| author | nipkow |
| Mon, 22 Jun 2009 20:59:12 +0200 | |
| changeset 31754 | b5260f5272a4 |
| parent 31731 | 7ffc1a901eea |
| child 31759 | 1e652c39d617 |
| permissions | -rw-r--r-- |
| 13586 | 1 |
(* Title: HOL/Library/FuncSet.thy |
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Author: Florian Kammueller and Lawrence C Paulson |
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*) |
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header {* Pi and Function Sets *}
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theory FuncSet |
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imports Hilbert_Choice Main |
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begin |
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definition |
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Pi :: "['a set, 'a => 'b set] => ('a => 'b) set" where
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"Pi A B = {f. \<forall>x. x \<in> A --> f x \<in> B x}"
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more robust syntax for definition/abbreviation/notation;
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definition |
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extensional :: "'a set => ('a => 'b) set" where
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"extensional A = {f. \<forall>x. x~:A --> f x = undefined}"
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more robust syntax for definition/abbreviation/notation;
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parents:
21210
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definition |
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more robust syntax for definition/abbreviation/notation;
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"restrict" :: "['a => 'b, 'a set] => ('a => 'b)" where
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"restrict f A = (%x. if x \<in> A then f x else undefined)" |
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abbreviation |
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funcset :: "['a set, 'b set] => ('a => 'b) set"
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(infixr "->" 60) where |
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"A -> B == Pi A (%_. B)" |
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notation (xsymbols) |
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funcset (infixr "\<rightarrow>" 60) |
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syntax |
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"_Pi" :: "[pttrn, 'a set, 'b set] => ('a => 'b) set" ("(3PI _:_./ _)" 10)
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"_lam" :: "[pttrn, 'a set, 'a => 'b] => ('a=>'b)" ("(3%_:_./ _)" [0,0,3] 3)
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syntax (xsymbols) |
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"_Pi" :: "[pttrn, 'a set, 'b set] => ('a => 'b) set" ("(3\<Pi> _\<in>_./ _)" 10)
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"_lam" :: "[pttrn, 'a set, 'a => 'b] => ('a=>'b)" ("(3\<lambda>_\<in>_./ _)" [0,0,3] 3)
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syntax (HTML output) |
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"_Pi" :: "[pttrn, 'a set, 'b set] => ('a => 'b) set" ("(3\<Pi> _\<in>_./ _)" 10)
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"_lam" :: "[pttrn, 'a set, 'a => 'b] => ('a=>'b)" ("(3\<lambda>_\<in>_./ _)" [0,0,3] 3)
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translations |
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"PI x:A. B" == "CONST Pi A (%x. B)" |
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"%x:A. f" == "CONST restrict (%x. f) A" |
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definition |
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"compose" :: "['a set, 'b => 'c, 'a => 'b] => ('a => 'c)" where
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"compose A g f = (\<lambda>x\<in>A. g (f x))" |
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subsection{*Basic Properties of @{term Pi}*}
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lemma Pi_I[intro!]: "(!!x. x \<in> A ==> f x \<in> B x) ==> f \<in> Pi A B" |
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by (simp add: Pi_def) |
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lemma Pi_I'[simp]: "(!!x. x : A --> f x : B x) ==> f : Pi A B" |
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by(simp add:Pi_def) |
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lemma funcsetI: "(!!x. x \<in> A ==> f x \<in> B) ==> f \<in> A -> B" |
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by (simp add: Pi_def) |
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lemma Pi_mem: "[|f: Pi A B; x \<in> A|] ==> f x \<in> B x" |
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by (simp add: Pi_def) |
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lemma ballE [elim]: |
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"f : Pi A B ==> (f x : B x ==> Q) ==> (x ~: A ==> Q) ==> Q" |
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by(auto simp: Pi_def) |
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lemma funcset_mem: "[|f \<in> A -> B; x \<in> A|] ==> f x \<in> B" |
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by (simp add: Pi_def) |
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lemma funcset_image: "f \<in> A\<rightarrow>B ==> f ` A \<subseteq> B" |
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by auto |
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lemma Pi_eq_empty[simp]: "((PI x: A. B x) = {}) = (\<exists>x\<in>A. B(x) = {})"
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apply (simp add: Pi_def, auto) |
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txt{*Converse direction requires Axiom of Choice to exhibit a function
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picking an element from each non-empty @{term "B x"}*}
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apply (drule_tac x = "%u. SOME y. y \<in> B u" in spec, auto) |
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apply (cut_tac P= "%y. y \<in> B x" in some_eq_ex, auto) |
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done |
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lemma Pi_empty [simp]: "Pi {} B = UNIV"
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by (simp add: Pi_def) |
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lemma Pi_UNIV [simp]: "A -> UNIV = UNIV" |
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by (simp add: Pi_def) |
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(* |
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lemma funcset_id [simp]: "(%x. x): A -> A" |
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by (simp add: Pi_def) |
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*) |
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text{*Covariance of Pi-sets in their second argument*}
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lemma Pi_mono: "(!!x. x \<in> A ==> B x <= C x) ==> Pi A B <= Pi A C" |
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by auto |
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text{*Contravariance of Pi-sets in their first argument*}
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lemma Pi_anti_mono: "A' <= A ==> Pi A B <= Pi A' B" |
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by auto |
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subsection{*Composition With a Restricted Domain: @{term compose}*}
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lemma funcset_compose: |
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"[| f \<in> A -> B; g \<in> B -> C |]==> compose A g f \<in> A -> C" |
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by (simp add: Pi_def compose_def restrict_def) |
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lemma compose_assoc: |
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"[| f \<in> A -> B; g \<in> B -> C; h \<in> C -> D |] |
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==> compose A h (compose A g f) = compose A (compose B h g) f" |
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by (simp add: expand_fun_eq Pi_def compose_def restrict_def) |
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lemma compose_eq: "x \<in> A ==> compose A g f x = g(f(x))" |
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by (simp add: compose_def restrict_def) |
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lemma surj_compose: "[| f ` A = B; g ` B = C |] ==> compose A g f ` A = C" |
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by (auto simp add: image_def compose_eq) |
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subsection{*Bounded Abstraction: @{term restrict}*}
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lemma restrict_in_funcset: "(!!x. x \<in> A ==> f x \<in> B) ==> (\<lambda>x\<in>A. f x) \<in> A -> B" |
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by (simp add: Pi_def restrict_def) |
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lemma restrictI[intro!]: "(!!x. x \<in> A ==> f x \<in> B x) ==> (\<lambda>x\<in>A. f x) \<in> Pi A B" |
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by (simp add: Pi_def restrict_def) |
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lemma restrict_apply [simp]: |
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"(\<lambda>y\<in>A. f y) x = (if x \<in> A then f x else undefined)" |
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by (simp add: restrict_def) |
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lemma restrict_ext: |
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"(!!x. x \<in> A ==> f x = g x) ==> (\<lambda>x\<in>A. f x) = (\<lambda>x\<in>A. g x)" |
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by (simp add: expand_fun_eq Pi_def restrict_def) |
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lemma inj_on_restrict_eq [simp]: "inj_on (restrict f A) A = inj_on f A" |
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by (simp add: inj_on_def restrict_def) |
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lemma Id_compose: |
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"[|f \<in> A -> B; f \<in> extensional A|] ==> compose A (\<lambda>y\<in>B. y) f = f" |
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by (auto simp add: expand_fun_eq compose_def extensional_def Pi_def) |
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lemma compose_Id: |
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"[|g \<in> A -> B; g \<in> extensional A|] ==> compose A g (\<lambda>x\<in>A. x) = g" |
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by (auto simp add: expand_fun_eq compose_def extensional_def Pi_def) |
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lemma image_restrict_eq [simp]: "(restrict f A) ` A = f ` A" |
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by (auto simp add: restrict_def) |
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subsection{*Bijections Between Sets*}
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text{*The definition of @{const bij_betw} is in @{text "Fun.thy"}, but most of
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the theorems belong here, or need at least @{term Hilbert_Choice}.*}
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lemma bij_betw_imp_funcset: "bij_betw f A B \<Longrightarrow> f \<in> A \<rightarrow> B" |
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by (auto simp add: bij_betw_def inj_on_Inv) |
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lemma inj_on_compose: |
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"[| bij_betw f A B; inj_on g B |] ==> inj_on (compose A g f) A" |
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by (auto simp add: bij_betw_def inj_on_def compose_eq) |
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lemma bij_betw_compose: |
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"[| bij_betw f A B; bij_betw g B C |] ==> bij_betw (compose A g f) A C" |
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apply (simp add: bij_betw_def compose_eq inj_on_compose) |
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apply (auto simp add: compose_def image_def) |
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done |
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lemma bij_betw_restrict_eq [simp]: |
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"bij_betw (restrict f A) A B = bij_betw f A B" |
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by (simp add: bij_betw_def) |
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subsection{*Extensionality*}
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lemma extensional_arb: "[|f \<in> extensional A; x\<notin> A|] ==> f x = undefined" |
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by (simp add: extensional_def) |
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lemma restrict_extensional [simp]: "restrict f A \<in> extensional A" |
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by (simp add: restrict_def extensional_def) |
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lemma compose_extensional [simp]: "compose A f g \<in> extensional A" |
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by (simp add: compose_def) |
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lemma extensionalityI: |
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"[| f \<in> extensional A; g \<in> extensional A; |
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!!x. x\<in>A ==> f x = g x |] ==> f = g" |
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by (force simp add: expand_fun_eq extensional_def) |
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lemma Inv_funcset: "f ` A = B ==> (\<lambda>x\<in>B. Inv A f x) : B -> A" |
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by (unfold Inv_def) (fast intro: someI2) |
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lemma compose_Inv_id: |
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"bij_betw f A B ==> compose A (\<lambda>y\<in>B. Inv A f y) f = (\<lambda>x\<in>A. x)" |
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apply (simp add: bij_betw_def compose_def) |
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apply (rule restrict_ext, auto) |
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apply (erule subst) |
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apply (simp add: Inv_f_f) |
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done |
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lemma compose_id_Inv: |
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"f ` A = B ==> compose B f (\<lambda>y\<in>B. Inv A f y) = (\<lambda>x\<in>B. x)" |
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apply (simp add: compose_def) |
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apply (rule restrict_ext) |
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apply (simp add: f_Inv_f) |
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done |
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subsection{*Cardinality*}
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lemma card_inj: "[|f \<in> A\<rightarrow>B; inj_on f A; finite B|] ==> card(A) \<le> card(B)" |
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by (rule card_inj_on_le) auto |
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lemma card_bij: |
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"[|f \<in> A\<rightarrow>B; inj_on f A; |
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g \<in> B\<rightarrow>A; inj_on g B; finite A; finite B|] ==> card(A) = card(B)" |
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by (blast intro: card_inj order_antisym) |
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end |