changeset
  1211
qed auto
bef8c811df20 improving code generation for multisets; adding exhaustive quickcheck generators for multisets
bulwahn
parents: 45989
diff changeset
  1212
bef8c811df20 improving code generation for multisets; adding exhaustive quickcheck generators for multisets
bulwahn
parents: 45989
diff changeset
  1213
definition
46238
9ace9e5b79be renaming theory AList_Impl back to AList (reverting 1fec5b365f9b; AList with distinct key invariant is called DAList)
bulwahn
parents: 46237
diff changeset
  1214
  "subtract_entries_raw xs ys = foldr (%(k, v). AList.map_entry k (%v'. v' - v)) ys xs"
46168
bef8c811df20 improving code generation for multisets; adding exhaustive quickcheck generators for multisets
bulwahn
parents: 45989
diff changeset
  1215
bef8c811df20 improving code generation for multisets; adding exhaustive quickcheck generators for multisets
bulwahn
parents: 45989
diff changeset
  1216
lemma map_of_subtract_entries_raw:
47429
ec64d94cbf9c multiset operations are defined with lift_definitions;
bulwahn
parents: 47308
diff changeset
  1217
  assumes "distinct (map fst ys)"
ec64d94cbf9c multiset operations are defined with lift_definitions;
bulwahn
parents: 47308
diff changeset
  1218
  shows "map_of (subtract_entries_raw xs ys) x = (case map_of xs x of None => None | Some v =>
ec64d94cbf9c multiset operations are defined with lift_definitions;
bulwahn
parents: 47308
diff changeset
  1219
    (case map_of ys x of None => Some v | Some v' => Some (v - v')))"
ec64d94cbf9c multiset operations are defined with lift_definitions;
bulwahn
parents: 47308
diff changeset
  1220
using assms unfolding subtract_entries_raw_def
46168
bef8c811df20 improving code generation for multisets; adding exhaustive quickcheck generators for multisets
bulwahn
parents: 45989
diff changeset
  1221
apply (induct ys)
bef8c811df20 improving code generation for multisets; adding exhaustive quickcheck generators for multisets
bulwahn
parents: 45989
diff changeset
  1222
apply auto
bef8c811df20 improving code generation for multisets; adding exhaustive quickcheck generators for multisets
bulwahn
parents: 45989
diff changeset
  1223
apply (simp split: option.split)
bef8c811df20 improving code generation for multisets; adding exhaustive quickcheck generators for multisets
bulwahn
parents: 45989
diff changeset
  1224
apply (simp add: map_of_map_entry)
bef8c811df20 improving code generation for multisets; adding exhaustive quickcheck generators for multisets
bulwahn
parents: 45989
diff changeset
  1225
apply (auto split: option.split)
bef8c811df20 improving code generation for multisets; adding exhaustive quickcheck generators for multisets
bulwahn
parents: 45989
diff changeset
  1226
apply (metis map_of_eq_None_iff option.simps(3) option.simps(4))
bef8c811df20 improving code generation for multisets; adding exhaustive quickcheck generators for multisets
bulwahn
parents: 45989
diff changeset
  1227
by (metis map_of_eq_None_iff option.simps(4) option.simps(5))
bef8c811df20 improving code generation for multisets; adding exhaustive quickcheck generators for multisets
bulwahn
parents: 45989
diff changeset
  1228
bef8c811df20 improving code generation for multisets; adding exhaustive quickcheck generators for multisets
bulwahn
parents: 45989
diff changeset
  1229
lemma distinct_subtract_entries_raw:
bef8c811df20 improving code generation for multisets; adding exhaustive quickcheck generators for multisets
bulwahn
parents: 45989
diff changeset
  1230
  assumes "distinct (map fst xs)"
bef8c811df20 improving code generation for multisets; adding exhaustive quickcheck generators for multisets
bulwahn
parents: 45989
diff changeset
  1231
  shows "distinct (map fst (subtract_entries_raw xs ys))"
bef8c811df20 improving code generation for multisets; adding exhaustive quickcheck generators for multisets
bulwahn
parents: 45989
diff changeset
  1232
using assms
bef8c811df20 improving code generation for multisets; adding exhaustive quickcheck generators for multisets
bulwahn
parents: 45989
diff changeset
  1233
unfolding subtract_entries_raw_def by (induct ys) (auto simp add: distinct_map_entry)
bef8c811df20 improving code generation for multisets; adding exhaustive quickcheck generators for multisets
bulwahn
parents: 45989
diff changeset
  1234
47179
54b38de0620e changing more definitions to quotient_definition
bulwahn
parents: 47177
diff changeset
  1235
text {* Operations on alists with distinct keys *}
46168
bef8c811df20 improving code generation for multisets; adding exhaustive quickcheck generators for multisets
bulwahn
parents: 45989
diff changeset
  1236
47308
9caab698dbe4 new package Lifting - initial commit
kuncar
parents: 47198
diff changeset
  1237
lift_definition join :: "('a \<Rightarrow> 'b \<times> 'b \<Rightarrow> 'b) \<Rightarrow> ('a, 'b) alist \<Rightarrow> ('a, 'b) alist \<Rightarrow> ('a, 'b) alist" 
9caab698dbe4 new package Lifting - initial commit
kuncar
parents: 47198
diff changeset
  1238
is join_raw
47179
54b38de0620e changing more definitions to quotient_definition
bulwahn
parents: 47177
diff changeset
  1239
by (simp add: distinct_join_raw)
46168
bef8c811df20 improving code generation for multisets; adding exhaustive quickcheck generators for multisets
bulwahn
parents: 45989
diff changeset
  1240
47308
9caab698dbe4 new package Lifting - initial commit
kuncar
parents: 47198
diff changeset
  1241
lift_definition subtract_entries :: "('a, ('b :: minus)) alist \<Rightarrow> ('a, 'b) alist \<Rightarrow> ('a, 'b) alist"
9caab698dbe4 new package Lifting - initial commit
kuncar
parents: 47198
diff changeset
  1242
is subtract_entries_raw 
47179
54b38de0620e changing more definitions to quotient_definition
bulwahn
parents: 47177
diff changeset
  1243
by (simp add: distinct_subtract_entries_raw)
46168
bef8c811df20 improving code generation for multisets; adding exhaustive quickcheck generators for multisets
bulwahn
parents: 45989
diff changeset
  1244
bef8c811df20 improving code generation for multisets; adding exhaustive quickcheck generators for multisets
bulwahn
parents: 45989
diff changeset
  1245
text {* Implementing multisets by means of association lists *}
34943
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
  1246
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
  1247
definition count_of :: "('a \<times> nat) list \<Rightarrow> 'a \<Rightarrow> nat" where
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
  1248
  "count_of xs x = (case map_of xs x of None \<Rightarrow> 0 | Some n \<Rightarrow> n)"
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
  1249
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
  1250
lemma count_of_multiset:
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
  1251
  "count_of xs \<in> multiset"
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
  1252
proof -
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
  1253
  let ?A = "{x::'a. 0 < (case map_of xs x of None \<Rightarrow> 0\<Colon>nat | Some (n\<Colon>nat) \<Rightarrow> n)}"
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
  1254
  have "?A \<subseteq> dom (map_of xs)"
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
  1255
  proof
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
  1256
    fix x
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
  1257
    assume "x \<in> ?A"
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
  1258
    then have "0 < (case map_of xs x of None \<Rightarrow> 0\<Colon>nat | Some (n\<Colon>nat) \<Rightarrow> n)" by simp
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
  1259
    then have "map_of xs x \<noteq> None" by (cases "map_of xs x") auto
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
  1260
    then show "x \<in> dom (map_of xs)" by auto
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
  1261
  qed
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
  1262
  with finite_dom_map_of [of xs] have "finite ?A"
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
  1263
    by (auto intro: finite_subset)
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
  1264
  then show ?thesis
39302
d7728f65b353 renamed lemmas: ext_iff -> fun_eq_iff, set_ext_iff -> set_eq_iff, set_ext -> set_eqI
nipkow
parents: 39301
diff changeset
  1265
    by (simp add: count_of_def fun_eq_iff multiset_def)
34943
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
  1266
qed
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
  1267
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
  1268
lemma count_simps [simp]:
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
  1269
  "count_of [] = (\<lambda>_. 0)"
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
  1270
  "count_of ((x, n) # xs) = (\<lambda>y. if x = y then n else count_of xs y)"
39302
d7728f65b353 renamed lemmas: ext_iff -> fun_eq_iff, set_ext_iff -> set_eq_iff, set_ext -> set_eqI
nipkow
parents: 39301
diff changeset
  1271
  by (simp_all add: count_of_def fun_eq_iff)
34943
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
  1272
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
  1273
lemma count_of_empty:
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
  1274
  "x \<notin> fst ` set xs \<Longrightarrow> count_of xs x = 0"
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
  1275
  by (induct xs) (simp_all add: count_of_def)
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
  1276
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
  1277
lemma count_of_filter:
46168
bef8c811df20 improving code generation for multisets; adding exhaustive quickcheck generators for multisets
bulwahn
parents: 45989
diff changeset
  1278
  "count_of (List.filter (P \<circ> fst) xs) x = (if P x then count_of xs x else 0)"
34943
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
  1279
  by (induct xs) auto
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
  1280
46168
bef8c811df20 improving code generation for multisets; adding exhaustive quickcheck generators for multisets
bulwahn
parents: 45989
diff changeset
  1281
lemma count_of_map_default [simp]:
bef8c811df20 improving code generation for multisets; adding exhaustive quickcheck generators for multisets
bulwahn
parents: 45989
diff changeset
  1282
  "count_of (map_default x b (%x. x + b) xs) y = (if x = y then count_of xs x + b else count_of xs y)"
bef8c811df20 improving code generation for multisets; adding exhaustive quickcheck generators for multisets
bulwahn
parents: 45989
diff changeset
  1283
unfolding count_of_def by (simp add: map_of_map_default split: option.split)
bef8c811df20 improving code generation for multisets; adding exhaustive quickcheck generators for multisets
bulwahn
parents: 45989
diff changeset
  1284
bef8c811df20 improving code generation for multisets; adding exhaustive quickcheck generators for multisets
bulwahn
parents: 45989
diff changeset
  1285
lemma count_of_join_raw:
bef8c811df20 improving code generation for multisets; adding exhaustive quickcheck generators for multisets
bulwahn
parents: 45989
diff changeset
  1286
  "distinct (map fst ys) ==> count_of xs x + count_of ys x = count_of (join_raw (%x (x, y). x + y) xs ys) x"
bef8c811df20 improving code generation for multisets; adding exhaustive quickcheck generators for multisets
bulwahn
parents: 45989
diff changeset
  1287
unfolding count_of_def by (simp add: map_of_join_raw split: option.split)
bef8c811df20 improving code generation for multisets; adding exhaustive quickcheck generators for multisets
bulwahn
parents: 45989
diff changeset
  1288
bef8c811df20 improving code generation for multisets; adding exhaustive quickcheck generators for multisets
bulwahn
parents: 45989
diff changeset
  1289
lemma count_of_subtract_entries_raw:
bef8c811df20 improving code generation for multisets; adding exhaustive quickcheck generators for multisets
bulwahn
parents: 45989
diff changeset
  1290
  "distinct (map fst ys) ==> count_of xs x - count_of ys x = count_of (subtract_entries_raw xs ys) x"
bef8c811df20 improving code generation for multisets; adding exhaustive quickcheck generators for multisets
bulwahn
parents: 45989
diff changeset
  1291
unfolding count_of_def by (simp add: map_of_subtract_entries_raw split: option.split)
bef8c811df20 improving code generation for multisets; adding exhaustive quickcheck generators for multisets
bulwahn
parents: 45989
diff changeset
  1292
bef8c811df20 improving code generation for multisets; adding exhaustive quickcheck generators for multisets
bulwahn
parents: 45989
diff changeset
  1293
text {* Code equations for multiset operations *}
bef8c811df20 improving code generation for multisets; adding exhaustive quickcheck generators for multisets
bulwahn
parents: 45989
diff changeset
  1294
bef8c811df20 improving code generation for multisets; adding exhaustive quickcheck generators for multisets
bulwahn
parents: 45989
diff changeset
  1295
definition Bag :: "('a, nat) alist \<Rightarrow> 'a multiset" where
46237
99c80c2f841a renamed theory AList to DAList
bulwahn
parents: 46168
diff changeset
  1296
  "Bag xs = Abs_multiset (count_of (DAList.impl_of xs))"
34943
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
  1297
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
  1298
code_datatype Bag
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
  1299
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
  1300
lemma count_Bag [simp, code]:
46237
99c80c2f841a renamed theory AList to DAList
bulwahn
parents: 46168
diff changeset
  1301
  "count (Bag xs) = count_of (DAList.impl_of xs)"
34943
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
  1302
  by (simp add: Bag_def count_of_multiset Abs_multiset_inverse)
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
  1303
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
  1304
lemma Mempty_Bag [code]:
46394
68f973ffd763 improving code equations for multisets that violated the distinct AList abstraction
bulwahn
parents: 46238
diff changeset
  1305
  "{#} = Bag (DAList.empty)"
68f973ffd763 improving code equations for multisets that violated the distinct AList abstraction
bulwahn
parents: 46238
diff changeset
  1306
  by (simp add: multiset_eq_iff alist.Alist_inverse DAList.empty_def)
47143
212f7a975d49 association lists with distinct keys uses the quotient infrastructure to obtain code certificates;
bulwahn
parents: 46921
diff changeset
  1307
34943
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
  1308
lemma single_Bag [code]:
46394
68f973ffd763 improving code equations for multisets that violated the distinct AList abstraction
bulwahn
parents: 46238
diff changeset
  1309
  "{#x#} = Bag (DAList.update x 1 DAList.empty)"
47198
cfd8ff62eab1 use qualified names for rsp and rep_eq theorems in quotient_def
kuncar
parents: 47179
diff changeset
  1310
  by (simp add: multiset_eq_iff alist.Alist_inverse update.rep_eq empty.rep_eq)
46168
bef8c811df20 improving code generation for multisets; adding exhaustive quickcheck generators for multisets
bulwahn
parents: 45989
diff changeset
  1311
bef8c811df20 improving code generation for multisets; adding exhaustive quickcheck generators for multisets
bulwahn
parents: 45989
diff changeset
  1312
lemma union_Bag [code]:
bef8c811df20 improving code generation for multisets; adding exhaustive quickcheck generators for multisets
bulwahn
parents: 45989
diff changeset
  1313
  "Bag xs + Bag ys = Bag (join (\<lambda>x (n1, n2). n1 + n2) xs ys)"
bef8c811df20 improving code generation for multisets; adding exhaustive quickcheck generators for multisets
bulwahn
parents: 45989
diff changeset
  1314
by (rule multiset_eqI) (simp add: count_of_join_raw alist.Alist_inverse distinct_join_raw join_def)
bef8c811df20 improving code generation for multisets; adding exhaustive quickcheck generators for multisets
bulwahn
parents: 45989
diff changeset
  1315
bef8c811df20 improving code generation for multisets; adding exhaustive quickcheck generators for multisets
bulwahn
parents: 45989
diff changeset
  1316
lemma minus_Bag [code]:
bef8c811df20 improving code generation for multisets; adding exhaustive quickcheck generators for multisets
bulwahn
parents: 45989
diff changeset
  1317
  "Bag xs - Bag ys = Bag (subtract_entries xs ys)"
bef8c811df20 improving code generation for multisets; adding exhaustive quickcheck generators for multisets
bulwahn
parents: 45989
diff changeset
  1318
by (rule multiset_eqI)
bef8c811df20 improving code generation for multisets; adding exhaustive quickcheck generators for multisets
bulwahn
parents: 45989
diff changeset
  1319
  (simp add: count_of_subtract_entries_raw alist.Alist_inverse distinct_subtract_entries_raw subtract_entries_def)
34943
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
  1320
41069
6fabc0414055 name filter operation just filter (c.f. List.filter and list comprehension syntax)
haftmann
parents: 40968
diff changeset
  1321
lemma filter_Bag [code]:
46237
99c80c2f841a renamed theory AList to DAList
bulwahn
parents: 46168
diff changeset
  1322
  "Multiset.filter P (Bag xs) = Bag (DAList.filter (P \<circ> fst) xs)"
47429
ec64d94cbf9c multiset operations are defined with lift_definitions;
bulwahn
parents: 47308
diff changeset
  1323
by (rule multiset_eqI) (simp add: count_of_filter DAList.filter.rep_eq)
34943
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
  1324
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
  1325
lemma mset_less_eq_Bag [code]:
46237
99c80c2f841a renamed theory AList to DAList
bulwahn
parents: 46168
diff changeset
  1326
  "Bag xs \<le> A \<longleftrightarrow> (\<forall>(x, n) \<in> set (DAList.impl_of xs). count_of (DAList.impl_of xs) x \<le> count A x)"
34943
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
  1327
    (is "?lhs \<longleftrightarrow> ?rhs")
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
  1328
proof
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
  1329
  assume ?lhs then show ?rhs
46730
e3b99d0231bc tuned proofs;
wenzelm
parents: 46394
diff changeset
  1330
    by (auto simp add: mset_le_def)
34943
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
  1331
next
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
  1332
  assume ?rhs
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
  1333
  show ?lhs
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
  1334
  proof (rule mset_less_eqI)
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
  1335
    fix x
46237
99c80c2f841a renamed theory AList to DAList
bulwahn
parents: 46168
diff changeset
  1336
    from `?rhs` have "count_of (DAList.impl_of xs) x \<le> count A x"
99c80c2f841a renamed theory AList to DAList
bulwahn
parents: 46168
diff changeset
  1337
      by (cases "x \<in> fst ` set (DAList.impl_of xs)") (auto simp add: count_of_empty)
34943
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
  1338
    then show "count (Bag xs) x \<le> count A x"
46730
e3b99d0231bc tuned proofs;
wenzelm
parents: 46394
diff changeset
  1339
      by (simp add: mset_le_def)
34943
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
  1340
  qed
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
  1341
qed
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
  1342
38857
97775f3e8722 renamed class/constant eq to equal; tuned some instantiations
haftmann
parents: 38287
diff changeset
  1343
instantiation multiset :: (equal) equal
34943
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
  1344
begin
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
  1345
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
  1346
definition
45866
e62b319c7696 adding code attribute to enable evaluation of equality on multisets
bulwahn
parents: 45694
diff changeset
  1347
  [code]: "HOL.equal A B \<longleftrightarrow> (A::'a multiset) \<le> B \<and> B \<le> A"
34943
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
  1348
46921
aa862ff8a8a9 some proof indentation;
wenzelm
parents: 46756
diff changeset
  1349
instance
aa862ff8a8a9 some proof indentation;
wenzelm
parents: 46756
diff changeset
  1350
  by default (simp add: equal_multiset_def eq_iff)
34943
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
  1351
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
  1352
end
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
  1353
46168
bef8c811df20 improving code generation for multisets; adding exhaustive quickcheck generators for multisets
bulwahn
parents: 45989
diff changeset
  1354
text {* Quickcheck generators *}
38857
97775f3e8722 renamed class/constant eq to equal; tuned some instantiations
haftmann
parents: 38287
diff changeset
  1355
34943
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
  1356
definition (in term_syntax)
46168
bef8c811df20 improving code generation for multisets; adding exhaustive quickcheck generators for multisets
bulwahn
parents: 45989
diff changeset
  1357
  bagify :: "('a\<Colon>typerep, nat) alist \<times> (unit \<Rightarrow> Code_Evaluation.term)
34943
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
  1358
    \<Rightarrow> 'a multiset \<times> (unit \<Rightarrow> Code_Evaluation.term)" where
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
  1359
  [code_unfold]: "bagify xs = Code_Evaluation.valtermify Bag {\<cdot>} xs"
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
  1360
37751
89e16802b6cc nicer xsymbol syntax for fcomp and scomp
haftmann
parents: 37261
diff changeset
  1361
notation fcomp (infixl "\<circ>>" 60)
89e16802b6cc nicer xsymbol syntax for fcomp and scomp
haftmann
parents: 37261
diff changeset
  1362
notation scomp (infixl "\<circ>\<rightarrow>" 60)
34943
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
  1363
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
  1364
instantiation multiset :: (random) random
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
  1365
begin
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
  1366
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
  1367
definition
37751
89e16802b6cc nicer xsymbol syntax for fcomp and scomp
haftmann
parents: 37261
diff changeset
  1368
  "Quickcheck.random i = Quickcheck.random i \<circ>\<rightarrow> (\<lambda>xs. Pair (bagify xs))"
34943
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
  1369
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
  1370
instance ..
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
  1371
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
  1372
end
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
  1373
37751
89e16802b6cc nicer xsymbol syntax for fcomp and scomp
haftmann
parents: 37261
diff changeset
  1374
no_notation fcomp (infixl "\<circ>>" 60)
89e16802b6cc nicer xsymbol syntax for fcomp and scomp
haftmann
parents: 37261
diff changeset
  1375
no_notation scomp (infixl "\<circ>\<rightarrow>" 60)
34943
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
  1376
46168
bef8c811df20 improving code generation for multisets; adding exhaustive quickcheck generators for multisets
bulwahn
parents: 45989
diff changeset
  1377
instantiation multiset :: (exhaustive) exhaustive
bef8c811df20 improving code generation for multisets; adding exhaustive quickcheck generators for multisets
bulwahn
parents: 45989
diff changeset
  1378
begin
bef8c811df20 improving code generation for multisets; adding exhaustive quickcheck generators for multisets
bulwahn
parents: 45989
diff changeset
  1379
bef8c811df20 improving code generation for multisets; adding exhaustive quickcheck generators for multisets
bulwahn
parents: 45989
diff changeset
  1380
definition exhaustive_multiset :: "('a multiset => (bool * term list) option) => code_numeral => (bool * term list) option"
bef8c811df20 improving code generation for multisets; adding exhaustive quickcheck generators for multisets
bulwahn
parents: 45989
diff changeset
  1381
where
bef8c811df20 improving code generation for multisets; adding exhaustive quickcheck generators for multisets
bulwahn
parents: 45989
diff changeset
  1382
  "exhaustive_multiset f i = Quickcheck_Exhaustive.exhaustive (%xs. f (Bag xs)) i"
bef8c811df20 improving code generation for multisets; adding exhaustive quickcheck generators for multisets
bulwahn
parents: 45989
diff changeset
  1383
bef8c811df20 improving code generation for multisets; adding exhaustive quickcheck generators for multisets
bulwahn
parents: 45989
diff changeset
  1384
instance ..
bef8c811df20 improving code generation for multisets; adding exhaustive quickcheck generators for multisets
bulwahn
parents: 45989
diff changeset
  1385
bef8c811df20 improving code generation for multisets; adding exhaustive quickcheck generators for multisets
bulwahn
parents: 45989
diff changeset
  1386
end
bef8c811df20 improving code generation for multisets; adding exhaustive quickcheck generators for multisets
bulwahn
parents: 45989
diff changeset
  1387
bef8c811df20 improving code generation for multisets; adding exhaustive quickcheck generators for multisets
bulwahn
parents: 45989
diff changeset
  1388
instantiation multiset :: (full_exhaustive) full_exhaustive
bef8c811df20 improving code generation for multisets; adding exhaustive quickcheck generators for multisets
bulwahn
parents: 45989
diff changeset
  1389
begin
bef8c811df20 improving code generation for multisets; adding exhaustive quickcheck generators for multisets
bulwahn
parents: 45989
diff changeset
  1390
bef8c811df20 improving code generation for multisets; adding exhaustive quickcheck generators for multisets
bulwahn
parents: 45989
diff changeset
  1391
definition full_exhaustive_multiset :: "('a multiset * (unit => term) => (bool * term list) option) => code_numeral => (bool * term list) option"
bef8c811df20 improving code generation for multisets; adding exhaustive quickcheck generators for multisets
bulwahn
parents: 45989
diff changeset
  1392
where
bef8c811df20 improving code generation for multisets; adding exhaustive quickcheck generators for multisets
bulwahn
parents: 45989
diff changeset
  1393
  "full_exhaustive_multiset f i = Quickcheck_Exhaustive.full_exhaustive (%xs. f (bagify xs)) i"
bef8c811df20 improving code generation for multisets; adding exhaustive quickcheck generators for multisets
bulwahn
parents: 45989
diff changeset
  1394
bef8c811df20 improving code generation for multisets; adding exhaustive quickcheck generators for multisets
bulwahn
parents: 45989
diff changeset
  1395
instance ..
bef8c811df20 improving code generation for multisets; adding exhaustive quickcheck generators for multisets
bulwahn
parents: 45989
diff changeset
  1396
bef8c811df20 improving code generation for multisets; adding exhaustive quickcheck generators for multisets
bulwahn
parents: 45989
diff changeset
  1397
end
bef8c811df20 improving code generation for multisets; adding exhaustive quickcheck generators for multisets
bulwahn
parents: 45989
diff changeset
  1398
36176
3fe7e97ccca8 replaced generic 'hide' command by more conventional 'hide_class', 'hide_type', 'hide_const', 'hide_fact' -- frees some popular keywords;
wenzelm
parents: 35712
diff changeset
  1399
hide_const (open) bagify
34943
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
  1400
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
  1401
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
  1402
subsection {* The multiset order *}
10249
e4d13d8a9011 Multisets (from HOL/Induct/Multiset and friends);
wenzelm
parents:
diff changeset
  1403
e4d13d8a9011 Multisets (from HOL/Induct/Multiset and friends);
wenzelm
parents:
diff changeset
  1404
subsubsection {* Well-foundedness *}
e4d13d8a9011 Multisets (from HOL/Induct/Multiset and friends);
wenzelm
parents:
diff changeset
  1405
28708
a1a436f09ec6 explicit check for pattern discipline before code translation
haftmann
parents: 28562
diff changeset
  1406
definition mult1 :: "('a \<times> 'a) set => ('a multiset \<times> 'a multiset) set" where
37765
26bdfb7b680b dropped superfluous [code del]s
haftmann
parents: 37751
diff changeset
  1407
  "mult1 r = {(N, M). \<exists>a M0 K. M = M0 + {#a#} \<and> N = M0 + K \<and>
23751
a7c7edf2c5ad Restored set notation.
berghofe
parents: 23611
diff changeset
  1408
      (\<forall>b. b :# K --> (b, a) \<in> r)}"
10249
e4d13d8a9011 Multisets (from HOL/Induct/Multiset and friends);
wenzelm
parents:
diff changeset
  1409
28708
a1a436f09ec6 explicit check for pattern discipline before code translation
haftmann
parents: 28562
diff changeset
  1410
definition mult :: "('a \<times> 'a) set => ('a multiset \<times> 'a multiset) set" where
37765
26bdfb7b680b dropped superfluous [code del]s
haftmann
parents: 37751
diff changeset
  1411
  "mult r = (mult1 r)\<^sup>+"
10249
e4d13d8a9011 Multisets (from HOL/Induct/Multiset and friends);
wenzelm
parents:
diff changeset
  1412
23751
a7c7edf2c5ad Restored set notation.
berghofe
parents: 23611
diff changeset
  1413
lemma not_less_empty [iff]: "(M, {#}) \<notin> mult1 r"
26178
nipkow
parents: 26176
diff changeset
  1414
by (simp add: mult1_def)
10249
e4d13d8a9011 Multisets (from HOL/Induct/Multiset and friends);
wenzelm
parents:
diff changeset
  1415
23751
a7c7edf2c5ad Restored set notation.
berghofe
parents: 23611
diff changeset
  1416
lemma less_add: "(N, M0 + {#a#}) \<in> mult1 r ==>
a7c7edf2c5ad Restored set notation.
berghofe
parents: 23611
diff changeset
  1417
    (\<exists>M. (M, M0) \<in> mult1 r \<and> N = M + {#a#}) \<or>
a7c7edf2c5ad Restored set notation.
berghofe
parents: 23611
diff changeset
  1418
    (\<exists>K. (\<forall>b. b :# K --> (b, a) \<in> r) \<and> N = M0 + K)"
19582
a669c98b9c24 get rid of 'concl is';
wenzelm
parents: 19564
diff changeset
  1419
  (is "_ \<Longrightarrow> ?case1 (mult1 r) \<or> ?case2")
10249
e4d13d8a9011 Multisets (from HOL/Induct/Multiset and friends);
wenzelm
parents:
diff changeset
  1420
proof (unfold mult1_def)
23751
a7c7edf2c5ad Restored set notation.
berghofe
parents: 23611
diff changeset
  1421
  let ?r = "\<lambda>K a. \<forall>b. b :# K --> (b, a) \<in> r"
11464
ddea204de5bc turned translation for 1::nat into def.
nipkow
parents: 10714
diff changeset
  1422
  let ?R = "\<lambda>N M. \<exists>a M0 K. M = M0 + {#a#} \<and> N = M0 + K \<and> ?r K a"
23751
a7c7edf2c5ad Restored set notation.
berghofe
parents: 23611
diff changeset
  1423
  let ?case1 = "?case1 {(N, M). ?R N M}"
10249
e4d13d8a9011 Multisets (from HOL/Induct/Multiset and friends);
wenzelm
parents:
diff changeset
  1424
23751
a7c7edf2c5ad Restored set notation.
berghofe
parents: 23611
diff changeset
  1425
  assume "(N, M0 + {#a#}) \<in> {(N, M). ?R N M}"
18258
836491e9b7d5 tuned induct proofs;
wenzelm
parents: 17778
diff changeset
  1426
  then have "\<exists>a' M0' K.
11464
ddea204de5bc turned translation for 1::nat into def.
nipkow
parents: 10714
diff changeset
  1427
      M0 + {#a#} = M0' + {#a'#} \<and> N = M0' + K \<and> ?r K a'" by simp
18258
836491e9b7d5 tuned induct proofs;
wenzelm
parents: 17778
diff changeset
  1428
  then show "?case1 \<or> ?case2"
10249
e4d13d8a9011 Multisets (from HOL/Induct/Multiset and friends);
wenzelm
parents:
diff changeset
  1429
  proof (elim exE conjE)
e4d13d8a9011 Multisets (from HOL/Induct/Multiset and friends);
wenzelm
parents:
diff changeset
  1430
    fix a' M0' K
e4d13d8a9011 Multisets (from HOL/Induct/Multiset and friends);
wenzelm
parents:
diff changeset
  1431
    assume N: "N = M0' + K" and r: "?r K a'"
e4d13d8a9011 Multisets (from HOL/Induct/Multiset and friends);
wenzelm
parents:
diff changeset
  1432
    assume "M0 + {#a#} = M0' + {#a'#}"
18258
836491e9b7d5 tuned induct proofs;
wenzelm
parents: 17778
diff changeset
  1433
    then have "M0 = M0' \<and> a = a' \<or>
11464
ddea204de5bc turned translation for 1::nat into def.
nipkow
parents: 10714
diff changeset
  1434
        (\<exists>K'. M0 = K' + {#a'#} \<and> M0' = K' + {#a#})"
10249
e4d13d8a9011 Multisets (from HOL/Induct/Multiset and friends);
wenzelm
parents:
diff changeset
  1435
      by (simp only: add_eq_conv_ex)
18258
836491e9b7d5 tuned induct proofs;
wenzelm
parents: 17778
diff changeset
  1436
    then show ?thesis
10249
e4d13d8a9011 Multisets (from HOL/Induct/Multiset and friends);
wenzelm
parents:
diff changeset
  1437
    proof (elim disjE conjE exE)
e4d13d8a9011 Multisets (from HOL/Induct/Multiset and friends);
wenzelm
parents:
diff changeset
  1438
      assume "M0 = M0'" "a = a'"
11464
ddea204de5bc turned translation for 1::nat into def.
nipkow
parents: 10714
diff changeset
  1439
      with N r have "?r K a \<and> N = M0 + K" by simp
18258
836491e9b7d5 tuned induct proofs;
wenzelm
parents: 17778
diff changeset
  1440
      then have ?case2 .. then show ?thesis ..
10249
e4d13d8a9011 Multisets (from HOL/Induct/Multiset and friends);
wenzelm
parents:
diff changeset
  1441
    next
e4d13d8a9011 Multisets (from HOL/Induct/Multiset and friends);
wenzelm
parents:
diff changeset
  1442
      fix K'
e4d13d8a9011 Multisets (from HOL/Induct/Multiset and friends);
wenzelm
parents:
diff changeset
  1443
      assume "M0' = K' + {#a#}"
34943
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
  1444
      with N have n: "N = K' + K + {#a#}" by (simp add: add_ac)
10249
e4d13d8a9011 Multisets (from HOL/Induct/Multiset and friends);
wenzelm
parents:
diff changeset
  1445
e4d13d8a9011 Multisets (from HOL/Induct/Multiset and friends);
wenzelm
parents:
diff changeset
  1446
      assume "M0 = K' + {#a'#}"
e4d13d8a9011 Multisets (from HOL/Induct/Multiset and friends);
wenzelm
parents:
diff changeset
  1447
      with r have "?R (K' + K) M0" by blast
18258
836491e9b7d5 tuned induct proofs;
wenzelm
parents: 17778
diff changeset
  1448
      with n have ?case1 by simp then show ?thesis ..
10249
e4d13d8a9011 Multisets (from HOL/Induct/Multiset and friends);
wenzelm
parents:
diff changeset
  1449
    qed
e4d13d8a9011 Multisets (from HOL/Induct/Multiset and friends);
wenzelm
parents:
diff changeset
  1450
  qed
e4d13d8a9011 Multisets (from HOL/Induct/Multiset and friends);
wenzelm
parents:
diff changeset
  1451
qed
e4d13d8a9011 Multisets (from HOL/Induct/Multiset and friends);
wenzelm
parents:
diff changeset
  1452
23751
a7c7edf2c5ad Restored set notation.
berghofe
parents: 23611
diff changeset
  1453
lemma all_accessible: "wf r ==> \<forall>M. M \<in> acc (mult1 r)"
10249
e4d13d8a9011 Multisets (from HOL/Induct/Multiset and friends);
wenzelm
parents:
diff changeset
  1454
proof
e4d13d8a9011 Multisets (from HOL/Induct/Multiset and friends);
wenzelm
parents:
diff changeset
  1455
  let ?R = "mult1 r"
e4d13d8a9011 Multisets (from HOL/Induct/Multiset and friends);
wenzelm
parents:
diff changeset
  1456
  let ?W = "acc ?R"
e4d13d8a9011 Multisets (from HOL/Induct/Multiset and friends);
wenzelm
parents:
diff changeset
  1457
  {
e4d13d8a9011 Multisets (from HOL/Induct/Multiset and friends);
wenzelm
parents:
diff changeset
  1458
    fix M M0 a
23751
a7c7edf2c5ad Restored set notation.
berghofe
parents: 23611
diff changeset
  1459
    assume M0: "M0 \<in> ?W"
a7c7edf2c5ad Restored set notation.
berghofe
parents: 23611
diff changeset
  1460
      and wf_hyp: "!!b. (b, a) \<in> r ==> (\<forall>M \<in> ?W. M + {#b#} \<in> ?W)"
a7c7edf2c5ad Restored set notation.
berghofe
parents: 23611
diff changeset
  1461
      and acc_hyp: "\<forall>M. (M, M0) \<in> ?R --> M + {#a#} \<in> ?W"
a7c7edf2c5ad Restored set notation.
berghofe
parents: 23611
diff changeset
  1462
    have "M0 + {#a#} \<in> ?W"
a7c7edf2c5ad Restored set notation.
berghofe
parents: 23611
diff changeset
  1463
    proof (rule accI [of "M0 + {#a#}"])
10249
e4d13d8a9011 Multisets (from HOL/Induct/Multiset and friends);
wenzelm
parents:
diff changeset
  1464
      fix N
23751
a7c7edf2c5ad Restored set notation.
berghofe
parents: 23611
diff changeset
  1465
      assume "(N, M0 + {#a#}) \<in> ?R"
a7c7edf2c5ad Restored set notation.
berghofe
parents: 23611
diff changeset
  1466
      then have "((\<exists>M. (M, M0) \<in> ?R \<and> N = M + {#a#}) \<or>
a7c7edf2c5ad Restored set notation.
berghofe
parents: 23611
diff changeset
  1467
          (\<exists>K. (\<forall>b. b :# K --> (b, a) \<in> r) \<and> N = M0 + K))"
10249
e4d13d8a9011 Multisets (from HOL/Induct/Multiset and friends);
wenzelm
parents:
diff changeset
  1468
        by (rule less_add)
23751
a7c7edf2c5ad Restored set notation.
berghofe
parents: 23611
diff changeset
  1469
      then show "N \<in> ?W"
10249
e4d13d8a9011 Multisets (from HOL/Induct/Multiset and friends);
wenzelm
parents:
diff changeset
  1470
      proof (elim exE disjE conjE)
23751
a7c7edf2c5ad Restored set notation.
berghofe
parents: 23611
diff changeset
  1471
        fix M assume "(M, M0) \<in> ?R" and N: "N = M + {#a#}"
a7c7edf2c5ad Restored set notation.
berghofe
parents: 23611
diff changeset
  1472
        from acc_hyp have "(M, M0) \<in> ?R --> M + {#a#} \<in> ?W" ..
a7c7edf2c5ad Restored set notation.
berghofe
parents: 23611
diff changeset
  1473
        from this and `(M, M0) \<in> ?R` have "M + {#a#} \<in> ?W" ..
a7c7edf2c5ad Restored set notation.
berghofe
parents: 23611
diff changeset
  1474
        then show "N \<in> ?W" by (simp only: N)
10249
e4d13d8a9011 Multisets (from HOL/Induct/Multiset and friends);
wenzelm
parents:
diff changeset
  1475
      next
e4d13d8a9011 Multisets (from HOL/Induct/Multiset and friends);
wenzelm
parents:
diff changeset
  1476
        fix K
e4d13d8a9011 Multisets (from HOL/Induct/Multiset and friends);
wenzelm
parents:
diff changeset
  1477
        assume N: "N = M0 + K"
23751
a7c7edf2c5ad Restored set notation.
berghofe
parents: 23611
diff changeset
  1478
        assume "\<forall>b. b :# K --> (b, a) \<in> r"
a7c7edf2c5ad Restored set notation.
berghofe
parents: 23611
diff changeset
  1479
        then have "M0 + K \<in> ?W"
10249
e4d13d8a9011 Multisets (from HOL/Induct/Multiset and friends);
wenzelm
parents:
diff changeset
  1480
        proof (induct K)
18730
843da46f89ac tuned proofs;
wenzelm
parents: 18258
diff changeset
  1481
          case empty
23751
a7c7edf2c5ad Restored set notation.
berghofe
parents: 23611
diff changeset
  1482
          from M0 show "M0 + {#} \<in> ?W" by simp
18730
843da46f89ac tuned proofs;
wenzelm
parents: 18258
diff changeset
  1483
        next
843da46f89ac tuned proofs;
wenzelm
parents: 18258
diff changeset
  1484
          case (add K x)
23751
a7c7edf2c5ad Restored set notation.
berghofe
parents: 23611
diff changeset
  1485
          from add.prems have "(x, a) \<in> r" by simp
a7c7edf2c5ad Restored set notation.
berghofe
parents: 23611
diff changeset
  1486
          with wf_hyp have "\<forall>M \<in> ?W. M + {#x#} \<in> ?W" by blast
a7c7edf2c5ad Restored set notation.
berghofe
parents: 23611
diff changeset
  1487
          moreover from add have "M0 + K \<in> ?W" by simp
a7c7edf2c5ad Restored set notation.
berghofe
parents: 23611
diff changeset
  1488
          ultimately have "(M0 + K) + {#x#} \<in> ?W" ..
34943
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
  1489
          then show "M0 + (K + {#x#}) \<in> ?W" by (simp only: add_assoc)
10249
e4d13d8a9011 Multisets (from HOL/Induct/Multiset and friends);
wenzelm
parents:
diff changeset
  1490
        qed
23751
a7c7edf2c5ad Restored set notation.
berghofe
parents: 23611
diff changeset
  1491
        then show "N \<in> ?W" by (simp only: N)
10249
e4d13d8a9011 Multisets (from HOL/Induct/Multiset and friends);
wenzelm
parents:
diff changeset
  1492
      qed
e4d13d8a9011 Multisets (from HOL/Induct/Multiset and friends);
wenzelm
parents:
diff changeset
  1493
    qed
e4d13d8a9011 Multisets (from HOL/Induct/Multiset and friends);
wenzelm
parents:
diff changeset
  1494
  } note tedious_reasoning = this
e4d13d8a9011 Multisets (from HOL/Induct/Multiset and friends);
wenzelm
parents:
diff changeset
  1495
23751
a7c7edf2c5ad Restored set notation.
berghofe
parents: 23611
diff changeset
  1496
  assume wf: "wf r"
10249
e4d13d8a9011 Multisets (from HOL/Induct/Multiset and friends);
wenzelm
parents:
diff changeset
  1497
  fix M
23751
a7c7edf2c5ad Restored set notation.
berghofe
parents: 23611
diff changeset
  1498
  show "M \<in> ?W"
10249
e4d13d8a9011 Multisets (from HOL/Induct/Multiset and friends);
wenzelm
parents:
diff changeset
  1499
  proof (induct M)
23751
a7c7edf2c5ad Restored set notation.
berghofe
parents: 23611
diff changeset
  1500
    show "{#} \<in> ?W"
10249
e4d13d8a9011 Multisets (from HOL/Induct/Multiset and friends);
wenzelm
parents:
diff changeset
  1501
    proof (rule accI)
23751
a7c7edf2c5ad Restored set notation.
berghofe
parents: 23611
diff changeset
  1502
      fix b assume "(b, {#}) \<in> ?R"
a7c7edf2c5ad Restored set notation.
berghofe
parents: 23611
diff changeset
  1503
      with not_less_empty show "b \<in> ?W" by contradiction
10249
e4d13d8a9011 Multisets (from HOL/Induct/Multiset and friends);
wenzelm
parents:
diff changeset
  1504
    qed
e4d13d8a9011 Multisets (from HOL/Induct/Multiset and friends);
wenzelm
parents:
diff changeset
  1505
23751
a7c7edf2c5ad Restored set notation.
berghofe
parents: 23611
diff changeset
  1506
    fix M a assume "M \<in> ?W"
a7c7edf2c5ad Restored set notation.
berghofe
parents: 23611
diff changeset
  1507
    from wf have "\<forall>M \<in> ?W. M + {#a#} \<in> ?W"
10249
e4d13d8a9011 Multisets (from HOL/Induct/Multiset and friends);
wenzelm
parents:
diff changeset
  1508
    proof induct
e4d13d8a9011 Multisets (from HOL/Induct/Multiset and friends);
wenzelm
parents:
diff changeset
  1509
      fix a
23751
a7c7edf2c5ad Restored set notation.
berghofe
parents: 23611
diff changeset
  1510
      assume r: "!!b. (b, a) \<in> r ==> (\<forall>M \<in> ?W. M + {#b#} \<in> ?W)"
a7c7edf2c5ad Restored set notation.
berghofe
parents: 23611
diff changeset
  1511
      show "\<forall>M \<in> ?W. M + {#a#} \<in> ?W"
10249
e4d13d8a9011 Multisets (from HOL/Induct/Multiset and friends);
wenzelm
parents:
diff changeset
  1512
      proof
23751
a7c7edf2c5ad Restored set notation.
berghofe
parents: 23611
diff changeset
  1513
        fix M assume "M \<in> ?W"
a7c7edf2c5ad Restored set notation.
berghofe
parents: 23611
diff changeset
  1514
        then show "M + {#a#} \<in> ?W"
23373
ead82c82da9e tuned proofs: avoid implicit prems;
wenzelm
parents: 23281
diff changeset
  1515
          by (rule acc_induct) (rule tedious_reasoning [OF _ r])
10249
e4d13d8a9011 Multisets (from HOL/Induct/Multiset and friends);
wenzelm
parents:
diff changeset
  1516
      qed
e4d13d8a9011 Multisets (from HOL/Induct/Multiset and friends);
wenzelm
parents:
diff changeset
  1517
    qed
23751
a7c7edf2c5ad Restored set notation.
berghofe
parents: 23611
diff changeset
  1518
    from this and `M \<in> ?W` show "M + {#a#} \<in> ?W" ..
10249
e4d13d8a9011 Multisets (from HOL/Induct/Multiset and friends);
wenzelm
parents:
diff changeset
  1519
  qed
e4d13d8a9011 Multisets (from HOL/Induct/Multiset and friends);
wenzelm
parents:
diff changeset
  1520
qed
e4d13d8a9011 Multisets (from HOL/Induct/Multiset and friends);
wenzelm
parents:
diff changeset
  1521
23751
a7c7edf2c5ad Restored set notation.
berghofe
parents: 23611
diff changeset
  1522
theorem wf_mult1: "wf r ==> wf (mult1 r)"
26178
nipkow
parents: 26176
diff changeset
  1523
by (rule acc_wfI) (rule all_accessible)
10249
e4d13d8a9011 Multisets (from HOL/Induct/Multiset and friends);
wenzelm
parents:
diff changeset
  1524
23751
a7c7edf2c5ad Restored set notation.
berghofe
parents: 23611
diff changeset
  1525
theorem wf_mult: "wf r ==> wf (mult r)"
26178
nipkow
parents: 26176
diff changeset
  1526
unfolding mult_def by (rule wf_trancl) (rule wf_mult1)
10249
e4d13d8a9011 Multisets (from HOL/Induct/Multiset and friends);
wenzelm
parents:
diff changeset
  1527
e4d13d8a9011 Multisets (from HOL/Induct/Multiset and friends);
wenzelm
parents:
diff changeset
  1528
e4d13d8a9011 Multisets (from HOL/Induct/Multiset and friends);
wenzelm
parents:
diff changeset
  1529
subsubsection {* Closure-free presentation *}
e4d13d8a9011 Multisets (from HOL/Induct/Multiset and friends);
wenzelm
parents:
diff changeset
  1530
e4d13d8a9011 Multisets (from HOL/Induct/Multiset and friends);
wenzelm
parents:
diff changeset
  1531
text {* One direction. *}
e4d13d8a9011 Multisets (from HOL/Induct/Multiset and friends);
wenzelm
parents:
diff changeset
  1532
e4d13d8a9011 Multisets (from HOL/Induct/Multiset and friends);
wenzelm
parents:
diff changeset
  1533
lemma mult_implies_one_step:
23751
a7c7edf2c5ad Restored set notation.
berghofe
parents: 23611
diff changeset
  1534
  "trans r ==> (M, N) \<in> mult r ==>
11464
ddea204de5bc turned translation for 1::nat into def.
nipkow
parents: 10714
diff changeset
  1535
    \<exists>I J K. N = I + J \<and> M = I + K \<and> J \<noteq> {#} \<and>
23751
a7c7edf2c5ad Restored set notation.
berghofe
parents: 23611
diff changeset
  1536
    (\<forall>k \<in> set_of K. \<exists>j \<in> set_of J. (k, j) \<in> r)"
26178
nipkow
parents: 26176
diff changeset
  1537
apply (unfold mult_def mult1_def set_of_def)
nipkow
parents: 26176
diff changeset
  1538
apply (erule converse_trancl_induct, clarify)
nipkow
parents: 26176
diff changeset
  1539
 apply (rule_tac x = M0 in exI, simp, clarify)
nipkow
parents: 26176
diff changeset
  1540
apply (case_tac "a :# K")
nipkow
parents: 26176
diff changeset
  1541
 apply (rule_tac x = I in exI)
nipkow
parents: 26176
diff changeset
  1542
 apply (simp (no_asm))
nipkow
parents: 26176
diff changeset
  1543
 apply (rule_tac x = "(K - {#a#}) + Ka" in exI)
34943
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
  1544
 apply (simp (no_asm_simp) add: add_assoc [symmetric])
26178
nipkow
parents: 26176
diff changeset
  1545
 apply (drule_tac f = "\<lambda>M. M - {#a#}" in arg_cong)
nipkow
parents: 26176
diff changeset
  1546
 apply (simp add: diff_union_single_conv)
nipkow
parents: 26176
diff changeset
  1547
 apply (simp (no_asm_use) add: trans_def)
nipkow
parents: 26176
diff changeset
  1548
 apply blast
nipkow
parents: 26176
diff changeset
  1549
apply (subgoal_tac "a :# I")
nipkow
parents: 26176
diff changeset
  1550
 apply (rule_tac x = "I - {#a#}" in exI)
nipkow
parents: 26176
diff changeset
  1551
 apply (rule_tac x = "J + {#a#}" in exI)
nipkow
parents: 26176
diff changeset
  1552
 apply (rule_tac x = "K + Ka" in exI)
nipkow
parents: 26176
diff changeset
  1553
 apply (rule conjI)
39302
d7728f65b353 renamed lemmas: ext_iff -> fun_eq_iff, set_ext_iff -> set_eq_iff, set_ext -> set_eqI
nipkow
parents: 39301
diff changeset
  1554
  apply (simp add: multiset_eq_iff split: nat_diff_split)
26178
nipkow
parents: 26176
diff changeset
  1555
 apply (rule conjI)
nipkow
parents: 26176
diff changeset
  1556
  apply (drule_tac f = "\<lambda>M. M - {#a#}" in arg_cong, simp)
39302
d7728f65b353 renamed lemmas: ext_iff -> fun_eq_iff, set_ext_iff -> set_eq_iff, set_ext -> set_eqI
nipkow
parents: 39301
diff changeset
  1557
  apply (simp add: multiset_eq_iff split: nat_diff_split)
26178
nipkow
parents: 26176
diff changeset
  1558
 apply (simp (no_asm_use) add: trans_def)
nipkow
parents: 26176
diff changeset
  1559
 apply blast
nipkow
parents: 26176
diff changeset
  1560
apply (subgoal_tac "a :# (M0 + {#a#})")
nipkow
parents: 26176
diff changeset
  1561
 apply simp
nipkow
parents: 26176
diff changeset
  1562
apply (simp (no_asm))
nipkow
parents: 26176
diff changeset
  1563
done
10249
e4d13d8a9011 Multisets (from HOL/Induct/Multiset and friends);
wenzelm
parents:
diff changeset
  1564
e4d13d8a9011 Multisets (from HOL/Induct/Multiset and friends);
wenzelm
parents:
diff changeset
  1565
lemma one_step_implies_mult_aux:
23751
a7c7edf2c5ad Restored set notation.
berghofe
parents: 23611
diff changeset
  1566
  "trans r ==>
a7c7edf2c5ad Restored set notation.
berghofe
parents: 23611
diff changeset
  1567
    \<forall>I J K. (size J = n \<and> J \<noteq> {#} \<and> (\<forall>k \<in> set_of K. \<exists>j \<in> set_of J. (k, j) \<in> r))
a7c7edf2c5ad Restored set notation.
berghofe
parents: 23611
diff changeset
  1568
      --> (I + K, I + J) \<in> mult r"
26178
nipkow
parents: 26176
diff changeset
  1569
apply (induct_tac n, auto)
nipkow
parents: 26176
diff changeset
  1570
apply (frule size_eq_Suc_imp_eq_union, clarify)
nipkow
parents: 26176
diff changeset
  1571
apply (rename_tac "J'", simp)
nipkow
parents: 26176
diff changeset
  1572
apply (erule notE, auto)
nipkow
parents: 26176
diff changeset
  1573
apply (case_tac "J' = {#}")
nipkow
parents: 26176
diff changeset
  1574
 apply (simp add: mult_def)
nipkow
parents: 26176
diff changeset
  1575
 apply (rule r_into_trancl)
nipkow
parents: 26176
diff changeset
  1576
 apply (simp add: mult1_def set_of_def, blast)
nipkow
parents: 26176
diff changeset
  1577
txt {* Now we know @{term "J' \<noteq> {#}"}. *}
nipkow
parents: 26176
diff changeset
  1578
apply (cut_tac M = K and P = "\<lambda>x. (x, a) \<in> r" in multiset_partition)
nipkow
parents: 26176
diff changeset
  1579
apply (erule_tac P = "\<forall>k \<in> set_of K. ?P k" in rev_mp)
nipkow
parents: 26176
diff changeset
  1580
apply (erule ssubst)
nipkow
parents: 26176
diff changeset
  1581
apply (simp add: Ball_def, auto)
nipkow
parents: 26176
diff changeset
  1582
apply (subgoal_tac
nipkow
parents: 26176
diff changeset
  1583
  "((I + {# x :# K. (x, a) \<in> r #}) + {# x :# K. (x, a) \<notin> r #},
nipkow
parents: 26176
diff changeset
  1584
    (I + {# x :# K. (x, a) \<in> r #}) + J') \<in> mult r")
nipkow
parents: 26176
diff changeset
  1585
 prefer 2
nipkow
parents: 26176
diff changeset
  1586
 apply force
34943
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
  1587
apply (simp (no_asm_use) add: add_assoc [symmetric] mult_def)
26178
nipkow
parents: 26176
diff changeset
  1588
apply (erule trancl_trans)
nipkow
parents: 26176
diff changeset
  1589
apply (rule r_into_trancl)
nipkow
parents: 26176
diff changeset
  1590
apply (simp add: mult1_def set_of_def)
nipkow
parents: 26176
diff changeset
  1591
apply (rule_tac x = a in exI)
nipkow
parents: 26176
diff changeset
  1592
apply (rule_tac x = "I + J'" in exI)
34943
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
  1593
apply (simp add: add_ac)
26178
nipkow
parents: 26176
diff changeset
  1594
done
10249
e4d13d8a9011 Multisets (from HOL/Induct/Multiset and friends);
wenzelm
parents:
diff changeset
  1595
17161
57c69627d71a tuned some proofs;
wenzelm
parents: 15869
diff changeset
  1596
lemma one_step_implies_mult:
23751
a7c7edf2c5ad Restored set notation.
berghofe
parents: 23611
diff changeset
  1597
  "trans r ==> J \<noteq> {#} ==> \<forall>k \<in> set_of K. \<exists>j \<in> set_of J. (k, j) \<in> r
a7c7edf2c5ad Restored set notation.
berghofe
parents: 23611
diff changeset
  1598
    ==> (I + K, I + J) \<in> mult r"
26178
nipkow
parents: 26176
diff changeset
  1599
using one_step_implies_mult_aux by blast
10249
e4d13d8a9011 Multisets (from HOL/Induct/Multiset and friends);
wenzelm
parents:
diff changeset
  1600
e4d13d8a9011 Multisets (from HOL/Induct/Multiset and friends);
wenzelm
parents:
diff changeset
  1601
e4d13d8a9011 Multisets (from HOL/Induct/Multiset and friends);
wenzelm
parents:
diff changeset
  1602
subsubsection {* Partial-order properties *}
e4d13d8a9011 Multisets (from HOL/Induct/Multiset and friends);
wenzelm
parents:
diff changeset
  1603
35273
51692ec1b220 ascii syntax for multiset order
haftmann
parents: 35268
diff changeset
  1604
definition less_multiset :: "'a\<Colon>order multiset \<Rightarrow> 'a multiset \<Rightarrow> bool" (infix "<#" 50) where
51692ec1b220 ascii syntax for multiset order
haftmann
parents: 35268
diff changeset
  1605
  "M' <# M \<longleftrightarrow> (M', M) \<in> mult {(x', x). x' < x}"
10249
e4d13d8a9011 Multisets (from HOL/Induct/Multiset and friends);
wenzelm
parents:
diff changeset
  1606
35273
51692ec1b220 ascii syntax for multiset order
haftmann
parents: 35268
diff changeset
  1607
definition le_multiset :: "'a\<Colon>order multiset \<Rightarrow> 'a multiset \<Rightarrow> bool" (infix "<=#" 50) where
51692ec1b220 ascii syntax for multiset order
haftmann
parents: 35268
diff changeset
  1608
  "M' <=# M \<longleftrightarrow> M' <# M \<or> M' = M"
51692ec1b220 ascii syntax for multiset order
haftmann
parents: 35268
diff changeset
  1609
35308
359e0fd38a92 mind the "s"
haftmann
parents: 35273
diff changeset
  1610
notation (xsymbols) less_multiset (infix "\<subset>#" 50)
359e0fd38a92 mind the "s"
haftmann
parents: 35273
diff changeset
  1611
notation (xsymbols) le_multiset (infix "\<subseteq>#" 50)
10249
e4d13d8a9011 Multisets (from HOL/Induct/Multiset and friends);
wenzelm
parents:
diff changeset
  1612
35268
04673275441a switched notations for pointwise and multiset order
haftmann
parents: 35028
diff changeset
  1613
interpretation multiset_order: order le_multiset less_multiset
04673275441a switched notations for pointwise and multiset order
haftmann
parents: 35028
diff changeset
  1614
proof -
04673275441a switched notations for pointwise and multiset order
haftmann
parents: 35028
diff changeset
  1615
  have irrefl: "\<And>M :: 'a multiset. \<not> M \<subset># M"
04673275441a switched notations for pointwise and multiset order
haftmann
parents: 35028
diff changeset
  1616
  proof
04673275441a switched notations for pointwise and multiset order
haftmann
parents: 35028
diff changeset
  1617
    fix M :: "'a multiset"
04673275441a switched notations for pointwise and multiset order
haftmann
parents: 35028
diff changeset
  1618
    assume "M \<subset># M"
04673275441a switched notations for pointwise and multiset order
haftmann
parents: 35028
diff changeset
  1619
    then have MM: "(M, M) \<in> mult {(x, y). x < y}" by (simp add: less_multiset_def)
04673275441a switched notations for pointwise and multiset order
haftmann
parents: 35028
diff changeset
  1620
    have "trans {(x'::'a, x). x' < x}"
04673275441a switched notations for pointwise and multiset order
haftmann
parents: 35028
diff changeset
  1621
      by (rule transI) simp
04673275441a switched notations for pointwise and multiset order
haftmann
parents: 35028
diff changeset
  1622
    moreover note MM
04673275441a switched notations for pointwise and multiset order
haftmann
parents: 35028
diff changeset
  1623
    ultimately have "\<exists>I J K. M = I + J \<and> M = I + K
04673275441a switched notations for pointwise and multiset order
haftmann
parents: 35028
diff changeset
  1624
      \<and> J \<noteq> {#} \<and> (\<forall>k\<in>set_of K. \<exists>j\<in>set_of J. (k, j) \<in> {(x, y). x < y})"
04673275441a switched notations for pointwise and multiset order
haftmann
parents: 35028
diff changeset
  1625
      by (rule mult_implies_one_step)
04673275441a switched notations for pointwise and multiset order
haftmann
parents: 35028
diff changeset
  1626
    then obtain I J K where "M = I + J" and "M = I + K"
04673275441a switched notations for pointwise and multiset order
haftmann
parents: 35028
diff changeset
  1627
      and "J \<noteq> {#}" and "(\<forall>k\<in>set_of K. \<exists>j\<in>set_of J. (k, j) \<in> {(x, y). x < y})" by blast
04673275441a switched notations for pointwise and multiset order
haftmann
parents: 35028
diff changeset
  1628
    then have aux1: "K \<noteq> {#}" and aux2: "\<forall>k\<in>set_of K. \<exists>j\<in>set_of K. k < j" by auto
04673275441a switched notations for pointwise and multiset order
haftmann
parents: 35028
diff changeset
  1629
    have "finite (set_of K)" by simp
04673275441a switched notations for pointwise and multiset order
haftmann
parents: 35028
diff changeset
  1630
    moreover note aux2
04673275441a switched notations for pointwise and multiset order
haftmann
parents: 35028
diff changeset
  1631
    ultimately have "set_of K = {}"
04673275441a switched notations for pointwise and multiset order
haftmann
parents: 35028
diff changeset
  1632
      by (induct rule: finite_induct) (auto intro: order_less_trans)
04673275441a switched notations for pointwise and multiset order
haftmann
parents: 35028
diff changeset
  1633
    with aux1 show False by simp
04673275441a switched notations for pointwise and multiset order
haftmann
parents: 35028
diff changeset
  1634
  qed
04673275441a switched notations for pointwise and multiset order
haftmann
parents: 35028
diff changeset
  1635
  have trans: "\<And>K M N :: 'a multiset. K \<subset># M \<Longrightarrow> M \<subset># N \<Longrightarrow> K \<subset># N"
04673275441a switched notations for pointwise and multiset order
haftmann
parents: 35028
diff changeset
  1636
    unfolding less_multiset_def mult_def by (blast intro: trancl_trans)
46921
aa862ff8a8a9 some proof indentation;
wenzelm
parents: 46756
diff changeset
  1637
  show "class.order (le_multiset :: 'a multiset \<Rightarrow> _) less_multiset"
aa862ff8a8a9 some proof indentation;
wenzelm
parents: 46756
diff changeset
  1638
    by default (auto simp add: le_multiset_def irrefl dest: trans)
35268
04673275441a switched notations for pointwise and multiset order
haftmann
parents: 35028
diff changeset
  1639
qed
10249
e4d13d8a9011 Multisets (from HOL/Induct/Multiset and friends);
wenzelm
parents:
diff changeset
  1640
46730
e3b99d0231bc tuned proofs;
wenzelm
parents: 46394
diff changeset
  1641
lemma mult_less_irrefl [elim!]: "M \<subset># (M::'a::order multiset) ==> R"
e3b99d0231bc tuned proofs;
wenzelm
parents: 46394
diff changeset
  1642
  by simp
26567
7bcebb8c2d33 instantiation replacing primitive instance plus overloaded defs; more conservative type arities
haftmann
parents: 26178
diff changeset
  1643
10249
e4d13d8a9011 Multisets (from HOL/Induct/Multiset and friends);
wenzelm
parents:
diff changeset
  1644
e4d13d8a9011 Multisets (from HOL/Induct/Multiset and friends);
wenzelm
parents:
diff changeset
  1645
subsubsection {* Monotonicity of multiset union *}
e4d13d8a9011 Multisets (from HOL/Induct/Multiset and friends);
wenzelm
parents:
diff changeset
  1646
46730
e3b99d0231bc tuned proofs;
wenzelm
parents: 46394
diff changeset
  1647
lemma mult1_union: "(B, D) \<in> mult1 r ==> (C + B, C + D) \<in> mult1 r"
26178
nipkow
parents: 26176
diff changeset
  1648
apply (unfold mult1_def)
nipkow
parents: 26176
diff changeset
  1649
apply auto
nipkow
parents: 26176
diff changeset
  1650
apply (rule_tac x = a in exI)
nipkow
parents: 26176
diff changeset
  1651
apply (rule_tac x = "C + M0" in exI)
34943
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
  1652
apply (simp add: add_assoc)
26178
nipkow
parents: 26176
diff changeset
  1653
done
10249
e4d13d8a9011 Multisets (from HOL/Induct/Multiset and friends);
wenzelm
parents:
diff changeset
  1654
35268
04673275441a switched notations for pointwise and multiset order
haftmann
parents: 35028
diff changeset
  1655
lemma union_less_mono2: "B \<subset># D ==> C + B \<subset># C + (D::'a::order multiset)"
26178
nipkow
parents: 26176
diff changeset
  1656
apply (unfold less_multiset_def mult_def)
nipkow
parents: 26176
diff changeset
  1657
apply (erule trancl_induct)
40249
cd404ecb9107 Remove unnecessary premise of mult1_union
Lars Noschinski <noschinl@in.tum.de>
parents: 39533
diff changeset
  1658
 apply (blast intro: mult1_union)
cd404ecb9107 Remove unnecessary premise of mult1_union
Lars Noschinski <noschinl@in.tum.de>
parents: 39533
diff changeset
  1659
apply (blast intro: mult1_union trancl_trans)
26178
nipkow
parents: 26176
diff changeset
  1660
done
10249
e4d13d8a9011 Multisets (from HOL/Induct/Multiset and friends);
wenzelm
parents:
diff changeset
  1661
35268
04673275441a switched notations for pointwise and multiset order
haftmann
parents: 35028
diff changeset
  1662
lemma union_less_mono1: "B \<subset># D ==> B + C \<subset># D + (C::'a::order multiset)"
34943
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
  1663
apply (subst add_commute [of B C])
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
  1664
apply (subst add_commute [of D C])
26178
nipkow
parents: 26176
diff changeset
  1665
apply (erule union_less_mono2)
nipkow
parents: 26176
diff changeset
  1666
done
10249
e4d13d8a9011 Multisets (from HOL/Induct/Multiset and friends);
wenzelm
parents:
diff changeset
  1667
17161
57c69627d71a tuned some proofs;
wenzelm
parents: 15869
diff changeset
  1668
lemma union_less_mono:
35268
04673275441a switched notations for pointwise and multiset order
haftmann
parents: 35028
diff changeset
  1669
  "A \<subset># C ==> B \<subset># D ==> A + B \<subset># C + (D::'a::order multiset)"
04673275441a switched notations for pointwise and multiset order
haftmann
parents: 35028
diff changeset
  1670
  by (blast intro!: union_less_mono1 union_less_mono2 multiset_order.less_trans)
10249
e4d13d8a9011 Multisets (from HOL/Induct/Multiset and friends);
wenzelm
parents:
diff changeset
  1671
35268
04673275441a switched notations for pointwise and multiset order
haftmann
parents: 35028
diff changeset
  1672
interpretation multiset_order: ordered_ab_semigroup_add plus le_multiset less_multiset
04673275441a switched notations for pointwise and multiset order
haftmann
parents: 35028
diff changeset
  1673
proof
04673275441a switched notations for pointwise and multiset order
haftmann
parents: 35028
diff changeset
  1674
qed (auto simp add: le_multiset_def intro: union_less_mono2)
26145
95670b6e1fa3 tuned document;
wenzelm
parents: 26143
diff changeset
  1675
15072
4861bf6af0b4 new material courtesy of Norbert Voelker
paulson
parents: 14981
diff changeset
  1676
29125
d41182a8135c method "sizechange" proves termination of functions; added more infrastructure for termination proofs
krauss
parents: 28823
diff changeset
  1677
subsection {* Termination proofs with multiset orders *}
d41182a8135c method "sizechange" proves termination of functions; added more infrastructure for termination proofs
krauss
parents: 28823
diff changeset
  1678
d41182a8135c method "sizechange" proves termination of functions; added more infrastructure for termination proofs
krauss
parents: 28823
diff changeset
  1679
lemma multi_member_skip: "x \<in># XS \<Longrightarrow> x \<in># {# y #} + XS"
d41182a8135c method "sizechange" proves termination of functions; added more infrastructure for termination proofs
krauss
parents: 28823
diff changeset
  1680
  and multi_member_this: "x \<in># {# x #} + XS"
d41182a8135c method "sizechange" proves termination of functions; added more infrastructure for termination proofs
krauss
parents: 28823
diff changeset
  1681
  and multi_member_last: "x \<in># {# x #}"
d41182a8135c method "sizechange" proves termination of functions; added more infrastructure for termination proofs
krauss
parents: 28823
diff changeset
  1682
  by auto
d41182a8135c method "sizechange" proves termination of functions; added more infrastructure for termination proofs
krauss
parents: 28823
diff changeset
  1683
d41182a8135c method "sizechange" proves termination of functions; added more infrastructure for termination proofs
krauss
parents: 28823
diff changeset
  1684
definition "ms_strict = mult pair_less"
37765
26bdfb7b680b dropped superfluous [code del]s
haftmann
parents: 37751
diff changeset
  1685
definition "ms_weak = ms_strict \<union> Id"
29125
d41182a8135c method "sizechange" proves termination of functions; added more infrastructure for termination proofs
krauss
parents: 28823
diff changeset
  1686
d41182a8135c method "sizechange" proves termination of functions; added more infrastructure for termination proofs
krauss
parents: 28823
diff changeset
  1687
lemma ms_reduction_pair: "reduction_pair (ms_strict, ms_weak)"
d41182a8135c method "sizechange" proves termination of functions; added more infrastructure for termination proofs
krauss
parents: 28823
diff changeset
  1688
unfolding reduction_pair_def ms_strict_def ms_weak_def pair_less_def
d41182a8135c method "sizechange" proves termination of functions; added more infrastructure for termination proofs
krauss
parents: 28823
diff changeset
  1689
by (auto intro: wf_mult1 wf_trancl simp: mult_def)
d41182a8135c method "sizechange" proves termination of functions; added more infrastructure for termination proofs
krauss
parents: 28823
diff changeset
  1690
d41182a8135c method "sizechange" proves termination of functions; added more infrastructure for termination proofs
krauss
parents: 28823
diff changeset
  1691
lemma smsI:
d41182a8135c method "sizechange" proves termination of functions; added more infrastructure for termination proofs
krauss
parents: 28823
diff changeset
  1692
  "(set_of A, set_of B) \<in> max_strict \<Longrightarrow> (Z + A, Z + B) \<in> ms_strict"
d41182a8135c method "sizechange" proves termination of functions; added more infrastructure for termination proofs
krauss
parents: 28823
diff changeset
  1693
  unfolding ms_strict_def
d41182a8135c method "sizechange" proves termination of functions; added more infrastructure for termination proofs
krauss
parents: 28823
diff changeset
  1694
by (rule one_step_implies_mult) (auto simp add: max_strict_def pair_less_def elim!:max_ext.cases)
d41182a8135c method "sizechange" proves termination of functions; added more infrastructure for termination proofs
krauss
parents: 28823
diff changeset
  1695
d41182a8135c method "sizechange" proves termination of functions; added more infrastructure for termination proofs
krauss
parents: 28823
diff changeset
  1696
lemma wmsI:
d41182a8135c method "sizechange" proves termination of functions; added more infrastructure for termination proofs
krauss
parents: 28823
diff changeset
  1697
  "(set_of A, set_of B) \<in> max_strict \<or> A = {#} \<and> B = {#}
d41182a8135c method "sizechange" proves termination of functions; added more infrastructure for termination proofs
krauss
parents: 28823
diff changeset
  1698
  \<Longrightarrow> (Z + A, Z + B) \<in> ms_weak"
d41182a8135c method "sizechange" proves termination of functions; added more infrastructure for termination proofs
krauss
parents: 28823
diff changeset
  1699
unfolding ms_weak_def ms_strict_def
d41182a8135c method "sizechange" proves termination of functions; added more infrastructure for termination proofs
krauss
parents: 28823
diff changeset
  1700
by (auto simp add: pair_less_def max_strict_def elim!:max_ext.cases intro: one_step_implies_mult)
d41182a8135c method "sizechange" proves termination of functions; added more infrastructure for termination proofs
krauss
parents: 28823
diff changeset
  1701
d41182a8135c method "sizechange" proves termination of functions; added more infrastructure for termination proofs
krauss
parents: 28823
diff changeset
  1702
inductive pw_leq
d41182a8135c method "sizechange" proves termination of functions; added more infrastructure for termination proofs
krauss
parents: 28823
diff changeset
  1703
where
d41182a8135c method "sizechange" proves termination of functions; added more infrastructure for termination proofs
krauss
parents: 28823
diff changeset
  1704
  pw_leq_empty: "pw_leq {#} {#}"
d41182a8135c method "sizechange" proves termination of functions; added more infrastructure for termination proofs
krauss
parents: 28823
diff changeset
  1705
| pw_leq_step:  "\<lbrakk>(x,y) \<in> pair_leq; pw_leq X Y \<rbrakk> \<Longrightarrow> pw_leq ({#x#} + X) ({#y#} + Y)"
d41182a8135c method "sizechange" proves termination of functions; added more infrastructure for termination proofs
krauss
parents: 28823
diff changeset
  1706
d41182a8135c method "sizechange" proves termination of functions; added more infrastructure for termination proofs
krauss
parents: 28823
diff changeset
  1707
lemma pw_leq_lstep:
d41182a8135c method "sizechange" proves termination of functions; added more infrastructure for termination proofs
krauss
parents: 28823
diff changeset
  1708
  "(x, y) \<in> pair_leq \<Longrightarrow> pw_leq {#x#} {#y#}"
d41182a8135c method "sizechange" proves termination of functions; added more infrastructure for termination proofs
krauss
parents: 28823
diff changeset
  1709
by (drule pw_leq_step) (rule pw_leq_empty, simp)
d41182a8135c method "sizechange" proves termination of functions; added more infrastructure for termination proofs
krauss
parents: 28823
diff changeset
  1710
d41182a8135c method "sizechange" proves termination of functions; added more infrastructure for termination proofs
krauss
parents: 28823
diff changeset
  1711
lemma pw_leq_split:
d41182a8135c method "sizechange" proves termination of functions; added more infrastructure for termination proofs
krauss
parents: 28823
diff changeset
  1712
  assumes "pw_leq X Y"
d41182a8135c method "sizechange" proves termination of functions; added more infrastructure for termination proofs
krauss
parents: 28823
diff changeset
  1713
  shows "\<exists>A B Z. X = A + Z \<and> Y = B + Z \<and> ((set_of A, set_of B) \<in> max_strict \<or> (B = {#} \<and> A = {#}))"
d41182a8135c method "sizechange" proves termination of functions; added more infrastructure for termination proofs
krauss
parents: 28823
diff changeset
  1714
  using assms
d41182a8135c method "sizechange" proves termination of functions; added more infrastructure for termination proofs
krauss
parents: 28823
diff changeset
  1715
proof (induct)
d41182a8135c method "sizechange" proves termination of functions; added more infrastructure for termination proofs
krauss
parents: 28823
diff changeset
  1716
  case pw_leq_empty thus ?case by auto
d41182a8135c method "sizechange" proves termination of functions; added more infrastructure for termination proofs
krauss
parents: 28823
diff changeset
  1717
next
d41182a8135c method "sizechange" proves termination of functions; added more infrastructure for termination proofs
krauss
parents: 28823
diff changeset
  1718
  case (pw_leq_step x y X Y)
d41182a8135c method "sizechange" proves termination of functions; added more infrastructure for termination proofs
krauss
parents: 28823
diff changeset
  1719
  then obtain A B Z where
d41182a8135c method "sizechange" proves termination of functions; added more infrastructure for termination proofs
krauss
parents: 28823
diff changeset
  1720
    [simp]: "X = A + Z" "Y = B + Z" 
d41182a8135c method "sizechange" proves termination of functions; added more infrastructure for termination proofs
krauss
parents: 28823
diff changeset
  1721
      and 1[simp]: "(set_of A, set_of B) \<in> max_strict \<or> (B = {#} \<and> A = {#})" 
d41182a8135c method "sizechange" proves termination of functions; added more infrastructure for termination proofs
krauss
parents: 28823
diff changeset
  1722
    by auto
d41182a8135c method "sizechange" proves termination of functions; added more infrastructure for termination proofs
krauss
parents: 28823
diff changeset
  1723
  from pw_leq_step have "x = y \<or> (x, y) \<in> pair_less" 
d41182a8135c method "sizechange" proves termination of functions; added more infrastructure for termination proofs
krauss
parents: 28823
diff changeset
  1724
    unfolding pair_leq_def by auto
d41182a8135c method "sizechange" proves termination of functions; added more infrastructure for termination proofs
krauss
parents: 28823
diff changeset
  1725
  thus ?case
d41182a8135c method "sizechange" proves termination of functions; added more infrastructure for termination proofs
krauss
parents: 28823
diff changeset
  1726
  proof
d41182a8135c method "sizechange" proves termination of functions; added more infrastructure for termination proofs
krauss
parents: 28823
diff changeset
  1727
    assume [simp]: "x = y"
d41182a8135c method "sizechange" proves termination of functions; added more infrastructure for termination proofs
krauss
parents: 28823
diff changeset
  1728
    have
d41182a8135c method "sizechange" proves termination of functions; added more infrastructure for termination proofs
krauss
parents: 28823
diff changeset
  1729
      "{#x#} + X = A + ({#y#}+Z) 
d41182a8135c method "sizechange" proves termination of functions; added more infrastructure for termination proofs
krauss
parents: 28823
diff changeset
  1730
      \<and> {#y#} + Y = B + ({#y#}+Z)
d41182a8135c method "sizechange" proves termination of functions; added more infrastructure for termination proofs
krauss
parents: 28823
diff changeset
  1731
      \<and> ((set_of A, set_of B) \<in> max_strict \<or> (B = {#} \<and> A = {#}))"
d41182a8135c method "sizechange" proves termination of functions; added more infrastructure for termination proofs
krauss
parents: 28823
diff changeset
  1732
      by (auto simp: add_ac)
d41182a8135c method "sizechange" proves termination of functions; added more infrastructure for termination proofs
krauss
parents: 28823
diff changeset
  1733
    thus ?case by (intro exI)
d41182a8135c method "sizechange" proves termination of functions; added more infrastructure for termination proofs
krauss
parents: 28823
diff changeset
  1734
  next
d41182a8135c method "sizechange" proves termination of functions; added more infrastructure for termination proofs
krauss
parents: 28823
diff changeset
  1735
    assume A: "(x, y) \<in> pair_less"
d41182a8135c method "sizechange" proves termination of functions; added more infrastructure for termination proofs
krauss
parents: 28823
diff changeset
  1736
    let ?A' = "{#x#} + A" and ?B' = "{#y#} + B"
d41182a8135c method "sizechange" proves termination of functions; added more infrastructure for termination proofs
krauss
parents: 28823
diff changeset
  1737
    have "{#x#} + X = ?A' + Z"
d41182a8135c method "sizechange" proves termination of functions; added more infrastructure for termination proofs
krauss
parents: 28823
diff changeset
  1738
      "{#y#} + Y = ?B' + Z"
d41182a8135c method "sizechange" proves termination of functions; added more infrastructure for termination proofs
krauss
parents: 28823
diff changeset
  1739
      by (auto simp add: add_ac)
d41182a8135c method "sizechange" proves termination of functions; added more infrastructure for termination proofs
krauss
parents: 28823
diff changeset
  1740
    moreover have 
d41182a8135c method "sizechange" proves termination of functions; added more infrastructure for termination proofs
krauss
parents: 28823
diff changeset
  1741
      "(set_of ?A', set_of ?B') \<in> max_strict"
d41182a8135c method "sizechange" proves termination of functions; added more infrastructure for termination proofs
krauss
parents: 28823
diff changeset
  1742
      using 1 A unfolding max_strict_def 
d41182a8135c method "sizechange" proves termination of functions; added more infrastructure for termination proofs
krauss
parents: 28823
diff changeset
  1743
      by (auto elim!: max_ext.cases)
d41182a8135c method "sizechange" proves termination of functions; added more infrastructure for termination proofs
krauss
parents: 28823
diff changeset
  1744
    ultimately show ?thesis by blast
d41182a8135c method "sizechange" proves termination of functions; added more infrastructure for termination proofs
krauss
parents: 28823
diff changeset
  1745
  qed
d41182a8135c method "sizechange" proves termination of functions; added more infrastructure for termination proofs
krauss
parents: 28823
diff changeset
  1746
qed
d41182a8135c method "sizechange" proves termination of functions; added more infrastructure for termination proofs
krauss
parents: 28823
diff changeset
  1747
d41182a8135c method "sizechange" proves termination of functions; added more infrastructure for termination proofs
krauss
parents: 28823
diff changeset
  1748
lemma 
d41182a8135c method "sizechange" proves termination of functions; added more infrastructure for termination proofs
krauss
parents: 28823
diff changeset
  1749
  assumes pwleq: "pw_leq Z Z'"
d41182a8135c method "sizechange" proves termination of functions; added more infrastructure for termination proofs
krauss
parents: 28823
diff changeset
  1750
  shows ms_strictI: "(set_of A, set_of B) \<in> max_strict \<Longrightarrow> (Z + A, Z' + B) \<in> ms_strict"
d41182a8135c method "sizechange" proves termination of functions; added more infrastructure for termination proofs
krauss
parents: 28823
diff changeset
  1751
  and   ms_weakI1:  "(set_of A, set_of B) \<in> max_strict \<Longrightarrow> (Z + A, Z' + B) \<in> ms_weak"
d41182a8135c method "sizechange" proves termination of functions; added more infrastructure for termination proofs
krauss
parents: 28823
diff changeset
  1752
  and   ms_weakI2:  "(Z + {#}, Z' + {#}) \<in> ms_weak"
d41182a8135c method "sizechange" proves termination of functions; added more infrastructure for termination proofs
krauss
parents: 28823
diff changeset
  1753
proof -
d41182a8135c method "sizechange" proves termination of functions; added more infrastructure for termination proofs
krauss
parents: 28823
diff changeset
  1754
  from pw_leq_split[OF pwleq] 
d41182a8135c method "sizechange" proves termination of functions; added more infrastructure for termination proofs
krauss
parents: 28823
diff changeset
  1755
  obtain A' B' Z''
d41182a8135c method "sizechange" proves termination of functions; added more infrastructure for termination proofs
krauss
parents: 28823
diff changeset
  1756
    where [simp]: "Z = A' + Z''" "Z' = B' + Z''"
d41182a8135c method "sizechange" proves termination of functions; added more infrastructure for termination proofs
krauss
parents: 28823
diff changeset
  1757
    and mx_or_empty: "(set_of A', set_of B') \<in> max_strict \<or> (A' = {#} \<and> B' = {#})"
d41182a8135c method "sizechange" proves termination of functions; added more infrastructure for termination proofs
krauss
parents: 28823
diff changeset
  1758
    by blast
d41182a8135c method "sizechange" proves termination of functions; added more infrastructure for termination proofs
krauss
parents: 28823
diff changeset
  1759
  {
d41182a8135c method "sizechange" proves termination of functions; added more infrastructure for termination proofs
krauss
parents: 28823
diff changeset
  1760
    assume max: "(set_of A, set_of B) \<in> max_strict"
d41182a8135c method "sizechange" proves termination of functions; added more infrastructure for termination proofs
krauss
parents: 28823
diff changeset
  1761
    from mx_or_empty
d41182a8135c method "sizechange" proves termination of functions; added more infrastructure for termination proofs
krauss
parents: 28823
diff changeset
  1762
    have "(Z'' + (A + A'), Z'' + (B + B')) \<in> ms_strict"
d41182a8135c method "sizechange" proves termination of functions; added more infrastructure for termination proofs
krauss
parents: 28823
diff changeset
  1763
    proof
d41182a8135c method "sizechange" proves termination of functions; added more infrastructure for termination proofs
krauss
parents: 28823
diff changeset
  1764
      assume max': "(set_of A', set_of B') \<in> max_strict"
d41182a8135c method "sizechange" proves termination of functions; added more infrastructure for termination proofs
krauss
parents: 28823
diff changeset
  1765
      with max have "(set_of (A + A'), set_of (B + B')) \<in> max_strict"
d41182a8135c method "sizechange" proves termination of functions; added more infrastructure for termination proofs
krauss
parents: 28823
diff changeset
  1766
        by (auto simp: max_strict_def intro: max_ext_additive)
d41182a8135c method "sizechange" proves termination of functions; added more infrastructure for termination proofs
krauss
parents: 28823
diff changeset
  1767
      thus ?thesis by (rule smsI) 
d41182a8135c method "sizechange" proves termination of functions; added more infrastructure for termination proofs
krauss
parents: 28823
diff changeset
  1768
    next
d41182a8135c method "sizechange" proves termination of functions; added more infrastructure for termination proofs
krauss
parents: 28823
diff changeset
  1769
      assume [simp]: "A' = {#} \<and> B' = {#}"
d41182a8135c method "sizechange" proves termination of functions; added more infrastructure for termination proofs
krauss
parents: 28823
diff changeset
  1770
      show ?thesis by (rule smsI) (auto intro: max)
d41182a8135c method "sizechange" proves termination of functions; added more infrastructure for termination proofs
krauss
parents: 28823
diff changeset
  1771
    qed
d41182a8135c method "sizechange" proves termination of functions; added more infrastructure for termination proofs
krauss
parents: 28823
diff changeset
  1772
    thus "(Z + A, Z' + B) \<in> ms_strict" by (simp add:add_ac)
d41182a8135c method "sizechange" proves termination of functions; added more infrastructure for termination proofs
krauss
parents: 28823
diff changeset
  1773
    thus "(Z + A, Z' + B) \<in> ms_weak" by (simp add: ms_weak_def)
d41182a8135c method "sizechange" proves termination of functions; added more infrastructure for termination proofs
krauss
parents: 28823
diff changeset
  1774
  }
d41182a8135c method "sizechange" proves termination of functions; added more infrastructure for termination proofs
krauss
parents: 28823
diff changeset
  1775
  from mx_or_empty
d41182a8135c method "sizechange" proves termination of functions; added more infrastructure for termination proofs
krauss
parents: 28823
diff changeset
  1776
  have "(Z'' + A', Z'' + B') \<in> ms_weak" by (rule wmsI)
d41182a8135c method "sizechange" proves termination of functions; added more infrastructure for termination proofs
krauss
parents: 28823
diff changeset
  1777
  thus "(Z + {#}, Z' + {#}) \<in> ms_weak" by (simp add:add_ac)
d41182a8135c method "sizechange" proves termination of functions; added more infrastructure for termination proofs
krauss
parents: 28823
diff changeset
  1778
qed
d41182a8135c method "sizechange" proves termination of functions; added more infrastructure for termination proofs
krauss
parents: 28823
diff changeset
  1779
39301
e1bd8a54c40f added and renamed lemmas
nipkow
parents: 39198
diff changeset
  1780
lemma empty_neutral: "{#} + x = x" "x + {#} = x"
29125
d41182a8135c method "sizechange" proves termination of functions; added more infrastructure for termination proofs
krauss
parents: 28823
diff changeset
  1781
and nonempty_plus: "{# x #} + rs \<noteq> {#}"
d41182a8135c method "sizechange" proves termination of functions; added more infrastructure for termination proofs
krauss
parents: 28823
diff changeset
  1782
and nonempty_single: "{# x #} \<noteq> {#}"
d41182a8135c method "sizechange" proves termination of functions; added more infrastructure for termination proofs
krauss
parents: 28823
diff changeset
  1783
by auto
d41182a8135c method "sizechange" proves termination of functions; added more infrastructure for termination proofs
krauss
parents: 28823
diff changeset
  1784
d41182a8135c method "sizechange" proves termination of functions; added more infrastructure for termination proofs
krauss
parents: 28823
diff changeset
  1785
setup {*
d41182a8135c method "sizechange" proves termination of functions; added more infrastructure for termination proofs
krauss
parents: 28823
diff changeset
  1786
let
35402
115a5a95710a clarified @{const_name} vs. @{const_abbrev};
wenzelm
parents: 35352
diff changeset
  1787
  fun msetT T = Type (@{type_name multiset}, [T]);
29125
d41182a8135c method "sizechange" proves termination of functions; added more infrastructure for termination proofs
krauss
parents: 28823
diff changeset
  1788
35402
115a5a95710a clarified @{const_name} vs. @{const_abbrev};
wenzelm
parents: 35352
diff changeset
  1789
  fun mk_mset T [] = Const (@{const_abbrev Mempty}, msetT T)
29125
d41182a8135c method "sizechange" proves termination of functions; added more infrastructure for termination proofs
krauss
parents: 28823
diff changeset
  1790
    | mk_mset T [x] = Const (@{const_name single}, T --> msetT T) $ x
d41182a8135c method "sizechange" proves termination of functions; added more infrastructure for termination proofs
krauss
parents: 28823
diff changeset
  1791
    | mk_mset T (x :: xs) =
d41182a8135c method "sizechange" proves termination of functions; added more infrastructure for termination proofs
krauss
parents: 28823
diff changeset
  1792
          Const (@{const_name plus}, msetT T --> msetT T --> msetT T) $
d41182a8135c method "sizechange" proves termination of functions; added more infrastructure for termination proofs
krauss
parents: 28823
diff changeset
  1793
                mk_mset T [x] $ mk_mset T xs
d41182a8135c method "sizechange" proves termination of functions; added more infrastructure for termination proofs
krauss
parents: 28823
diff changeset
  1794
d41182a8135c method "sizechange" proves termination of functions; added more infrastructure for termination proofs
krauss
parents: 28823
diff changeset
  1795
  fun mset_member_tac m i =
d41182a8135c method "sizechange" proves termination of functions; added more infrastructure for termination proofs
krauss
parents: 28823
diff changeset
  1796
      (if m <= 0 then
d41182a8135c method "sizechange" proves termination of functions; added more infrastructure for termination proofs
krauss
parents: 28823
diff changeset
  1797
           rtac @{thm multi_member_this} i ORELSE rtac @{thm multi_member_last} i
d41182a8135c method "sizechange" proves termination of functions; added more infrastructure for termination proofs
krauss
parents: 28823
diff changeset
  1798
       else
d41182a8135c method "sizechange" proves termination of functions; added more infrastructure for termination proofs
krauss
parents: 28823
diff changeset
  1799
           rtac @{thm multi_member_skip} i THEN mset_member_tac (m - 1) i)
d41182a8135c method "sizechange" proves termination of functions; added more infrastructure for termination proofs
krauss
parents: 28823
diff changeset
  1800
d41182a8135c method "sizechange" proves termination of functions; added more infrastructure for termination proofs
krauss
parents: 28823
diff changeset
  1801
  val mset_nonempty_tac =
d41182a8135c method "sizechange" proves termination of functions; added more infrastructure for termination proofs
krauss
parents: 28823
diff changeset
  1802
      rtac @{thm nonempty_plus} ORELSE' rtac @{thm nonempty_single}
d41182a8135c method "sizechange" proves termination of functions; added more infrastructure for termination proofs
krauss
parents: 28823
diff changeset
  1803
d41182a8135c method "sizechange" proves termination of functions; added more infrastructure for termination proofs
krauss
parents: 28823
diff changeset
  1804
  val regroup_munion_conv =
35402
115a5a95710a clarified @{const_name} vs. @{const_abbrev};
wenzelm
parents: 35352
diff changeset
  1805
      Function_Lib.regroup_conv @{const_abbrev Mempty} @{const_name plus}
39301
e1bd8a54c40f added and renamed lemmas
nipkow
parents: 39198
diff changeset
  1806
        (map (fn t => t RS eq_reflection) (@{thms add_ac} @ @{thms empty_neutral}))
29125
d41182a8135c method "sizechange" proves termination of functions; added more infrastructure for termination proofs
krauss
parents: 28823
diff changeset
  1807
d41182a8135c method "sizechange" proves termination of functions; added more infrastructure for termination proofs
krauss
parents: 28823
diff changeset
  1808
  fun unfold_pwleq_tac i =
d41182a8135c method "sizechange" proves termination of functions; added more infrastructure for termination proofs
krauss
parents: 28823
diff changeset
  1809
    (rtac @{thm pw_leq_step} i THEN (fn st => unfold_pwleq_tac (i + 1) st))
d41182a8135c method "sizechange" proves termination of functions; added more infrastructure for termination proofs
krauss
parents: 28823
diff changeset
  1810
      ORELSE (rtac @{thm pw_leq_lstep} i)
d41182a8135c method "sizechange" proves termination of functions; added more infrastructure for termination proofs
krauss
parents: 28823
diff changeset
  1811
      ORELSE (rtac @{thm pw_leq_empty} i)
d41182a8135c method "sizechange" proves termination of functions; added more infrastructure for termination proofs
krauss
parents: 28823
diff changeset
  1812
d41182a8135c method "sizechange" proves termination of functions; added more infrastructure for termination proofs
krauss
parents: 28823
diff changeset
  1813
  val set_of_simps = [@{thm set_of_empty}, @{thm set_of_single}, @{thm set_of_union},
d41182a8135c method "sizechange" proves termination of functions; added more infrastructure for termination proofs
krauss
parents: 28823
diff changeset
  1814
                      @{thm Un_insert_left}, @{thm Un_empty_left}]
d41182a8135c method "sizechange" proves termination of functions; added more infrastructure for termination proofs
krauss
parents: 28823
diff changeset
  1815
in
d41182a8135c method "sizechange" proves termination of functions; added more infrastructure for termination proofs
krauss
parents: 28823
diff changeset
  1816
  ScnpReconstruct.multiset_setup (ScnpReconstruct.Multiset 
d41182a8135c method "sizechange" proves termination of functions; added more infrastructure for termination proofs
krauss
parents: 28823
diff changeset
  1817
  {
d41182a8135c method "sizechange" proves termination of functions; added more infrastructure for termination proofs
krauss
parents: 28823
diff changeset
  1818
    msetT=msetT, mk_mset=mk_mset, mset_regroup_conv=regroup_munion_conv,
d41182a8135c method "sizechange" proves termination of functions; added more infrastructure for termination proofs
krauss
parents: 28823
diff changeset
  1819
    mset_member_tac=mset_member_tac, mset_nonempty_tac=mset_nonempty_tac,
d41182a8135c method "sizechange" proves termination of functions; added more infrastructure for termination proofs
krauss
parents: 28823
diff changeset
  1820
    mset_pwleq_tac=unfold_pwleq_tac, set_of_simps=set_of_simps,
30595
c87a3350f5a9 proper spacing before ML antiquotations -- note that @ may be part of symbolic ML identifiers;
wenzelm
parents: 30428
diff changeset
  1821
    smsI'= @{thm ms_strictI}, wmsI2''= @{thm ms_weakI2}, wmsI1= @{thm ms_weakI1},
c87a3350f5a9 proper spacing before ML antiquotations -- note that @ may be part of symbolic ML identifiers;
wenzelm
parents: 30428
diff changeset
  1822
    reduction_pair= @{thm ms_reduction_pair}
29125
d41182a8135c method "sizechange" proves termination of functions; added more infrastructure for termination proofs
krauss
parents: 28823
diff changeset
  1823
  })
10249
e4d13d8a9011 Multisets (from HOL/Induct/Multiset and friends);
wenzelm
parents:
diff changeset
  1824
end
29125
d41182a8135c method "sizechange" proves termination of functions; added more infrastructure for termination proofs
krauss
parents: 28823
diff changeset
  1825
*}
d41182a8135c method "sizechange" proves termination of functions; added more infrastructure for termination proofs
krauss
parents: 28823
diff changeset
  1826
34943
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
  1827
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
  1828
subsection {* Legacy theorem bindings *}
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
  1829
39302
d7728f65b353 renamed lemmas: ext_iff -> fun_eq_iff, set_ext_iff -> set_eq_iff, set_ext -> set_eqI
nipkow
parents: 39301
diff changeset
  1830
lemmas multi_count_eq = multiset_eq_iff [symmetric]
34943
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
  1831
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
  1832
lemma union_commute: "M + N = N + (M::'a multiset)"
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
  1833
  by (fact add_commute)
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
  1834
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
  1835
lemma union_assoc: "(M + N) + K = M + (N + (K::'a multiset))"
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
  1836
  by (fact add_assoc)
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
  1837
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
  1838
lemma union_lcomm: "M + (N + K) = N + (M + (K::'a multiset))"
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
  1839
  by (fact add_left_commute)
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
  1840
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
  1841
lemmas union_ac = union_assoc union_commute union_lcomm
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
  1842
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
  1843
lemma union_right_cancel: "M + K = N + K \<longleftrightarrow> M = (N::'a multiset)"
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
  1844
  by (fact add_right_cancel)
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
  1845
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
  1846
lemma union_left_cancel: "K + M = K + N \<longleftrightarrow> M = (N::'a multiset)"
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
  1847
  by (fact add_left_cancel)
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
  1848
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
  1849
lemma multi_union_self_other_eq: "(A::'a multiset) + X = A + Y \<Longrightarrow> X = Y"
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
  1850
  by (fact add_imp_eq)
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
  1851
35268
04673275441a switched notations for pointwise and multiset order
haftmann
parents: 35028
diff changeset
  1852
lemma mset_less_trans: "(M::'a multiset) < K \<Longrightarrow> K < N \<Longrightarrow> M < N"
04673275441a switched notations for pointwise and multiset order
haftmann
parents: 35028
diff changeset
  1853
  by (fact order_less_trans)
04673275441a switched notations for pointwise and multiset order
haftmann
parents: 35028
diff changeset
  1854
04673275441a switched notations for pointwise and multiset order
haftmann
parents: 35028
diff changeset
  1855
lemma multiset_inter_commute: "A #\<inter> B = B #\<inter> A"
04673275441a switched notations for pointwise and multiset order
haftmann
parents: 35028
diff changeset
  1856
  by (fact inf.commute)
04673275441a switched notations for pointwise and multiset order
haftmann
parents: 35028
diff changeset
  1857
04673275441a switched notations for pointwise and multiset order
haftmann
parents: 35028
diff changeset
  1858
lemma multiset_inter_assoc: "A #\<inter> (B #\<inter> C) = A #\<inter> B #\<inter> C"
04673275441a switched notations for pointwise and multiset order
haftmann
parents: 35028
diff changeset
  1859
  by (fact inf.assoc [symmetric])
04673275441a switched notations for pointwise and multiset order
haftmann
parents: 35028
diff changeset
  1860
04673275441a switched notations for pointwise and multiset order
haftmann
parents: 35028
diff changeset
  1861
lemma multiset_inter_left_commute: "A #\<inter> (B #\<inter> C) = B #\<inter> (A #\<inter> C)"
04673275441a switched notations for pointwise and multiset order
haftmann
parents: 35028
diff changeset
  1862
  by (fact inf.left_commute)
04673275441a switched notations for pointwise and multiset order
haftmann
parents: 35028
diff changeset
  1863
04673275441a switched notations for pointwise and multiset order
haftmann
parents: 35028
diff changeset
  1864
lemmas multiset_inter_ac =
04673275441a switched notations for pointwise and multiset order
haftmann
parents: 35028
diff changeset
  1865
  multiset_inter_commute
04673275441a switched notations for pointwise and multiset order
haftmann
parents: 35028
diff changeset
  1866
  multiset_inter_assoc
04673275441a switched notations for pointwise and multiset order
haftmann
parents: 35028
diff changeset
  1867
  multiset_inter_left_commute
04673275441a switched notations for pointwise and multiset order
haftmann
parents: 35028
diff changeset
  1868
04673275441a switched notations for pointwise and multiset order
haftmann
parents: 35028
diff changeset
  1869
lemma mult_less_not_refl:
04673275441a switched notations for pointwise and multiset order
haftmann
parents: 35028
diff changeset
  1870
  "\<not> M \<subset># (M::'a::order multiset)"
04673275441a switched notations for pointwise and multiset order
haftmann
parents: 35028
diff changeset
  1871
  by (fact multiset_order.less_irrefl)
04673275441a switched notations for pointwise and multiset order
haftmann
parents: 35028
diff changeset
  1872
04673275441a switched notations for pointwise and multiset order
haftmann
parents: 35028
diff changeset
  1873
lemma mult_less_trans:
04673275441a switched notations for pointwise and multiset order
haftmann
parents: 35028
diff changeset
  1874
  "K \<subset># M ==> M \<subset># N ==> K \<subset># (N::'a::order multiset)"
04673275441a switched notations for pointwise and multiset order
haftmann
parents: 35028
diff changeset
  1875
  by (fact multiset_order.less_trans)
04673275441a switched notations for pointwise and multiset order
haftmann
parents: 35028
diff changeset
  1876
    
04673275441a switched notations for pointwise and multiset order
haftmann
parents: 35028
diff changeset
  1877
lemma mult_less_not_sym:
04673275441a switched notations for pointwise and multiset order
haftmann
parents: 35028
diff changeset
  1878
  "M \<subset># N ==> \<not> N \<subset># (M::'a::order multiset)"
04673275441a switched notations for pointwise and multiset order
haftmann
parents: 35028
diff changeset
  1879
  by (fact multiset_order.less_not_sym)
04673275441a switched notations for pointwise and multiset order
haftmann
parents: 35028
diff changeset
  1880
04673275441a switched notations for pointwise and multiset order
haftmann
parents: 35028
diff changeset
  1881
lemma mult_less_asym:
04673275441a switched notations for pointwise and multiset order
haftmann
parents: 35028
diff changeset
  1882
  "M \<subset># N ==> (\<not> P ==> N \<subset># (M::'a::order multiset)) ==> P"
04673275441a switched notations for pointwise and multiset order
haftmann
parents: 35028
diff changeset
  1883
  by (fact multiset_order.less_asym)
34943
e97b22500a5c cleanup of Multiset.thy: less duplication, tuned and simplified a couple of proofs, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation
haftmann
parents: 33102
diff changeset
  1884
35712
77aa29bf14ee added a mechanism to Nitpick to support custom rendering of terms, and used it for multisets
blanchet
parents: 35402
diff changeset
  1885
ML {*
77aa29bf14ee added a mechanism to Nitpick to support custom rendering of terms, and used it for multisets
blanchet
parents: 35402
diff changeset
  1886
fun multiset_postproc _ maybe_name all_values (T as Type (_, [elem_T]))
77aa29bf14ee added a mechanism to Nitpick to support custom rendering of terms, and used it for multisets
blanchet
parents: 35402
diff changeset
  1887
                      (Const _ $ t') =
77aa29bf14ee added a mechanism to Nitpick to support custom rendering of terms, and used it for multisets
blanchet
parents: 35402
diff changeset
  1888
    let
77aa29bf14ee added a mechanism to Nitpick to support custom rendering of terms, and used it for multisets
blanchet
parents: 35402
diff changeset
  1889
      val (maybe_opt, ps) =
77aa29bf14ee added a mechanism to Nitpick to support custom rendering of terms, and used it for multisets
blanchet
parents: 35402
diff changeset
  1890
        Nitpick_Model.dest_plain_fun t' ||> op ~~
77aa29bf14ee added a mechanism to Nitpick to support custom rendering of terms, and used it for multisets
blanchet
parents: 35402
diff changeset
  1891
        ||> map (apsnd (snd o HOLogic.dest_number))
77aa29bf14ee added a mechanism to Nitpick to support custom rendering of terms, and used it for multisets
blanchet
parents: 35402
diff changeset
  1892
      fun elems_for t =
77aa29bf14ee added a mechanism to Nitpick to support custom rendering of terms, and used it for multisets
blanchet
parents: 35402
diff changeset
  1893
        case AList.lookup (op =) ps t of
77aa29bf14ee added a mechanism to Nitpick to support custom rendering of terms, and used it for multisets
blanchet
parents: 35402
diff changeset
  1894
          SOME n => replicate n t
77aa29bf14ee added a mechanism to Nitpick to support custom rendering of terms, and used it for multisets
blanchet
parents: 35402
diff changeset
  1895
        | NONE => [Const (maybe_name, elem_T --> elem_T) $ t]
77aa29bf14ee added a mechanism to Nitpick to support custom rendering of terms, and used it for multisets
blanchet
parents: 35402
diff changeset
  1896
    in
77aa29bf14ee added a mechanism to Nitpick to support custom rendering of terms, and used it for multisets
blanchet
parents: 35402
diff changeset
  1897
      case maps elems_for (all_values elem_T) @
37261
8a89fd40ed0b honor xsymbols in Nitpick
blanchet
parents: 37169
diff changeset
  1898
           (if maybe_opt then [Const (Nitpick_Model.unrep (), elem_T)]
8a89fd40ed0b honor xsymbols in Nitpick
blanchet
parents: 37169
diff changeset
  1899
            else []) of
35712
77aa29bf14ee added a mechanism to Nitpick to support custom rendering of terms, and used it for multisets
blanchet
parents: 35402
diff changeset
  1900
        [] => Const (@{const_name zero_class.zero}, T)
77aa29bf14ee added a mechanism to Nitpick to support custom rendering of terms, and used it for multisets
blanchet
parents: 35402
diff changeset
  1901
      | ts => foldl1 (fn (t1, t2) =>
77aa29bf14ee added a mechanism to Nitpick to support custom rendering of terms, and used it for multisets
blanchet
parents: 35402
diff changeset
  1902
                         Const (@{const_name plus_class.plus}, T --> T --> T)
77aa29bf14ee added a mechanism to Nitpick to support custom rendering of terms, and used it for multisets
blanchet
parents: 35402
diff changeset
  1903
                         $ t1 $ t2)
77aa29bf14ee added a mechanism to Nitpick to support custom rendering of terms, and used it for multisets
blanchet
parents: 35402
diff changeset
  1904
                     (map (curry (op $) (Const (@{const_name single},
77aa29bf14ee added a mechanism to Nitpick to support custom rendering of terms, and used it for multisets
blanchet
parents: 35402
diff changeset
  1905
                                                elem_T --> T))) ts)
77aa29bf14ee added a mechanism to Nitpick to support custom rendering of terms, and used it for multisets
blanchet
parents: 35402
diff changeset
  1906
    end
77aa29bf14ee added a mechanism to Nitpick to support custom rendering of terms, and used it for multisets
blanchet
parents: 35402
diff changeset
  1907
  | multiset_postproc _ _ _ _ t = t
77aa29bf14ee added a mechanism to Nitpick to support custom rendering of terms, and used it for multisets
blanchet
parents: 35402
diff changeset
  1908
*}
77aa29bf14ee added a mechanism to Nitpick to support custom rendering of terms, and used it for multisets
blanchet
parents: 35402
diff changeset
  1909
38287
796302ca3611 replace "setup" with "declaration"
blanchet
parents: 38242
diff changeset
  1910
declaration {*
796302ca3611 replace "setup" with "declaration"
blanchet
parents: 38242
diff changeset
  1911
Nitpick_Model.register_term_postprocessor @{typ "'a multiset"}
38242
f26d590dce0f adapt occurrences of renamed Nitpick functions
blanchet
parents: 37765
diff changeset
  1912
    multiset_postproc
35712
77aa29bf14ee added a mechanism to Nitpick to support custom rendering of terms, and used it for multisets
blanchet
parents: 35402
diff changeset
  1913
*}
77aa29bf14ee added a mechanism to Nitpick to support custom rendering of terms, and used it for multisets
blanchet
parents: 35402
diff changeset
  1914
37169
f69efa106feb make Nitpick "show_all" option behave less surprisingly
blanchet
parents: 37107
diff changeset
  1915
end