author | paulson <lp15@cam.ac.uk> |
Tue, 31 Jan 2023 14:05:16 +0000 | |
changeset 77140 | 9a60c1759543 |
parent 77138 | c8597292cd41 |
child 79566 | f783490c6c99 |
permissions | -rw-r--r-- |
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New theory "Power" of exponentiation (and binomial coefficients)
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(* Title: HOL/Power.thy |
0c7625196d95
New theory "Power" of exponentiation (and binomial coefficients)
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Author: Lawrence C Paulson, Cambridge University Computer Laboratory |
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New theory "Power" of exponentiation (and binomial coefficients)
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Copyright 1997 University of Cambridge |
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New theory "Power" of exponentiation (and binomial coefficients)
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*) |
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New theory "Power" of exponentiation (and binomial coefficients)
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section \<open>Exponentiation\<close> |
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theory Power |
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imports Num |
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begin |
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subsection \<open>Powers for Arbitrary Monoids\<close> |
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class power = one + times |
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begin |
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primrec power :: "'a \<Rightarrow> nat \<Rightarrow> 'a" (infixr "^" 80) |
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where |
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power_0: "a ^ 0 = 1" |
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| power_Suc: "a ^ Suc n = a * a ^ n" |
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notation (latex output) |
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power ("(_\<^bsup>_\<^esup>)" [1000] 1000) |
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||
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text \<open>Special syntax for squares.\<close> |
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abbreviation power2 :: "'a \<Rightarrow> 'a" ("(_\<^sup>2)" [1000] 999) |
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where "x\<^sup>2 \<equiv> x ^ 2" |
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end |
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context |
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includes lifting_syntax |
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begin |
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||
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lemma power_transfer [transfer_rule]: |
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\<open>(R ===> (=) ===> R) (^) (^)\<close> |
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if [transfer_rule]: \<open>R 1 1\<close> |
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\<open>(R ===> R ===> R) (*) (*)\<close> |
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for R :: \<open>'a::power \<Rightarrow> 'b::power \<Rightarrow> bool\<close> |
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by (simp only: power_def [abs_def]) transfer_prover |
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||
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end |
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||
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context monoid_mult |
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begin |
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subclass power . |
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lemma power_one [simp]: "1 ^ n = 1" |
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by (induct n) simp_all |
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lemma power_one_right [simp]: "a ^ 1 = a" |
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by simp |
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lemma power_Suc0_right [simp]: "a ^ Suc 0 = a" |
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by simp |
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lemma power_commutes: "a ^ n * a = a * a ^ n" |
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by (induct n) (simp_all add: mult.assoc) |
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lemma power_Suc2: "a ^ Suc n = a ^ n * a" |
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by (simp add: power_commutes) |
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lemma power_add: "a ^ (m + n) = a ^ m * a ^ n" |
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by (induct m) (simp_all add: algebra_simps) |
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lemma power_mult: "a ^ (m * n) = (a ^ m) ^ n" |
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by (induct n) (simp_all add: power_add) |
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lemma power_even_eq: "a ^ (2 * n) = (a ^ n)\<^sup>2" |
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by (subst mult.commute) (simp add: power_mult) |
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lemma power_odd_eq: "a ^ Suc (2*n) = a * (a ^ n)\<^sup>2" |
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by (simp add: power_even_eq) |
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lemma power_numeral_even: "z ^ numeral (Num.Bit0 w) = (let w = z ^ (numeral w) in w * w)" |
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by (simp only: numeral_Bit0 power_add Let_def) |
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lemma power_numeral_odd: "z ^ numeral (Num.Bit1 w) = (let w = z ^ (numeral w) in z * w * w)" |
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by (simp only: numeral_Bit1 One_nat_def add_Suc_right add_0_right |
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power_Suc power_add Let_def mult.assoc) |
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lemma power2_eq_square: "a\<^sup>2 = a * a" |
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by (simp add: numeral_2_eq_2) |
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lemma power3_eq_cube: "a ^ 3 = a * a * a" |
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by (simp add: numeral_3_eq_3 mult.assoc) |
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lemma power4_eq_xxxx: "x^4 = x * x * x * x" |
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by (simp add: mult.assoc power_numeral_even) |
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lemma power_numeral_reduce: "x ^ numeral n = x * x ^ pred_numeral n" |
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by (simp add: numeral_eq_Suc) |
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lemma funpow_times_power: "(times x ^^ f x) = times (x ^ f x)" |
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proof (induct "f x" arbitrary: f) |
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case 0 |
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then show ?case by (simp add: fun_eq_iff) |
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next |
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case (Suc n) |
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define g where "g x = f x - 1" for x |
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with Suc have "n = g x" by simp |
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with Suc have "times x ^^ g x = times (x ^ g x)" by simp |
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moreover from Suc g_def have "f x = g x + 1" by simp |
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ultimately show ?case |
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by (simp add: power_add funpow_add fun_eq_iff mult.assoc) |
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qed |
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lemma power_commuting_commutes: |
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assumes "x * y = y * x" |
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shows "x ^ n * y = y * x ^n" |
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proof (induct n) |
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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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have "x ^ Suc n * y = x ^ n * y * x" |
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by (subst power_Suc2) (simp add: assms ac_simps) |
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also have "\<dots> = y * x ^ Suc n" |
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by (simp only: Suc power_Suc2) (simp add: ac_simps) |
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finally show ?case . |
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qed |
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lemma power_minus_mult: "0 < n \<Longrightarrow> a ^ (n - 1) * a = a ^ n" |
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by (simp add: power_commutes split: nat_diff_split) |
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lemma left_right_inverse_power: |
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assumes "x * y = 1" |
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shows "x ^ n * y ^ n = 1" |
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proof (induct n) |
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case (Suc n) |
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moreover have "x ^ Suc n * y ^ Suc n = x^n * (x * y) * y^n" |
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by (simp add: power_Suc2[symmetric] mult.assoc[symmetric]) |
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ultimately show ?case by (simp add: assms) |
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qed simp |
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end |
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context comm_monoid_mult |
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begin |
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lemma power_mult_distrib [algebra_simps, algebra_split_simps, field_simps, field_split_simps, divide_simps]: |
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"(a * b) ^ n = (a ^ n) * (b ^ n)" |
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by (induction n) (simp_all add: ac_simps) |
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end |
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text \<open>Extract constant factors from powers.\<close> |
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declare power_mult_distrib [where a = "numeral w" for w, simp] |
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declare power_mult_distrib [where b = "numeral w" for w, simp] |
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lemma power_add_numeral [simp]: "a^numeral m * a^numeral n = a^numeral (m + n)" |
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for a :: "'a::monoid_mult" |
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by (simp add: power_add [symmetric]) |
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lemma power_add_numeral2 [simp]: "a^numeral m * (a^numeral n * b) = a^numeral (m + n) * b" |
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for a :: "'a::monoid_mult" |
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by (simp add: mult.assoc [symmetric]) |
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lemma power_mult_numeral [simp]: "(a^numeral m)^numeral n = a^numeral (m * n)" |
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for a :: "'a::monoid_mult" |
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by (simp only: numeral_mult power_mult) |
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context semiring_numeral |
165 |
begin |
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166 |
||
167 |
lemma numeral_sqr: "numeral (Num.sqr k) = numeral k * numeral k" |
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by (simp only: sqr_conv_mult numeral_mult) |
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||
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lemma numeral_pow: "numeral (Num.pow k l) = numeral k ^ numeral l" |
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63654 | 171 |
by (induct l) |
172 |
(simp_all only: numeral_class.numeral.simps pow.simps |
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numeral_sqr numeral_mult power_add power_one_right) |
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lemma power_numeral [simp]: "numeral k ^ numeral l = numeral (Num.pow k l)" |
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by (rule numeral_pow [symmetric]) |
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177 |
||
178 |
end |
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||
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context semiring_1 |
181 |
begin |
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182 |
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lemma of_nat_power [simp]: "of_nat (m ^ n) = of_nat m ^ n" |
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by (induct n) simp_all |
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lemma zero_power: "0 < n \<Longrightarrow> 0 ^ n = 0" |
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by (cases n) simp_all |
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lemma power_zero_numeral [simp]: "0 ^ numeral k = 0" |
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by (simp add: numeral_eq_Suc) |
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lemma zero_power2: "0\<^sup>2 = 0" (* delete? *) |
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by (rule power_zero_numeral) |
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lemma one_power2: "1\<^sup>2 = 1" (* delete? *) |
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by (rule power_one) |
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lemma power_0_Suc [simp]: "0 ^ Suc n = 0" |
60867 | 199 |
by simp |
200 |
||
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text \<open>It looks plausible as a simprule, but its effect can be strange.\<close> |
202 |
lemma power_0_left: "0 ^ n = (if n = 0 then 1 else 0)" |
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by (cases n) simp_all |
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end |
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||
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context semiring_char_0 begin |
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|
208 |
|
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|
209 |
lemma numeral_power_eq_of_nat_cancel_iff [simp]: |
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immler
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|
210 |
"numeral x ^ n = of_nat y \<longleftrightarrow> numeral x ^ n = y" |
a99a7cbf0fb5
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immler
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diff
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|
211 |
using of_nat_eq_iff by fastforce |
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diff
changeset
|
212 |
|
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diff
changeset
|
213 |
lemma real_of_nat_eq_numeral_power_cancel_iff [simp]: |
a99a7cbf0fb5
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|
214 |
"of_nat y = numeral x ^ n \<longleftrightarrow> y = numeral x ^ n" |
a99a7cbf0fb5
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immler
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diff
changeset
|
215 |
using numeral_power_eq_of_nat_cancel_iff [of x n y] by (metis (mono_tags)) |
a99a7cbf0fb5
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immler
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changeset
|
216 |
|
a99a7cbf0fb5
generalized lemmas cancelling real_of_int/real in (in)equalities with power; completed set of related simp rules; lemmas about floorlog/bitlen
immler
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diff
changeset
|
217 |
lemma of_nat_eq_of_nat_power_cancel_iff[simp]: "(of_nat b) ^ w = of_nat x \<longleftrightarrow> b ^ w = x" |
a99a7cbf0fb5
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218 |
by (metis of_nat_power of_nat_eq_iff) |
a99a7cbf0fb5
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changeset
|
219 |
|
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|
220 |
lemma of_nat_power_eq_of_nat_cancel_iff[simp]: "of_nat x = (of_nat b) ^ w \<longleftrightarrow> x = b ^ w" |
a99a7cbf0fb5
generalized lemmas cancelling real_of_int/real in (in)equalities with power; completed set of related simp rules; lemmas about floorlog/bitlen
immler
parents:
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changeset
|
221 |
by (metis of_nat_eq_of_nat_power_cancel_iff) |
a99a7cbf0fb5
generalized lemmas cancelling real_of_int/real in (in)equalities with power; completed set of related simp rules; lemmas about floorlog/bitlen
immler
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changeset
|
222 |
|
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|
223 |
end |
a99a7cbf0fb5
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immler
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|
224 |
|
30996 | 225 |
context comm_semiring_1 |
226 |
begin |
|
227 |
||
63654 | 228 |
text \<open>The divides relation.\<close> |
30996 | 229 |
|
230 |
lemma le_imp_power_dvd: |
|
63654 | 231 |
assumes "m \<le> n" |
232 |
shows "a ^ m dvd a ^ n" |
|
30996 | 233 |
proof |
63654 | 234 |
from assms have "a ^ n = a ^ (m + (n - m))" by simp |
235 |
also have "\<dots> = a ^ m * a ^ (n - m)" by (rule power_add) |
|
30996 | 236 |
finally show "a ^ n = a ^ m * a ^ (n - m)" . |
237 |
qed |
|
238 |
||
63654 | 239 |
lemma power_le_dvd: "a ^ n dvd b \<Longrightarrow> m \<le> n \<Longrightarrow> a ^ m dvd b" |
30996 | 240 |
by (rule dvd_trans [OF le_imp_power_dvd]) |
241 |
||
63654 | 242 |
lemma dvd_power_same: "x dvd y \<Longrightarrow> x ^ n dvd y ^ n" |
30996 | 243 |
by (induct n) (auto simp add: mult_dvd_mono) |
244 |
||
63654 | 245 |
lemma dvd_power_le: "x dvd y \<Longrightarrow> m \<ge> n \<Longrightarrow> x ^ n dvd y ^ m" |
30996 | 246 |
by (rule power_le_dvd [OF dvd_power_same]) |
14348
744c868ee0b7
Defining the type class "ringpower" and deleting superseded theorems for
paulson
parents:
8844
diff
changeset
|
247 |
|
30996 | 248 |
lemma dvd_power [simp]: |
63654 | 249 |
fixes n :: nat |
250 |
assumes "n > 0 \<or> x = 1" |
|
30996 | 251 |
shows "x dvd (x ^ n)" |
63654 | 252 |
using assms |
253 |
proof |
|
30996 | 254 |
assume "0 < n" |
255 |
then have "x ^ n = x ^ Suc (n - 1)" by simp |
|
256 |
then show "x dvd (x ^ n)" by simp |
|
257 |
next |
|
258 |
assume "x = 1" |
|
259 |
then show "x dvd (x ^ n)" by simp |
|
260 |
qed |
|
261 |
||
262 |
end |
|
263 |
||
62481
b5d8e57826df
tuned bootstrap order to provide type classes in a more sensible order
haftmann
parents:
62366
diff
changeset
|
264 |
context semiring_1_no_zero_divisors |
60867 | 265 |
begin |
266 |
||
267 |
subclass power . |
|
268 |
||
63654 | 269 |
lemma power_eq_0_iff [simp]: "a ^ n = 0 \<longleftrightarrow> a = 0 \<and> n > 0" |
60867 | 270 |
by (induct n) auto |
271 |
||
63654 | 272 |
lemma power_not_zero: "a \<noteq> 0 \<Longrightarrow> a ^ n \<noteq> 0" |
60867 | 273 |
by (induct n) auto |
274 |
||
63654 | 275 |
lemma zero_eq_power2 [simp]: "a\<^sup>2 = 0 \<longleftrightarrow> a = 0" |
60867 | 276 |
unfolding power2_eq_square by simp |
277 |
||
278 |
end |
|
279 |
||
30996 | 280 |
context ring_1 |
281 |
begin |
|
282 |
||
63654 | 283 |
lemma power_minus: "(- a) ^ n = (- 1) ^ n * a ^ n" |
30996 | 284 |
proof (induct n) |
63654 | 285 |
case 0 |
286 |
show ?case by simp |
|
30996 | 287 |
next |
63654 | 288 |
case (Suc n) |
289 |
then show ?case |
|
57512
cc97b347b301
reduced name variants for assoc and commute on plus and mult
haftmann
parents:
57418
diff
changeset
|
290 |
by (simp del: power_Suc add: power_Suc2 mult.assoc) |
30996 | 291 |
qed |
292 |
||
61531
ab2e862263e7
Rounding function, uniform limits, cotangent, binomial identities
eberlm
parents:
61378
diff
changeset
|
293 |
lemma power_minus': "NO_MATCH 1 x \<Longrightarrow> (-x) ^ n = (-1)^n * x ^ n" |
ab2e862263e7
Rounding function, uniform limits, cotangent, binomial identities
eberlm
parents:
61378
diff
changeset
|
294 |
by (rule power_minus) |
ab2e862263e7
Rounding function, uniform limits, cotangent, binomial identities
eberlm
parents:
61378
diff
changeset
|
295 |
|
63654 | 296 |
lemma power_minus_Bit0: "(- x) ^ numeral (Num.Bit0 k) = x ^ numeral (Num.Bit0 k)" |
47191 | 297 |
by (induct k, simp_all only: numeral_class.numeral.simps power_add |
298 |
power_one_right mult_minus_left mult_minus_right minus_minus) |
|
299 |
||
63654 | 300 |
lemma power_minus_Bit1: "(- x) ^ numeral (Num.Bit1 k) = - (x ^ numeral (Num.Bit1 k))" |
47220
52426c62b5d0
replace lemmas eval_nat_numeral with a simpler reformulation
huffman
parents:
47209
diff
changeset
|
301 |
by (simp only: eval_nat_numeral(3) power_Suc power_minus_Bit0 mult_minus_left) |
47191 | 302 |
|
63654 | 303 |
lemma power2_minus [simp]: "(- a)\<^sup>2 = a\<^sup>2" |
60867 | 304 |
by (fact power_minus_Bit0) |
47192
0c0501cb6da6
move many lemmas from Nat_Numeral.thy to Power.thy or Num.thy
huffman
parents:
47191
diff
changeset
|
305 |
|
63654 | 306 |
lemma power_minus1_even [simp]: "(- 1) ^ (2*n) = 1" |
47192
0c0501cb6da6
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huffman
parents:
47191
diff
changeset
|
307 |
proof (induct n) |
63654 | 308 |
case 0 |
309 |
show ?case by simp |
|
47192
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parents:
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diff
changeset
|
310 |
next |
63654 | 311 |
case (Suc n) |
312 |
then show ?case by (simp add: power_add power2_eq_square) |
|
47192
0c0501cb6da6
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parents:
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diff
changeset
|
313 |
qed |
0c0501cb6da6
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huffman
parents:
47191
diff
changeset
|
314 |
|
63654 | 315 |
lemma power_minus1_odd: "(- 1) ^ Suc (2*n) = -1" |
47192
0c0501cb6da6
move many lemmas from Nat_Numeral.thy to Power.thy or Num.thy
huffman
parents:
47191
diff
changeset
|
316 |
by simp |
61649
268d88ec9087
Tweaks for "real": Removal of [iff] status for some lemmas, adding [simp] for others. Plus fixes.
paulson <lp15@cam.ac.uk>
parents:
61531
diff
changeset
|
317 |
|
63654 | 318 |
lemma power_minus_even [simp]: "(-a) ^ (2*n) = a ^ (2*n)" |
47192
0c0501cb6da6
move many lemmas from Nat_Numeral.thy to Power.thy or Num.thy
huffman
parents:
47191
diff
changeset
|
319 |
by (simp add: power_minus [of a]) |
0c0501cb6da6
move many lemmas from Nat_Numeral.thy to Power.thy or Num.thy
huffman
parents:
47191
diff
changeset
|
320 |
|
0c0501cb6da6
move many lemmas from Nat_Numeral.thy to Power.thy or Num.thy
huffman
parents:
47191
diff
changeset
|
321 |
end |
0c0501cb6da6
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huffman
parents:
47191
diff
changeset
|
322 |
|
0c0501cb6da6
move many lemmas from Nat_Numeral.thy to Power.thy or Num.thy
huffman
parents:
47191
diff
changeset
|
323 |
context ring_1_no_zero_divisors |
0c0501cb6da6
move many lemmas from Nat_Numeral.thy to Power.thy or Num.thy
huffman
parents:
47191
diff
changeset
|
324 |
begin |
0c0501cb6da6
move many lemmas from Nat_Numeral.thy to Power.thy or Num.thy
huffman
parents:
47191
diff
changeset
|
325 |
|
63654 | 326 |
lemma power2_eq_1_iff: "a\<^sup>2 = 1 \<longleftrightarrow> a = 1 \<or> a = - 1" |
60867 | 327 |
using square_eq_1_iff [of a] by (simp add: power2_eq_square) |
47192
0c0501cb6da6
move many lemmas from Nat_Numeral.thy to Power.thy or Num.thy
huffman
parents:
47191
diff
changeset
|
328 |
|
0c0501cb6da6
move many lemmas from Nat_Numeral.thy to Power.thy or Num.thy
huffman
parents:
47191
diff
changeset
|
329 |
end |
0c0501cb6da6
move many lemmas from Nat_Numeral.thy to Power.thy or Num.thy
huffman
parents:
47191
diff
changeset
|
330 |
|
0c0501cb6da6
move many lemmas from Nat_Numeral.thy to Power.thy or Num.thy
huffman
parents:
47191
diff
changeset
|
331 |
context idom |
0c0501cb6da6
move many lemmas from Nat_Numeral.thy to Power.thy or Num.thy
huffman
parents:
47191
diff
changeset
|
332 |
begin |
0c0501cb6da6
move many lemmas from Nat_Numeral.thy to Power.thy or Num.thy
huffman
parents:
47191
diff
changeset
|
333 |
|
53015
a1119cf551e8
standardized symbols via "isabelle update_sub_sup", excluding src/Pure and src/Tools/WWW_Find;
wenzelm
parents:
52435
diff
changeset
|
334 |
lemma power2_eq_iff: "x\<^sup>2 = y\<^sup>2 \<longleftrightarrow> x = y \<or> x = - y" |
47192
0c0501cb6da6
move many lemmas from Nat_Numeral.thy to Power.thy or Num.thy
huffman
parents:
47191
diff
changeset
|
335 |
unfolding power2_eq_square by (rule square_eq_iff) |
0c0501cb6da6
move many lemmas from Nat_Numeral.thy to Power.thy or Num.thy
huffman
parents:
47191
diff
changeset
|
336 |
|
0c0501cb6da6
move many lemmas from Nat_Numeral.thy to Power.thy or Num.thy
huffman
parents:
47191
diff
changeset
|
337 |
end |
0c0501cb6da6
move many lemmas from Nat_Numeral.thy to Power.thy or Num.thy
huffman
parents:
47191
diff
changeset
|
338 |
|
66936 | 339 |
context semidom_divide |
340 |
begin |
|
341 |
||
342 |
lemma power_diff: |
|
343 |
"a ^ (m - n) = (a ^ m) div (a ^ n)" if "a \<noteq> 0" and "n \<le> m" |
|
344 |
proof - |
|
345 |
define q where "q = m - n" |
|
346 |
with \<open>n \<le> m\<close> have "m = q + n" by simp |
|
347 |
with \<open>a \<noteq> 0\<close> q_def show ?thesis |
|
348 |
by (simp add: power_add) |
|
349 |
qed |
|
350 |
||
351 |
end |
|
352 |
||
60867 | 353 |
context algebraic_semidom |
354 |
begin |
|
355 |
||
63654 | 356 |
lemma div_power: "b dvd a \<Longrightarrow> (a div b) ^ n = a ^ n div b ^ n" |
357 |
by (induct n) (simp_all add: div_mult_div_if_dvd dvd_power_same) |
|
60867 | 358 |
|
63654 | 359 |
lemma is_unit_power_iff: "is_unit (a ^ n) \<longleftrightarrow> is_unit a \<or> n = 0" |
62366 | 360 |
by (induct n) (auto simp add: is_unit_mult_iff) |
361 |
||
63924 | 362 |
lemma dvd_power_iff: |
363 |
assumes "x \<noteq> 0" |
|
364 |
shows "x ^ m dvd x ^ n \<longleftrightarrow> is_unit x \<or> m \<le> n" |
|
365 |
proof |
|
366 |
assume *: "x ^ m dvd x ^ n" |
|
367 |
{ |
|
368 |
assume "m > n" |
|
369 |
note * |
|
370 |
also have "x ^ n = x ^ n * 1" by simp |
|
371 |
also from \<open>m > n\<close> have "m = n + (m - n)" by simp |
|
372 |
also have "x ^ \<dots> = x ^ n * x ^ (m - n)" by (rule power_add) |
|
373 |
finally have "x ^ (m - n) dvd 1" |
|
75669
43f5dfb7fa35
tuned (some HOL lints, by Yecine Megdiche);
Fabian Huch <huch@in.tum.de>
parents:
74438
diff
changeset
|
374 |
using assms by (subst (asm) dvd_times_left_cancel_iff) simp_all |
63924 | 375 |
with \<open>m > n\<close> have "is_unit x" by (simp add: is_unit_power_iff) |
376 |
} |
|
377 |
thus "is_unit x \<or> m \<le> n" by force |
|
378 |
qed (auto intro: unit_imp_dvd simp: is_unit_power_iff le_imp_power_dvd) |
|
379 |
||
380 |
||
60867 | 381 |
end |
382 |
||
71398
e0237f2eb49d
Removed multiplicativity assumption from normalization_semidom
Manuel Eberl <eberlm@in.tum.de>
parents:
70928
diff
changeset
|
383 |
context normalization_semidom_multiplicative |
60685
cb21b7022b00
moved normalization and unit_factor into Main HOL corpus
haftmann
parents:
60155
diff
changeset
|
384 |
begin |
cb21b7022b00
moved normalization and unit_factor into Main HOL corpus
haftmann
parents:
60155
diff
changeset
|
385 |
|
63654 | 386 |
lemma normalize_power: "normalize (a ^ n) = normalize a ^ n" |
60685
cb21b7022b00
moved normalization and unit_factor into Main HOL corpus
haftmann
parents:
60155
diff
changeset
|
387 |
by (induct n) (simp_all add: normalize_mult) |
cb21b7022b00
moved normalization and unit_factor into Main HOL corpus
haftmann
parents:
60155
diff
changeset
|
388 |
|
63654 | 389 |
lemma unit_factor_power: "unit_factor (a ^ n) = unit_factor a ^ n" |
60685
cb21b7022b00
moved normalization and unit_factor into Main HOL corpus
haftmann
parents:
60155
diff
changeset
|
390 |
by (induct n) (simp_all add: unit_factor_mult) |
cb21b7022b00
moved normalization and unit_factor into Main HOL corpus
haftmann
parents:
60155
diff
changeset
|
391 |
|
cb21b7022b00
moved normalization and unit_factor into Main HOL corpus
haftmann
parents:
60155
diff
changeset
|
392 |
end |
cb21b7022b00
moved normalization and unit_factor into Main HOL corpus
haftmann
parents:
60155
diff
changeset
|
393 |
|
47192
0c0501cb6da6
move many lemmas from Nat_Numeral.thy to Power.thy or Num.thy
huffman
parents:
47191
diff
changeset
|
394 |
context division_ring |
0c0501cb6da6
move many lemmas from Nat_Numeral.thy to Power.thy or Num.thy
huffman
parents:
47191
diff
changeset
|
395 |
begin |
0c0501cb6da6
move many lemmas from Nat_Numeral.thy to Power.thy or Num.thy
huffman
parents:
47191
diff
changeset
|
396 |
|
63654 | 397 |
text \<open>Perhaps these should be simprules.\<close> |
70817
dd675800469d
dedicated fact collections for algebraic simplification rules potentially splitting goals
haftmann
parents:
70724
diff
changeset
|
398 |
lemma power_inverse [field_simps, field_split_simps, divide_simps]: "inverse a ^ n = inverse (a ^ n)" |
60867 | 399 |
proof (cases "a = 0") |
63654 | 400 |
case True |
401 |
then show ?thesis by (simp add: power_0_left) |
|
60867 | 402 |
next |
63654 | 403 |
case False |
404 |
then have "inverse (a ^ n) = inverse a ^ n" |
|
60867 | 405 |
by (induct n) (simp_all add: nonzero_inverse_mult_distrib power_commutes) |
406 |
then show ?thesis by simp |
|
407 |
qed |
|
47192
0c0501cb6da6
move many lemmas from Nat_Numeral.thy to Power.thy or Num.thy
huffman
parents:
47191
diff
changeset
|
408 |
|
70817
dd675800469d
dedicated fact collections for algebraic simplification rules potentially splitting goals
haftmann
parents:
70724
diff
changeset
|
409 |
lemma power_one_over [field_simps, field_split_simps, divide_simps]: "(1 / a) ^ n = 1 / a ^ n" |
60867 | 410 |
using power_inverse [of a] by (simp add: divide_inverse) |
411 |
||
61649
268d88ec9087
Tweaks for "real": Removal of [iff] status for some lemmas, adding [simp] for others. Plus fixes.
paulson <lp15@cam.ac.uk>
parents:
61531
diff
changeset
|
412 |
end |
47192
0c0501cb6da6
move many lemmas from Nat_Numeral.thy to Power.thy or Num.thy
huffman
parents:
47191
diff
changeset
|
413 |
|
0c0501cb6da6
move many lemmas from Nat_Numeral.thy to Power.thy or Num.thy
huffman
parents:
47191
diff
changeset
|
414 |
context field |
0c0501cb6da6
move many lemmas from Nat_Numeral.thy to Power.thy or Num.thy
huffman
parents:
47191
diff
changeset
|
415 |
begin |
0c0501cb6da6
move many lemmas from Nat_Numeral.thy to Power.thy or Num.thy
huffman
parents:
47191
diff
changeset
|
416 |
|
70817
dd675800469d
dedicated fact collections for algebraic simplification rules potentially splitting goals
haftmann
parents:
70724
diff
changeset
|
417 |
lemma power_divide [field_simps, field_split_simps, divide_simps]: "(a / b) ^ n = a ^ n / b ^ n" |
60867 | 418 |
by (induct n) simp_all |
419 |
||
47192
0c0501cb6da6
move many lemmas from Nat_Numeral.thy to Power.thy or Num.thy
huffman
parents:
47191
diff
changeset
|
420 |
end |
0c0501cb6da6
move many lemmas from Nat_Numeral.thy to Power.thy or Num.thy
huffman
parents:
47191
diff
changeset
|
421 |
|
0c0501cb6da6
move many lemmas from Nat_Numeral.thy to Power.thy or Num.thy
huffman
parents:
47191
diff
changeset
|
422 |
|
60758 | 423 |
subsection \<open>Exponentiation on ordered types\<close> |
47192
0c0501cb6da6
move many lemmas from Nat_Numeral.thy to Power.thy or Num.thy
huffman
parents:
47191
diff
changeset
|
424 |
|
35028
108662d50512
more consistent naming of type classes involving orderings (and lattices) -- c.f. NEWS
haftmann
parents:
33364
diff
changeset
|
425 |
context linordered_semidom |
30996 | 426 |
begin |
427 |
||
63654 | 428 |
lemma zero_less_power [simp]: "0 < a \<Longrightarrow> 0 < a ^ n" |
56544 | 429 |
by (induct n) simp_all |
30996 | 430 |
|
63654 | 431 |
lemma zero_le_power [simp]: "0 \<le> a \<Longrightarrow> 0 \<le> a ^ n" |
56536 | 432 |
by (induct n) simp_all |
14348
744c868ee0b7
Defining the type class "ringpower" and deleting superseded theorems for
paulson
parents:
8844
diff
changeset
|
433 |
|
63654 | 434 |
lemma power_mono: "a \<le> b \<Longrightarrow> 0 \<le> a \<Longrightarrow> a ^ n \<le> b ^ n" |
47241 | 435 |
by (induct n) (auto intro: mult_mono order_trans [of 0 a b]) |
436 |
||
437 |
lemma one_le_power [simp]: "1 \<le> a \<Longrightarrow> 1 \<le> a ^ n" |
|
438 |
using power_mono [of 1 a n] by simp |
|
439 |
||
63654 | 440 |
lemma power_le_one: "0 \<le> a \<Longrightarrow> a \<le> 1 \<Longrightarrow> a ^ n \<le> 1" |
47241 | 441 |
using power_mono [of a 1 n] by simp |
14348
744c868ee0b7
Defining the type class "ringpower" and deleting superseded theorems for
paulson
parents:
8844
diff
changeset
|
442 |
|
744c868ee0b7
Defining the type class "ringpower" and deleting superseded theorems for
paulson
parents:
8844
diff
changeset
|
443 |
lemma power_gt1_lemma: |
30996 | 444 |
assumes gt1: "1 < a" |
445 |
shows "1 < a * a ^ n" |
|
14348
744c868ee0b7
Defining the type class "ringpower" and deleting superseded theorems for
paulson
parents:
8844
diff
changeset
|
446 |
proof - |
30996 | 447 |
from gt1 have "0 \<le> a" |
448 |
by (fact order_trans [OF zero_le_one less_imp_le]) |
|
63654 | 449 |
from gt1 have "1 * 1 < a * 1" by simp |
450 |
also from gt1 have "\<dots> \<le> a * a ^ n" |
|
451 |
by (simp only: mult_mono \<open>0 \<le> a\<close> one_le_power order_less_imp_le zero_le_one order_refl) |
|
14577 | 452 |
finally show ?thesis by simp |
14348
744c868ee0b7
Defining the type class "ringpower" and deleting superseded theorems for
paulson
parents:
8844
diff
changeset
|
453 |
qed |
744c868ee0b7
Defining the type class "ringpower" and deleting superseded theorems for
paulson
parents:
8844
diff
changeset
|
454 |
|
63654 | 455 |
lemma power_gt1: "1 < a \<Longrightarrow> 1 < a ^ Suc n" |
30996 | 456 |
by (simp add: power_gt1_lemma) |
24376 | 457 |
|
63654 | 458 |
lemma one_less_power [simp]: "1 < a \<Longrightarrow> 0 < n \<Longrightarrow> 1 < a ^ n" |
30996 | 459 |
by (cases n) (simp_all add: power_gt1_lemma) |
14348
744c868ee0b7
Defining the type class "ringpower" and deleting superseded theorems for
paulson
parents:
8844
diff
changeset
|
460 |
|
744c868ee0b7
Defining the type class "ringpower" and deleting superseded theorems for
paulson
parents:
8844
diff
changeset
|
461 |
lemma power_le_imp_le_exp: |
30996 | 462 |
assumes gt1: "1 < a" |
463 |
shows "a ^ m \<le> a ^ n \<Longrightarrow> m \<le> n" |
|
464 |
proof (induct m arbitrary: n) |
|
14348
744c868ee0b7
Defining the type class "ringpower" and deleting superseded theorems for
paulson
parents:
8844
diff
changeset
|
465 |
case 0 |
14577 | 466 |
show ?case by simp |
14348
744c868ee0b7
Defining the type class "ringpower" and deleting superseded theorems for
paulson
parents:
8844
diff
changeset
|
467 |
next |
744c868ee0b7
Defining the type class "ringpower" and deleting superseded theorems for
paulson
parents:
8844
diff
changeset
|
468 |
case (Suc m) |
14577 | 469 |
show ?case |
470 |
proof (cases n) |
|
471 |
case 0 |
|
63654 | 472 |
with Suc have "a * a ^ m \<le> 1" by simp |
14577 | 473 |
with gt1 show ?thesis |
63654 | 474 |
by (force simp only: power_gt1_lemma not_less [symmetric]) |
14577 | 475 |
next |
476 |
case (Suc n) |
|
30996 | 477 |
with Suc.prems Suc.hyps show ?thesis |
63654 | 478 |
by (force dest: mult_left_le_imp_le simp add: less_trans [OF zero_less_one gt1]) |
14577 | 479 |
qed |
14348
744c868ee0b7
Defining the type class "ringpower" and deleting superseded theorems for
paulson
parents:
8844
diff
changeset
|
480 |
qed |
744c868ee0b7
Defining the type class "ringpower" and deleting superseded theorems for
paulson
parents:
8844
diff
changeset
|
481 |
|
63654 | 482 |
lemma of_nat_zero_less_power_iff [simp]: "of_nat x ^ n > 0 \<longleftrightarrow> x > 0 \<or> n = 0" |
61649
268d88ec9087
Tweaks for "real": Removal of [iff] status for some lemmas, adding [simp] for others. Plus fixes.
paulson <lp15@cam.ac.uk>
parents:
61531
diff
changeset
|
483 |
by (induct n) auto |
268d88ec9087
Tweaks for "real": Removal of [iff] status for some lemmas, adding [simp] for others. Plus fixes.
paulson <lp15@cam.ac.uk>
parents:
61531
diff
changeset
|
484 |
|
63654 | 485 |
text \<open>Surely we can strengthen this? It holds for \<open>0<a<1\<close> too.\<close> |
73411 | 486 |
lemma power_inject_exp [simp]: |
487 |
\<open>a ^ m = a ^ n \<longleftrightarrow> m = n\<close> if \<open>1 < a\<close> |
|
488 |
using that by (force simp add: order_class.order.antisym power_le_imp_le_exp) |
|
14348
744c868ee0b7
Defining the type class "ringpower" and deleting superseded theorems for
paulson
parents:
8844
diff
changeset
|
489 |
|
63654 | 490 |
text \<open> |
69593 | 491 |
Can relax the first premise to \<^term>\<open>0<a\<close> in the case of the |
63654 | 492 |
natural numbers. |
493 |
\<close> |
|
494 |
lemma power_less_imp_less_exp: "1 < a \<Longrightarrow> a ^ m < a ^ n \<Longrightarrow> m < n" |
|
495 |
by (simp add: order_less_le [of m n] less_le [of "a^m" "a^n"] power_le_imp_le_exp) |
|
75669
43f5dfb7fa35
tuned (some HOL lints, by Yecine Megdiche);
Fabian Huch <huch@in.tum.de>
parents:
74438
diff
changeset
|
496 |
|
43f5dfb7fa35
tuned (some HOL lints, by Yecine Megdiche);
Fabian Huch <huch@in.tum.de>
parents:
74438
diff
changeset
|
497 |
lemma power_strict_mono: "a < b \<Longrightarrow> 0 \<le> a \<Longrightarrow> 0 < n \<Longrightarrow> a ^ n < b ^ n" |
43f5dfb7fa35
tuned (some HOL lints, by Yecine Megdiche);
Fabian Huch <huch@in.tum.de>
parents:
74438
diff
changeset
|
498 |
proof (induct n) |
43f5dfb7fa35
tuned (some HOL lints, by Yecine Megdiche);
Fabian Huch <huch@in.tum.de>
parents:
74438
diff
changeset
|
499 |
case 0 |
43f5dfb7fa35
tuned (some HOL lints, by Yecine Megdiche);
Fabian Huch <huch@in.tum.de>
parents:
74438
diff
changeset
|
500 |
then show ?case by simp |
43f5dfb7fa35
tuned (some HOL lints, by Yecine Megdiche);
Fabian Huch <huch@in.tum.de>
parents:
74438
diff
changeset
|
501 |
next |
43f5dfb7fa35
tuned (some HOL lints, by Yecine Megdiche);
Fabian Huch <huch@in.tum.de>
parents:
74438
diff
changeset
|
502 |
case (Suc n) |
43f5dfb7fa35
tuned (some HOL lints, by Yecine Megdiche);
Fabian Huch <huch@in.tum.de>
parents:
74438
diff
changeset
|
503 |
then show ?case |
43f5dfb7fa35
tuned (some HOL lints, by Yecine Megdiche);
Fabian Huch <huch@in.tum.de>
parents:
74438
diff
changeset
|
504 |
by (cases "n = 0") (auto simp: mult_strict_mono le_less_trans [of 0 a b]) |
43f5dfb7fa35
tuned (some HOL lints, by Yecine Megdiche);
Fabian Huch <huch@in.tum.de>
parents:
74438
diff
changeset
|
505 |
qed |
14348
744c868ee0b7
Defining the type class "ringpower" and deleting superseded theorems for
paulson
parents:
8844
diff
changeset
|
506 |
|
70365
4df0628e8545
a few new lemmas and a bit of tidying
paulson <lp15@cam.ac.uk>
parents:
70331
diff
changeset
|
507 |
lemma power_mono_iff [simp]: |
4df0628e8545
a few new lemmas and a bit of tidying
paulson <lp15@cam.ac.uk>
parents:
70331
diff
changeset
|
508 |
shows "\<lbrakk>a \<ge> 0; b \<ge> 0; n>0\<rbrakk> \<Longrightarrow> a ^ n \<le> b ^ n \<longleftrightarrow> a \<le> b" |
4df0628e8545
a few new lemmas and a bit of tidying
paulson <lp15@cam.ac.uk>
parents:
70331
diff
changeset
|
509 |
using power_mono [of a b] power_strict_mono [of b a] not_le by auto |
4df0628e8545
a few new lemmas and a bit of tidying
paulson <lp15@cam.ac.uk>
parents:
70331
diff
changeset
|
510 |
|
61799 | 511 |
text\<open>Lemma for \<open>power_strict_decreasing\<close>\<close> |
63654 | 512 |
lemma power_Suc_less: "0 < a \<Longrightarrow> a < 1 \<Longrightarrow> a * a ^ n < a ^ n" |
513 |
by (induct n) (auto simp: mult_strict_left_mono) |
|
14348
744c868ee0b7
Defining the type class "ringpower" and deleting superseded theorems for
paulson
parents:
8844
diff
changeset
|
514 |
|
75669
43f5dfb7fa35
tuned (some HOL lints, by Yecine Megdiche);
Fabian Huch <huch@in.tum.de>
parents:
74438
diff
changeset
|
515 |
lemma power_strict_decreasing: "n < N \<Longrightarrow> 0 < a \<Longrightarrow> a < 1 \<Longrightarrow> a ^ N < a ^ n" |
43f5dfb7fa35
tuned (some HOL lints, by Yecine Megdiche);
Fabian Huch <huch@in.tum.de>
parents:
74438
diff
changeset
|
516 |
proof (induction N) |
43f5dfb7fa35
tuned (some HOL lints, by Yecine Megdiche);
Fabian Huch <huch@in.tum.de>
parents:
74438
diff
changeset
|
517 |
case 0 |
43f5dfb7fa35
tuned (some HOL lints, by Yecine Megdiche);
Fabian Huch <huch@in.tum.de>
parents:
74438
diff
changeset
|
518 |
then show ?case by simp |
43f5dfb7fa35
tuned (some HOL lints, by Yecine Megdiche);
Fabian Huch <huch@in.tum.de>
parents:
74438
diff
changeset
|
519 |
next |
43f5dfb7fa35
tuned (some HOL lints, by Yecine Megdiche);
Fabian Huch <huch@in.tum.de>
parents:
74438
diff
changeset
|
520 |
case (Suc N) |
43f5dfb7fa35
tuned (some HOL lints, by Yecine Megdiche);
Fabian Huch <huch@in.tum.de>
parents:
74438
diff
changeset
|
521 |
then show ?case |
43f5dfb7fa35
tuned (some HOL lints, by Yecine Megdiche);
Fabian Huch <huch@in.tum.de>
parents:
74438
diff
changeset
|
522 |
using mult_strict_mono[of a 1 "a ^ N" "a ^ n"] |
43f5dfb7fa35
tuned (some HOL lints, by Yecine Megdiche);
Fabian Huch <huch@in.tum.de>
parents:
74438
diff
changeset
|
523 |
by (auto simp add: power_Suc_less less_Suc_eq) |
43f5dfb7fa35
tuned (some HOL lints, by Yecine Megdiche);
Fabian Huch <huch@in.tum.de>
parents:
74438
diff
changeset
|
524 |
qed |
43f5dfb7fa35
tuned (some HOL lints, by Yecine Megdiche);
Fabian Huch <huch@in.tum.de>
parents:
74438
diff
changeset
|
525 |
|
43f5dfb7fa35
tuned (some HOL lints, by Yecine Megdiche);
Fabian Huch <huch@in.tum.de>
parents:
74438
diff
changeset
|
526 |
text \<open>Proof resembles that of \<open>power_strict_decreasing\<close>.\<close> |
43f5dfb7fa35
tuned (some HOL lints, by Yecine Megdiche);
Fabian Huch <huch@in.tum.de>
parents:
74438
diff
changeset
|
527 |
lemma power_decreasing: "n \<le> N \<Longrightarrow> 0 \<le> a \<Longrightarrow> a \<le> 1 \<Longrightarrow> a ^ N \<le> a ^ n" |
43f5dfb7fa35
tuned (some HOL lints, by Yecine Megdiche);
Fabian Huch <huch@in.tum.de>
parents:
74438
diff
changeset
|
528 |
proof (induction N) |
63654 | 529 |
case 0 |
530 |
then show ?case by simp |
|
30996 | 531 |
next |
63654 | 532 |
case (Suc N) |
533 |
then show ?case |
|
75669
43f5dfb7fa35
tuned (some HOL lints, by Yecine Megdiche);
Fabian Huch <huch@in.tum.de>
parents:
74438
diff
changeset
|
534 |
using mult_mono[of a 1 "a^N" "a ^ n"] |
43f5dfb7fa35
tuned (some HOL lints, by Yecine Megdiche);
Fabian Huch <huch@in.tum.de>
parents:
74438
diff
changeset
|
535 |
by (auto simp add: le_Suc_eq) |
30996 | 536 |
qed |
14348
744c868ee0b7
Defining the type class "ringpower" and deleting superseded theorems for
paulson
parents:
8844
diff
changeset
|
537 |
|
69700
7a92cbec7030
new material about summations and powers, along with some tweaks
paulson <lp15@cam.ac.uk>
parents:
69593
diff
changeset
|
538 |
lemma power_decreasing_iff [simp]: "\<lbrakk>0 < b; b < 1\<rbrakk> \<Longrightarrow> b ^ m \<le> b ^ n \<longleftrightarrow> n \<le> m" |
7a92cbec7030
new material about summations and powers, along with some tweaks
paulson <lp15@cam.ac.uk>
parents:
69593
diff
changeset
|
539 |
using power_strict_decreasing [of m n b] |
7a92cbec7030
new material about summations and powers, along with some tweaks
paulson <lp15@cam.ac.uk>
parents:
69593
diff
changeset
|
540 |
by (auto intro: power_decreasing ccontr) |
7a92cbec7030
new material about summations and powers, along with some tweaks
paulson <lp15@cam.ac.uk>
parents:
69593
diff
changeset
|
541 |
|
7a92cbec7030
new material about summations and powers, along with some tweaks
paulson <lp15@cam.ac.uk>
parents:
69593
diff
changeset
|
542 |
lemma power_strict_decreasing_iff [simp]: "\<lbrakk>0 < b; b < 1\<rbrakk> \<Longrightarrow> b ^ m < b ^ n \<longleftrightarrow> n < m" |
7a92cbec7030
new material about summations and powers, along with some tweaks
paulson <lp15@cam.ac.uk>
parents:
69593
diff
changeset
|
543 |
using power_decreasing_iff [of b m n] unfolding le_less |
7a92cbec7030
new material about summations and powers, along with some tweaks
paulson <lp15@cam.ac.uk>
parents:
69593
diff
changeset
|
544 |
by (auto dest: power_strict_decreasing le_neq_implies_less) |
7a92cbec7030
new material about summations and powers, along with some tweaks
paulson <lp15@cam.ac.uk>
parents:
69593
diff
changeset
|
545 |
|
63654 | 546 |
lemma power_Suc_less_one: "0 < a \<Longrightarrow> a < 1 \<Longrightarrow> a ^ Suc n < 1" |
30996 | 547 |
using power_strict_decreasing [of 0 "Suc n" a] by simp |
14348
744c868ee0b7
Defining the type class "ringpower" and deleting superseded theorems for
paulson
parents:
8844
diff
changeset
|
548 |
|
63654 | 549 |
text \<open>Proof again resembles that of \<open>power_strict_decreasing\<close>.\<close> |
550 |
lemma power_increasing: "n \<le> N \<Longrightarrow> 1 \<le> a \<Longrightarrow> a ^ n \<le> a ^ N" |
|
30996 | 551 |
proof (induct N) |
63654 | 552 |
case 0 |
553 |
then show ?case by simp |
|
30996 | 554 |
next |
63654 | 555 |
case (Suc N) |
556 |
then show ?case |
|
75669
43f5dfb7fa35
tuned (some HOL lints, by Yecine Megdiche);
Fabian Huch <huch@in.tum.de>
parents:
74438
diff
changeset
|
557 |
using mult_mono[of 1 a "a ^ n" "a ^ N"] |
43f5dfb7fa35
tuned (some HOL lints, by Yecine Megdiche);
Fabian Huch <huch@in.tum.de>
parents:
74438
diff
changeset
|
558 |
by (auto simp add: le_Suc_eq order_trans [OF zero_le_one]) |
30996 | 559 |
qed |
14348
744c868ee0b7
Defining the type class "ringpower" and deleting superseded theorems for
paulson
parents:
8844
diff
changeset
|
560 |
|
63654 | 561 |
text \<open>Lemma for \<open>power_strict_increasing\<close>.\<close> |
562 |
lemma power_less_power_Suc: "1 < a \<Longrightarrow> a ^ n < a * a ^ n" |
|
563 |
by (induct n) (auto simp: mult_strict_left_mono less_trans [OF zero_less_one]) |
|
14348
744c868ee0b7
Defining the type class "ringpower" and deleting superseded theorems for
paulson
parents:
8844
diff
changeset
|
564 |
|
63654 | 565 |
lemma power_strict_increasing: "n < N \<Longrightarrow> 1 < a \<Longrightarrow> a ^ n < a ^ N" |
30996 | 566 |
proof (induct N) |
63654 | 567 |
case 0 |
568 |
then show ?case by simp |
|
30996 | 569 |
next |
63654 | 570 |
case (Suc N) |
571 |
then show ?case |
|
75669
43f5dfb7fa35
tuned (some HOL lints, by Yecine Megdiche);
Fabian Huch <huch@in.tum.de>
parents:
74438
diff
changeset
|
572 |
using mult_strict_mono[of 1 a "a^n" "a^N"] |
43f5dfb7fa35
tuned (some HOL lints, by Yecine Megdiche);
Fabian Huch <huch@in.tum.de>
parents:
74438
diff
changeset
|
573 |
by (auto simp add: power_less_power_Suc less_Suc_eq less_trans [OF zero_less_one] less_imp_le) |
30996 | 574 |
qed |
14348
744c868ee0b7
Defining the type class "ringpower" and deleting superseded theorems for
paulson
parents:
8844
diff
changeset
|
575 |
|
63654 | 576 |
lemma power_increasing_iff [simp]: "1 < b \<Longrightarrow> b ^ x \<le> b ^ y \<longleftrightarrow> x \<le> y" |
30996 | 577 |
by (blast intro: power_le_imp_le_exp power_increasing less_imp_le) |
15066 | 578 |
|
63654 | 579 |
lemma power_strict_increasing_iff [simp]: "1 < b \<Longrightarrow> b ^ x < b ^ y \<longleftrightarrow> x < y" |
580 |
by (blast intro: power_less_imp_less_exp power_strict_increasing) |
|
15066 | 581 |
|
14348
744c868ee0b7
Defining the type class "ringpower" and deleting superseded theorems for
paulson
parents:
8844
diff
changeset
|
582 |
lemma power_le_imp_le_base: |
30996 | 583 |
assumes le: "a ^ Suc n \<le> b ^ Suc n" |
63654 | 584 |
and "0 \<le> b" |
30996 | 585 |
shows "a \<le> b" |
25134
3d4953e88449
Eliminated most of the neq0_conv occurrences. As a result, many
nipkow
parents:
25062
diff
changeset
|
586 |
proof (rule ccontr) |
63654 | 587 |
assume "\<not> ?thesis" |
25134
3d4953e88449
Eliminated most of the neq0_conv occurrences. As a result, many
nipkow
parents:
25062
diff
changeset
|
588 |
then have "b < a" by (simp only: linorder_not_le) |
3d4953e88449
Eliminated most of the neq0_conv occurrences. As a result, many
nipkow
parents:
25062
diff
changeset
|
589 |
then have "b ^ Suc n < a ^ Suc n" |
63654 | 590 |
by (simp only: assms(2) power_strict_mono) |
591 |
with le show False |
|
25134
3d4953e88449
Eliminated most of the neq0_conv occurrences. As a result, many
nipkow
parents:
25062
diff
changeset
|
592 |
by (simp add: linorder_not_less [symmetric]) |
3d4953e88449
Eliminated most of the neq0_conv occurrences. As a result, many
nipkow
parents:
25062
diff
changeset
|
593 |
qed |
14577 | 594 |
|
22853 | 595 |
lemma power_less_imp_less_base: |
596 |
assumes less: "a ^ n < b ^ n" |
|
597 |
assumes nonneg: "0 \<le> b" |
|
598 |
shows "a < b" |
|
599 |
proof (rule contrapos_pp [OF less]) |
|
63654 | 600 |
assume "\<not> ?thesis" |
601 |
then have "b \<le> a" by (simp only: linorder_not_less) |
|
602 |
from this nonneg have "b ^ n \<le> a ^ n" by (rule power_mono) |
|
603 |
then show "\<not> a ^ n < b ^ n" by (simp only: linorder_not_less) |
|
22853 | 604 |
qed |
605 |
||
63654 | 606 |
lemma power_inject_base: "a ^ Suc n = b ^ Suc n \<Longrightarrow> 0 \<le> a \<Longrightarrow> 0 \<le> b \<Longrightarrow> a = b" |
73411 | 607 |
by (blast intro: power_le_imp_le_base order.antisym eq_refl sym) |
14348
744c868ee0b7
Defining the type class "ringpower" and deleting superseded theorems for
paulson
parents:
8844
diff
changeset
|
608 |
|
63654 | 609 |
lemma power_eq_imp_eq_base: "a ^ n = b ^ n \<Longrightarrow> 0 \<le> a \<Longrightarrow> 0 \<le> b \<Longrightarrow> 0 < n \<Longrightarrow> a = b" |
30996 | 610 |
by (cases n) (simp_all del: power_Suc, rule power_inject_base) |
22955 | 611 |
|
63654 | 612 |
lemma power_eq_iff_eq_base: "0 < n \<Longrightarrow> 0 \<le> a \<Longrightarrow> 0 \<le> b \<Longrightarrow> a ^ n = b ^ n \<longleftrightarrow> a = b" |
62347 | 613 |
using power_eq_imp_eq_base [of a n b] by auto |
614 |
||
63654 | 615 |
lemma power2_le_imp_le: "x\<^sup>2 \<le> y\<^sup>2 \<Longrightarrow> 0 \<le> y \<Longrightarrow> x \<le> y" |
47192
0c0501cb6da6
move many lemmas from Nat_Numeral.thy to Power.thy or Num.thy
huffman
parents:
47191
diff
changeset
|
616 |
unfolding numeral_2_eq_2 by (rule power_le_imp_le_base) |
0c0501cb6da6
move many lemmas from Nat_Numeral.thy to Power.thy or Num.thy
huffman
parents:
47191
diff
changeset
|
617 |
|
63654 | 618 |
lemma power2_less_imp_less: "x\<^sup>2 < y\<^sup>2 \<Longrightarrow> 0 \<le> y \<Longrightarrow> x < y" |
47192
0c0501cb6da6
move many lemmas from Nat_Numeral.thy to Power.thy or Num.thy
huffman
parents:
47191
diff
changeset
|
619 |
by (rule power_less_imp_less_base) |
0c0501cb6da6
move many lemmas from Nat_Numeral.thy to Power.thy or Num.thy
huffman
parents:
47191
diff
changeset
|
620 |
|
63654 | 621 |
lemma power2_eq_imp_eq: "x\<^sup>2 = y\<^sup>2 \<Longrightarrow> 0 \<le> x \<Longrightarrow> 0 \<le> y \<Longrightarrow> x = y" |
47192
0c0501cb6da6
move many lemmas from Nat_Numeral.thy to Power.thy or Num.thy
huffman
parents:
47191
diff
changeset
|
622 |
unfolding numeral_2_eq_2 by (erule (2) power_eq_imp_eq_base) simp |
0c0501cb6da6
move many lemmas from Nat_Numeral.thy to Power.thy or Num.thy
huffman
parents:
47191
diff
changeset
|
623 |
|
63654 | 624 |
lemma power_Suc_le_self: "0 \<le> a \<Longrightarrow> a \<le> 1 \<Longrightarrow> a ^ Suc n \<le> a" |
62347 | 625 |
using power_decreasing [of 1 "Suc n" a] by simp |
626 |
||
65057
799bbbb3a395
Some new lemmas thanks to Lukas Bulwahn. Also, NEWS.
paulson <lp15@cam.ac.uk>
parents:
64964
diff
changeset
|
627 |
lemma power2_eq_iff_nonneg [simp]: |
799bbbb3a395
Some new lemmas thanks to Lukas Bulwahn. Also, NEWS.
paulson <lp15@cam.ac.uk>
parents:
64964
diff
changeset
|
628 |
assumes "0 \<le> x" "0 \<le> y" |
799bbbb3a395
Some new lemmas thanks to Lukas Bulwahn. Also, NEWS.
paulson <lp15@cam.ac.uk>
parents:
64964
diff
changeset
|
629 |
shows "(x ^ 2 = y ^ 2) \<longleftrightarrow> x = y" |
799bbbb3a395
Some new lemmas thanks to Lukas Bulwahn. Also, NEWS.
paulson <lp15@cam.ac.uk>
parents:
64964
diff
changeset
|
630 |
using assms power2_eq_imp_eq by blast |
799bbbb3a395
Some new lemmas thanks to Lukas Bulwahn. Also, NEWS.
paulson <lp15@cam.ac.uk>
parents:
64964
diff
changeset
|
631 |
|
66912
a99a7cbf0fb5
generalized lemmas cancelling real_of_int/real in (in)equalities with power; completed set of related simp rules; lemmas about floorlog/bitlen
immler
parents:
65057
diff
changeset
|
632 |
lemma of_nat_less_numeral_power_cancel_iff[simp]: |
a99a7cbf0fb5
generalized lemmas cancelling real_of_int/real in (in)equalities with power; completed set of related simp rules; lemmas about floorlog/bitlen
immler
parents:
65057
diff
changeset
|
633 |
"of_nat x < numeral i ^ n \<longleftrightarrow> x < numeral i ^ n" |
a99a7cbf0fb5
generalized lemmas cancelling real_of_int/real in (in)equalities with power; completed set of related simp rules; lemmas about floorlog/bitlen
immler
parents:
65057
diff
changeset
|
634 |
using of_nat_less_iff[of x "numeral i ^ n", unfolded of_nat_numeral of_nat_power] . |
a99a7cbf0fb5
generalized lemmas cancelling real_of_int/real in (in)equalities with power; completed set of related simp rules; lemmas about floorlog/bitlen
immler
parents:
65057
diff
changeset
|
635 |
|
a99a7cbf0fb5
generalized lemmas cancelling real_of_int/real in (in)equalities with power; completed set of related simp rules; lemmas about floorlog/bitlen
immler
parents:
65057
diff
changeset
|
636 |
lemma of_nat_le_numeral_power_cancel_iff[simp]: |
a99a7cbf0fb5
generalized lemmas cancelling real_of_int/real in (in)equalities with power; completed set of related simp rules; lemmas about floorlog/bitlen
immler
parents:
65057
diff
changeset
|
637 |
"of_nat x \<le> numeral i ^ n \<longleftrightarrow> x \<le> numeral i ^ n" |
a99a7cbf0fb5
generalized lemmas cancelling real_of_int/real in (in)equalities with power; completed set of related simp rules; lemmas about floorlog/bitlen
immler
parents:
65057
diff
changeset
|
638 |
using of_nat_le_iff[of x "numeral i ^ n", unfolded of_nat_numeral of_nat_power] . |
a99a7cbf0fb5
generalized lemmas cancelling real_of_int/real in (in)equalities with power; completed set of related simp rules; lemmas about floorlog/bitlen
immler
parents:
65057
diff
changeset
|
639 |
|
a99a7cbf0fb5
generalized lemmas cancelling real_of_int/real in (in)equalities with power; completed set of related simp rules; lemmas about floorlog/bitlen
immler
parents:
65057
diff
changeset
|
640 |
lemma numeral_power_less_of_nat_cancel_iff[simp]: |
a99a7cbf0fb5
generalized lemmas cancelling real_of_int/real in (in)equalities with power; completed set of related simp rules; lemmas about floorlog/bitlen
immler
parents:
65057
diff
changeset
|
641 |
"numeral i ^ n < of_nat x \<longleftrightarrow> numeral i ^ n < x" |
a99a7cbf0fb5
generalized lemmas cancelling real_of_int/real in (in)equalities with power; completed set of related simp rules; lemmas about floorlog/bitlen
immler
parents:
65057
diff
changeset
|
642 |
using of_nat_less_iff[of "numeral i ^ n" x, unfolded of_nat_numeral of_nat_power] . |
a99a7cbf0fb5
generalized lemmas cancelling real_of_int/real in (in)equalities with power; completed set of related simp rules; lemmas about floorlog/bitlen
immler
parents:
65057
diff
changeset
|
643 |
|
a99a7cbf0fb5
generalized lemmas cancelling real_of_int/real in (in)equalities with power; completed set of related simp rules; lemmas about floorlog/bitlen
immler
parents:
65057
diff
changeset
|
644 |
lemma numeral_power_le_of_nat_cancel_iff[simp]: |
a99a7cbf0fb5
generalized lemmas cancelling real_of_int/real in (in)equalities with power; completed set of related simp rules; lemmas about floorlog/bitlen
immler
parents:
65057
diff
changeset
|
645 |
"numeral i ^ n \<le> of_nat x \<longleftrightarrow> numeral i ^ n \<le> x" |
a99a7cbf0fb5
generalized lemmas cancelling real_of_int/real in (in)equalities with power; completed set of related simp rules; lemmas about floorlog/bitlen
immler
parents:
65057
diff
changeset
|
646 |
using of_nat_le_iff[of "numeral i ^ n" x, unfolded of_nat_numeral of_nat_power] . |
a99a7cbf0fb5
generalized lemmas cancelling real_of_int/real in (in)equalities with power; completed set of related simp rules; lemmas about floorlog/bitlen
immler
parents:
65057
diff
changeset
|
647 |
|
a99a7cbf0fb5
generalized lemmas cancelling real_of_int/real in (in)equalities with power; completed set of related simp rules; lemmas about floorlog/bitlen
immler
parents:
65057
diff
changeset
|
648 |
lemma of_nat_le_of_nat_power_cancel_iff[simp]: "(of_nat b) ^ w \<le> of_nat x \<longleftrightarrow> b ^ w \<le> x" |
a99a7cbf0fb5
generalized lemmas cancelling real_of_int/real in (in)equalities with power; completed set of related simp rules; lemmas about floorlog/bitlen
immler
parents:
65057
diff
changeset
|
649 |
by (metis of_nat_le_iff of_nat_power) |
a99a7cbf0fb5
generalized lemmas cancelling real_of_int/real in (in)equalities with power; completed set of related simp rules; lemmas about floorlog/bitlen
immler
parents:
65057
diff
changeset
|
650 |
|
a99a7cbf0fb5
generalized lemmas cancelling real_of_int/real in (in)equalities with power; completed set of related simp rules; lemmas about floorlog/bitlen
immler
parents:
65057
diff
changeset
|
651 |
lemma of_nat_power_le_of_nat_cancel_iff[simp]: "of_nat x \<le> (of_nat b) ^ w \<longleftrightarrow> x \<le> b ^ w" |
a99a7cbf0fb5
generalized lemmas cancelling real_of_int/real in (in)equalities with power; completed set of related simp rules; lemmas about floorlog/bitlen
immler
parents:
65057
diff
changeset
|
652 |
by (metis of_nat_le_iff of_nat_power) |
a99a7cbf0fb5
generalized lemmas cancelling real_of_int/real in (in)equalities with power; completed set of related simp rules; lemmas about floorlog/bitlen
immler
parents:
65057
diff
changeset
|
653 |
|
a99a7cbf0fb5
generalized lemmas cancelling real_of_int/real in (in)equalities with power; completed set of related simp rules; lemmas about floorlog/bitlen
immler
parents:
65057
diff
changeset
|
654 |
lemma of_nat_less_of_nat_power_cancel_iff[simp]: "(of_nat b) ^ w < of_nat x \<longleftrightarrow> b ^ w < x" |
a99a7cbf0fb5
generalized lemmas cancelling real_of_int/real in (in)equalities with power; completed set of related simp rules; lemmas about floorlog/bitlen
immler
parents:
65057
diff
changeset
|
655 |
by (metis of_nat_less_iff of_nat_power) |
a99a7cbf0fb5
generalized lemmas cancelling real_of_int/real in (in)equalities with power; completed set of related simp rules; lemmas about floorlog/bitlen
immler
parents:
65057
diff
changeset
|
656 |
|
a99a7cbf0fb5
generalized lemmas cancelling real_of_int/real in (in)equalities with power; completed set of related simp rules; lemmas about floorlog/bitlen
immler
parents:
65057
diff
changeset
|
657 |
lemma of_nat_power_less_of_nat_cancel_iff[simp]: "of_nat x < (of_nat b) ^ w \<longleftrightarrow> x < b ^ w" |
a99a7cbf0fb5
generalized lemmas cancelling real_of_int/real in (in)equalities with power; completed set of related simp rules; lemmas about floorlog/bitlen
immler
parents:
65057
diff
changeset
|
658 |
by (metis of_nat_less_iff of_nat_power) |
a99a7cbf0fb5
generalized lemmas cancelling real_of_int/real in (in)equalities with power; completed set of related simp rules; lemmas about floorlog/bitlen
immler
parents:
65057
diff
changeset
|
659 |
|
77138
c8597292cd41
Moved in a large number of highly useful library lemmas, mostly due to Manuel Eberl
paulson <lp15@cam.ac.uk>
parents:
75669
diff
changeset
|
660 |
lemma power2_nonneg_ge_1_iff: |
c8597292cd41
Moved in a large number of highly useful library lemmas, mostly due to Manuel Eberl
paulson <lp15@cam.ac.uk>
parents:
75669
diff
changeset
|
661 |
assumes "x \<ge> 0" |
c8597292cd41
Moved in a large number of highly useful library lemmas, mostly due to Manuel Eberl
paulson <lp15@cam.ac.uk>
parents:
75669
diff
changeset
|
662 |
shows "x ^ 2 \<ge> 1 \<longleftrightarrow> x \<ge> 1" |
c8597292cd41
Moved in a large number of highly useful library lemmas, mostly due to Manuel Eberl
paulson <lp15@cam.ac.uk>
parents:
75669
diff
changeset
|
663 |
using assms by (auto intro: power2_le_imp_le) |
c8597292cd41
Moved in a large number of highly useful library lemmas, mostly due to Manuel Eberl
paulson <lp15@cam.ac.uk>
parents:
75669
diff
changeset
|
664 |
|
c8597292cd41
Moved in a large number of highly useful library lemmas, mostly due to Manuel Eberl
paulson <lp15@cam.ac.uk>
parents:
75669
diff
changeset
|
665 |
lemma power2_nonneg_gt_1_iff: |
c8597292cd41
Moved in a large number of highly useful library lemmas, mostly due to Manuel Eberl
paulson <lp15@cam.ac.uk>
parents:
75669
diff
changeset
|
666 |
assumes "x \<ge> 0" |
c8597292cd41
Moved in a large number of highly useful library lemmas, mostly due to Manuel Eberl
paulson <lp15@cam.ac.uk>
parents:
75669
diff
changeset
|
667 |
shows "x ^ 2 > 1 \<longleftrightarrow> x > 1" |
c8597292cd41
Moved in a large number of highly useful library lemmas, mostly due to Manuel Eberl
paulson <lp15@cam.ac.uk>
parents:
75669
diff
changeset
|
668 |
using assms by (auto intro: power_less_imp_less_base) |
c8597292cd41
Moved in a large number of highly useful library lemmas, mostly due to Manuel Eberl
paulson <lp15@cam.ac.uk>
parents:
75669
diff
changeset
|
669 |
|
47192
0c0501cb6da6
move many lemmas from Nat_Numeral.thy to Power.thy or Num.thy
huffman
parents:
47191
diff
changeset
|
670 |
end |
0c0501cb6da6
move many lemmas from Nat_Numeral.thy to Power.thy or Num.thy
huffman
parents:
47191
diff
changeset
|
671 |
|
70331 | 672 |
text \<open>Some @{typ nat}-specific lemmas:\<close> |
673 |
||
674 |
lemma mono_ge2_power_minus_self: |
|
675 |
assumes "k \<ge> 2" shows "mono (\<lambda>m. k ^ m - m)" |
|
676 |
unfolding mono_iff_le_Suc |
|
677 |
proof |
|
678 |
fix n |
|
679 |
have "k ^ n < k ^ Suc n" using power_strict_increasing_iff[of k "n" "Suc n"] assms by linarith |
|
680 |
thus "k ^ n - n \<le> k ^ Suc n - Suc n" by linarith |
|
681 |
qed |
|
682 |
||
683 |
lemma self_le_ge2_pow[simp]: |
|
684 |
assumes "k \<ge> 2" shows "m \<le> k ^ m" |
|
685 |
proof (induction m) |
|
686 |
case 0 show ?case by simp |
|
687 |
next |
|
688 |
case (Suc m) |
|
689 |
hence "Suc m \<le> Suc (k ^ m)" by simp |
|
690 |
also have "... \<le> k^m + k^m" using one_le_power[of k m] assms by linarith |
|
691 |
also have "... \<le> k * k^m" by (metis mult_2 mult_le_mono1[OF assms]) |
|
692 |
finally show ?case by simp |
|
693 |
qed |
|
694 |
||
695 |
lemma diff_le_diff_pow[simp]: |
|
696 |
assumes "k \<ge> 2" shows "m - n \<le> k ^ m - k ^ n" |
|
697 |
proof (cases "n \<le> m") |
|
698 |
case True |
|
699 |
thus ?thesis |
|
700 |
using monoD[OF mono_ge2_power_minus_self[OF assms] True] self_le_ge2_pow[OF assms, of m] |
|
701 |
by (simp add: le_diff_conv le_diff_conv2) |
|
702 |
qed auto |
|
703 |
||
704 |
||
47192
0c0501cb6da6
move many lemmas from Nat_Numeral.thy to Power.thy or Num.thy
huffman
parents:
47191
diff
changeset
|
705 |
context linordered_ring_strict |
0c0501cb6da6
move many lemmas from Nat_Numeral.thy to Power.thy or Num.thy
huffman
parents:
47191
diff
changeset
|
706 |
begin |
0c0501cb6da6
move many lemmas from Nat_Numeral.thy to Power.thy or Num.thy
huffman
parents:
47191
diff
changeset
|
707 |
|
63654 | 708 |
lemma sum_squares_eq_zero_iff: "x * x + y * y = 0 \<longleftrightarrow> x = 0 \<and> y = 0" |
47192
0c0501cb6da6
move many lemmas from Nat_Numeral.thy to Power.thy or Num.thy
huffman
parents:
47191
diff
changeset
|
709 |
by (simp add: add_nonneg_eq_0_iff) |
0c0501cb6da6
move many lemmas from Nat_Numeral.thy to Power.thy or Num.thy
huffman
parents:
47191
diff
changeset
|
710 |
|
63654 | 711 |
lemma sum_squares_le_zero_iff: "x * x + y * y \<le> 0 \<longleftrightarrow> x = 0 \<and> y = 0" |
47192
0c0501cb6da6
move many lemmas from Nat_Numeral.thy to Power.thy or Num.thy
huffman
parents:
47191
diff
changeset
|
712 |
by (simp add: le_less not_sum_squares_lt_zero sum_squares_eq_zero_iff) |
0c0501cb6da6
move many lemmas from Nat_Numeral.thy to Power.thy or Num.thy
huffman
parents:
47191
diff
changeset
|
713 |
|
63654 | 714 |
lemma sum_squares_gt_zero_iff: "0 < x * x + y * y \<longleftrightarrow> x \<noteq> 0 \<or> y \<noteq> 0" |
47192
0c0501cb6da6
move many lemmas from Nat_Numeral.thy to Power.thy or Num.thy
huffman
parents:
47191
diff
changeset
|
715 |
by (simp add: not_le [symmetric] sum_squares_le_zero_iff) |
0c0501cb6da6
move many lemmas from Nat_Numeral.thy to Power.thy or Num.thy
huffman
parents:
47191
diff
changeset
|
716 |
|
30996 | 717 |
end |
718 |
||
35028
108662d50512
more consistent naming of type classes involving orderings (and lattices) -- c.f. NEWS
haftmann
parents:
33364
diff
changeset
|
719 |
context linordered_idom |
30996 | 720 |
begin |
29978
33df3c4eb629
generalize le_imp_power_dvd and power_le_dvd; move from Divides to Power
huffman
parents:
29608
diff
changeset
|
721 |
|
64715 | 722 |
lemma zero_le_power2 [simp]: "0 \<le> a\<^sup>2" |
723 |
by (simp add: power2_eq_square) |
|
724 |
||
725 |
lemma zero_less_power2 [simp]: "0 < a\<^sup>2 \<longleftrightarrow> a \<noteq> 0" |
|
726 |
by (force simp add: power2_eq_square zero_less_mult_iff linorder_neq_iff) |
|
30996 | 727 |
|
64715 | 728 |
lemma power2_less_0 [simp]: "\<not> a\<^sup>2 < 0" |
729 |
by (force simp add: power2_eq_square mult_less_0_iff) |
|
730 |
||
67226 | 731 |
lemma power_abs: "\<bar>a ^ n\<bar> = \<bar>a\<bar> ^ n" \<comment> \<open>FIXME simp?\<close> |
64715 | 732 |
by (induct n) (simp_all add: abs_mult) |
733 |
||
734 |
lemma power_sgn [simp]: "sgn (a ^ n) = sgn a ^ n" |
|
735 |
by (induct n) (simp_all add: sgn_mult) |
|
64964 | 736 |
|
64715 | 737 |
lemma abs_power_minus [simp]: "\<bar>(- a) ^ n\<bar> = \<bar>a ^ n\<bar>" |
35216 | 738 |
by (simp add: power_abs) |
30996 | 739 |
|
61944 | 740 |
lemma zero_less_power_abs_iff [simp]: "0 < \<bar>a\<bar> ^ n \<longleftrightarrow> a \<noteq> 0 \<or> n = 0" |
30996 | 741 |
proof (induct n) |
63654 | 742 |
case 0 |
743 |
show ?case by simp |
|
30996 | 744 |
next |
63654 | 745 |
case Suc |
746 |
then show ?case by (auto simp: zero_less_mult_iff) |
|
29978
33df3c4eb629
generalize le_imp_power_dvd and power_le_dvd; move from Divides to Power
huffman
parents:
29608
diff
changeset
|
747 |
qed |
33df3c4eb629
generalize le_imp_power_dvd and power_le_dvd; move from Divides to Power
huffman
parents:
29608
diff
changeset
|
748 |
|
61944 | 749 |
lemma zero_le_power_abs [simp]: "0 \<le> \<bar>a\<bar> ^ n" |
30996 | 750 |
by (rule zero_le_power [OF abs_ge_zero]) |
751 |
||
63654 | 752 |
lemma power2_less_eq_zero_iff [simp]: "a\<^sup>2 \<le> 0 \<longleftrightarrow> a = 0" |
58787 | 753 |
by (simp add: le_less) |
754 |
||
61944 | 755 |
lemma abs_power2 [simp]: "\<bar>a\<^sup>2\<bar> = a\<^sup>2" |
63417
c184ec919c70
more lemmas to emphasize {0::nat..(<)n} as canonical representation of intervals on nat
haftmann
parents:
63040
diff
changeset
|
756 |
by (simp add: power2_eq_square) |
47192
0c0501cb6da6
move many lemmas from Nat_Numeral.thy to Power.thy or Num.thy
huffman
parents:
47191
diff
changeset
|
757 |
|
61944 | 758 |
lemma power2_abs [simp]: "\<bar>a\<bar>\<^sup>2 = a\<^sup>2" |
63417
c184ec919c70
more lemmas to emphasize {0::nat..(<)n} as canonical representation of intervals on nat
haftmann
parents:
63040
diff
changeset
|
759 |
by (simp add: power2_eq_square) |
47192
0c0501cb6da6
move many lemmas from Nat_Numeral.thy to Power.thy or Num.thy
huffman
parents:
47191
diff
changeset
|
760 |
|
64715 | 761 |
lemma odd_power_less_zero: "a < 0 \<Longrightarrow> a ^ Suc (2 * n) < 0" |
47192
0c0501cb6da6
move many lemmas from Nat_Numeral.thy to Power.thy or Num.thy
huffman
parents:
47191
diff
changeset
|
762 |
proof (induct n) |
0c0501cb6da6
move many lemmas from Nat_Numeral.thy to Power.thy or Num.thy
huffman
parents:
47191
diff
changeset
|
763 |
case 0 |
0c0501cb6da6
move many lemmas from Nat_Numeral.thy to Power.thy or Num.thy
huffman
parents:
47191
diff
changeset
|
764 |
then show ?case by simp |
0c0501cb6da6
move many lemmas from Nat_Numeral.thy to Power.thy or Num.thy
huffman
parents:
47191
diff
changeset
|
765 |
next |
0c0501cb6da6
move many lemmas from Nat_Numeral.thy to Power.thy or Num.thy
huffman
parents:
47191
diff
changeset
|
766 |
case (Suc n) |
0c0501cb6da6
move many lemmas from Nat_Numeral.thy to Power.thy or Num.thy
huffman
parents:
47191
diff
changeset
|
767 |
have "a ^ Suc (2 * Suc n) = (a*a) * a ^ Suc(2*n)" |
57514
bdc2c6b40bf2
prefer ac_simps collections over separate name bindings for add and mult
haftmann
parents:
57512
diff
changeset
|
768 |
by (simp add: ac_simps power_add power2_eq_square) |
63654 | 769 |
then show ?case |
47192
0c0501cb6da6
move many lemmas from Nat_Numeral.thy to Power.thy or Num.thy
huffman
parents:
47191
diff
changeset
|
770 |
by (simp del: power_Suc add: Suc mult_less_0_iff mult_neg_neg) |
0c0501cb6da6
move many lemmas from Nat_Numeral.thy to Power.thy or Num.thy
huffman
parents:
47191
diff
changeset
|
771 |
qed |
30996 | 772 |
|
64715 | 773 |
lemma odd_0_le_power_imp_0_le: "0 \<le> a ^ Suc (2 * n) \<Longrightarrow> 0 \<le> a" |
47192
0c0501cb6da6
move many lemmas from Nat_Numeral.thy to Power.thy or Num.thy
huffman
parents:
47191
diff
changeset
|
774 |
using odd_power_less_zero [of a n] |
63654 | 775 |
by (force simp add: linorder_not_less [symmetric]) |
47192
0c0501cb6da6
move many lemmas from Nat_Numeral.thy to Power.thy or Num.thy
huffman
parents:
47191
diff
changeset
|
776 |
|
64715 | 777 |
lemma zero_le_even_power'[simp]: "0 \<le> a ^ (2 * n)" |
47192
0c0501cb6da6
move many lemmas from Nat_Numeral.thy to Power.thy or Num.thy
huffman
parents:
47191
diff
changeset
|
778 |
proof (induct n) |
0c0501cb6da6
move many lemmas from Nat_Numeral.thy to Power.thy or Num.thy
huffman
parents:
47191
diff
changeset
|
779 |
case 0 |
63654 | 780 |
show ?case by simp |
47192
0c0501cb6da6
move many lemmas from Nat_Numeral.thy to Power.thy or Num.thy
huffman
parents:
47191
diff
changeset
|
781 |
next |
0c0501cb6da6
move many lemmas from Nat_Numeral.thy to Power.thy or Num.thy
huffman
parents:
47191
diff
changeset
|
782 |
case (Suc n) |
63654 | 783 |
have "a ^ (2 * Suc n) = (a*a) * a ^ (2*n)" |
784 |
by (simp add: ac_simps power_add power2_eq_square) |
|
785 |
then show ?case |
|
786 |
by (simp add: Suc zero_le_mult_iff) |
|
47192
0c0501cb6da6
move many lemmas from Nat_Numeral.thy to Power.thy or Num.thy
huffman
parents:
47191
diff
changeset
|
787 |
qed |
30996 | 788 |
|
63654 | 789 |
lemma sum_power2_ge_zero: "0 \<le> x\<^sup>2 + y\<^sup>2" |
47192
0c0501cb6da6
move many lemmas from Nat_Numeral.thy to Power.thy or Num.thy
huffman
parents:
47191
diff
changeset
|
790 |
by (intro add_nonneg_nonneg zero_le_power2) |
0c0501cb6da6
move many lemmas from Nat_Numeral.thy to Power.thy or Num.thy
huffman
parents:
47191
diff
changeset
|
791 |
|
63654 | 792 |
lemma not_sum_power2_lt_zero: "\<not> x\<^sup>2 + y\<^sup>2 < 0" |
47192
0c0501cb6da6
move many lemmas from Nat_Numeral.thy to Power.thy or Num.thy
huffman
parents:
47191
diff
changeset
|
793 |
unfolding not_less by (rule sum_power2_ge_zero) |
0c0501cb6da6
move many lemmas from Nat_Numeral.thy to Power.thy or Num.thy
huffman
parents:
47191
diff
changeset
|
794 |
|
63654 | 795 |
lemma sum_power2_eq_zero_iff: "x\<^sup>2 + y\<^sup>2 = 0 \<longleftrightarrow> x = 0 \<and> y = 0" |
47192
0c0501cb6da6
move many lemmas from Nat_Numeral.thy to Power.thy or Num.thy
huffman
parents:
47191
diff
changeset
|
796 |
unfolding power2_eq_square by (simp add: add_nonneg_eq_0_iff) |
0c0501cb6da6
move many lemmas from Nat_Numeral.thy to Power.thy or Num.thy
huffman
parents:
47191
diff
changeset
|
797 |
|
63654 | 798 |
lemma sum_power2_le_zero_iff: "x\<^sup>2 + y\<^sup>2 \<le> 0 \<longleftrightarrow> x = 0 \<and> y = 0" |
47192
0c0501cb6da6
move many lemmas from Nat_Numeral.thy to Power.thy or Num.thy
huffman
parents:
47191
diff
changeset
|
799 |
by (simp add: le_less sum_power2_eq_zero_iff not_sum_power2_lt_zero) |
0c0501cb6da6
move many lemmas from Nat_Numeral.thy to Power.thy or Num.thy
huffman
parents:
47191
diff
changeset
|
800 |
|
63654 | 801 |
lemma sum_power2_gt_zero_iff: "0 < x\<^sup>2 + y\<^sup>2 \<longleftrightarrow> x \<noteq> 0 \<or> y \<noteq> 0" |
47192
0c0501cb6da6
move many lemmas from Nat_Numeral.thy to Power.thy or Num.thy
huffman
parents:
47191
diff
changeset
|
802 |
unfolding not_le [symmetric] by (simp add: sum_power2_le_zero_iff) |
30996 | 803 |
|
63654 | 804 |
lemma abs_le_square_iff: "\<bar>x\<bar> \<le> \<bar>y\<bar> \<longleftrightarrow> x\<^sup>2 \<le> y\<^sup>2" |
805 |
(is "?lhs \<longleftrightarrow> ?rhs") |
|
59865
8a20dd967385
rationalised and generalised some theorems concerning abs and x^2.
paulson <lp15@cam.ac.uk>
parents:
59741
diff
changeset
|
806 |
proof |
63654 | 807 |
assume ?lhs |
808 |
then have "\<bar>x\<bar>\<^sup>2 \<le> \<bar>y\<bar>\<^sup>2" by (rule power_mono) simp |
|
809 |
then show ?rhs by simp |
|
59865
8a20dd967385
rationalised and generalised some theorems concerning abs and x^2.
paulson <lp15@cam.ac.uk>
parents:
59741
diff
changeset
|
810 |
next |
63654 | 811 |
assume ?rhs |
812 |
then show ?lhs |
|
59865
8a20dd967385
rationalised and generalised some theorems concerning abs and x^2.
paulson <lp15@cam.ac.uk>
parents:
59741
diff
changeset
|
813 |
by (auto intro!: power2_le_imp_le [OF _ abs_ge_zero]) |
8a20dd967385
rationalised and generalised some theorems concerning abs and x^2.
paulson <lp15@cam.ac.uk>
parents:
59741
diff
changeset
|
814 |
qed |
8a20dd967385
rationalised and generalised some theorems concerning abs and x^2.
paulson <lp15@cam.ac.uk>
parents:
59741
diff
changeset
|
815 |
|
74438
5827b91ef30e
new material from the Roth development, mostly about finite sets, disjoint famillies and partitions
paulson <lp15@cam.ac.uk>
parents:
73869
diff
changeset
|
816 |
lemma power2_le_iff_abs_le: |
5827b91ef30e
new material from the Roth development, mostly about finite sets, disjoint famillies and partitions
paulson <lp15@cam.ac.uk>
parents:
73869
diff
changeset
|
817 |
"y \<ge> 0 \<Longrightarrow> x\<^sup>2 \<le> y\<^sup>2 \<longleftrightarrow> \<bar>x\<bar> \<le> y" |
5827b91ef30e
new material from the Roth development, mostly about finite sets, disjoint famillies and partitions
paulson <lp15@cam.ac.uk>
parents:
73869
diff
changeset
|
818 |
by (metis abs_le_square_iff abs_of_nonneg) |
5827b91ef30e
new material from the Roth development, mostly about finite sets, disjoint famillies and partitions
paulson <lp15@cam.ac.uk>
parents:
73869
diff
changeset
|
819 |
|
61944 | 820 |
lemma abs_square_le_1:"x\<^sup>2 \<le> 1 \<longleftrightarrow> \<bar>x\<bar> \<le> 1" |
63654 | 821 |
using abs_le_square_iff [of x 1] by simp |
59865
8a20dd967385
rationalised and generalised some theorems concerning abs and x^2.
paulson <lp15@cam.ac.uk>
parents:
59741
diff
changeset
|
822 |
|
61944 | 823 |
lemma abs_square_eq_1: "x\<^sup>2 = 1 \<longleftrightarrow> \<bar>x\<bar> = 1" |
59865
8a20dd967385
rationalised and generalised some theorems concerning abs and x^2.
paulson <lp15@cam.ac.uk>
parents:
59741
diff
changeset
|
824 |
by (auto simp add: abs_if power2_eq_1_iff) |
61649
268d88ec9087
Tweaks for "real": Removal of [iff] status for some lemmas, adding [simp] for others. Plus fixes.
paulson <lp15@cam.ac.uk>
parents:
61531
diff
changeset
|
825 |
|
61944 | 826 |
lemma abs_square_less_1: "x\<^sup>2 < 1 \<longleftrightarrow> \<bar>x\<bar> < 1" |
63654 | 827 |
using abs_square_eq_1 [of x] abs_square_le_1 [of x] by (auto simp add: le_less) |
59865
8a20dd967385
rationalised and generalised some theorems concerning abs and x^2.
paulson <lp15@cam.ac.uk>
parents:
59741
diff
changeset
|
828 |
|
68611 | 829 |
lemma square_le_1: |
830 |
assumes "- 1 \<le> x" "x \<le> 1" |
|
831 |
shows "x\<^sup>2 \<le> 1" |
|
832 |
using assms |
|
833 |
by (metis add.inverse_inverse linear mult_le_one neg_equal_0_iff_equal neg_le_iff_le power2_eq_square power_minus_Bit0) |
|
834 |
||
30996 | 835 |
end |
836 |
||
60758 | 837 |
subsection \<open>Miscellaneous rules\<close> |
14348
744c868ee0b7
Defining the type class "ringpower" and deleting superseded theorems for
paulson
parents:
8844
diff
changeset
|
838 |
|
63654 | 839 |
lemma (in linordered_semidom) self_le_power: "1 \<le> a \<Longrightarrow> 0 < n \<Longrightarrow> a \<le> a ^ n" |
60867 | 840 |
using power_increasing [of 1 n a] power_one_right [of a] by auto |
55718
34618f031ba9
A few lemmas about summations, etc.
paulson <lp15@cam.ac.uk>
parents:
55096
diff
changeset
|
841 |
|
77138
c8597292cd41
Moved in a large number of highly useful library lemmas, mostly due to Manuel Eberl
paulson <lp15@cam.ac.uk>
parents:
75669
diff
changeset
|
842 |
lemma power2_ge_1_iff: "x ^ 2 \<ge> 1 \<longleftrightarrow> x \<ge> 1 \<or> x \<le> (-1 :: 'a :: linordered_idom)" |
c8597292cd41
Moved in a large number of highly useful library lemmas, mostly due to Manuel Eberl
paulson <lp15@cam.ac.uk>
parents:
75669
diff
changeset
|
843 |
using abs_le_square_iff[of 1 x] by (auto simp: abs_if split: if_splits) |
c8597292cd41
Moved in a large number of highly useful library lemmas, mostly due to Manuel Eberl
paulson <lp15@cam.ac.uk>
parents:
75669
diff
changeset
|
844 |
|
63654 | 845 |
lemma (in power) power_eq_if: "p ^ m = (if m=0 then 1 else p * (p ^ (m - 1)))" |
47255
30a1692557b0
removed Nat_Numeral.thy, moving all theorems elsewhere
huffman
parents:
47241
diff
changeset
|
846 |
unfolding One_nat_def by (cases m) simp_all |
30a1692557b0
removed Nat_Numeral.thy, moving all theorems elsewhere
huffman
parents:
47241
diff
changeset
|
847 |
|
63654 | 848 |
lemma (in comm_semiring_1) power2_sum: "(x + y)\<^sup>2 = x\<^sup>2 + y\<^sup>2 + 2 * x * y" |
47192
0c0501cb6da6
move many lemmas from Nat_Numeral.thy to Power.thy or Num.thy
huffman
parents:
47191
diff
changeset
|
849 |
by (simp add: algebra_simps power2_eq_square mult_2_right) |
30996 | 850 |
|
63654 | 851 |
context comm_ring_1 |
852 |
begin |
|
853 |
||
854 |
lemma power2_diff: "(x - y)\<^sup>2 = x\<^sup>2 + y\<^sup>2 - 2 * x * y" |
|
58787 | 855 |
by (simp add: algebra_simps power2_eq_square mult_2_right) |
30996 | 856 |
|
63654 | 857 |
lemma power2_commute: "(x - y)\<^sup>2 = (y - x)\<^sup>2" |
60974
6a6f15d8fbc4
New material and fixes related to the forthcoming Stone-Weierstrass development
paulson <lp15@cam.ac.uk>
parents:
60867
diff
changeset
|
858 |
by (simp add: algebra_simps power2_eq_square) |
6a6f15d8fbc4
New material and fixes related to the forthcoming Stone-Weierstrass development
paulson <lp15@cam.ac.uk>
parents:
60867
diff
changeset
|
859 |
|
63654 | 860 |
lemma minus_power_mult_self: "(- a) ^ n * (- a) ^ n = a ^ (2 * n)" |
861 |
by (simp add: power_mult_distrib [symmetric]) |
|
862 |
(simp add: power2_eq_square [symmetric] power_mult [symmetric]) |
|
863 |
||
864 |
lemma minus_one_mult_self [simp]: "(- 1) ^ n * (- 1) ^ n = 1" |
|
63417
c184ec919c70
more lemmas to emphasize {0::nat..(<)n} as canonical representation of intervals on nat
haftmann
parents:
63040
diff
changeset
|
865 |
using minus_power_mult_self [of 1 n] by simp |
c184ec919c70
more lemmas to emphasize {0::nat..(<)n} as canonical representation of intervals on nat
haftmann
parents:
63040
diff
changeset
|
866 |
|
63654 | 867 |
lemma left_minus_one_mult_self [simp]: "(- 1) ^ n * ((- 1) ^ n * a) = a" |
63417
c184ec919c70
more lemmas to emphasize {0::nat..(<)n} as canonical representation of intervals on nat
haftmann
parents:
63040
diff
changeset
|
868 |
by (simp add: mult.assoc [symmetric]) |
c184ec919c70
more lemmas to emphasize {0::nat..(<)n} as canonical representation of intervals on nat
haftmann
parents:
63040
diff
changeset
|
869 |
|
63654 | 870 |
end |
871 |
||
60758 | 872 |
text \<open>Simprules for comparisons where common factors can be cancelled.\<close> |
47255
30a1692557b0
removed Nat_Numeral.thy, moving all theorems elsewhere
huffman
parents:
47241
diff
changeset
|
873 |
|
30a1692557b0
removed Nat_Numeral.thy, moving all theorems elsewhere
huffman
parents:
47241
diff
changeset
|
874 |
lemmas zero_compare_simps = |
63654 | 875 |
add_strict_increasing add_strict_increasing2 add_increasing |
876 |
zero_le_mult_iff zero_le_divide_iff |
|
877 |
zero_less_mult_iff zero_less_divide_iff |
|
878 |
mult_le_0_iff divide_le_0_iff |
|
879 |
mult_less_0_iff divide_less_0_iff |
|
880 |
zero_le_power2 power2_less_0 |
|
47255
30a1692557b0
removed Nat_Numeral.thy, moving all theorems elsewhere
huffman
parents:
47241
diff
changeset
|
881 |
|
30313 | 882 |
|
60758 | 883 |
subsection \<open>Exponentiation for the Natural Numbers\<close> |
14577 | 884 |
|
63654 | 885 |
lemma nat_one_le_power [simp]: "Suc 0 \<le> i \<Longrightarrow> Suc 0 \<le> i ^ n" |
30996 | 886 |
by (rule one_le_power [of i n, unfolded One_nat_def]) |
23305 | 887 |
|
63654 | 888 |
lemma nat_zero_less_power_iff [simp]: "x ^ n > 0 \<longleftrightarrow> x > 0 \<or> n = 0" |
889 |
for x :: nat |
|
30996 | 890 |
by (induct n) auto |
14348
744c868ee0b7
Defining the type class "ringpower" and deleting superseded theorems for
paulson
parents:
8844
diff
changeset
|
891 |
|
63654 | 892 |
lemma nat_power_eq_Suc_0_iff [simp]: "x ^ m = Suc 0 \<longleftrightarrow> m = 0 \<or> x = Suc 0" |
30996 | 893 |
by (induct m) auto |
30056 | 894 |
|
63654 | 895 |
lemma power_Suc_0 [simp]: "Suc 0 ^ n = Suc 0" |
30996 | 896 |
by simp |
30056 | 897 |
|
63654 | 898 |
text \<open> |
899 |
Valid for the naturals, but what if \<open>0 < i < 1\<close>? Premises cannot be |
|
900 |
weakened: consider the case where \<open>i = 0\<close>, \<open>m = 1\<close> and \<open>n = 0\<close>. |
|
901 |
\<close> |
|
902 |
||
21413 | 903 |
lemma nat_power_less_imp_less: |
63654 | 904 |
fixes i :: nat |
905 |
assumes nonneg: "0 < i" |
|
30996 | 906 |
assumes less: "i ^ m < i ^ n" |
21413 | 907 |
shows "m < n" |
908 |
proof (cases "i = 1") |
|
63654 | 909 |
case True |
910 |
with less power_one [where 'a = nat] show ?thesis by simp |
|
21413 | 911 |
next |
63654 | 912 |
case False |
913 |
with nonneg have "1 < i" by auto |
|
21413 | 914 |
from power_strict_increasing_iff [OF this] less show ?thesis .. |
915 |
qed |
|
14348
744c868ee0b7
Defining the type class "ringpower" and deleting superseded theorems for
paulson
parents:
8844
diff
changeset
|
916 |
|
71435
d8fb621fea02
some lemmas about the lex ordering on lists, etc.
paulson <lp15@cam.ac.uk>
parents:
71398
diff
changeset
|
917 |
lemma power_gt_expt: "n > Suc 0 \<Longrightarrow> n^k > k" |
d8fb621fea02
some lemmas about the lex ordering on lists, etc.
paulson <lp15@cam.ac.uk>
parents:
71398
diff
changeset
|
918 |
by (induction k) (auto simp: less_trans_Suc n_less_m_mult_n) |
d8fb621fea02
some lemmas about the lex ordering on lists, etc.
paulson <lp15@cam.ac.uk>
parents:
71398
diff
changeset
|
919 |
|
73869 | 920 |
lemma less_exp [simp]: |
72830 | 921 |
\<open>n < 2 ^ n\<close> |
922 |
by (simp add: power_gt_expt) |
|
923 |
||
71435
d8fb621fea02
some lemmas about the lex ordering on lists, etc.
paulson <lp15@cam.ac.uk>
parents:
71398
diff
changeset
|
924 |
lemma power_dvd_imp_le: |
d8fb621fea02
some lemmas about the lex ordering on lists, etc.
paulson <lp15@cam.ac.uk>
parents:
71398
diff
changeset
|
925 |
fixes i :: nat |
d8fb621fea02
some lemmas about the lex ordering on lists, etc.
paulson <lp15@cam.ac.uk>
parents:
71398
diff
changeset
|
926 |
assumes "i ^ m dvd i ^ n" "1 < i" |
d8fb621fea02
some lemmas about the lex ordering on lists, etc.
paulson <lp15@cam.ac.uk>
parents:
71398
diff
changeset
|
927 |
shows "m \<le> n" |
d8fb621fea02
some lemmas about the lex ordering on lists, etc.
paulson <lp15@cam.ac.uk>
parents:
71398
diff
changeset
|
928 |
using assms by (auto intro: power_le_imp_le_exp [OF \<open>1 < i\<close> dvd_imp_le]) |
33274
b6ff7db522b5
moved lemmas for dvd on nat to theories Nat and Power
haftmann
parents:
31998
diff
changeset
|
929 |
|
70688
3d894e1cfc75
new material on Analysis, plus some rearrangements
paulson <lp15@cam.ac.uk>
parents:
70365
diff
changeset
|
930 |
lemma dvd_power_iff_le: |
3d894e1cfc75
new material on Analysis, plus some rearrangements
paulson <lp15@cam.ac.uk>
parents:
70365
diff
changeset
|
931 |
fixes k::nat |
3d894e1cfc75
new material on Analysis, plus some rearrangements
paulson <lp15@cam.ac.uk>
parents:
70365
diff
changeset
|
932 |
shows "2 \<le> k \<Longrightarrow> ((k ^ m) dvd (k ^ n) \<longleftrightarrow> m \<le> n)" |
3d894e1cfc75
new material on Analysis, plus some rearrangements
paulson <lp15@cam.ac.uk>
parents:
70365
diff
changeset
|
933 |
using le_imp_power_dvd power_dvd_imp_le by force |
3d894e1cfc75
new material on Analysis, plus some rearrangements
paulson <lp15@cam.ac.uk>
parents:
70365
diff
changeset
|
934 |
|
63654 | 935 |
lemma power2_nat_le_eq_le: "m\<^sup>2 \<le> n\<^sup>2 \<longleftrightarrow> m \<le> n" |
936 |
for m n :: nat |
|
51263
31e786e0e6a7
turned example into library for comparing growth of functions
haftmann
parents:
49824
diff
changeset
|
937 |
by (auto intro: power2_le_imp_le power_mono) |
31e786e0e6a7
turned example into library for comparing growth of functions
haftmann
parents:
49824
diff
changeset
|
938 |
|
31e786e0e6a7
turned example into library for comparing growth of functions
haftmann
parents:
49824
diff
changeset
|
939 |
lemma power2_nat_le_imp_le: |
31e786e0e6a7
turned example into library for comparing growth of functions
haftmann
parents:
49824
diff
changeset
|
940 |
fixes m n :: nat |
53015
a1119cf551e8
standardized symbols via "isabelle update_sub_sup", excluding src/Pure and src/Tools/WWW_Find;
wenzelm
parents:
52435
diff
changeset
|
941 |
assumes "m\<^sup>2 \<le> n" |
51263
31e786e0e6a7
turned example into library for comparing growth of functions
haftmann
parents:
49824
diff
changeset
|
942 |
shows "m \<le> n" |
54249 | 943 |
proof (cases m) |
63654 | 944 |
case 0 |
945 |
then show ?thesis by simp |
|
54249 | 946 |
next |
947 |
case (Suc k) |
|
948 |
show ?thesis |
|
949 |
proof (rule ccontr) |
|
63654 | 950 |
assume "\<not> ?thesis" |
54249 | 951 |
then have "n < m" by simp |
952 |
with assms Suc show False |
|
60867 | 953 |
by (simp add: power2_eq_square) |
54249 | 954 |
qed |
955 |
qed |
|
51263
31e786e0e6a7
turned example into library for comparing growth of functions
haftmann
parents:
49824
diff
changeset
|
956 |
|
64065 | 957 |
lemma ex_power_ivl1: fixes b k :: nat assumes "b \<ge> 2" |
958 |
shows "k \<ge> 1 \<Longrightarrow> \<exists>n. b^n \<le> k \<and> k < b^(n+1)" (is "_ \<Longrightarrow> \<exists>n. ?P k n") |
|
959 |
proof(induction k) |
|
960 |
case 0 thus ?case by simp |
|
961 |
next |
|
962 |
case (Suc k) |
|
963 |
show ?case |
|
964 |
proof cases |
|
965 |
assume "k=0" |
|
966 |
hence "?P (Suc k) 0" using assms by simp |
|
967 |
thus ?case .. |
|
968 |
next |
|
969 |
assume "k\<noteq>0" |
|
970 |
with Suc obtain n where IH: "?P k n" by auto |
|
971 |
show ?case |
|
972 |
proof (cases "k = b^(n+1) - 1") |
|
973 |
case True |
|
974 |
hence "?P (Suc k) (n+1)" using assms |
|
975 |
by (simp add: power_less_power_Suc) |
|
976 |
thus ?thesis .. |
|
977 |
next |
|
978 |
case False |
|
979 |
hence "?P (Suc k) n" using IH by auto |
|
980 |
thus ?thesis .. |
|
981 |
qed |
|
982 |
qed |
|
983 |
qed |
|
984 |
||
985 |
lemma ex_power_ivl2: fixes b k :: nat assumes "b \<ge> 2" "k \<ge> 2" |
|
71435
d8fb621fea02
some lemmas about the lex ordering on lists, etc.
paulson <lp15@cam.ac.uk>
parents:
71398
diff
changeset
|
986 |
shows "\<exists>n. b^n < k \<and> k \<le> b^(n+1)" |
64065 | 987 |
proof - |
988 |
have "1 \<le> k - 1" using assms(2) by arith |
|
989 |
from ex_power_ivl1[OF assms(1) this] |
|
990 |
obtain n where "b ^ n \<le> k - 1 \<and> k - 1 < b ^ (n + 1)" .. |
|
991 |
hence "b^n < k \<and> k \<le> b^(n+1)" using assms by auto |
|
992 |
thus ?thesis .. |
|
993 |
qed |
|
994 |
||
63654 | 995 |
|
60758 | 996 |
subsubsection \<open>Cardinality of the Powerset\<close> |
55096 | 997 |
|
998 |
lemma card_UNIV_bool [simp]: "card (UNIV :: bool set) = 2" |
|
999 |
unfolding UNIV_bool by simp |
|
1000 |
||
1001 |
lemma card_Pow: "finite A \<Longrightarrow> card (Pow A) = 2 ^ card A" |
|
1002 |
proof (induct rule: finite_induct) |
|
61649
268d88ec9087
Tweaks for "real": Removal of [iff] status for some lemmas, adding [simp] for others. Plus fixes.
paulson <lp15@cam.ac.uk>
parents:
61531
diff
changeset
|
1003 |
case empty |
64964 | 1004 |
show ?case by simp |
55096 | 1005 |
next |
1006 |
case (insert x A) |
|
64964 | 1007 |
from \<open>x \<notin> A\<close> have disjoint: "Pow A \<inter> insert x ` Pow A = {}" by blast |
1008 |
from \<open>x \<notin> A\<close> have inj_on: "inj_on (insert x) (Pow A)" |
|
1009 |
unfolding inj_on_def by auto |
|
1010 |
||
1011 |
have "card (Pow (insert x A)) = card (Pow A \<union> insert x ` Pow A)" |
|
1012 |
by (simp only: Pow_insert) |
|
1013 |
also have "\<dots> = card (Pow A) + card (insert x ` Pow A)" |
|
1014 |
by (rule card_Un_disjoint) (use \<open>finite A\<close> disjoint in simp_all) |
|
1015 |
also from inj_on have "card (insert x ` Pow A) = card (Pow A)" |
|
1016 |
by (rule card_image) |
|
1017 |
also have "\<dots> + \<dots> = 2 * \<dots>" by (simp add: mult_2) |
|
1018 |
also from insert(3) have "\<dots> = 2 ^ Suc (card A)" by simp |
|
1019 |
also from insert(1,2) have "Suc (card A) = card (insert x A)" |
|
1020 |
by (rule card_insert_disjoint [symmetric]) |
|
1021 |
finally show ?case . |
|
55096 | 1022 |
qed |
1023 |
||
57418 | 1024 |
|
60758 | 1025 |
subsection \<open>Code generator tweak\<close> |
31155
92d8ff6af82c
monomorphic code generation for power operations
haftmann
parents:
31021
diff
changeset
|
1026 |
|
52435
6646bb548c6b
migration from code_(const|type|class|instance) to code_printing and from code_module to code_identifier
haftmann
parents:
51263
diff
changeset
|
1027 |
code_identifier |
6646bb548c6b
migration from code_(const|type|class|instance) to code_printing and from code_module to code_identifier
haftmann
parents:
51263
diff
changeset
|
1028 |
code_module Power \<rightharpoonup> (SML) Arith and (OCaml) Arith and (Haskell) Arith |
33364 | 1029 |
|
3390
0c7625196d95
New theory "Power" of exponentiation (and binomial coefficients)
paulson
parents:
diff
changeset
|
1030 |
end |