src/HOL/BNF_Cardinal_Arithmetic.thy
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algebraic foundation for congruences
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(*  Title:      HOL/BNF_Cardinal_Arithmetic.thy
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    Author:     Dmitriy Traytel, TU Muenchen
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    Copyright   2012
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Cardinal arithmetic as needed by bounded natural functors.
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*)
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section \<open>Cardinal Arithmetic as Needed by Bounded Natural Functors\<close>
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theory BNF_Cardinal_Arithmetic
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imports BNF_Cardinal_Order_Relation
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begin
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lemma dir_image: "\<lbrakk>\<And>x y. (f x = f y) = (x = y); Card_order r\<rbrakk> \<Longrightarrow> r =o dir_image r f"
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by (rule dir_image_ordIso) (auto simp add: inj_on_def card_order_on_def)
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lemma card_order_dir_image:
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  assumes bij: "bij f" and co: "card_order r"
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  shows "card_order (dir_image r f)"
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proof -
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  from assms have "Field (dir_image r f) = UNIV"
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    using card_order_on_Card_order[of UNIV r] unfolding bij_def dir_image_Field by auto
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  moreover from bij have "\<And>x y. (f x = f y) = (x = y)" unfolding bij_def inj_on_def by auto
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  with co have "Card_order (dir_image r f)"
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    using card_order_on_Card_order[of UNIV r] Card_order_ordIso2[OF _ dir_image] by blast
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  ultimately show ?thesis by auto
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qed
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lemma ordIso_refl: "Card_order r \<Longrightarrow> r =o r"
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by (rule card_order_on_ordIso)
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lemma ordLeq_refl: "Card_order r \<Longrightarrow> r \<le>o r"
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by (rule ordIso_imp_ordLeq, rule card_order_on_ordIso)
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lemma card_of_ordIso_subst: "A = B \<Longrightarrow> |A| =o |B|"
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by (simp only: ordIso_refl card_of_Card_order)
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lemma Field_card_order: "card_order r \<Longrightarrow> Field r = UNIV"
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using card_order_on_Card_order[of UNIV r] by simp
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subsection \<open>Zero\<close>
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definition czero where
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  "czero = card_of {}"
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lemma czero_ordIso:
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  "czero =o czero"
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using card_of_empty_ordIso by (simp add: czero_def)
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lemma card_of_ordIso_czero_iff_empty:
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  "|A| =o (czero :: 'b rel) \<longleftrightarrow> A = ({} :: 'a set)"
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unfolding czero_def by (rule iffI[OF card_of_empty2]) (auto simp: card_of_refl card_of_empty_ordIso)
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(* A "not czero" Cardinal predicate *)
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abbreviation Cnotzero where
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  "Cnotzero (r :: 'a rel) \<equiv> \<not>(r =o (czero :: 'a rel)) \<and> Card_order r"
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(*helper*)
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lemma Cnotzero_imp_not_empty: "Cnotzero r \<Longrightarrow> Field r \<noteq> {}"
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  unfolding Card_order_iff_ordIso_card_of czero_def by force
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lemma czeroI:
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  "\<lbrakk>Card_order r; Field r = {}\<rbrakk> \<Longrightarrow> r =o czero"
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using Cnotzero_imp_not_empty ordIso_transitive[OF _ czero_ordIso] by blast
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lemma czeroE:
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  "r =o czero \<Longrightarrow> Field r = {}"
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unfolding czero_def
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by (drule card_of_cong) (simp only: Field_card_of card_of_empty2)
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lemma Cnotzero_mono:
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  "\<lbrakk>Cnotzero r; Card_order q; r \<le>o q\<rbrakk> \<Longrightarrow> Cnotzero q"
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apply (rule ccontr)
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apply auto
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apply (drule czeroE)
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apply (erule notE)
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apply (erule czeroI)
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apply (drule card_of_mono2)
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apply (simp only: card_of_empty3)
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done
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subsection \<open>(In)finite cardinals\<close>
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definition cinfinite where
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  "cinfinite r = (\<not> finite (Field r))"
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abbreviation Cinfinite where
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  "Cinfinite r \<equiv> cinfinite r \<and> Card_order r"
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definition cfinite where
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  "cfinite r = finite (Field r)"
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abbreviation Cfinite where
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  "Cfinite r \<equiv> cfinite r \<and> Card_order r"
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lemma Cfinite_ordLess_Cinfinite: "\<lbrakk>Cfinite r; Cinfinite s\<rbrakk> \<Longrightarrow> r <o s"
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  unfolding cfinite_def cinfinite_def
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  by (blast intro: finite_ordLess_infinite card_order_on_well_order_on)
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lemmas natLeq_card_order = natLeq_Card_order[unfolded Field_natLeq]
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lemma natLeq_cinfinite: "cinfinite natLeq"
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unfolding cinfinite_def Field_natLeq by (rule infinite_UNIV_nat)
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lemma natLeq_ordLeq_cinfinite:
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  assumes inf: "Cinfinite r"
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  shows "natLeq \<le>o r"
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proof -
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  from inf have "natLeq \<le>o |Field r|" unfolding cinfinite_def
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    using infinite_iff_natLeq_ordLeq by blast
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  also from inf have "|Field r| =o r" by (simp add: card_of_unique ordIso_symmetric)
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  finally show ?thesis .
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qed
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lemma cinfinite_not_czero: "cinfinite r \<Longrightarrow> \<not> (r =o (czero :: 'a rel))"
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unfolding cinfinite_def by (cases "Field r = {}") (auto dest: czeroE)
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lemma Cinfinite_Cnotzero: "Cinfinite r \<Longrightarrow> Cnotzero r"
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by (rule conjI[OF cinfinite_not_czero]) simp_all
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lemma Cinfinite_cong: "\<lbrakk>r1 =o r2; Cinfinite r1\<rbrakk> \<Longrightarrow> Cinfinite r2"
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using Card_order_ordIso2[of r1 r2] unfolding cinfinite_def ordIso_iff_ordLeq
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by (auto dest: card_of_ordLeq_infinite[OF card_of_mono2])
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lemma cinfinite_mono: "\<lbrakk>r1 \<le>o r2; cinfinite r1\<rbrakk> \<Longrightarrow> cinfinite r2"
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unfolding cinfinite_def by (auto dest: card_of_ordLeq_infinite[OF card_of_mono2])
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subsection \<open>Binary sum\<close>
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definition csum (infixr "+c" 65) where
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  "r1 +c r2 \<equiv> |Field r1 <+> Field r2|"
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lemma Field_csum: "Field (r +c s) = Inl ` Field r \<union> Inr ` Field s"
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  unfolding csum_def Field_card_of by auto
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lemma Card_order_csum:
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  "Card_order (r1 +c r2)"
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unfolding csum_def by (simp add: card_of_Card_order)
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lemma csum_Cnotzero1:
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  "Cnotzero r1 \<Longrightarrow> Cnotzero (r1 +c r2)"
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unfolding csum_def using Cnotzero_imp_not_empty[of r1] Plus_eq_empty_conv[of "Field r1" "Field r2"]
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   card_of_ordIso_czero_iff_empty[of "Field r1 <+> Field r2"] by (auto intro: card_of_Card_order)
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lemma card_order_csum:
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  assumes "card_order r1" "card_order r2"
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  shows "card_order (r1 +c r2)"
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proof -
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  have "Field r1 = UNIV" "Field r2 = UNIV" using assms card_order_on_Card_order by auto
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  thus ?thesis unfolding csum_def by (auto simp: card_of_card_order_on)
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qed
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lemma cinfinite_csum:
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  "cinfinite r1 \<or> cinfinite r2 \<Longrightarrow> cinfinite (r1 +c r2)"
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unfolding cinfinite_def csum_def by (auto simp: Field_card_of)
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lemma Cinfinite_csum1:
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  "Cinfinite r1 \<Longrightarrow> Cinfinite (r1 +c r2)"
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unfolding cinfinite_def csum_def by (rule conjI[OF _ card_of_Card_order]) (auto simp: Field_card_of)
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lemma Cinfinite_csum:
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  "Cinfinite r1 \<or> Cinfinite r2 \<Longrightarrow> Cinfinite (r1 +c r2)"
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unfolding cinfinite_def csum_def by (rule conjI[OF _ card_of_Card_order]) (auto simp: Field_card_of)
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lemma Cinfinite_csum_weak:
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  "\<lbrakk>Cinfinite r1; Cinfinite r2\<rbrakk> \<Longrightarrow> Cinfinite (r1 +c r2)"
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by (erule Cinfinite_csum1)
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lemma csum_cong: "\<lbrakk>p1 =o r1; p2 =o r2\<rbrakk> \<Longrightarrow> p1 +c p2 =o r1 +c r2"
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by (simp only: csum_def ordIso_Plus_cong)
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lemma csum_cong1: "p1 =o r1 \<Longrightarrow> p1 +c q =o r1 +c q"
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by (simp only: csum_def ordIso_Plus_cong1)
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lemma csum_cong2: "p2 =o r2 \<Longrightarrow> q +c p2 =o q +c r2"
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by (simp only: csum_def ordIso_Plus_cong2)
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lemma csum_mono: "\<lbrakk>p1 \<le>o r1; p2 \<le>o r2\<rbrakk> \<Longrightarrow> p1 +c p2 \<le>o r1 +c r2"
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by (simp only: csum_def ordLeq_Plus_mono)
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lemma csum_mono1: "p1 \<le>o r1 \<Longrightarrow> p1 +c q \<le>o r1 +c q"
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by (simp only: csum_def ordLeq_Plus_mono1)
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lemma csum_mono2: "p2 \<le>o r2 \<Longrightarrow> q +c p2 \<le>o q +c r2"
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by (simp only: csum_def ordLeq_Plus_mono2)
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lemma ordLeq_csum1: "Card_order p1 \<Longrightarrow> p1 \<le>o p1 +c p2"
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by (simp only: csum_def Card_order_Plus1)
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lemma ordLeq_csum2: "Card_order p2 \<Longrightarrow> p2 \<le>o p1 +c p2"
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by (simp only: csum_def Card_order_Plus2)
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lemma csum_com: "p1 +c p2 =o p2 +c p1"
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by (simp only: csum_def card_of_Plus_commute)
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lemma csum_assoc: "(p1 +c p2) +c p3 =o p1 +c p2 +c p3"
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by (simp only: csum_def Field_card_of card_of_Plus_assoc)
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lemma Cfinite_csum: "\<lbrakk>Cfinite r; Cfinite s\<rbrakk> \<Longrightarrow> Cfinite (r +c s)"
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  unfolding cfinite_def csum_def Field_card_of using card_of_card_order_on by simp
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lemma csum_csum: "(r1 +c r2) +c (r3 +c r4) =o (r1 +c r3) +c (r2 +c r4)"
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proof -
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  have "(r1 +c r2) +c (r3 +c r4) =o r1 +c r2 +c (r3 +c r4)"
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    by (rule csum_assoc)
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  also have "r1 +c r2 +c (r3 +c r4) =o r1 +c (r2 +c r3) +c r4"
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    by (intro csum_assoc csum_cong2 ordIso_symmetric)
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  also have "r1 +c (r2 +c r3) +c r4 =o r1 +c (r3 +c r2) +c r4"
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    by (intro csum_com csum_cong1 csum_cong2)
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  also have "r1 +c (r3 +c r2) +c r4 =o r1 +c r3 +c r2 +c r4"
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    by (intro csum_assoc csum_cong2 ordIso_symmetric)
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  also have "r1 +c r3 +c r2 +c r4 =o (r1 +c r3) +c (r2 +c r4)"
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    by (intro csum_assoc ordIso_symmetric)
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  finally show ?thesis .
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qed
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lemma Plus_csum: "|A <+> B| =o |A| +c |B|"
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by (simp only: csum_def Field_card_of card_of_refl)
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lemma Un_csum: "|A \<union> B| \<le>o |A| +c |B|"
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using ordLeq_ordIso_trans[OF card_of_Un_Plus_ordLeq Plus_csum] by blast
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subsection \<open>One\<close>
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definition cone where
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  "cone = card_of {()}"
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lemma Card_order_cone: "Card_order cone"
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unfolding cone_def by (rule card_of_Card_order)
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lemma Cfinite_cone: "Cfinite cone"
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  unfolding cfinite_def by (simp add: Card_order_cone)
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lemma cone_not_czero: "\<not> (cone =o czero)"
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unfolding czero_def cone_def ordIso_iff_ordLeq using card_of_empty3 empty_not_insert by blast
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lemma cone_ordLeq_Cnotzero: "Cnotzero r \<Longrightarrow> cone \<le>o r"
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unfolding cone_def by (rule Card_order_singl_ordLeq) (auto intro: czeroI)
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subsection \<open>Two\<close>
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definition ctwo where
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  "ctwo = |UNIV :: bool set|"
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lemma Card_order_ctwo: "Card_order ctwo"
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unfolding ctwo_def by (rule card_of_Card_order)
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lemma ctwo_not_czero: "\<not> (ctwo =o czero)"
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using card_of_empty3[of "UNIV :: bool set"] ordIso_iff_ordLeq
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unfolding czero_def ctwo_def using UNIV_not_empty by auto
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lemma ctwo_Cnotzero: "Cnotzero ctwo"
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by (simp add: ctwo_not_czero Card_order_ctwo)
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subsection \<open>Family sum\<close>
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definition Csum where
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  "Csum r rs \<equiv> |SIGMA i : Field r. Field (rs i)|"
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(* Similar setup to the one for SIGMA from theory Big_Operators: *)
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syntax "_Csum" ::
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  "pttrn => ('a * 'a) set => 'b * 'b set => (('a * 'b) * ('a * 'b)) set"
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  ("(3CSUM _:_. _)" [0, 51, 10] 10)
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translations
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  "CSUM i:r. rs" == "CONST Csum r (%i. rs)"
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lemma SIGMA_CSUM: "|SIGMA i : I. As i| = (CSUM i : |I|. |As i| )"
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by (auto simp: Csum_def Field_card_of)
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(* NB: Always, under the cardinal operator,
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operations on sets are reduced automatically to operations on cardinals.
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This should make cardinal reasoning more direct and natural.  *)
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subsection \<open>Product\<close>
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definition cprod (infixr "*c" 80) where
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  "r1 *c r2 = |Field r1 \<times> Field r2|"
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lemma card_order_cprod:
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  assumes "card_order r1" "card_order r2"
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  shows "card_order (r1 *c r2)"
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proof -
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  have "Field r1 = UNIV" "Field r2 = UNIV" using assms card_order_on_Card_order by auto
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  thus ?thesis by (auto simp: cprod_def card_of_card_order_on)
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qed
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lemma Card_order_cprod: "Card_order (r1 *c r2)"
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by (simp only: cprod_def Field_card_of card_of_card_order_on)
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lemma cprod_mono1: "p1 \<le>o r1 \<Longrightarrow> p1 *c q \<le>o r1 *c q"
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by (simp only: cprod_def ordLeq_Times_mono1)
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diff changeset
   299
6d5941722fae split 'Cardinal_Arithmetic' 3-way
blanchet
parents:
diff changeset
   300
lemma cprod_mono2: "p2 \<le>o r2 \<Longrightarrow> q *c p2 \<le>o q *c r2"
6d5941722fae split 'Cardinal_Arithmetic' 3-way
blanchet
parents:
diff changeset
   301
by (simp only: cprod_def ordLeq_Times_mono2)
6d5941722fae split 'Cardinal_Arithmetic' 3-way
blanchet
parents:
diff changeset
   302
55851
3d40cf74726c optimize cardinal bounds involving natLeq (omega)
blanchet
parents: 55811
diff changeset
   303
lemma cprod_mono: "\<lbrakk>p1 \<le>o r1; p2 \<le>o r2\<rbrakk> \<Longrightarrow> p1 *c p2 \<le>o r1 *c r2"
3d40cf74726c optimize cardinal bounds involving natLeq (omega)
blanchet
parents: 55811
diff changeset
   304
by (rule ordLeq_transitive[OF cprod_mono1 cprod_mono2])
3d40cf74726c optimize cardinal bounds involving natLeq (omega)
blanchet
parents: 55811
diff changeset
   305
54474
6d5941722fae split 'Cardinal_Arithmetic' 3-way
blanchet
parents:
diff changeset
   306
lemma ordLeq_cprod2: "\<lbrakk>Cnotzero p1; Card_order p2\<rbrakk> \<Longrightarrow> p2 \<le>o p1 *c p2"
55811
aa1acc25126b load Metis a little later
traytel
parents: 55604
diff changeset
   307
unfolding cprod_def by (rule Card_order_Times2) (auto intro: czeroI)
54474
6d5941722fae split 'Cardinal_Arithmetic' 3-way
blanchet
parents:
diff changeset
   308
6d5941722fae split 'Cardinal_Arithmetic' 3-way
blanchet
parents:
diff changeset
   309
lemma cinfinite_cprod: "\<lbrakk>cinfinite r1; cinfinite r2\<rbrakk> \<Longrightarrow> cinfinite (r1 *c r2)"
6d5941722fae split 'Cardinal_Arithmetic' 3-way
blanchet
parents:
diff changeset
   310
by (simp add: cinfinite_def cprod_def Field_card_of infinite_cartesian_product)
6d5941722fae split 'Cardinal_Arithmetic' 3-way
blanchet
parents:
diff changeset
   311
6d5941722fae split 'Cardinal_Arithmetic' 3-way
blanchet
parents:
diff changeset
   312
lemma cinfinite_cprod2: "\<lbrakk>Cnotzero r1; Cinfinite r2\<rbrakk> \<Longrightarrow> cinfinite (r1 *c r2)"
55811
aa1acc25126b load Metis a little later
traytel
parents: 55604
diff changeset
   313
by (rule cinfinite_mono) (auto intro: ordLeq_cprod2)
54474
6d5941722fae split 'Cardinal_Arithmetic' 3-way
blanchet
parents:
diff changeset
   314
6d5941722fae split 'Cardinal_Arithmetic' 3-way
blanchet
parents:
diff changeset
   315
lemma Cinfinite_cprod2: "\<lbrakk>Cnotzero r1; Cinfinite r2\<rbrakk> \<Longrightarrow> Cinfinite (r1 *c r2)"
6d5941722fae split 'Cardinal_Arithmetic' 3-way
blanchet
parents:
diff changeset
   316
by (blast intro: cinfinite_cprod2 Card_order_cprod)
6d5941722fae split 'Cardinal_Arithmetic' 3-way
blanchet
parents:
diff changeset
   317
55851
3d40cf74726c optimize cardinal bounds involving natLeq (omega)
blanchet
parents: 55811
diff changeset
   318
lemma cprod_cong: "\<lbrakk>p1 =o r1; p2 =o r2\<rbrakk> \<Longrightarrow> p1 *c p2 =o r1 *c r2"
55866
a6fa341a6d66 life without 'metis'
blanchet
parents: 55851
diff changeset
   319
unfolding ordIso_iff_ordLeq by (blast intro: cprod_mono)
55851
3d40cf74726c optimize cardinal bounds involving natLeq (omega)
blanchet
parents: 55811
diff changeset
   320
3d40cf74726c optimize cardinal bounds involving natLeq (omega)
blanchet
parents: 55811
diff changeset
   321
lemma cprod_cong1: "\<lbrakk>p1 =o r1\<rbrakk> \<Longrightarrow> p1 *c p2 =o r1 *c p2"
55866
a6fa341a6d66 life without 'metis'
blanchet
parents: 55851
diff changeset
   322
unfolding ordIso_iff_ordLeq by (blast intro: cprod_mono1)
55851
3d40cf74726c optimize cardinal bounds involving natLeq (omega)
blanchet
parents: 55811
diff changeset
   323
3d40cf74726c optimize cardinal bounds involving natLeq (omega)
blanchet
parents: 55811
diff changeset
   324
lemma cprod_cong2: "p2 =o r2 \<Longrightarrow> q *c p2 =o q *c r2"
55866
a6fa341a6d66 life without 'metis'
blanchet
parents: 55851
diff changeset
   325
unfolding ordIso_iff_ordLeq by (blast intro: cprod_mono2)
55851
3d40cf74726c optimize cardinal bounds involving natLeq (omega)
blanchet
parents: 55811
diff changeset
   326
54474
6d5941722fae split 'Cardinal_Arithmetic' 3-way
blanchet
parents:
diff changeset
   327
lemma cprod_com: "p1 *c p2 =o p2 *c p1"
6d5941722fae split 'Cardinal_Arithmetic' 3-way
blanchet
parents:
diff changeset
   328
by (simp only: cprod_def card_of_Times_commute)
6d5941722fae split 'Cardinal_Arithmetic' 3-way
blanchet
parents:
diff changeset
   329
6d5941722fae split 'Cardinal_Arithmetic' 3-way
blanchet
parents:
diff changeset
   330
lemma card_of_Csum_Times:
6d5941722fae split 'Cardinal_Arithmetic' 3-way
blanchet
parents:
diff changeset
   331
  "\<forall>i \<in> I. |A i| \<le>o |B| \<Longrightarrow> (CSUM i : |I|. |A i| ) \<le>o |I| *c |B|"
56191
159b0c88b4a4 tuned proofs; removed duplicated facts
traytel
parents: 55866
diff changeset
   332
by (simp only: Csum_def cprod_def Field_card_of card_of_Sigma_mono1)
54474
6d5941722fae split 'Cardinal_Arithmetic' 3-way
blanchet
parents:
diff changeset
   333
6d5941722fae split 'Cardinal_Arithmetic' 3-way
blanchet
parents:
diff changeset
   334
lemma card_of_Csum_Times':
6d5941722fae split 'Cardinal_Arithmetic' 3-way
blanchet
parents:
diff changeset
   335
  assumes "Card_order r" "\<forall>i \<in> I. |A i| \<le>o r"
6d5941722fae split 'Cardinal_Arithmetic' 3-way
blanchet
parents:
diff changeset
   336
  shows "(CSUM i : |I|. |A i| ) \<le>o |I| *c r"
6d5941722fae split 'Cardinal_Arithmetic' 3-way
blanchet
parents:
diff changeset
   337
proof -
6d5941722fae split 'Cardinal_Arithmetic' 3-way
blanchet
parents:
diff changeset
   338
  from assms(1) have *: "r =o |Field r|" by (simp add: card_of_unique)
6d5941722fae split 'Cardinal_Arithmetic' 3-way
blanchet
parents:
diff changeset
   339
  with assms(2) have "\<forall>i \<in> I. |A i| \<le>o |Field r|" by (blast intro: ordLeq_ordIso_trans)
6d5941722fae split 'Cardinal_Arithmetic' 3-way
blanchet
parents:
diff changeset
   340
  hence "(CSUM i : |I|. |A i| ) \<le>o |I| *c |Field r|" by (simp only: card_of_Csum_Times)
6d5941722fae split 'Cardinal_Arithmetic' 3-way
blanchet
parents:
diff changeset
   341
  also from * have "|I| *c |Field r| \<le>o |I| *c r"
6d5941722fae split 'Cardinal_Arithmetic' 3-way
blanchet
parents:
diff changeset
   342
    by (simp only: Field_card_of card_of_refl cprod_def ordIso_imp_ordLeq)
6d5941722fae split 'Cardinal_Arithmetic' 3-way
blanchet
parents:
diff changeset
   343
  finally show ?thesis .
6d5941722fae split 'Cardinal_Arithmetic' 3-way
blanchet
parents:
diff changeset
   344
qed
6d5941722fae split 'Cardinal_Arithmetic' 3-way
blanchet
parents:
diff changeset
   345
6d5941722fae split 'Cardinal_Arithmetic' 3-way
blanchet
parents:
diff changeset
   346
lemma cprod_csum_distrib1: "r1 *c r2 +c r1 *c r3 =o r1 *c (r2 +c r3)"
6d5941722fae split 'Cardinal_Arithmetic' 3-way
blanchet
parents:
diff changeset
   347
unfolding csum_def cprod_def by (simp add: Field_card_of card_of_Times_Plus_distrib ordIso_symmetric)
6d5941722fae split 'Cardinal_Arithmetic' 3-way
blanchet
parents:
diff changeset
   348
6d5941722fae split 'Cardinal_Arithmetic' 3-way
blanchet
parents:
diff changeset
   349
lemma csum_absorb2': "\<lbrakk>Card_order r2; r1 \<le>o r2; cinfinite r1 \<or> cinfinite r2\<rbrakk> \<Longrightarrow> r1 +c r2 =o r2"
55811
aa1acc25126b load Metis a little later
traytel
parents: 55604
diff changeset
   350
unfolding csum_def by (rule conjunct2[OF Card_order_Plus_infinite])
aa1acc25126b load Metis a little later
traytel
parents: 55604
diff changeset
   351
  (auto simp: cinfinite_def dest: cinfinite_mono)
54474
6d5941722fae split 'Cardinal_Arithmetic' 3-way
blanchet
parents:
diff changeset
   352
6d5941722fae split 'Cardinal_Arithmetic' 3-way
blanchet
parents:
diff changeset
   353
lemma csum_absorb1':
6d5941722fae split 'Cardinal_Arithmetic' 3-way
blanchet
parents:
diff changeset
   354
  assumes card: "Card_order r2"
6d5941722fae split 'Cardinal_Arithmetic' 3-way
blanchet
parents:
diff changeset
   355
  and r12: "r1 \<le>o r2" and cr12: "cinfinite r1 \<or> cinfinite r2"
6d5941722fae split 'Cardinal_Arithmetic' 3-way
blanchet
parents:
diff changeset
   356
  shows "r2 +c r1 =o r2"
6d5941722fae split 'Cardinal_Arithmetic' 3-way
blanchet
parents:
diff changeset
   357
by (rule ordIso_transitive, rule csum_com, rule csum_absorb2', (simp only: assms)+)
6d5941722fae split 'Cardinal_Arithmetic' 3-way
blanchet
parents:
diff changeset
   358
6d5941722fae split 'Cardinal_Arithmetic' 3-way
blanchet
parents:
diff changeset
   359
lemma csum_absorb1: "\<lbrakk>Cinfinite r2; r1 \<le>o r2\<rbrakk> \<Longrightarrow> r2 +c r1 =o r2"
6d5941722fae split 'Cardinal_Arithmetic' 3-way
blanchet
parents:
diff changeset
   360
by (rule csum_absorb1') auto
6d5941722fae split 'Cardinal_Arithmetic' 3-way
blanchet
parents:
diff changeset
   361
6d5941722fae split 'Cardinal_Arithmetic' 3-way
blanchet
parents:
diff changeset
   362
60758
d8d85a8172b5 isabelle update_cartouches;
wenzelm
parents: 58889
diff changeset
   363
subsection \<open>Exponentiation\<close>
54474
6d5941722fae split 'Cardinal_Arithmetic' 3-way
blanchet
parents:
diff changeset
   364
6d5941722fae split 'Cardinal_Arithmetic' 3-way
blanchet
parents:
diff changeset
   365
definition cexp (infixr "^c" 90) where
6d5941722fae split 'Cardinal_Arithmetic' 3-way
blanchet
parents:
diff changeset
   366
  "r1 ^c r2 \<equiv> |Func (Field r2) (Field r1)|"
6d5941722fae split 'Cardinal_Arithmetic' 3-way
blanchet
parents:
diff changeset
   367
6d5941722fae split 'Cardinal_Arithmetic' 3-way
blanchet
parents:
diff changeset
   368
lemma Card_order_cexp: "Card_order (r1 ^c r2)"
6d5941722fae split 'Cardinal_Arithmetic' 3-way
blanchet
parents:
diff changeset
   369
unfolding cexp_def by (rule card_of_Card_order)
6d5941722fae split 'Cardinal_Arithmetic' 3-way
blanchet
parents:
diff changeset
   370
6d5941722fae split 'Cardinal_Arithmetic' 3-way
blanchet
parents:
diff changeset
   371
lemma cexp_mono':
6d5941722fae split 'Cardinal_Arithmetic' 3-way
blanchet
parents:
diff changeset
   372
  assumes 1: "p1 \<le>o r1" and 2: "p2 \<le>o r2"
6d5941722fae split 'Cardinal_Arithmetic' 3-way
blanchet
parents:
diff changeset
   373
  and n: "Field p2 = {} \<Longrightarrow> Field r2 = {}"
6d5941722fae split 'Cardinal_Arithmetic' 3-way
blanchet
parents:
diff changeset
   374
  shows "p1 ^c p2 \<le>o r1 ^c r2"
6d5941722fae split 'Cardinal_Arithmetic' 3-way
blanchet
parents:
diff changeset
   375
proof(cases "Field p1 = {}")
6d5941722fae split 'Cardinal_Arithmetic' 3-way
blanchet
parents:
diff changeset
   376
  case True
55811
aa1acc25126b load Metis a little later
traytel
parents: 55604
diff changeset
   377
  hence "Field p2 \<noteq> {} \<Longrightarrow> Func (Field p2) {} = {}" unfolding Func_is_emp by simp
aa1acc25126b load Metis a little later
traytel
parents: 55604
diff changeset
   378
  with True have "|Field |Func (Field p2) (Field p1)|| \<le>o cone"
54474
6d5941722fae split 'Cardinal_Arithmetic' 3-way
blanchet
parents:
diff changeset
   379
    unfolding cone_def Field_card_of
55811
aa1acc25126b load Metis a little later
traytel
parents: 55604
diff changeset
   380
    by (cases "Field p2 = {}", auto intro: surj_imp_ordLeq simp: Func_empty)
54474
6d5941722fae split 'Cardinal_Arithmetic' 3-way
blanchet
parents:
diff changeset
   381
  hence "|Func (Field p2) (Field p1)| \<le>o cone" by (simp add: Field_card_of cexp_def)
6d5941722fae split 'Cardinal_Arithmetic' 3-way
blanchet
parents:
diff changeset
   382
  hence "p1 ^c p2 \<le>o cone" unfolding cexp_def .
6d5941722fae split 'Cardinal_Arithmetic' 3-way
blanchet
parents:
diff changeset
   383
  thus ?thesis
6d5941722fae split 'Cardinal_Arithmetic' 3-way
blanchet
parents:
diff changeset
   384
  proof (cases "Field p2 = {}")
6d5941722fae split 'Cardinal_Arithmetic' 3-way
blanchet
parents:
diff changeset
   385
    case True
6d5941722fae split 'Cardinal_Arithmetic' 3-way
blanchet
parents:
diff changeset
   386
    with n have "Field r2 = {}" .
55604
42e4e8c2e8dc less flex-flex pairs
noschinl
parents: 55059
diff changeset
   387
    hence "cone \<le>o r1 ^c r2" unfolding cone_def cexp_def Func_def
42e4e8c2e8dc less flex-flex pairs
noschinl
parents: 55059
diff changeset
   388
      by (auto intro: card_of_ordLeqI[where f="\<lambda>_ _. undefined"])
60758
d8d85a8172b5 isabelle update_cartouches;
wenzelm
parents: 58889
diff changeset
   389
    thus ?thesis using \<open>p1 ^c p2 \<le>o cone\<close> ordLeq_transitive by auto
54474
6d5941722fae split 'Cardinal_Arithmetic' 3-way
blanchet
parents:
diff changeset
   390
  next
6d5941722fae split 'Cardinal_Arithmetic' 3-way
blanchet
parents:
diff changeset
   391
    case False with True have "|Field (p1 ^c p2)| =o czero"
6d5941722fae split 'Cardinal_Arithmetic' 3-way
blanchet
parents:
diff changeset
   392
      unfolding card_of_ordIso_czero_iff_empty cexp_def Field_card_of Func_def by auto
6d5941722fae split 'Cardinal_Arithmetic' 3-way
blanchet
parents:
diff changeset
   393
    thus ?thesis unfolding cexp_def card_of_ordIso_czero_iff_empty Field_card_of
6d5941722fae split 'Cardinal_Arithmetic' 3-way
blanchet
parents:
diff changeset
   394
      by (simp add: card_of_empty)
6d5941722fae split 'Cardinal_Arithmetic' 3-way
blanchet
parents:
diff changeset
   395
  qed
6d5941722fae split 'Cardinal_Arithmetic' 3-way
blanchet
parents:
diff changeset
   396
next
6d5941722fae split 'Cardinal_Arithmetic' 3-way
blanchet
parents:
diff changeset
   397
  case False
6d5941722fae split 'Cardinal_Arithmetic' 3-way
blanchet
parents:
diff changeset
   398
  have 1: "|Field p1| \<le>o |Field r1|" and 2: "|Field p2| \<le>o |Field r2|"
6d5941722fae split 'Cardinal_Arithmetic' 3-way
blanchet
parents:
diff changeset
   399
    using 1 2 by (auto simp: card_of_mono2)
6d5941722fae split 'Cardinal_Arithmetic' 3-way
blanchet
parents:
diff changeset
   400
  obtain f1 where f1: "f1 ` Field r1 = Field p1"
6d5941722fae split 'Cardinal_Arithmetic' 3-way
blanchet
parents:
diff changeset
   401
    using 1 unfolding card_of_ordLeq2[OF False, symmetric] by auto
6d5941722fae split 'Cardinal_Arithmetic' 3-way
blanchet
parents:
diff changeset
   402
  obtain f2 where f2: "inj_on f2 (Field p2)" "f2 ` Field p2 \<subseteq> Field r2"
6d5941722fae split 'Cardinal_Arithmetic' 3-way
blanchet
parents:
diff changeset
   403
    using 2 unfolding card_of_ordLeq[symmetric] by blast
6d5941722fae split 'Cardinal_Arithmetic' 3-way
blanchet
parents:
diff changeset
   404
  have 0: "Func_map (Field p2) f1 f2 ` (Field (r1 ^c r2)) = Field (p1 ^c p2)"
6d5941722fae split 'Cardinal_Arithmetic' 3-way
blanchet
parents:
diff changeset
   405
    unfolding cexp_def Field_card_of using Func_map_surj[OF f1 f2 n, symmetric] .
6d5941722fae split 'Cardinal_Arithmetic' 3-way
blanchet
parents:
diff changeset
   406
  have 00: "Field (p1 ^c p2) \<noteq> {}" unfolding cexp_def Field_card_of Func_is_emp
6d5941722fae split 'Cardinal_Arithmetic' 3-way
blanchet
parents:
diff changeset
   407
    using False by simp
6d5941722fae split 'Cardinal_Arithmetic' 3-way
blanchet
parents:
diff changeset
   408
  show ?thesis
6d5941722fae split 'Cardinal_Arithmetic' 3-way
blanchet
parents:
diff changeset
   409
    using 0 card_of_ordLeq2[OF 00] unfolding cexp_def Field_card_of by blast
6d5941722fae split 'Cardinal_Arithmetic' 3-way
blanchet
parents:
diff changeset
   410
qed
6d5941722fae split 'Cardinal_Arithmetic' 3-way
blanchet
parents:
diff changeset
   411
6d5941722fae split 'Cardinal_Arithmetic' 3-way
blanchet
parents:
diff changeset
   412
lemma cexp_mono:
6d5941722fae split 'Cardinal_Arithmetic' 3-way
blanchet
parents:
diff changeset
   413
  assumes 1: "p1 \<le>o r1" and 2: "p2 \<le>o r2"
6d5941722fae split 'Cardinal_Arithmetic' 3-way
blanchet
parents:
diff changeset
   414
  and n: "p2 =o czero \<Longrightarrow> r2 =o czero" and card: "Card_order p2"
6d5941722fae split 'Cardinal_Arithmetic' 3-way
blanchet
parents:
diff changeset
   415
  shows "p1 ^c p2 \<le>o r1 ^c r2"
55811
aa1acc25126b load Metis a little later
traytel
parents: 55604
diff changeset
   416
  by (rule cexp_mono'[OF 1 2 czeroE[OF n[OF czeroI[OF card]]]])
54474
6d5941722fae split 'Cardinal_Arithmetic' 3-way
blanchet
parents:
diff changeset
   417
6d5941722fae split 'Cardinal_Arithmetic' 3-way
blanchet
parents:
diff changeset
   418
lemma cexp_mono1:
6d5941722fae split 'Cardinal_Arithmetic' 3-way
blanchet
parents:
diff changeset
   419
  assumes 1: "p1 \<le>o r1" and q: "Card_order q"
6d5941722fae split 'Cardinal_Arithmetic' 3-way
blanchet
parents:
diff changeset
   420
  shows "p1 ^c q \<le>o r1 ^c q"
6d5941722fae split 'Cardinal_Arithmetic' 3-way
blanchet
parents:
diff changeset
   421
using ordLeq_refl[OF q] by (rule cexp_mono[OF 1]) (auto simp: q)
6d5941722fae split 'Cardinal_Arithmetic' 3-way
blanchet
parents:
diff changeset
   422
6d5941722fae split 'Cardinal_Arithmetic' 3-way
blanchet
parents:
diff changeset
   423
lemma cexp_mono2':
6d5941722fae split 'Cardinal_Arithmetic' 3-way
blanchet
parents:
diff changeset
   424
  assumes 2: "p2 \<le>o r2" and q: "Card_order q"
6d5941722fae split 'Cardinal_Arithmetic' 3-way
blanchet
parents:
diff changeset
   425
  and n: "Field p2 = {} \<Longrightarrow> Field r2 = {}"
6d5941722fae split 'Cardinal_Arithmetic' 3-way
blanchet
parents:
diff changeset
   426
  shows "q ^c p2 \<le>o q ^c r2"
6d5941722fae split 'Cardinal_Arithmetic' 3-way
blanchet
parents:
diff changeset
   427
using ordLeq_refl[OF q] by (rule cexp_mono'[OF _ 2 n]) auto
6d5941722fae split 'Cardinal_Arithmetic' 3-way
blanchet
parents:
diff changeset
   428
6d5941722fae split 'Cardinal_Arithmetic' 3-way
blanchet
parents:
diff changeset
   429
lemma cexp_mono2:
6d5941722fae split 'Cardinal_Arithmetic' 3-way
blanchet
parents:
diff changeset
   430
  assumes 2: "p2 \<le>o r2" and q: "Card_order q"
6d5941722fae split 'Cardinal_Arithmetic' 3-way
blanchet
parents:
diff changeset
   431
  and n: "p2 =o czero \<Longrightarrow> r2 =o czero" and card: "Card_order p2"
6d5941722fae split 'Cardinal_Arithmetic' 3-way
blanchet
parents:
diff changeset
   432
  shows "q ^c p2 \<le>o q ^c r2"
6d5941722fae split 'Cardinal_Arithmetic' 3-way
blanchet
parents:
diff changeset
   433
using ordLeq_refl[OF q] by (rule cexp_mono[OF _ 2 n card]) auto
6d5941722fae split 'Cardinal_Arithmetic' 3-way
blanchet
parents:
diff changeset
   434
6d5941722fae split 'Cardinal_Arithmetic' 3-way
blanchet
parents:
diff changeset
   435
lemma cexp_mono2_Cnotzero:
6d5941722fae split 'Cardinal_Arithmetic' 3-way
blanchet
parents:
diff changeset
   436
  assumes "p2 \<le>o r2" "Card_order q" "Cnotzero p2"
6d5941722fae split 'Cardinal_Arithmetic' 3-way
blanchet
parents:
diff changeset
   437
  shows "q ^c p2 \<le>o q ^c r2"
55811
aa1acc25126b load Metis a little later
traytel
parents: 55604
diff changeset
   438
using assms(3) czeroI by (blast intro: cexp_mono2'[OF assms(1,2)])
54474
6d5941722fae split 'Cardinal_Arithmetic' 3-way
blanchet
parents:
diff changeset
   439
6d5941722fae split 'Cardinal_Arithmetic' 3-way
blanchet
parents:
diff changeset
   440
lemma cexp_cong:
6d5941722fae split 'Cardinal_Arithmetic' 3-way
blanchet
parents:
diff changeset
   441
  assumes 1: "p1 =o r1" and 2: "p2 =o r2"
6d5941722fae split 'Cardinal_Arithmetic' 3-way
blanchet
parents:
diff changeset
   442
  and Cr: "Card_order r2"
6d5941722fae split 'Cardinal_Arithmetic' 3-way
blanchet
parents:
diff changeset
   443
  and Cp: "Card_order p2"
6d5941722fae split 'Cardinal_Arithmetic' 3-way
blanchet
parents:
diff changeset
   444
  shows "p1 ^c p2 =o r1 ^c r2"
6d5941722fae split 'Cardinal_Arithmetic' 3-way
blanchet
parents:
diff changeset
   445
proof -
6d5941722fae split 'Cardinal_Arithmetic' 3-way
blanchet
parents:
diff changeset
   446
  obtain f where "bij_betw f (Field p2) (Field r2)"
6d5941722fae split 'Cardinal_Arithmetic' 3-way
blanchet
parents:
diff changeset
   447
    using 2 card_of_ordIso[of "Field p2" "Field r2"] card_of_cong by auto
6d5941722fae split 'Cardinal_Arithmetic' 3-way
blanchet
parents:
diff changeset
   448
  hence 0: "Field p2 = {} \<longleftrightarrow> Field r2 = {}" unfolding bij_betw_def by auto
6d5941722fae split 'Cardinal_Arithmetic' 3-way
blanchet
parents:
diff changeset
   449
  have r: "p2 =o czero \<Longrightarrow> r2 =o czero"
6d5941722fae split 'Cardinal_Arithmetic' 3-way
blanchet
parents:
diff changeset
   450
    and p: "r2 =o czero \<Longrightarrow> p2 =o czero"
6d5941722fae split 'Cardinal_Arithmetic' 3-way
blanchet
parents:
diff changeset
   451
     using 0 Cr Cp czeroE czeroI by auto
6d5941722fae split 'Cardinal_Arithmetic' 3-way
blanchet
parents:
diff changeset
   452
  show ?thesis using 0 1 2 unfolding ordIso_iff_ordLeq
55811
aa1acc25126b load Metis a little later
traytel
parents: 55604
diff changeset
   453
    using r p cexp_mono[OF _ _ _ Cp] cexp_mono[OF _ _ _ Cr] by blast
54474
6d5941722fae split 'Cardinal_Arithmetic' 3-way
blanchet
parents:
diff changeset
   454
qed
6d5941722fae split 'Cardinal_Arithmetic' 3-way
blanchet
parents:
diff changeset
   455
6d5941722fae split 'Cardinal_Arithmetic' 3-way
blanchet
parents:
diff changeset
   456
lemma cexp_cong1:
6d5941722fae split 'Cardinal_Arithmetic' 3-way
blanchet
parents:
diff changeset
   457
  assumes 1: "p1 =o r1" and q: "Card_order q"
6d5941722fae split 'Cardinal_Arithmetic' 3-way
blanchet
parents:
diff changeset
   458
  shows "p1 ^c q =o r1 ^c q"
6d5941722fae split 'Cardinal_Arithmetic' 3-way
blanchet
parents:
diff changeset
   459
by (rule cexp_cong[OF 1 _ q q]) (rule ordIso_refl[OF q])
6d5941722fae split 'Cardinal_Arithmetic' 3-way
blanchet
parents:
diff changeset
   460
6d5941722fae split 'Cardinal_Arithmetic' 3-way
blanchet
parents:
diff changeset
   461
lemma cexp_cong2:
6d5941722fae split 'Cardinal_Arithmetic' 3-way
blanchet
parents:
diff changeset
   462
  assumes 2: "p2 =o r2" and q: "Card_order q" and p: "Card_order p2"
6d5941722fae split 'Cardinal_Arithmetic' 3-way
blanchet
parents:
diff changeset
   463
  shows "q ^c p2 =o q ^c r2"
6d5941722fae split 'Cardinal_Arithmetic' 3-way
blanchet
parents:
diff changeset
   464
by (rule cexp_cong[OF _ 2]) (auto simp only: ordIso_refl Card_order_ordIso2[OF p 2] q p)
6d5941722fae split 'Cardinal_Arithmetic' 3-way
blanchet
parents:
diff changeset
   465
6d5941722fae split 'Cardinal_Arithmetic' 3-way
blanchet
parents:
diff changeset
   466
lemma cexp_cone:
6d5941722fae split 'Cardinal_Arithmetic' 3-way
blanchet
parents:
diff changeset
   467
  assumes "Card_order r"
6d5941722fae split 'Cardinal_Arithmetic' 3-way
blanchet
parents:
diff changeset
   468
  shows "r ^c cone =o r"
6d5941722fae split 'Cardinal_Arithmetic' 3-way
blanchet
parents:
diff changeset
   469
proof -
6d5941722fae split 'Cardinal_Arithmetic' 3-way
blanchet
parents:
diff changeset
   470
  have "r ^c cone =o |Field r|"
6d5941722fae split 'Cardinal_Arithmetic' 3-way
blanchet
parents:
diff changeset
   471
    unfolding cexp_def cone_def Field_card_of Func_empty
6d5941722fae split 'Cardinal_Arithmetic' 3-way
blanchet
parents:
diff changeset
   472
      card_of_ordIso[symmetric] bij_betw_def Func_def inj_on_def image_def
6d5941722fae split 'Cardinal_Arithmetic' 3-way
blanchet
parents:
diff changeset
   473
    by (rule exI[of _ "\<lambda>f. f ()"]) auto
6d5941722fae split 'Cardinal_Arithmetic' 3-way
blanchet
parents:
diff changeset
   474
  also have "|Field r| =o r" by (rule card_of_Field_ordIso[OF assms])
6d5941722fae split 'Cardinal_Arithmetic' 3-way
blanchet
parents:
diff changeset
   475
  finally show ?thesis .
6d5941722fae split 'Cardinal_Arithmetic' 3-way
blanchet
parents:
diff changeset
   476
qed
6d5941722fae split 'Cardinal_Arithmetic' 3-way
blanchet
parents:
diff changeset
   477
6d5941722fae split 'Cardinal_Arithmetic' 3-way
blanchet
parents:
diff changeset
   478
lemma cexp_cprod:
6d5941722fae split 'Cardinal_Arithmetic' 3-way
blanchet
parents:
diff changeset
   479
  assumes r1: "Card_order r1"
6d5941722fae split 'Cardinal_Arithmetic' 3-way
blanchet
parents:
diff changeset
   480
  shows "(r1 ^c r2) ^c r3 =o r1 ^c (r2 *c r3)" (is "?L =o ?R")
6d5941722fae split 'Cardinal_Arithmetic' 3-way
blanchet
parents:
diff changeset
   481
proof -
6d5941722fae split 'Cardinal_Arithmetic' 3-way
blanchet
parents:
diff changeset
   482
  have "?L =o r1 ^c (r3 *c r2)"
6d5941722fae split 'Cardinal_Arithmetic' 3-way
blanchet
parents:
diff changeset
   483
    unfolding cprod_def cexp_def Field_card_of
6d5941722fae split 'Cardinal_Arithmetic' 3-way
blanchet
parents:
diff changeset
   484
    using card_of_Func_Times by(rule ordIso_symmetric)
6d5941722fae split 'Cardinal_Arithmetic' 3-way
blanchet
parents:
diff changeset
   485
  also have "r1 ^c (r3 *c r2) =o ?R"
6d5941722fae split 'Cardinal_Arithmetic' 3-way
blanchet
parents:
diff changeset
   486
    apply(rule cexp_cong2) using cprod_com r1 by (auto simp: Card_order_cprod)
6d5941722fae split 'Cardinal_Arithmetic' 3-way
blanchet
parents:
diff changeset
   487
  finally show ?thesis .
6d5941722fae split 'Cardinal_Arithmetic' 3-way
blanchet
parents:
diff changeset
   488
qed
6d5941722fae split 'Cardinal_Arithmetic' 3-way
blanchet
parents:
diff changeset
   489
6d5941722fae split 'Cardinal_Arithmetic' 3-way
blanchet
parents:
diff changeset
   490
lemma cprod_infinite1': "\<lbrakk>Cinfinite r; Cnotzero p; p \<le>o r\<rbrakk> \<Longrightarrow> r *c p =o r"
6d5941722fae split 'Cardinal_Arithmetic' 3-way
blanchet
parents:
diff changeset
   491
unfolding cinfinite_def cprod_def
6d5941722fae split 'Cardinal_Arithmetic' 3-way
blanchet
parents:
diff changeset
   492
by (rule Card_order_Times_infinite[THEN conjunct1]) (blast intro: czeroI)+
6d5941722fae split 'Cardinal_Arithmetic' 3-way
blanchet
parents:
diff changeset
   493
55851
3d40cf74726c optimize cardinal bounds involving natLeq (omega)
blanchet
parents: 55811
diff changeset
   494
lemma cprod_infinite: "Cinfinite r \<Longrightarrow> r *c r =o r"
3d40cf74726c optimize cardinal bounds involving natLeq (omega)
blanchet
parents: 55811
diff changeset
   495
using cprod_infinite1' Cinfinite_Cnotzero ordLeq_refl by blast
3d40cf74726c optimize cardinal bounds involving natLeq (omega)
blanchet
parents: 55811
diff changeset
   496
54474
6d5941722fae split 'Cardinal_Arithmetic' 3-way
blanchet
parents:
diff changeset
   497
lemma cexp_cprod_ordLeq:
6d5941722fae split 'Cardinal_Arithmetic' 3-way
blanchet
parents:
diff changeset
   498
  assumes r1: "Card_order r1" and r2: "Cinfinite r2"
6d5941722fae split 'Cardinal_Arithmetic' 3-way
blanchet
parents:
diff changeset
   499
  and r3: "Cnotzero r3" "r3 \<le>o r2"
6d5941722fae split 'Cardinal_Arithmetic' 3-way
blanchet
parents:
diff changeset
   500
  shows "(r1 ^c r2) ^c r3 =o r1 ^c r2" (is "?L =o ?R")
6d5941722fae split 'Cardinal_Arithmetic' 3-way
blanchet
parents:
diff changeset
   501
proof-
6d5941722fae split 'Cardinal_Arithmetic' 3-way
blanchet
parents:
diff changeset
   502
  have "?L =o r1 ^c (r2 *c r3)" using cexp_cprod[OF r1] .
6d5941722fae split 'Cardinal_Arithmetic' 3-way
blanchet
parents:
diff changeset
   503
  also have "r1 ^c (r2 *c r3) =o ?R"
6d5941722fae split 'Cardinal_Arithmetic' 3-way
blanchet
parents:
diff changeset
   504
  apply(rule cexp_cong2)
6d5941722fae split 'Cardinal_Arithmetic' 3-way
blanchet
parents:
diff changeset
   505
  apply(rule cprod_infinite1'[OF r2 r3]) using r1 r2 by (fastforce simp: Card_order_cprod)+
6d5941722fae split 'Cardinal_Arithmetic' 3-way
blanchet
parents:
diff changeset
   506
  finally show ?thesis .
6d5941722fae split 'Cardinal_Arithmetic' 3-way
blanchet
parents:
diff changeset
   507
qed
6d5941722fae split 'Cardinal_Arithmetic' 3-way
blanchet
parents:
diff changeset
   508
6d5941722fae split 'Cardinal_Arithmetic' 3-way
blanchet
parents:
diff changeset
   509
lemma Cnotzero_UNIV: "Cnotzero |UNIV|"
6d5941722fae split 'Cardinal_Arithmetic' 3-way
blanchet
parents:
diff changeset
   510
by (auto simp: card_of_Card_order card_of_ordIso_czero_iff_empty)
6d5941722fae split 'Cardinal_Arithmetic' 3-way
blanchet
parents:
diff changeset
   511
6d5941722fae split 'Cardinal_Arithmetic' 3-way
blanchet
parents:
diff changeset
   512
lemma ordLess_ctwo_cexp:
6d5941722fae split 'Cardinal_Arithmetic' 3-way
blanchet
parents:
diff changeset
   513
  assumes "Card_order r"
6d5941722fae split 'Cardinal_Arithmetic' 3-way
blanchet
parents:
diff changeset
   514
  shows "r <o ctwo ^c r"
6d5941722fae split 'Cardinal_Arithmetic' 3-way
blanchet
parents:
diff changeset
   515
proof -
6d5941722fae split 'Cardinal_Arithmetic' 3-way
blanchet
parents:
diff changeset
   516
  have "r <o |Pow (Field r)|" using assms by (rule Card_order_Pow)
6d5941722fae split 'Cardinal_Arithmetic' 3-way
blanchet
parents:
diff changeset
   517
  also have "|Pow (Field r)| =o ctwo ^c r"
6d5941722fae split 'Cardinal_Arithmetic' 3-way
blanchet
parents:
diff changeset
   518
    unfolding ctwo_def cexp_def Field_card_of by (rule card_of_Pow_Func)
6d5941722fae split 'Cardinal_Arithmetic' 3-way
blanchet
parents:
diff changeset
   519
  finally show ?thesis .
6d5941722fae split 'Cardinal_Arithmetic' 3-way
blanchet
parents:
diff changeset
   520
qed
6d5941722fae split 'Cardinal_Arithmetic' 3-way
blanchet
parents:
diff changeset
   521
6d5941722fae split 'Cardinal_Arithmetic' 3-way
blanchet
parents:
diff changeset
   522
lemma ordLeq_cexp1:
6d5941722fae split 'Cardinal_Arithmetic' 3-way
blanchet
parents:
diff changeset
   523
  assumes "Cnotzero r" "Card_order q"
6d5941722fae split 'Cardinal_Arithmetic' 3-way
blanchet
parents:
diff changeset
   524
  shows "q \<le>o q ^c r"
6d5941722fae split 'Cardinal_Arithmetic' 3-way
blanchet
parents:
diff changeset
   525
proof (cases "q =o (czero :: 'a rel)")
6d5941722fae split 'Cardinal_Arithmetic' 3-way
blanchet
parents:
diff changeset
   526
  case True thus ?thesis by (simp only: card_of_empty cexp_def czero_def ordIso_ordLeq_trans)
6d5941722fae split 'Cardinal_Arithmetic' 3-way
blanchet
parents:
diff changeset
   527
next
6d5941722fae split 'Cardinal_Arithmetic' 3-way
blanchet
parents:
diff changeset
   528
  case False
6d5941722fae split 'Cardinal_Arithmetic' 3-way
blanchet
parents:
diff changeset
   529
  thus ?thesis
6d5941722fae split 'Cardinal_Arithmetic' 3-way
blanchet
parents:
diff changeset
   530
    apply -
6d5941722fae split 'Cardinal_Arithmetic' 3-way
blanchet
parents:
diff changeset
   531
    apply (rule ordIso_ordLeq_trans)
6d5941722fae split 'Cardinal_Arithmetic' 3-way
blanchet
parents:
diff changeset
   532
    apply (rule ordIso_symmetric)
6d5941722fae split 'Cardinal_Arithmetic' 3-way
blanchet
parents:
diff changeset
   533
    apply (rule cexp_cone)
6d5941722fae split 'Cardinal_Arithmetic' 3-way
blanchet
parents:
diff changeset
   534
    apply (rule assms(2))
6d5941722fae split 'Cardinal_Arithmetic' 3-way
blanchet
parents:
diff changeset
   535
    apply (rule cexp_mono2)
6d5941722fae split 'Cardinal_Arithmetic' 3-way
blanchet
parents:
diff changeset
   536
    apply (rule cone_ordLeq_Cnotzero)
6d5941722fae split 'Cardinal_Arithmetic' 3-way
blanchet
parents:
diff changeset
   537
    apply (rule assms(1))
6d5941722fae split 'Cardinal_Arithmetic' 3-way
blanchet
parents:
diff changeset
   538
    apply (rule assms(2))
6d5941722fae split 'Cardinal_Arithmetic' 3-way
blanchet
parents:
diff changeset
   539
    apply (rule notE)
6d5941722fae split 'Cardinal_Arithmetic' 3-way
blanchet
parents:
diff changeset
   540
    apply (rule cone_not_czero)
6d5941722fae split 'Cardinal_Arithmetic' 3-way
blanchet
parents:
diff changeset
   541
    apply assumption
6d5941722fae split 'Cardinal_Arithmetic' 3-way
blanchet
parents:
diff changeset
   542
    apply (rule Card_order_cone)
6d5941722fae split 'Cardinal_Arithmetic' 3-way
blanchet
parents:
diff changeset
   543
  done
6d5941722fae split 'Cardinal_Arithmetic' 3-way
blanchet
parents:
diff changeset
   544
qed
6d5941722fae split 'Cardinal_Arithmetic' 3-way
blanchet
parents:
diff changeset
   545
6d5941722fae split 'Cardinal_Arithmetic' 3-way
blanchet
parents:
diff changeset
   546
lemma ordLeq_cexp2:
6d5941722fae split 'Cardinal_Arithmetic' 3-way
blanchet
parents:
diff changeset
   547
  assumes "ctwo \<le>o q" "Card_order r"
6d5941722fae split 'Cardinal_Arithmetic' 3-way
blanchet
parents:
diff changeset
   548
  shows "r \<le>o q ^c r"
6d5941722fae split 'Cardinal_Arithmetic' 3-way
blanchet
parents:
diff changeset
   549
proof (cases "r =o (czero :: 'a rel)")
6d5941722fae split 'Cardinal_Arithmetic' 3-way
blanchet
parents:
diff changeset
   550
  case True thus ?thesis by (simp only: card_of_empty cexp_def czero_def ordIso_ordLeq_trans)
6d5941722fae split 'Cardinal_Arithmetic' 3-way
blanchet
parents:
diff changeset
   551
next
6d5941722fae split 'Cardinal_Arithmetic' 3-way
blanchet
parents:
diff changeset
   552
  case False thus ?thesis
6d5941722fae split 'Cardinal_Arithmetic' 3-way
blanchet
parents:
diff changeset
   553
    apply -
6d5941722fae split 'Cardinal_Arithmetic' 3-way
blanchet
parents:
diff changeset
   554
    apply (rule ordLess_imp_ordLeq)
6d5941722fae split 'Cardinal_Arithmetic' 3-way
blanchet
parents:
diff changeset
   555
    apply (rule ordLess_ordLeq_trans)
6d5941722fae split 'Cardinal_Arithmetic' 3-way
blanchet
parents:
diff changeset
   556
    apply (rule ordLess_ctwo_cexp)
6d5941722fae split 'Cardinal_Arithmetic' 3-way
blanchet
parents:
diff changeset
   557
    apply (rule assms(2))
6d5941722fae split 'Cardinal_Arithmetic' 3-way
blanchet
parents:
diff changeset
   558
    apply (rule cexp_mono1)
6d5941722fae split 'Cardinal_Arithmetic' 3-way
blanchet
parents:
diff changeset
   559
    apply (rule assms(1))
6d5941722fae split 'Cardinal_Arithmetic' 3-way
blanchet
parents:
diff changeset
   560
    apply (rule assms(2))
6d5941722fae split 'Cardinal_Arithmetic' 3-way
blanchet
parents:
diff changeset
   561
  done
6d5941722fae split 'Cardinal_Arithmetic' 3-way
blanchet
parents:
diff changeset
   562
qed
6d5941722fae split 'Cardinal_Arithmetic' 3-way
blanchet
parents:
diff changeset
   563
6d5941722fae split 'Cardinal_Arithmetic' 3-way
blanchet
parents:
diff changeset
   564
lemma cinfinite_cexp: "\<lbrakk>ctwo \<le>o q; Cinfinite r\<rbrakk> \<Longrightarrow> cinfinite (q ^c r)"
55811
aa1acc25126b load Metis a little later
traytel
parents: 55604
diff changeset
   565
by (rule cinfinite_mono[OF ordLeq_cexp2]) simp_all
54474
6d5941722fae split 'Cardinal_Arithmetic' 3-way
blanchet
parents:
diff changeset
   566
6d5941722fae split 'Cardinal_Arithmetic' 3-way
blanchet
parents:
diff changeset
   567
lemma Cinfinite_cexp:
6d5941722fae split 'Cardinal_Arithmetic' 3-way
blanchet
parents:
diff changeset
   568
  "\<lbrakk>ctwo \<le>o q; Cinfinite r\<rbrakk> \<Longrightarrow> Cinfinite (q ^c r)"
6d5941722fae split 'Cardinal_Arithmetic' 3-way
blanchet
parents:
diff changeset
   569
by (simp add: cinfinite_cexp Card_order_cexp)
6d5941722fae split 'Cardinal_Arithmetic' 3-way
blanchet
parents:
diff changeset
   570
6d5941722fae split 'Cardinal_Arithmetic' 3-way
blanchet
parents:
diff changeset
   571
lemma ctwo_ordLess_natLeq: "ctwo <o natLeq"
54581
1502a1f707d9 eliminated dependence of Cardinals_FP on Set_Intervals, more precise imports
traytel
parents: 54578
diff changeset
   572
unfolding ctwo_def using finite_UNIV natLeq_cinfinite natLeq_Card_order
1502a1f707d9 eliminated dependence of Cardinals_FP on Set_Intervals, more precise imports
traytel
parents: 54578
diff changeset
   573
by (intro Cfinite_ordLess_Cinfinite) (auto simp: cfinite_def card_of_Card_order)
54474
6d5941722fae split 'Cardinal_Arithmetic' 3-way
blanchet
parents:
diff changeset
   574
6d5941722fae split 'Cardinal_Arithmetic' 3-way
blanchet
parents:
diff changeset
   575
lemma ctwo_ordLess_Cinfinite: "Cinfinite r \<Longrightarrow> ctwo <o r"
55811
aa1acc25126b load Metis a little later
traytel
parents: 55604
diff changeset
   576
by (rule ordLess_ordLeq_trans[OF ctwo_ordLess_natLeq natLeq_ordLeq_cinfinite])
54474
6d5941722fae split 'Cardinal_Arithmetic' 3-way
blanchet
parents:
diff changeset
   577
6d5941722fae split 'Cardinal_Arithmetic' 3-way
blanchet
parents:
diff changeset
   578
lemma ctwo_ordLeq_Cinfinite:
6d5941722fae split 'Cardinal_Arithmetic' 3-way
blanchet
parents:
diff changeset
   579
  assumes "Cinfinite r"
6d5941722fae split 'Cardinal_Arithmetic' 3-way
blanchet
parents:
diff changeset
   580
  shows "ctwo \<le>o r"
6d5941722fae split 'Cardinal_Arithmetic' 3-way
blanchet
parents:
diff changeset
   581
by (rule ordLess_imp_ordLeq[OF ctwo_ordLess_Cinfinite[OF assms]])
6d5941722fae split 'Cardinal_Arithmetic' 3-way
blanchet
parents:
diff changeset
   582
6d5941722fae split 'Cardinal_Arithmetic' 3-way
blanchet
parents:
diff changeset
   583
lemma Un_Cinfinite_bound: "\<lbrakk>|A| \<le>o r; |B| \<le>o r; Cinfinite r\<rbrakk> \<Longrightarrow> |A \<union> B| \<le>o r"
6d5941722fae split 'Cardinal_Arithmetic' 3-way
blanchet
parents:
diff changeset
   584
by (auto simp add: cinfinite_def card_of_Un_ordLeq_infinite_Field)
6d5941722fae split 'Cardinal_Arithmetic' 3-way
blanchet
parents:
diff changeset
   585
6d5941722fae split 'Cardinal_Arithmetic' 3-way
blanchet
parents:
diff changeset
   586
lemma UNION_Cinfinite_bound: "\<lbrakk>|I| \<le>o r; \<forall>i \<in> I. |A i| \<le>o r; Cinfinite r\<rbrakk> \<Longrightarrow> |\<Union>i \<in> I. A i| \<le>o r"
6d5941722fae split 'Cardinal_Arithmetic' 3-way
blanchet
parents:
diff changeset
   587
by (auto simp add: card_of_UNION_ordLeq_infinite_Field cinfinite_def)
6d5941722fae split 'Cardinal_Arithmetic' 3-way
blanchet
parents:
diff changeset
   588
6d5941722fae split 'Cardinal_Arithmetic' 3-way
blanchet
parents:
diff changeset
   589
lemma csum_cinfinite_bound:
6d5941722fae split 'Cardinal_Arithmetic' 3-way
blanchet
parents:
diff changeset
   590
  assumes "p \<le>o r" "q \<le>o r" "Card_order p" "Card_order q" "Cinfinite r"
6d5941722fae split 'Cardinal_Arithmetic' 3-way
blanchet
parents:
diff changeset
   591
  shows "p +c q \<le>o r"
6d5941722fae split 'Cardinal_Arithmetic' 3-way
blanchet
parents:
diff changeset
   592
proof -
6d5941722fae split 'Cardinal_Arithmetic' 3-way
blanchet
parents:
diff changeset
   593
  from assms(1-4) have "|Field p| \<le>o r" "|Field q| \<le>o r"
6d5941722fae split 'Cardinal_Arithmetic' 3-way
blanchet
parents:
diff changeset
   594
    unfolding card_order_on_def using card_of_least ordLeq_transitive by blast+
6d5941722fae split 'Cardinal_Arithmetic' 3-way
blanchet
parents:
diff changeset
   595
  with assms show ?thesis unfolding cinfinite_def csum_def
6d5941722fae split 'Cardinal_Arithmetic' 3-way
blanchet
parents:
diff changeset
   596
    by (blast intro: card_of_Plus_ordLeq_infinite_Field)
6d5941722fae split 'Cardinal_Arithmetic' 3-way
blanchet
parents:
diff changeset
   597
qed
6d5941722fae split 'Cardinal_Arithmetic' 3-way
blanchet
parents:
diff changeset
   598
6d5941722fae split 'Cardinal_Arithmetic' 3-way
blanchet
parents:
diff changeset
   599
lemma cprod_cinfinite_bound:
6d5941722fae split 'Cardinal_Arithmetic' 3-way
blanchet
parents:
diff changeset
   600
  assumes "p \<le>o r" "q \<le>o r" "Card_order p" "Card_order q" "Cinfinite r"
6d5941722fae split 'Cardinal_Arithmetic' 3-way
blanchet
parents:
diff changeset
   601
  shows "p *c q \<le>o r"
6d5941722fae split 'Cardinal_Arithmetic' 3-way
blanchet
parents:
diff changeset
   602
proof -
6d5941722fae split 'Cardinal_Arithmetic' 3-way
blanchet
parents:
diff changeset
   603
  from assms(1-4) have "|Field p| \<le>o r" "|Field q| \<le>o r"
6d5941722fae split 'Cardinal_Arithmetic' 3-way
blanchet
parents:
diff changeset
   604
    unfolding card_order_on_def using card_of_least ordLeq_transitive by blast+
6d5941722fae split 'Cardinal_Arithmetic' 3-way
blanchet
parents:
diff changeset
   605
  with assms show ?thesis unfolding cinfinite_def cprod_def
6d5941722fae split 'Cardinal_Arithmetic' 3-way
blanchet
parents:
diff changeset
   606
    by (blast intro: card_of_Times_ordLeq_infinite_Field)
6d5941722fae split 'Cardinal_Arithmetic' 3-way
blanchet
parents:
diff changeset
   607
qed
6d5941722fae split 'Cardinal_Arithmetic' 3-way
blanchet
parents:
diff changeset
   608
6d5941722fae split 'Cardinal_Arithmetic' 3-way
blanchet
parents:
diff changeset
   609
lemma cprod_csum_cexp:
6d5941722fae split 'Cardinal_Arithmetic' 3-way
blanchet
parents:
diff changeset
   610
  "r1 *c r2 \<le>o (r1 +c r2) ^c ctwo"
6d5941722fae split 'Cardinal_Arithmetic' 3-way
blanchet
parents:
diff changeset
   611
unfolding cprod_def csum_def cexp_def ctwo_def Field_card_of
6d5941722fae split 'Cardinal_Arithmetic' 3-way
blanchet
parents:
diff changeset
   612
proof -
6d5941722fae split 'Cardinal_Arithmetic' 3-way
blanchet
parents:
diff changeset
   613
  let ?f = "\<lambda>(a, b). %x. if x then Inl a else Inr b"
6d5941722fae split 'Cardinal_Arithmetic' 3-way
blanchet
parents:
diff changeset
   614
  have "inj_on ?f (Field r1 \<times> Field r2)" (is "inj_on _ ?LHS")
6d5941722fae split 'Cardinal_Arithmetic' 3-way
blanchet
parents:
diff changeset
   615
    by (auto simp: inj_on_def fun_eq_iff split: bool.split)
6d5941722fae split 'Cardinal_Arithmetic' 3-way
blanchet
parents:
diff changeset
   616
  moreover
6d5941722fae split 'Cardinal_Arithmetic' 3-way
blanchet
parents:
diff changeset
   617
  have "?f ` ?LHS \<subseteq> Func (UNIV :: bool set) (Field r1 <+> Field r2)" (is "_ \<subseteq> ?RHS")
6d5941722fae split 'Cardinal_Arithmetic' 3-way
blanchet
parents:
diff changeset
   618
    by (auto simp: Func_def)
6d5941722fae split 'Cardinal_Arithmetic' 3-way
blanchet
parents:
diff changeset
   619
  ultimately show "|?LHS| \<le>o |?RHS|" using card_of_ordLeq by blast
6d5941722fae split 'Cardinal_Arithmetic' 3-way
blanchet
parents:
diff changeset
   620
qed
6d5941722fae split 'Cardinal_Arithmetic' 3-way
blanchet
parents:
diff changeset
   621
6d5941722fae split 'Cardinal_Arithmetic' 3-way
blanchet
parents:
diff changeset
   622
lemma Cfinite_cprod_Cinfinite: "\<lbrakk>Cfinite r; Cinfinite s\<rbrakk> \<Longrightarrow> r *c s \<le>o s"
6d5941722fae split 'Cardinal_Arithmetic' 3-way
blanchet
parents:
diff changeset
   623
by (intro cprod_cinfinite_bound)
6d5941722fae split 'Cardinal_Arithmetic' 3-way
blanchet
parents:
diff changeset
   624
  (auto intro: ordLeq_refl ordLess_imp_ordLeq[OF Cfinite_ordLess_Cinfinite])
6d5941722fae split 'Cardinal_Arithmetic' 3-way
blanchet
parents:
diff changeset
   625
6d5941722fae split 'Cardinal_Arithmetic' 3-way
blanchet
parents:
diff changeset
   626
lemma cprod_cexp: "(r *c s) ^c t =o r ^c t *c s ^c t"
6d5941722fae split 'Cardinal_Arithmetic' 3-way
blanchet
parents:
diff changeset
   627
  unfolding cprod_def cexp_def Field_card_of by (rule Func_Times_Range)
6d5941722fae split 'Cardinal_Arithmetic' 3-way
blanchet
parents:
diff changeset
   628
6d5941722fae split 'Cardinal_Arithmetic' 3-way
blanchet
parents:
diff changeset
   629
lemma cprod_cexp_csum_cexp_Cinfinite:
6d5941722fae split 'Cardinal_Arithmetic' 3-way
blanchet
parents:
diff changeset
   630
  assumes t: "Cinfinite t"
6d5941722fae split 'Cardinal_Arithmetic' 3-way
blanchet
parents:
diff changeset
   631
  shows "(r *c s) ^c t \<le>o (r +c s) ^c t"
6d5941722fae split 'Cardinal_Arithmetic' 3-way
blanchet
parents:
diff changeset
   632
proof -
6d5941722fae split 'Cardinal_Arithmetic' 3-way
blanchet
parents:
diff changeset
   633
  have "(r *c s) ^c t \<le>o ((r +c s) ^c ctwo) ^c t"
6d5941722fae split 'Cardinal_Arithmetic' 3-way
blanchet
parents:
diff changeset
   634
    by (rule cexp_mono1[OF cprod_csum_cexp conjunct2[OF t]])
6d5941722fae split 'Cardinal_Arithmetic' 3-way
blanchet
parents:
diff changeset
   635
  also have "((r +c s) ^c ctwo) ^c t =o (r +c s) ^c (ctwo *c t)"
6d5941722fae split 'Cardinal_Arithmetic' 3-way
blanchet
parents:
diff changeset
   636
    by (rule cexp_cprod[OF Card_order_csum])
6d5941722fae split 'Cardinal_Arithmetic' 3-way
blanchet
parents:
diff changeset
   637
  also have "(r +c s) ^c (ctwo *c t) =o (r +c s) ^c (t *c ctwo)"
6d5941722fae split 'Cardinal_Arithmetic' 3-way
blanchet
parents:
diff changeset
   638
    by (rule cexp_cong2[OF cprod_com Card_order_csum Card_order_cprod])
6d5941722fae split 'Cardinal_Arithmetic' 3-way
blanchet
parents:
diff changeset
   639
  also have "(r +c s) ^c (t *c ctwo) =o ((r +c s) ^c t) ^c ctwo"
6d5941722fae split 'Cardinal_Arithmetic' 3-way
blanchet
parents:
diff changeset
   640
    by (rule ordIso_symmetric[OF cexp_cprod[OF Card_order_csum]])
6d5941722fae split 'Cardinal_Arithmetic' 3-way
blanchet
parents:
diff changeset
   641
  also have "((r +c s) ^c t) ^c ctwo =o (r +c s) ^c t"
6d5941722fae split 'Cardinal_Arithmetic' 3-way
blanchet
parents:
diff changeset
   642
    by (rule cexp_cprod_ordLeq[OF Card_order_csum t ctwo_Cnotzero ctwo_ordLeq_Cinfinite[OF t]])
6d5941722fae split 'Cardinal_Arithmetic' 3-way
blanchet
parents:
diff changeset
   643
  finally show ?thesis .
6d5941722fae split 'Cardinal_Arithmetic' 3-way
blanchet
parents:
diff changeset
   644
qed
6d5941722fae split 'Cardinal_Arithmetic' 3-way
blanchet
parents:
diff changeset
   645
6d5941722fae split 'Cardinal_Arithmetic' 3-way
blanchet
parents:
diff changeset
   646
lemma Cfinite_cexp_Cinfinite:
6d5941722fae split 'Cardinal_Arithmetic' 3-way
blanchet
parents:
diff changeset
   647
  assumes s: "Cfinite s" and t: "Cinfinite t"
6d5941722fae split 'Cardinal_Arithmetic' 3-way
blanchet
parents:
diff changeset
   648
  shows "s ^c t \<le>o ctwo ^c t"
6d5941722fae split 'Cardinal_Arithmetic' 3-way
blanchet
parents:
diff changeset
   649
proof (cases "s \<le>o ctwo")
6d5941722fae split 'Cardinal_Arithmetic' 3-way
blanchet
parents:
diff changeset
   650
  case True thus ?thesis using t by (blast intro: cexp_mono1)
6d5941722fae split 'Cardinal_Arithmetic' 3-way
blanchet
parents:
diff changeset
   651
next
6d5941722fae split 'Cardinal_Arithmetic' 3-way
blanchet
parents:
diff changeset
   652
  case False
55811
aa1acc25126b load Metis a little later
traytel
parents: 55604
diff changeset
   653
  hence "ctwo \<le>o s" using ordLeq_total[of s ctwo] Card_order_ctwo s
aa1acc25126b load Metis a little later
traytel
parents: 55604
diff changeset
   654
    by (auto intro: card_order_on_well_order_on)
aa1acc25126b load Metis a little later
traytel
parents: 55604
diff changeset
   655
  hence "Cnotzero s" using Cnotzero_mono[OF ctwo_Cnotzero] s by blast
aa1acc25126b load Metis a little later
traytel
parents: 55604
diff changeset
   656
  hence st: "Cnotzero (s *c t)" by (intro Cinfinite_Cnotzero[OF Cinfinite_cprod2]) (auto simp: t)
54474
6d5941722fae split 'Cardinal_Arithmetic' 3-way
blanchet
parents:
diff changeset
   657
  have "s ^c t \<le>o (ctwo ^c s) ^c t"
6d5941722fae split 'Cardinal_Arithmetic' 3-way
blanchet
parents:
diff changeset
   658
    using assms by (blast intro: cexp_mono1 ordLess_imp_ordLeq[OF ordLess_ctwo_cexp])
6d5941722fae split 'Cardinal_Arithmetic' 3-way
blanchet
parents:
diff changeset
   659
  also have "(ctwo ^c s) ^c t =o ctwo ^c (s *c t)"
6d5941722fae split 'Cardinal_Arithmetic' 3-way
blanchet
parents:
diff changeset
   660
    by (blast intro: Card_order_ctwo cexp_cprod)
6d5941722fae split 'Cardinal_Arithmetic' 3-way
blanchet
parents:
diff changeset
   661
  also have "ctwo ^c (s *c t) \<le>o ctwo ^c t"
6d5941722fae split 'Cardinal_Arithmetic' 3-way
blanchet
parents:
diff changeset
   662
    using assms st by (intro cexp_mono2_Cnotzero Cfinite_cprod_Cinfinite Card_order_ctwo)
6d5941722fae split 'Cardinal_Arithmetic' 3-way
blanchet
parents:
diff changeset
   663
  finally show ?thesis .
6d5941722fae split 'Cardinal_Arithmetic' 3-way
blanchet
parents:
diff changeset
   664
qed
6d5941722fae split 'Cardinal_Arithmetic' 3-way
blanchet
parents:
diff changeset
   665
6d5941722fae split 'Cardinal_Arithmetic' 3-way
blanchet
parents:
diff changeset
   666
lemma csum_Cfinite_cexp_Cinfinite:
6d5941722fae split 'Cardinal_Arithmetic' 3-way
blanchet
parents:
diff changeset
   667
  assumes r: "Card_order r" and s: "Cfinite s" and t: "Cinfinite t"
6d5941722fae split 'Cardinal_Arithmetic' 3-way
blanchet
parents:
diff changeset
   668
  shows "(r +c s) ^c t \<le>o (r +c ctwo) ^c t"
6d5941722fae split 'Cardinal_Arithmetic' 3-way
blanchet
parents:
diff changeset
   669
proof (cases "Cinfinite r")
6d5941722fae split 'Cardinal_Arithmetic' 3-way
blanchet
parents:
diff changeset
   670
  case True
6d5941722fae split 'Cardinal_Arithmetic' 3-way
blanchet
parents:
diff changeset
   671
  hence "r +c s =o r" by (intro csum_absorb1 ordLess_imp_ordLeq[OF Cfinite_ordLess_Cinfinite] s)
6d5941722fae split 'Cardinal_Arithmetic' 3-way
blanchet
parents:
diff changeset
   672
  hence "(r +c s) ^c t =o r ^c t" using t by (blast intro: cexp_cong1)
6d5941722fae split 'Cardinal_Arithmetic' 3-way
blanchet
parents:
diff changeset
   673
  also have "r ^c t \<le>o (r +c ctwo) ^c t" using t by (blast intro: cexp_mono1 ordLeq_csum1 r)
6d5941722fae split 'Cardinal_Arithmetic' 3-way
blanchet
parents:
diff changeset
   674
  finally show ?thesis .
6d5941722fae split 'Cardinal_Arithmetic' 3-way
blanchet
parents:
diff changeset
   675
next
6d5941722fae split 'Cardinal_Arithmetic' 3-way
blanchet
parents:
diff changeset
   676
  case False
6d5941722fae split 'Cardinal_Arithmetic' 3-way
blanchet
parents:
diff changeset
   677
  with r have "Cfinite r" unfolding cinfinite_def cfinite_def by auto
6d5941722fae split 'Cardinal_Arithmetic' 3-way
blanchet
parents:
diff changeset
   678
  hence "Cfinite (r +c s)" by (intro Cfinite_csum s)
6d5941722fae split 'Cardinal_Arithmetic' 3-way
blanchet
parents:
diff changeset
   679
  hence "(r +c s) ^c t \<le>o ctwo ^c t" by (intro Cfinite_cexp_Cinfinite t)
6d5941722fae split 'Cardinal_Arithmetic' 3-way
blanchet
parents:
diff changeset
   680
  also have "ctwo ^c t \<le>o (r +c ctwo) ^c t" using t
6d5941722fae split 'Cardinal_Arithmetic' 3-way
blanchet
parents:
diff changeset
   681
    by (blast intro: cexp_mono1 ordLeq_csum2 Card_order_ctwo)
6d5941722fae split 'Cardinal_Arithmetic' 3-way
blanchet
parents:
diff changeset
   682
  finally show ?thesis .
6d5941722fae split 'Cardinal_Arithmetic' 3-way
blanchet
parents:
diff changeset
   683
qed
6d5941722fae split 'Cardinal_Arithmetic' 3-way
blanchet
parents:
diff changeset
   684
6d5941722fae split 'Cardinal_Arithmetic' 3-way
blanchet
parents:
diff changeset
   685
(* cardSuc *)
6d5941722fae split 'Cardinal_Arithmetic' 3-way
blanchet
parents:
diff changeset
   686
6d5941722fae split 'Cardinal_Arithmetic' 3-way
blanchet
parents:
diff changeset
   687
lemma Cinfinite_cardSuc: "Cinfinite r \<Longrightarrow> Cinfinite (cardSuc r)"
6d5941722fae split 'Cardinal_Arithmetic' 3-way
blanchet
parents:
diff changeset
   688
by (simp add: cinfinite_def cardSuc_Card_order cardSuc_finite)
6d5941722fae split 'Cardinal_Arithmetic' 3-way
blanchet
parents:
diff changeset
   689
6d5941722fae split 'Cardinal_Arithmetic' 3-way
blanchet
parents:
diff changeset
   690
lemma cardSuc_UNION_Cinfinite:
6d5941722fae split 'Cardinal_Arithmetic' 3-way
blanchet
parents:
diff changeset
   691
  assumes "Cinfinite r" "relChain (cardSuc r) As" "B \<le> (UN i : Field (cardSuc r). As i)" "|B| <=o r"
6d5941722fae split 'Cardinal_Arithmetic' 3-way
blanchet
parents:
diff changeset
   692
  shows "EX i : Field (cardSuc r). B \<le> As i"
6d5941722fae split 'Cardinal_Arithmetic' 3-way
blanchet
parents:
diff changeset
   693
using cardSuc_UNION assms unfolding cinfinite_def by blast
6d5941722fae split 'Cardinal_Arithmetic' 3-way
blanchet
parents:
diff changeset
   694
6d5941722fae split 'Cardinal_Arithmetic' 3-way
blanchet
parents:
diff changeset
   695
end