author | paulson <lp15@cam.ac.uk> |
Tue, 23 Jun 2015 16:55:28 +0100 | |
changeset 60562 | 24af00b010cf |
parent 60343 | 063698416239 |
child 60758 | d8d85a8172b5 |
permissions | -rw-r--r-- |
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(* Title: HOL/Parity.thy |
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Author: Jeremy Avigad |
|
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Author: Jacques D. Fleuriot |
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*) |
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section {* Parity in rings and semirings *} |
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theory Parity |
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imports Nat_Transfer |
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begin |
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subsection {* Ring structures with parity and @{text even}/@{text odd} predicates *} |
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Amalgamation of the class comm_semiring_1_diff_distrib into comm_semiring_1_cancel. Moving axiom le_add_diff_inverse2 from semiring_numeral_div to linordered_semidom.
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class semiring_parity = comm_semiring_1_cancel + numeral + |
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assumes odd_one [simp]: "\<not> 2 dvd 1" |
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assumes odd_even_add: "\<not> 2 dvd a \<Longrightarrow> \<not> 2 dvd b \<Longrightarrow> 2 dvd a + b" |
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assumes even_multD: "2 dvd a * b \<Longrightarrow> 2 dvd a \<or> 2 dvd b" |
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assumes odd_ex_decrement: "\<not> 2 dvd a \<Longrightarrow> \<exists>b. a = b + 1" |
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begin |
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|
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subclass semiring_numeral .. |
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abbreviation even :: "'a \<Rightarrow> bool" |
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where |
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"even a \<equiv> 2 dvd a" |
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abbreviation odd :: "'a \<Rightarrow> bool" |
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where |
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"odd a \<equiv> \<not> 2 dvd a" |
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lemma even_zero [simp]: |
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"even 0" |
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by (fact dvd_0_right) |
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||
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lemma even_plus_one_iff [simp]: |
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"even (a + 1) \<longleftrightarrow> odd a" |
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by (auto simp add: dvd_add_right_iff intro: odd_even_add) |
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||
58690 | 39 |
lemma evenE [elim?]: |
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assumes "even a" |
|
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obtains b where "a = 2 * b" |
|
58740 | 42 |
using assms by (rule dvdE) |
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lemma oddE [elim?]: |
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assumes "odd a" |
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obtains b where "a = 2 * b + 1" |
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proof - |
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from assms obtain b where *: "a = b + 1" |
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by (blast dest: odd_ex_decrement) |
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with assms have "even (b + 2)" by simp |
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then have "even b" by simp |
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then obtain c where "b = 2 * c" .. |
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with * have "a = 2 * c + 1" by simp |
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with that show thesis . |
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qed |
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||
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lemma even_times_iff [simp]: |
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"even (a * b) \<longleftrightarrow> even a \<or> even b" |
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by (auto dest: even_multD) |
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lemma even_numeral [simp]: |
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"even (numeral (Num.Bit0 n))" |
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proof - |
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have "even (2 * numeral n)" |
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unfolding even_times_iff by simp |
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then have "even (numeral n + numeral n)" |
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unfolding mult_2 . |
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then show ?thesis |
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unfolding numeral.simps . |
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qed |
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lemma odd_numeral [simp]: |
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"odd (numeral (Num.Bit1 n))" |
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proof |
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assume "even (numeral (num.Bit1 n))" |
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then have "even (numeral n + numeral n + 1)" |
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unfolding numeral.simps . |
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then have "even (2 * numeral n + 1)" |
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unfolding mult_2 . |
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then have "2 dvd numeral n * 2 + 1" |
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by (simp add: ac_simps) |
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with dvd_add_times_triv_left_iff [of 2 "numeral n" 1] |
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have "2 dvd 1" |
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by simp |
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then show False by simp |
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qed |
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lemma even_add [simp]: |
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"even (a + b) \<longleftrightarrow> (even a \<longleftrightarrow> even b)" |
|
58787 | 90 |
by (auto simp add: dvd_add_right_iff dvd_add_left_iff odd_even_add) |
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lemma odd_add [simp]: |
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"odd (a + b) \<longleftrightarrow> (\<not> (odd a \<longleftrightarrow> odd b))" |
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by simp |
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||
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lemma even_power [simp]: |
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"even (a ^ n) \<longleftrightarrow> even a \<and> n > 0" |
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by (induct n) auto |
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end |
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class ring_parity = ring + semiring_parity |
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begin |
104 |
||
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subclass comm_ring_1 .. |
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|
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lemma even_minus [simp]: |
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"even (- a) \<longleftrightarrow> even a" |
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by (fact dvd_minus_iff) |
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|
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lemma even_diff [simp]: |
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"even (a - b) \<longleftrightarrow> even (a + b)" |
|
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using even_add [of a "- b"] by simp |
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||
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end |
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subsection {* Instances for @{typ nat} and @{typ int} *} |
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lemma even_Suc_Suc_iff [simp]: |
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"2 dvd Suc (Suc n) \<longleftrightarrow> 2 dvd n" |
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using dvd_add_triv_right_iff [of 2 n] by simp |
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lemma even_Suc [simp]: |
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"2 dvd Suc n \<longleftrightarrow> \<not> 2 dvd n" |
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by (induct n) auto |
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||
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lemma even_diff_nat [simp]: |
|
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fixes m n :: nat |
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shows "2 dvd (m - n) \<longleftrightarrow> m < n \<or> 2 dvd (m + n)" |
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proof (cases "n \<le> m") |
132 |
case True |
|
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then have "m - n + n * 2 = m + n" by (simp add: mult_2_right) |
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moreover have "2 dvd (m - n) \<longleftrightarrow> 2 dvd (m - n + n * 2)" by simp |
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ultimately have "2 dvd (m - n) \<longleftrightarrow> 2 dvd (m + n)" by (simp only:) |
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then show ?thesis by auto |
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next |
|
138 |
case False |
|
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then show ?thesis by simp |
|
140 |
qed |
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141 |
||
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instance nat :: semiring_parity |
|
143 |
proof |
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show "\<not> 2 dvd (1 :: nat)" |
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by (rule notI, erule dvdE) simp |
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next |
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fix m n :: nat |
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assume "\<not> 2 dvd m" |
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moreover assume "\<not> 2 dvd n" |
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ultimately have *: "2 dvd Suc m \<and> 2 dvd Suc n" |
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by simp |
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then have "2 dvd (Suc m + Suc n)" |
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by (blast intro: dvd_add) |
154 |
also have "Suc m + Suc n = m + n + 2" |
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155 |
by simp |
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finally show "2 dvd (m + n)" |
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using dvd_add_triv_right_iff [of 2 "m + n"] by simp |
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next |
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fix m n :: nat |
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assume *: "2 dvd (m * n)" |
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show "2 dvd m \<or> 2 dvd n" |
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proof (rule disjCI) |
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assume "\<not> 2 dvd n" |
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then have "2 dvd (Suc n)" by simp |
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then obtain r where "Suc n = 2 * r" .. |
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moreover from * obtain s where "m * n = 2 * s" .. |
|
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then have "2 * s + m = m * Suc n" by simp |
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ultimately have " 2 * s + m = 2 * (m * r)" by (simp add: algebra_simps) |
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then have "m = 2 * (m * r - s)" by simp |
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then show "2 dvd m" .. |
58787 | 171 |
qed |
172 |
next |
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fix n :: nat |
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assume "\<not> 2 dvd n" |
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then show "\<exists>m. n = m + 1" |
176 |
by (cases n) simp_all |
|
177 |
qed |
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58687 | 178 |
|
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lemma odd_pos: |
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"odd (n :: nat) \<Longrightarrow> 0 < n" |
|
58690 | 181 |
by (auto elim: oddE) |
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lemma even_diff_iff [simp]: |
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fixes k l :: int |
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shows "2 dvd (k - l) \<longleftrightarrow> 2 dvd (k + l)" |
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using dvd_add_times_triv_right_iff [of 2 "k - l" l] by (simp add: mult_2_right) |
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lemma even_abs_add_iff [simp]: |
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189 |
fixes k l :: int |
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shows "2 dvd (\<bar>k\<bar> + l) \<longleftrightarrow> 2 dvd (k + l)" |
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by (cases "k \<ge> 0") (simp_all add: ac_simps) |
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192 |
|
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lemma even_add_abs_iff [simp]: |
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fixes k l :: int |
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shows "2 dvd (k + \<bar>l\<bar>) \<longleftrightarrow> 2 dvd (k + l)" |
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using even_abs_add_iff [of l k] by (simp add: ac_simps) |
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197 |
|
58787 | 198 |
instance int :: ring_parity |
199 |
proof |
|
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200 |
show "\<not> 2 dvd (1 :: int)" by (simp add: dvd_int_unfold_dvd_nat) |
58787 | 201 |
fix k l :: int |
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202 |
assume "\<not> 2 dvd k" |
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moreover assume "\<not> 2 dvd l" |
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204 |
ultimately have "2 dvd (nat \<bar>k\<bar> + nat \<bar>l\<bar>)" |
58787 | 205 |
by (auto simp add: dvd_int_unfold_dvd_nat intro: odd_even_add) |
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206 |
then have "2 dvd (\<bar>k\<bar> + \<bar>l\<bar>)" |
58787 | 207 |
by (simp add: dvd_int_unfold_dvd_nat nat_add_distrib) |
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208 |
then show "2 dvd (k + l)" |
58787 | 209 |
by simp |
210 |
next |
|
211 |
fix k l :: int |
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212 |
assume "2 dvd (k * l)" |
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213 |
then show "2 dvd k \<or> 2 dvd l" |
58787 | 214 |
by (simp add: dvd_int_unfold_dvd_nat even_multD nat_abs_mult_distrib) |
215 |
next |
|
216 |
fix k :: int |
|
217 |
have "k = (k - 1) + 1" by simp |
|
218 |
then show "\<exists>l. k = l + 1" .. |
|
219 |
qed |
|
58680 | 220 |
|
58787 | 221 |
lemma even_int_iff [simp]: |
58679 | 222 |
"even (int n) \<longleftrightarrow> even n" |
58740 | 223 |
by (simp add: dvd_int_iff) |
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224 |
|
58687 | 225 |
lemma even_nat_iff: |
226 |
"0 \<le> k \<Longrightarrow> even (nat k) \<longleftrightarrow> even k" |
|
227 |
by (simp add: even_int_iff [symmetric]) |
|
228 |
||
229 |
||
58787 | 230 |
subsection {* Parity and powers *} |
58689 | 231 |
|
232 |
context comm_ring_1 |
|
233 |
begin |
|
234 |
||
235 |
lemma power_minus_even [simp]: |
|
236 |
"even n \<Longrightarrow> (- a) ^ n = a ^ n" |
|
58690 | 237 |
by (auto elim: evenE) |
58689 | 238 |
|
239 |
lemma power_minus_odd [simp]: |
|
240 |
"odd n \<Longrightarrow> (- a) ^ n = - (a ^ n)" |
|
58690 | 241 |
by (auto elim: oddE) |
242 |
||
58689 | 243 |
lemma neg_one_even_power [simp]: |
244 |
"even n \<Longrightarrow> (- 1) ^ n = 1" |
|
58690 | 245 |
by simp |
58689 | 246 |
|
247 |
lemma neg_one_odd_power [simp]: |
|
248 |
"odd n \<Longrightarrow> (- 1) ^ n = - 1" |
|
58690 | 249 |
by simp |
58689 | 250 |
|
251 |
end |
|
252 |
||
253 |
context linordered_idom |
|
254 |
begin |
|
255 |
||
256 |
lemma zero_le_even_power: |
|
257 |
"even n \<Longrightarrow> 0 \<le> a ^ n" |
|
58690 | 258 |
by (auto elim: evenE) |
58689 | 259 |
|
260 |
lemma zero_le_odd_power: |
|
261 |
"odd n \<Longrightarrow> 0 \<le> a ^ n \<longleftrightarrow> 0 \<le> a" |
|
262 |
by (auto simp add: power_even_eq zero_le_mult_iff elim: oddE) |
|
263 |
||
58770 | 264 |
lemma zero_le_power_eq: |
58689 | 265 |
"0 \<le> a ^ n \<longleftrightarrow> even n \<or> odd n \<and> 0 \<le> a" |
58787 | 266 |
by (auto simp add: zero_le_even_power zero_le_odd_power) |
267 |
||
58770 | 268 |
lemma zero_less_power_eq: |
58689 | 269 |
"0 < a ^ n \<longleftrightarrow> n = 0 \<or> even n \<and> a \<noteq> 0 \<or> odd n \<and> 0 < a" |
270 |
proof - |
|
271 |
have [simp]: "0 = a ^ n \<longleftrightarrow> a = 0 \<and> n > 0" |
|
58787 | 272 |
unfolding power_eq_0_iff [of a n, symmetric] by blast |
58689 | 273 |
show ?thesis |
58710
7216a10d69ba
augmented and tuned facts on even/odd and division
haftmann
parents:
58709
diff
changeset
|
274 |
unfolding less_le zero_le_power_eq by auto |
58689 | 275 |
qed |
276 |
||
58787 | 277 |
lemma power_less_zero_eq [simp]: |
58689 | 278 |
"a ^ n < 0 \<longleftrightarrow> odd n \<and> a < 0" |
279 |
unfolding not_le [symmetric] zero_le_power_eq by auto |
|
280 |
||
58770 | 281 |
lemma power_le_zero_eq: |
58689 | 282 |
"a ^ n \<le> 0 \<longleftrightarrow> n > 0 \<and> (odd n \<and> a \<le> 0 \<or> even n \<and> a = 0)" |
283 |
unfolding not_less [symmetric] zero_less_power_eq by auto |
|
284 |
||
285 |
lemma power_even_abs: |
|
286 |
"even n \<Longrightarrow> \<bar>a\<bar> ^ n = a ^ n" |
|
287 |
using power_abs [of a n] by (simp add: zero_le_even_power) |
|
288 |
||
289 |
lemma power_mono_even: |
|
290 |
assumes "even n" and "\<bar>a\<bar> \<le> \<bar>b\<bar>" |
|
291 |
shows "a ^ n \<le> b ^ n" |
|
292 |
proof - |
|
293 |
have "0 \<le> \<bar>a\<bar>" by auto |
|
294 |
with `\<bar>a\<bar> \<le> \<bar>b\<bar>` |
|
295 |
have "\<bar>a\<bar> ^ n \<le> \<bar>b\<bar> ^ n" by (rule power_mono) |
|
296 |
with `even n` show ?thesis by (simp add: power_even_abs) |
|
297 |
qed |
|
298 |
||
299 |
lemma power_mono_odd: |
|
300 |
assumes "odd n" and "a \<le> b" |
|
301 |
shows "a ^ n \<le> b ^ n" |
|
302 |
proof (cases "b < 0") |
|
303 |
case True with `a \<le> b` have "- b \<le> - a" and "0 \<le> - b" by auto |
|
304 |
hence "(- b) ^ n \<le> (- a) ^ n" by (rule power_mono) |
|
305 |
with `odd n` show ?thesis by simp |
|
306 |
next |
|
307 |
case False then have "0 \<le> b" by auto |
|
308 |
show ?thesis |
|
309 |
proof (cases "a < 0") |
|
310 |
case True then have "n \<noteq> 0" and "a \<le> 0" using `odd n` [THEN odd_pos] by auto |
|
311 |
then have "a ^ n \<le> 0" unfolding power_le_zero_eq using `odd n` by auto |
|
312 |
moreover |
|
313 |
from `0 \<le> b` have "0 \<le> b ^ n" by auto |
|
314 |
ultimately show ?thesis by auto |
|
315 |
next |
|
316 |
case False then have "0 \<le> a" by auto |
|
317 |
with `a \<le> b` show ?thesis using power_mono by auto |
|
318 |
qed |
|
319 |
qed |
|
320 |
||
321 |
text {* Simplify, when the exponent is a numeral *} |
|
322 |
||
323 |
lemma zero_le_power_eq_numeral [simp]: |
|
324 |
"0 \<le> a ^ numeral w \<longleftrightarrow> even (numeral w :: nat) \<or> odd (numeral w :: nat) \<and> 0 \<le> a" |
|
325 |
by (fact zero_le_power_eq) |
|
326 |
||
327 |
lemma zero_less_power_eq_numeral [simp]: |
|
328 |
"0 < a ^ numeral w \<longleftrightarrow> numeral w = (0 :: nat) |
|
329 |
\<or> even (numeral w :: nat) \<and> a \<noteq> 0 \<or> odd (numeral w :: nat) \<and> 0 < a" |
|
330 |
by (fact zero_less_power_eq) |
|
331 |
||
332 |
lemma power_le_zero_eq_numeral [simp]: |
|
333 |
"a ^ numeral w \<le> 0 \<longleftrightarrow> (0 :: nat) < numeral w |
|
334 |
\<and> (odd (numeral w :: nat) \<and> a \<le> 0 \<or> even (numeral w :: nat) \<and> a = 0)" |
|
335 |
by (fact power_le_zero_eq) |
|
336 |
||
337 |
lemma power_less_zero_eq_numeral [simp]: |
|
338 |
"a ^ numeral w < 0 \<longleftrightarrow> odd (numeral w :: nat) \<and> a < 0" |
|
339 |
by (fact power_less_zero_eq) |
|
340 |
||
341 |
lemma power_even_abs_numeral [simp]: |
|
342 |
"even (numeral w :: nat) \<Longrightarrow> \<bar>a\<bar> ^ numeral w = a ^ numeral w" |
|
343 |
by (fact power_even_abs) |
|
344 |
||
345 |
end |
|
346 |
||
347 |
||
58687 | 348 |
subsubsection {* Tools setup *} |
349 |
||
58679 | 350 |
declare transfer_morphism_int_nat [transfer add return: |
351 |
even_int_iff |
|
33318
ddd97d9dfbfb
moved Nat_Transfer before Divides; distributed Nat_Transfer setup accordingly
haftmann
parents:
31718
diff
changeset
|
352 |
] |
21256 | 353 |
|
58770 | 354 |
end |