| author | wenzelm |
| Sun, 02 Nov 2014 18:21:45 +0100 | |
| changeset 58889 | 5b7a9633cfa8 |
| parent 58622 | aa99568f56de |
| child 59730 | b7c394c7a619 |
| permissions | -rw-r--r-- |
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more explicit HOL-Proofs sessions, including former ex/Hilbert_Classical.thy which works in parallel mode without the antiquotation option "margin" (which is still critical);
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(* Title: HOL/Proofs/Extraction/Euclid.thy |
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Author: Markus Wenzel, TU Muenchen |
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Author: Freek Wiedijk, Radboud University Nijmegen |
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Author: Stefan Berghofer, TU Muenchen |
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*) |
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||
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section {* Euclid's theorem *}
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theory Euclid |
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imports |
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"~~/src/HOL/Number_Theory/UniqueFactorization" |
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Util |
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"~~/src/HOL/Library/Code_Target_Numeral" |
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begin |
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||
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text {*
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A constructive version of the proof of Euclid's theorem by |
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Markus Wenzel and Freek Wiedijk @{cite "Wenzel-Wiedijk-JAR2002"}.
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*} |
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lemma factor_greater_one1: "n = m * k \<Longrightarrow> m < n \<Longrightarrow> k < n \<Longrightarrow> Suc 0 < m" |
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by (induct m) auto |
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lemma factor_greater_one2: "n = m * k \<Longrightarrow> m < n \<Longrightarrow> k < n \<Longrightarrow> Suc 0 < k" |
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by (induct k) auto |
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lemma prod_mn_less_k: |
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"(0::nat) < n ==> 0 < k ==> Suc 0 < m ==> m * n = k ==> n < k" |
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by (induct m) auto |
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lemma prime_eq: "prime (p::nat) = (1 < p \<and> (\<forall>m. m dvd p \<longrightarrow> 1 < m \<longrightarrow> m = p))" |
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apply (simp add: prime_nat_def) |
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apply (rule iffI) |
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apply blast |
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apply (erule conjE) |
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apply (rule conjI) |
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apply assumption |
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apply (rule allI impI)+ |
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apply (erule allE) |
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apply (erule impE) |
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apply assumption |
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apply (case_tac "m=0") |
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apply simp |
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apply (case_tac "m=Suc 0") |
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apply simp |
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apply simp |
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done |
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lemma prime_eq': "prime (p::nat) = (1 < p \<and> (\<forall>m k. p = m * k \<longrightarrow> 1 < m \<longrightarrow> m = p))" |
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by (simp add: prime_eq dvd_def HOL.all_simps [symmetric] del: HOL.all_simps) |
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lemma not_prime_ex_mk: |
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assumes n: "Suc 0 < n" |
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shows "(\<exists>m k. Suc 0 < m \<and> Suc 0 < k \<and> m < n \<and> k < n \<and> n = m * k) \<or> prime n" |
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proof - |
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{
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fix k |
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from nat_eq_dec |
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have "(\<exists>m<n. n = m * k) \<or> \<not> (\<exists>m<n. n = m * k)" |
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by (rule search) |
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} |
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hence "(\<exists>k<n. \<exists>m<n. n = m * k) \<or> \<not> (\<exists>k<n. \<exists>m<n. n = m * k)" |
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by (rule search) |
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thus ?thesis |
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proof |
|
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assume "\<exists>k<n. \<exists>m<n. n = m * k" |
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then obtain k m where k: "k<n" and m: "m<n" and nmk: "n = m * k" |
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by iprover |
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from nmk m k have "Suc 0 < m" by (rule factor_greater_one1) |
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moreover from nmk m k have "Suc 0 < k" by (rule factor_greater_one2) |
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ultimately show ?thesis using k m nmk by iprover |
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next |
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assume "\<not> (\<exists>k<n. \<exists>m<n. n = m * k)" |
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hence A: "\<forall>k<n. \<forall>m<n. n \<noteq> m * k" by iprover |
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have "\<forall>m k. n = m * k \<longrightarrow> Suc 0 < m \<longrightarrow> m = n" |
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proof (intro allI impI) |
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fix m k |
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assume nmk: "n = m * k" |
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assume m: "Suc 0 < m" |
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from n m nmk have k: "0 < k" |
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by (cases k) auto |
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moreover from n have n: "0 < n" by simp |
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moreover note m |
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moreover from nmk have "m * k = n" by simp |
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ultimately have kn: "k < n" by (rule prod_mn_less_k) |
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show "m = n" |
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proof (cases "k = Suc 0") |
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case True |
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with nmk show ?thesis by (simp only: mult_Suc_right) |
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next |
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case False |
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from m have "0 < m" by simp |
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moreover note n |
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moreover from False n nmk k have "Suc 0 < k" by auto |
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moreover from nmk have "k * m = n" by (simp only: ac_simps) |
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ultimately have mn: "m < n" by (rule prod_mn_less_k) |
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with kn A nmk show ?thesis by iprover |
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qed |
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qed |
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with n have "prime n" |
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by (simp only: prime_eq' One_nat_def simp_thms) |
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thus ?thesis .. |
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qed |
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qed |
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lemma dvd_factorial: "0 < m \<Longrightarrow> m \<le> n \<Longrightarrow> m dvd fact (n::nat)" |
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proof (induct n rule: nat_induct) |
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case 0 |
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then show ?case by simp |
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next |
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case (Suc n) |
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from `m \<le> Suc n` show ?case |
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proof (rule le_SucE) |
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assume "m \<le> n" |
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with `0 < m` have "m dvd fact n" by (rule Suc) |
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then have "m dvd (fact n * Suc n)" by (rule dvd_mult2) |
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then show ?thesis by (simp add: mult.commute) |
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next |
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assume "m = Suc n" |
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then have "m dvd (fact n * Suc n)" |
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by (auto intro: dvdI simp: ac_simps) |
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then show ?thesis by (simp add: mult.commute) |
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qed |
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qed |
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lemma dvd_prod [iff]: "n dvd (PROD m\<Colon>nat:#multiset_of (n # ns). m)" |
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by (simp add: msetprod_Un msetprod_singleton) |
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definition all_prime :: "nat list \<Rightarrow> bool" where |
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"all_prime ps \<longleftrightarrow> (\<forall>p\<in>set ps. prime p)" |
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lemma all_prime_simps: |
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"all_prime []" |
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"all_prime (p # ps) \<longleftrightarrow> prime p \<and> all_prime ps" |
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by (simp_all add: all_prime_def) |
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lemma all_prime_append: |
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"all_prime (ps @ qs) \<longleftrightarrow> all_prime ps \<and> all_prime qs" |
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by (simp add: all_prime_def ball_Un) |
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lemma split_all_prime: |
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assumes "all_prime ms" and "all_prime ns" |
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shows "\<exists>qs. all_prime qs \<and> (PROD m\<Colon>nat:#multiset_of qs. m) = |
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(PROD m\<Colon>nat:#multiset_of ms. m) * (PROD m\<Colon>nat:#multiset_of ns. m)" (is "\<exists>qs. ?P qs \<and> ?Q qs") |
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proof - |
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from assms have "all_prime (ms @ ns)" |
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by (simp add: all_prime_append) |
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moreover from assms have "(PROD m\<Colon>nat:#multiset_of (ms @ ns). m) = |
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(PROD m\<Colon>nat:#multiset_of ms. m) * (PROD m\<Colon>nat:#multiset_of ns. m)" |
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by (simp add: msetprod_Un) |
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ultimately have "?P (ms @ ns) \<and> ?Q (ms @ ns)" .. |
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then show ?thesis .. |
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qed |
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lemma all_prime_nempty_g_one: |
156 |
assumes "all_prime ps" and "ps \<noteq> []" |
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shows "Suc 0 < (PROD m\<Colon>nat:#multiset_of ps. m)" |
| 37335 | 158 |
using `ps \<noteq> []` `all_prime ps` unfolding One_nat_def [symmetric] by (induct ps rule: list_nonempty_induct) |
| 37336 | 159 |
(simp_all add: all_prime_simps msetprod_singleton msetprod_Un prime_gt_1_nat less_1_mult del: One_nat_def) |
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| 37335 | 161 |
lemma factor_exists: "Suc 0 < n \<Longrightarrow> (\<exists>ps. all_prime ps \<and> (PROD m\<Colon>nat:#multiset_of ps. m) = n)" |
| 25422 | 162 |
proof (induct n rule: nat_wf_ind) |
163 |
case (1 n) |
|
164 |
from `Suc 0 < n` |
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165 |
have "(\<exists>m k. Suc 0 < m \<and> Suc 0 < k \<and> m < n \<and> k < n \<and> n = m * k) \<or> prime n" |
|
166 |
by (rule not_prime_ex_mk) |
|
167 |
then show ?case |
|
168 |
proof |
|
169 |
assume "\<exists>m k. Suc 0 < m \<and> Suc 0 < k \<and> m < n \<and> k < n \<and> n = m * k" |
|
170 |
then obtain m k where m: "Suc 0 < m" and k: "Suc 0 < k" and mn: "m < n" |
|
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and kn: "k < n" and nmk: "n = m * k" by iprover |
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| 37335 | 172 |
from mn and m have "\<exists>ps. all_prime ps \<and> (PROD m\<Colon>nat:#multiset_of ps. m) = m" by (rule 1) |
173 |
then obtain ps1 where "all_prime ps1" and prod_ps1_m: "(PROD m\<Colon>nat:#multiset_of ps1. m) = m" |
|
| 25422 | 174 |
by iprover |
| 37335 | 175 |
from kn and k have "\<exists>ps. all_prime ps \<and> (PROD m\<Colon>nat:#multiset_of ps. m) = k" by (rule 1) |
176 |
then obtain ps2 where "all_prime ps2" and prod_ps2_k: "(PROD m\<Colon>nat:#multiset_of ps2. m) = k" |
|
| 25422 | 177 |
by iprover |
| 37335 | 178 |
from `all_prime ps1` `all_prime ps2` |
179 |
have "\<exists>ps. all_prime ps \<and> (PROD m\<Colon>nat:#multiset_of ps. m) = |
|
180 |
(PROD m\<Colon>nat:#multiset_of ps1. m) * (PROD m\<Colon>nat:#multiset_of ps2. m)" |
|
181 |
by (rule split_all_prime) |
|
182 |
with prod_ps1_m prod_ps2_k nmk show ?thesis by simp |
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| 25422 | 183 |
next |
| 37335 | 184 |
assume "prime n" then have "all_prime [n]" by (simp add: all_prime_simps) |
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moreover have "(PROD m\<Colon>nat:#multiset_of [n]. m) = n" by (simp add: msetprod_singleton) |
| 37335 | 186 |
ultimately have "all_prime [n] \<and> (PROD m\<Colon>nat:#multiset_of [n]. m) = n" .. |
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187 |
then show ?thesis .. |
| 25422 | 188 |
qed |
189 |
qed |
|
190 |
||
191 |
lemma prime_factor_exists: |
|
192 |
assumes N: "(1::nat) < n" |
|
193 |
shows "\<exists>p. prime p \<and> p dvd n" |
|
194 |
proof - |
|
| 37335 | 195 |
from N obtain ps where "all_prime ps" |
196 |
and prod_ps: "n = (PROD m\<Colon>nat:#multiset_of ps. m)" using factor_exists |
|
| 25422 | 197 |
by simp iprover |
| 37335 | 198 |
with N have "ps \<noteq> []" |
199 |
by (auto simp add: all_prime_nempty_g_one msetprod_empty) |
|
200 |
then obtain p qs where ps: "ps = p # qs" by (cases ps) simp |
|
201 |
with `all_prime ps` have "prime p" by (simp add: all_prime_simps) |
|
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moreover from `all_prime ps` ps prod_ps |
|
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have "p dvd n" by (simp only: dvd_prod) |
|
| 25422 | 204 |
ultimately show ?thesis by iprover |
205 |
qed |
|
206 |
||
207 |
text {*
|
|
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Euclid's theorem: there are infinitely many primes. |
|
209 |
*} |
|
210 |
||
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lemma Euclid: "\<exists>p::nat. prime p \<and> n < p" |
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proof - |
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let ?k = "fact n + 1" |
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have "1 < fact n + 1" by simp |
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then obtain p where prime: "prime p" and dvd: "p dvd ?k" using prime_factor_exists by iprover |
216 |
have "n < p" |
|
217 |
proof - |
|
218 |
have "\<not> p \<le> n" |
|
219 |
proof |
|
220 |
assume pn: "p \<le> n" |
|
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from `prime p` have "0 < p" by (rule prime_gt_0_nat) |
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then have "p dvd fact n" using pn by (rule dvd_factorial) |
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with dvd have "p dvd ?k - fact n" by (rule dvd_diff_nat) |
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then have "p dvd 1" by simp |
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with prime show False by auto |
| 25422 | 226 |
qed |
227 |
then show ?thesis by simp |
|
228 |
qed |
|
229 |
with prime show ?thesis by iprover |
|
230 |
qed |
|
231 |
||
232 |
extract Euclid |
|
233 |
||
234 |
text {*
|
|
235 |
The program extracted from the proof of Euclid's theorem looks as follows. |
|
236 |
@{thm [display] Euclid_def}
|
|
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The program corresponding to the proof of the factorization theorem is |
|
238 |
@{thm [display] factor_exists_def}
|
|
239 |
*} |
|
240 |
||
| 27982 | 241 |
instantiation nat :: default |
242 |
begin |
|
243 |
||
244 |
definition "default = (0::nat)" |
|
245 |
||
246 |
instance .. |
|
247 |
||
248 |
end |
|
| 25422 | 249 |
|
| 27982 | 250 |
instantiation list :: (type) default |
251 |
begin |
|
252 |
||
253 |
definition "default = []" |
|
254 |
||
255 |
instance .. |
|
256 |
||
257 |
end |
|
258 |
||
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primrec iterate :: "nat \<Rightarrow> ('a \<Rightarrow> 'a) \<Rightarrow> 'a \<Rightarrow> 'a list" where
|
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"iterate 0 f x = []" |
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| "iterate (Suc n) f x = (let y = f x in y # iterate n f y)" |
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262 |
|
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lemma "factor_exists 1007 = [53, 19]" by eval |
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lemma "factor_exists 567 = [7, 3, 3, 3, 3]" by eval |
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lemma "factor_exists 345 = [23, 5, 3]" by eval |
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lemma "factor_exists 999 = [37, 3, 3, 3]" by eval |
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lemma "factor_exists 876 = [73, 3, 2, 2]" by eval |
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268 |
|
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lemma "iterate 4 Euclid 0 = [2, 3, 7, 71]" by eval |
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270 |
|
| 25422 | 271 |
end |