| author | wenzelm |
| Tue, 13 Oct 2020 20:29:13 +0200 | |
| changeset 72471 | aca85e8d873d |
| parent 71925 | bf085daea304 |
| child 74334 | ead56ad40e15 |
| permissions | -rw-r--r-- |
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(* Title: HOL/Examples/Knaster_Tarski.thy |
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Author: Makarius |
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Typical textbook proof example. |
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*) |
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section \<open>Textbook-style reasoning: the Knaster-Tarski Theorem\<close> |
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theory Knaster_Tarski |
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imports Main "HOL-Library.Lattice_Syntax" |
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begin |
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subsection \<open>Prose version\<close> |
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text \<open> |
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According to the textbook @{cite \<open>pages 93--94\<close> "davey-priestley"}, the
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Knaster-Tarski fixpoint theorem is as follows.\<^footnote>\<open>We have dualized the |
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argument, and tuned the notation a little bit.\<close> |
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\<^bold>\<open>The Knaster-Tarski Fixpoint Theorem.\<close> Let \<open>L\<close> be a complete lattice and |
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\<open>f: L \<rightarrow> L\<close> an order-preserving map. Then \<open>\<Sqinter>{x \<in> L | f(x) \<le> x}\<close> is a fixpoint
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of \<open>f\<close>. |
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\<^bold>\<open>Proof.\<close> Let \<open>H = {x \<in> L | f(x) \<le> x}\<close> and \<open>a = \<Sqinter>H\<close>. For all \<open>x \<in> H\<close> we have
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\<open>a \<le> x\<close>, so \<open>f(a) \<le> f(x) \<le> x\<close>. Thus \<open>f(a)\<close> is a lower bound of \<open>H\<close>, whence |
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\<open>f(a) \<le> a\<close>. We now use this inequality to prove the reverse one (!) and |
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thereby complete the proof that \<open>a\<close> is a fixpoint. Since \<open>f\<close> is |
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order-preserving, \<open>f(f(a)) \<le> f(a)\<close>. This says \<open>f(a) \<in> H\<close>, so \<open>a \<le> f(a)\<close>.\<close> |
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subsection \<open>Formal versions\<close> |
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text \<open> |
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The Isar proof below closely follows the original presentation. Virtually |
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all of the prose narration has been rephrased in terms of formal Isar |
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language elements. Just as many textbook-style proofs, there is a strong |
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bias towards forward proof, and several bends in the course of reasoning. |
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\<close> |
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theorem Knaster_Tarski: |
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fixes f :: "'a::complete_lattice \<Rightarrow> 'a" |
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assumes "mono f" |
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shows "\<exists>a. f a = a" |
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proof |
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let ?H = "{u. f u \<le> u}"
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let ?a = "\<Sqinter>?H" |
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show "f ?a = ?a" |
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proof - |
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{
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fix x |
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assume "x \<in> ?H" |
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then have "?a \<le> x" by (rule Inf_lower) |
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with \<open>mono f\<close> have "f ?a \<le> f x" .. |
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also from \<open>x \<in> ?H\<close> have "\<dots> \<le> x" .. |
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finally have "f ?a \<le> x" . |
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} |
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then have "f ?a \<le> ?a" by (rule Inf_greatest) |
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{
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also presume "\<dots> \<le> f ?a" |
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finally (order_antisym) show ?thesis . |
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} |
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from \<open>mono f\<close> and \<open>f ?a \<le> ?a\<close> have "f (f ?a) \<le> f ?a" .. |
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then have "f ?a \<in> ?H" .. |
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then show "?a \<le> f ?a" by (rule Inf_lower) |
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qed |
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qed |
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text \<open> |
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Above we have used several advanced Isar language elements, such as explicit |
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block structure and weak assumptions. Thus we have mimicked the particular |
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way of reasoning of the original text. |
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In the subsequent version the order of reasoning is changed to achieve |
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structured top-down decomposition of the problem at the outer level, while |
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only the inner steps of reasoning are done in a forward manner. We are |
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certainly more at ease here, requiring only the most basic features of the |
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Isar language. |
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\<close> |
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theorem Knaster_Tarski': |
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fixes f :: "'a::complete_lattice \<Rightarrow> 'a" |
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assumes "mono f" |
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shows "\<exists>a. f a = a" |
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proof |
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let ?H = "{u. f u \<le> u}"
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let ?a = "\<Sqinter>?H" |
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show "f ?a = ?a" |
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proof (rule order_antisym) |
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show "f ?a \<le> ?a" |
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proof (rule Inf_greatest) |
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fix x |
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assume "x \<in> ?H" |
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then have "?a \<le> x" by (rule Inf_lower) |
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with \<open>mono f\<close> have "f ?a \<le> f x" .. |
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also from \<open>x \<in> ?H\<close> have "\<dots> \<le> x" .. |
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finally show "f ?a \<le> x" . |
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qed |
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show "?a \<le> f ?a" |
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proof (rule Inf_lower) |
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from \<open>mono f\<close> and \<open>f ?a \<le> ?a\<close> have "f (f ?a) \<le> f ?a" .. |
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then show "f ?a \<in> ?H" .. |
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qed |
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qed |
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qed |
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end |