src/HOL/Old_Number_Theory/Gauss.thy
author Thomas Sewell <thomas.sewell@nicta.com.au>
Wed, 11 Jun 2014 14:24:23 +1000
changeset 57492 74bf65a1910a
parent 57418 6ab1c7cb0b8d
child 57512 cc97b347b301
permissions -rw-r--r--
Hypsubst preserves equality hypotheses Fixes included for various theories affected by this change.
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(*  Title:      HOL/Old_Number_Theory/Gauss.thy
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    Authors:    Jeremy Avigad, David Gray, and Adam Kramer
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*)
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header {* Gauss' Lemma *}
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theory Gauss
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imports Euler
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begin
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locale GAUSS =
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  fixes p :: "int"
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  fixes a :: "int"
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  assumes p_prime: "zprime p"
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  assumes p_g_2: "2 < p"
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  assumes p_a_relprime: "~[a = 0](mod p)"
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  assumes a_nonzero:    "0 < a"
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begin
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definition "A = {(x::int). 0 < x & x \<le> ((p - 1) div 2)}"
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definition "B = (%x. x * a) ` A"
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definition "C = StandardRes p ` B"
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definition "D = C \<inter> {x. x \<le> ((p - 1) div 2)}"
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definition "E = C \<inter> {x. ((p - 1) div 2) < x}"
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definition "F = (%x. (p - x)) ` E"
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subsection {* Basic properties of p *}
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lemma p_odd: "p \<in> zOdd"
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  by (auto simp add: p_prime p_g_2 zprime_zOdd_eq_grt_2)
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lemma p_g_0: "0 < p"
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  using p_g_2 by auto
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lemma int_nat: "int (nat ((p - 1) div 2)) = (p - 1) div 2"
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  using ListMem.insert p_g_2 by (auto simp add: pos_imp_zdiv_nonneg_iff)
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lemma p_minus_one_l: "(p - 1) div 2 < p"
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proof -
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  have "(p - 1) div 2 \<le> (p - 1) div 1"
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    by (rule zdiv_mono2) (auto simp add: p_g_0)
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  also have "\<dots> = p - 1" by simp
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  finally show ?thesis by simp
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qed
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lemma p_eq: "p = (2 * (p - 1) div 2) + 1"
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  using div_mult_self1_is_id [of 2 "p - 1"] by auto
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lemma (in -) zodd_imp_zdiv_eq: "x \<in> zOdd ==> 2 * (x - 1) div 2 = 2 * ((x - 1) div 2)"
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  apply (frule odd_minus_one_even)
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  apply (simp add: zEven_def)
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  apply (subgoal_tac "2 \<noteq> 0")
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  apply (frule_tac b = "2 :: int" and a = "x - 1" in div_mult_self1_is_id)
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  apply (auto simp add: even_div_2_prop2)
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  done
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lemma p_eq2: "p = (2 * ((p - 1) div 2)) + 1"
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  apply (insert p_eq p_prime p_g_2 zprime_zOdd_eq_grt_2 [of p], auto)
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  apply (frule zodd_imp_zdiv_eq, auto)
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  done
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subsection {* Basic Properties of the Gauss Sets *}
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lemma finite_A: "finite (A)"
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by (auto simp add: A_def)
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lemma finite_B: "finite (B)"
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by (auto simp add: B_def finite_A)
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lemma finite_C: "finite (C)"
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by (auto simp add: C_def finite_B)
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lemma finite_D: "finite (D)"
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by (auto simp add: D_def finite_C)
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lemma finite_E: "finite (E)"
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by (auto simp add: E_def finite_C)
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lemma finite_F: "finite (F)"
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by (auto simp add: F_def finite_E)
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lemma C_eq: "C = D \<union> E"
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by (auto simp add: C_def D_def E_def)
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lemma A_card_eq: "card A = nat ((p - 1) div 2)"
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  apply (auto simp add: A_def)
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  apply (insert int_nat)
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  apply (erule subst)
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  apply (auto simp add: card_bdd_int_set_l_le)
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  done
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lemma inj_on_xa_A: "inj_on (%x. x * a) A"
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  using a_nonzero by (simp add: A_def inj_on_def)
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lemma A_res: "ResSet p A"
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  apply (auto simp add: A_def ResSet_def)
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  apply (rule_tac m = p in zcong_less_eq)
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  apply (insert p_g_2, auto)
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  done
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lemma B_res: "ResSet p B"
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  apply (insert p_g_2 p_a_relprime p_minus_one_l)
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  apply (auto simp add: B_def)
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  apply (rule ResSet_image)
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  apply (auto simp add: A_res)
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  apply (auto simp add: A_def)
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proof -
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  fix x fix y
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  assume a: "[x * a = y * a] (mod p)"
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  assume b: "0 < x"
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  assume c: "x \<le> (p - 1) div 2"
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  assume d: "0 < y"
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  assume e: "y \<le> (p - 1) div 2"
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  from a p_a_relprime p_prime a_nonzero zcong_cancel [of p a x y]
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  have "[x = y](mod p)"
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    by (simp add: zprime_imp_zrelprime zcong_def p_g_0 order_le_less)
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  with zcong_less_eq [of x y p] p_minus_one_l
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      order_le_less_trans [of x "(p - 1) div 2" p]
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      order_le_less_trans [of y "(p - 1) div 2" p] show "x = y"
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    by (simp add: b c d e p_minus_one_l p_g_0)
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qed
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lemma SR_B_inj: "inj_on (StandardRes p) B"
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  apply (auto simp add: B_def StandardRes_def inj_on_def A_def)
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proof -
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  fix x fix y
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  assume a: "x * a mod p = y * a mod p"
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  assume b: "0 < x"
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  assume c: "x \<le> (p - 1) div 2"
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  assume d: "0 < y"
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  assume e: "y \<le> (p - 1) div 2"
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  assume f: "x \<noteq> y"
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  from a have "[x * a = y * a](mod p)"
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    by (simp add: zcong_zmod_eq p_g_0)
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  with p_a_relprime p_prime a_nonzero zcong_cancel [of p a x y]
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  have "[x = y](mod p)"
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    by (simp add: zprime_imp_zrelprime zcong_def p_g_0 order_le_less)
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  with zcong_less_eq [of x y p] p_minus_one_l
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    order_le_less_trans [of x "(p - 1) div 2" p]
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    order_le_less_trans [of y "(p - 1) div 2" p] have "x = y"
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    by (simp add: b c d e p_minus_one_l p_g_0)
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  then have False
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    by (simp add: f)
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  then show "a = 0"
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    by simp
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qed
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lemma inj_on_pminusx_E: "inj_on (%x. p - x) E"
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  apply (auto simp add: E_def C_def B_def A_def)
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  apply (rule_tac g = "%x. -1 * (x - p)" in inj_on_inverseI)
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  apply auto
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  done
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lemma A_ncong_p: "x \<in> A ==> ~[x = 0](mod p)"
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  apply (auto simp add: A_def)
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  apply (frule_tac m = p in zcong_not_zero)
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  apply (insert p_minus_one_l)
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  apply auto
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  done
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lemma A_greater_zero: "x \<in> A ==> 0 < x"
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  by (auto simp add: A_def)
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lemma B_ncong_p: "x \<in> B ==> ~[x = 0](mod p)"
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  apply (auto simp add: B_def)
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  apply (frule A_ncong_p)
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  apply (insert p_a_relprime p_prime a_nonzero)
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  apply (frule_tac a = xa and b = a in zcong_zprime_prod_zero_contra)
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  apply (auto simp add: A_greater_zero)
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  done
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lemma B_greater_zero: "x \<in> B ==> 0 < x"
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  using a_nonzero by (auto simp add: B_def A_greater_zero)
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lemma C_ncong_p: "x \<in> C ==>  ~[x = 0](mod p)"
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  apply (auto simp add: C_def)
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  apply (frule B_ncong_p)
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  apply (subgoal_tac "[xa = StandardRes p xa](mod p)")
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  defer apply (simp add: StandardRes_prop1)
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  apply (frule_tac a = xa and b = "StandardRes p xa" and c = 0 in zcong_trans)
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  apply auto
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  done
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lemma C_greater_zero: "y \<in> C ==> 0 < y"
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  apply (auto simp add: C_def)
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proof -
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  fix x
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  assume a: "x \<in> B"
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  from p_g_0 have "0 \<le> StandardRes p x"
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    by (simp add: StandardRes_lbound)
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  moreover have "~[x = 0] (mod p)"
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    by (simp add: a B_ncong_p)
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  then have "StandardRes p x \<noteq> 0"
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    by (simp add: StandardRes_prop3)
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  ultimately show "0 < StandardRes p x"
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    by (simp add: order_le_less)
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qed
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lemma D_ncong_p: "x \<in> D ==> ~[x = 0](mod p)"
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  by (auto simp add: D_def C_ncong_p)
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lemma E_ncong_p: "x \<in> E ==> ~[x = 0](mod p)"
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  by (auto simp add: E_def C_ncong_p)
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lemma F_ncong_p: "x \<in> F ==> ~[x = 0](mod p)"
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  apply (auto simp add: F_def)
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proof -
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  fix x assume a: "x \<in> E" assume b: "[p - x = 0] (mod p)"
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  from E_ncong_p have "~[x = 0] (mod p)"
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    by (simp add: a)
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  moreover from a have "0 < x"
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    by (simp add: a E_def C_greater_zero)
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  moreover from a have "x < p"
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    by (auto simp add: E_def C_def p_g_0 StandardRes_ubound)
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  ultimately have "~[p - x = 0] (mod p)"
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    by (simp add: zcong_not_zero)
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  from this show False by (simp add: b)
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qed
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lemma F_subset: "F \<subseteq> {x. 0 < x & x \<le> ((p - 1) div 2)}"
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  apply (auto simp add: F_def E_def)
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  apply (insert p_g_0)
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  apply (frule_tac x = xa in StandardRes_ubound)
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  apply (frule_tac x = x in StandardRes_ubound)
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  apply (subgoal_tac "xa = StandardRes p xa")
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  apply (auto simp add: C_def StandardRes_prop2 StandardRes_prop1)
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proof -
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  from zodd_imp_zdiv_eq p_prime p_g_2 zprime_zOdd_eq_grt_2 have
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    "2 * (p - 1) div 2 = 2 * ((p - 1) div 2)"
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    by simp
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  with p_eq2 show " !!x. [| (p - 1) div 2 < StandardRes p x; x \<in> B |]
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      ==> p - StandardRes p x \<le> (p - 1) div 2"
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    by simp
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qed
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lemma D_subset: "D \<subseteq> {x. 0 < x & x \<le> ((p - 1) div 2)}"
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  by (auto simp add: D_def C_greater_zero)
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lemma F_eq: "F = {x. \<exists>y \<in> A. ( x = p - (StandardRes p (y*a)) & (p - 1) div 2 < StandardRes p (y*a))}"
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  by (auto simp add: F_def E_def D_def C_def B_def A_def)
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lemma D_eq: "D = {x. \<exists>y \<in> A. ( x = StandardRes p (y*a) & StandardRes p (y*a) \<le> (p - 1) div 2)}"
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  by (auto simp add: D_def C_def B_def A_def)
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lemma D_leq: "x \<in> D ==> x \<le> (p - 1) div 2"
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  by (auto simp add: D_eq)
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lemma F_ge: "x \<in> F ==> x \<le> (p - 1) div 2"
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  apply (auto simp add: F_eq A_def)
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proof -
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  fix y
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  assume "(p - 1) div 2 < StandardRes p (y * a)"
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  then have "p - StandardRes p (y * a) < p - ((p - 1) div 2)"
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    by arith
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  also from p_eq2 have "... = 2 * ((p - 1) div 2) + 1 - ((p - 1) div 2)"
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    by auto
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  also have "2 * ((p - 1) div 2) + 1 - (p - 1) div 2 = (p - 1) div 2 + 1"
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    by arith
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  finally show "p - StandardRes p (y * a) \<le> (p - 1) div 2"
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    using zless_add1_eq [of "p - StandardRes p (y * a)" "(p - 1) div 2"] by auto
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qed
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lemma all_A_relprime: "\<forall>x \<in> A. zgcd x p = 1"
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  using p_prime p_minus_one_l by (auto simp add: A_def zless_zprime_imp_zrelprime)
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lemma A_prod_relprime: "zgcd (setprod id A) p = 1"
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by(rule all_relprime_prod_relprime[OF finite_A all_A_relprime])
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subsection {* Relationships Between Gauss Sets *}
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lemma B_card_eq_A: "card B = card A"
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  using finite_A by (simp add: finite_A B_def inj_on_xa_A card_image)
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lemma B_card_eq: "card B = nat ((p - 1) div 2)"
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  by (simp add: B_card_eq_A A_card_eq)
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lemma F_card_eq_E: "card F = card E"
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  using finite_E by (simp add: F_def inj_on_pminusx_E card_image)
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lemma C_card_eq_B: "card C = card B"
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  apply (insert finite_B)
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  apply (subgoal_tac "inj_on (StandardRes p) B")
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  apply (simp add: B_def C_def card_image)
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  apply (rule StandardRes_inj_on_ResSet)
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  apply (simp add: B_res)
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  done
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lemma D_E_disj: "D \<inter> E = {}"
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  by (auto simp add: D_def E_def)
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lemma C_card_eq_D_plus_E: "card C = card D + card E"
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diff changeset
   298
  by (auto simp add: C_eq card_Un_disjoint D_E_disj finite_D finite_E)
26e5f5e624f6 Gauss's law of quadratic reciprocity by Avigad, Gray and Kramer
paulson
parents:
diff changeset
   299
21233
5a5c8ea5f66a tuned specifications;
wenzelm
parents: 20898
diff changeset
   300
lemma C_prod_eq_D_times_E: "setprod id E * setprod id D = setprod id C"
13871
26e5f5e624f6 Gauss's law of quadratic reciprocity by Avigad, Gray and Kramer
paulson
parents:
diff changeset
   301
  apply (insert D_E_disj finite_D finite_E C_eq)
57418
6ab1c7cb0b8d fact consolidation
haftmann
parents: 56544
diff changeset
   302
  apply (frule setprod.union_disjoint [of D E id])
18369
694ea14ab4f2 tuned sources and proofs
wenzelm
parents: 16775
diff changeset
   303
  apply auto
694ea14ab4f2 tuned sources and proofs
wenzelm
parents: 16775
diff changeset
   304
  done
13871
26e5f5e624f6 Gauss's law of quadratic reciprocity by Avigad, Gray and Kramer
paulson
parents:
diff changeset
   305
21233
5a5c8ea5f66a tuned specifications;
wenzelm
parents: 20898
diff changeset
   306
lemma C_B_zcong_prod: "[setprod id C = setprod id B] (mod p)"
13871
26e5f5e624f6 Gauss's law of quadratic reciprocity by Avigad, Gray and Kramer
paulson
parents:
diff changeset
   307
  apply (auto simp add: C_def)
18369
694ea14ab4f2 tuned sources and proofs
wenzelm
parents: 16775
diff changeset
   308
  apply (insert finite_B SR_B_inj)
57418
6ab1c7cb0b8d fact consolidation
haftmann
parents: 56544
diff changeset
   309
  apply (frule setprod.reindex [of "StandardRes p" B id])
6ab1c7cb0b8d fact consolidation
haftmann
parents: 56544
diff changeset
   310
  apply auto
15392
290bc97038c7 First step in reorganizing Finite_Set
nipkow
parents: 14981
diff changeset
   311
  apply (rule setprod_same_function_zcong)
18369
694ea14ab4f2 tuned sources and proofs
wenzelm
parents: 16775
diff changeset
   312
  apply (auto simp add: StandardRes_prop1 zcong_sym p_g_0)
694ea14ab4f2 tuned sources and proofs
wenzelm
parents: 16775
diff changeset
   313
  done
13871
26e5f5e624f6 Gauss's law of quadratic reciprocity by Avigad, Gray and Kramer
paulson
parents:
diff changeset
   314
21233
5a5c8ea5f66a tuned specifications;
wenzelm
parents: 20898
diff changeset
   315
lemma F_Un_D_subset: "(F \<union> D) \<subseteq> A"
13871
26e5f5e624f6 Gauss's law of quadratic reciprocity by Avigad, Gray and Kramer
paulson
parents:
diff changeset
   316
  apply (rule Un_least)
18369
694ea14ab4f2 tuned sources and proofs
wenzelm
parents: 16775
diff changeset
   317
  apply (auto simp add: A_def F_subset D_subset)
694ea14ab4f2 tuned sources and proofs
wenzelm
parents: 16775
diff changeset
   318
  done
13871
26e5f5e624f6 Gauss's law of quadratic reciprocity by Avigad, Gray and Kramer
paulson
parents:
diff changeset
   319
21233
5a5c8ea5f66a tuned specifications;
wenzelm
parents: 20898
diff changeset
   320
lemma F_D_disj: "(F \<inter> D) = {}"
13871
26e5f5e624f6 Gauss's law of quadratic reciprocity by Avigad, Gray and Kramer
paulson
parents:
diff changeset
   321
  apply (simp add: F_eq D_eq)
26e5f5e624f6 Gauss's law of quadratic reciprocity by Avigad, Gray and Kramer
paulson
parents:
diff changeset
   322
  apply (auto simp add: F_eq D_eq)
18369
694ea14ab4f2 tuned sources and proofs
wenzelm
parents: 16775
diff changeset
   323
proof -
694ea14ab4f2 tuned sources and proofs
wenzelm
parents: 16775
diff changeset
   324
  fix y fix ya
694ea14ab4f2 tuned sources and proofs
wenzelm
parents: 16775
diff changeset
   325
  assume "p - StandardRes p (y * a) = StandardRes p (ya * a)"
694ea14ab4f2 tuned sources and proofs
wenzelm
parents: 16775
diff changeset
   326
  then have "p = StandardRes p (y * a) + StandardRes p (ya * a)"
694ea14ab4f2 tuned sources and proofs
wenzelm
parents: 16775
diff changeset
   327
    by arith
694ea14ab4f2 tuned sources and proofs
wenzelm
parents: 16775
diff changeset
   328
  moreover have "p dvd p"
694ea14ab4f2 tuned sources and proofs
wenzelm
parents: 16775
diff changeset
   329
    by auto
694ea14ab4f2 tuned sources and proofs
wenzelm
parents: 16775
diff changeset
   330
  ultimately have "p dvd (StandardRes p (y * a) + StandardRes p (ya * a))"
694ea14ab4f2 tuned sources and proofs
wenzelm
parents: 16775
diff changeset
   331
    by auto
694ea14ab4f2 tuned sources and proofs
wenzelm
parents: 16775
diff changeset
   332
  then have a: "[StandardRes p (y * a) + StandardRes p (ya * a) = 0] (mod p)"
694ea14ab4f2 tuned sources and proofs
wenzelm
parents: 16775
diff changeset
   333
    by (auto simp add: zcong_def)
694ea14ab4f2 tuned sources and proofs
wenzelm
parents: 16775
diff changeset
   334
  have "[y * a = StandardRes p (y * a)] (mod p)"
694ea14ab4f2 tuned sources and proofs
wenzelm
parents: 16775
diff changeset
   335
    by (simp only: zcong_sym StandardRes_prop1)
694ea14ab4f2 tuned sources and proofs
wenzelm
parents: 16775
diff changeset
   336
  moreover have "[ya * a = StandardRes p (ya * a)] (mod p)"
694ea14ab4f2 tuned sources and proofs
wenzelm
parents: 16775
diff changeset
   337
    by (simp only: zcong_sym StandardRes_prop1)
694ea14ab4f2 tuned sources and proofs
wenzelm
parents: 16775
diff changeset
   338
  ultimately have "[y * a + ya * a =
694ea14ab4f2 tuned sources and proofs
wenzelm
parents: 16775
diff changeset
   339
    StandardRes p (y * a) + StandardRes p (ya * a)] (mod p)"
694ea14ab4f2 tuned sources and proofs
wenzelm
parents: 16775
diff changeset
   340
    by (rule zcong_zadd)
694ea14ab4f2 tuned sources and proofs
wenzelm
parents: 16775
diff changeset
   341
  with a have "[y * a + ya * a = 0] (mod p)"
694ea14ab4f2 tuned sources and proofs
wenzelm
parents: 16775
diff changeset
   342
    apply (elim zcong_trans)
694ea14ab4f2 tuned sources and proofs
wenzelm
parents: 16775
diff changeset
   343
    by (simp only: zcong_refl)
694ea14ab4f2 tuned sources and proofs
wenzelm
parents: 16775
diff changeset
   344
  also have "y * a + ya * a = a * (y + ya)"
49962
a8cc904a6820 Renamed {left,right}_distrib to distrib_{right,left}.
webertj
parents: 46756
diff changeset
   345
    by (simp add: distrib_left mult_commute)
18369
694ea14ab4f2 tuned sources and proofs
wenzelm
parents: 16775
diff changeset
   346
  finally have "[a * (y + ya) = 0] (mod p)" .
694ea14ab4f2 tuned sources and proofs
wenzelm
parents: 16775
diff changeset
   347
  with p_prime a_nonzero zcong_zprime_prod_zero [of p a "y + ya"]
694ea14ab4f2 tuned sources and proofs
wenzelm
parents: 16775
diff changeset
   348
    p_a_relprime
694ea14ab4f2 tuned sources and proofs
wenzelm
parents: 16775
diff changeset
   349
  have a: "[y + ya = 0] (mod p)"
694ea14ab4f2 tuned sources and proofs
wenzelm
parents: 16775
diff changeset
   350
    by auto
694ea14ab4f2 tuned sources and proofs
wenzelm
parents: 16775
diff changeset
   351
  assume b: "y \<in> A" and c: "ya: A"
694ea14ab4f2 tuned sources and proofs
wenzelm
parents: 16775
diff changeset
   352
  with A_def have "0 < y + ya"
694ea14ab4f2 tuned sources and proofs
wenzelm
parents: 16775
diff changeset
   353
    by auto
694ea14ab4f2 tuned sources and proofs
wenzelm
parents: 16775
diff changeset
   354
  moreover from b c A_def have "y + ya \<le> (p - 1) div 2 + (p - 1) div 2"
694ea14ab4f2 tuned sources and proofs
wenzelm
parents: 16775
diff changeset
   355
    by auto
694ea14ab4f2 tuned sources and proofs
wenzelm
parents: 16775
diff changeset
   356
  moreover from b c p_eq2 A_def have "y + ya < p"
694ea14ab4f2 tuned sources and proofs
wenzelm
parents: 16775
diff changeset
   357
    by auto
694ea14ab4f2 tuned sources and proofs
wenzelm
parents: 16775
diff changeset
   358
  ultimately show False
694ea14ab4f2 tuned sources and proofs
wenzelm
parents: 16775
diff changeset
   359
    apply simp
694ea14ab4f2 tuned sources and proofs
wenzelm
parents: 16775
diff changeset
   360
    apply (frule_tac m = p in zcong_not_zero)
694ea14ab4f2 tuned sources and proofs
wenzelm
parents: 16775
diff changeset
   361
    apply (auto simp add: a)
694ea14ab4f2 tuned sources and proofs
wenzelm
parents: 16775
diff changeset
   362
    done
694ea14ab4f2 tuned sources and proofs
wenzelm
parents: 16775
diff changeset
   363
qed
13871
26e5f5e624f6 Gauss's law of quadratic reciprocity by Avigad, Gray and Kramer
paulson
parents:
diff changeset
   364
21233
5a5c8ea5f66a tuned specifications;
wenzelm
parents: 20898
diff changeset
   365
lemma F_Un_D_card: "card (F \<union> D) = nat ((p - 1) div 2)"
18369
694ea14ab4f2 tuned sources and proofs
wenzelm
parents: 16775
diff changeset
   366
proof -
694ea14ab4f2 tuned sources and proofs
wenzelm
parents: 16775
diff changeset
   367
  have "card (F \<union> D) = card E + card D"
694ea14ab4f2 tuned sources and proofs
wenzelm
parents: 16775
diff changeset
   368
    by (auto simp add: finite_F finite_D F_D_disj
694ea14ab4f2 tuned sources and proofs
wenzelm
parents: 16775
diff changeset
   369
      card_Un_disjoint F_card_eq_E)
694ea14ab4f2 tuned sources and proofs
wenzelm
parents: 16775
diff changeset
   370
  then have "card (F \<union> D) = card C"
694ea14ab4f2 tuned sources and proofs
wenzelm
parents: 16775
diff changeset
   371
    by (simp add: C_card_eq_D_plus_E)
694ea14ab4f2 tuned sources and proofs
wenzelm
parents: 16775
diff changeset
   372
  from this show "card (F \<union> D) = nat ((p - 1) div 2)"
694ea14ab4f2 tuned sources and proofs
wenzelm
parents: 16775
diff changeset
   373
    by (simp add: C_card_eq_B B_card_eq)
694ea14ab4f2 tuned sources and proofs
wenzelm
parents: 16775
diff changeset
   374
qed
13871
26e5f5e624f6 Gauss's law of quadratic reciprocity by Avigad, Gray and Kramer
paulson
parents:
diff changeset
   375
21233
5a5c8ea5f66a tuned specifications;
wenzelm
parents: 20898
diff changeset
   376
lemma F_Un_D_eq_A: "F \<union> D = A"
18369
694ea14ab4f2 tuned sources and proofs
wenzelm
parents: 16775
diff changeset
   377
  using finite_A F_Un_D_subset A_card_eq F_Un_D_card by (auto simp add: card_seteq)
13871
26e5f5e624f6 Gauss's law of quadratic reciprocity by Avigad, Gray and Kramer
paulson
parents:
diff changeset
   378
21233
5a5c8ea5f66a tuned specifications;
wenzelm
parents: 20898
diff changeset
   379
lemma prod_D_F_eq_prod_A:
18369
694ea14ab4f2 tuned sources and proofs
wenzelm
parents: 16775
diff changeset
   380
    "(setprod id D) * (setprod id F) = setprod id A"
13871
26e5f5e624f6 Gauss's law of quadratic reciprocity by Avigad, Gray and Kramer
paulson
parents:
diff changeset
   381
  apply (insert F_D_disj finite_D finite_F)
57418
6ab1c7cb0b8d fact consolidation
haftmann
parents: 56544
diff changeset
   382
  apply (frule setprod.union_disjoint [of F D id])
18369
694ea14ab4f2 tuned sources and proofs
wenzelm
parents: 16775
diff changeset
   383
  apply (auto simp add: F_Un_D_eq_A)
694ea14ab4f2 tuned sources and proofs
wenzelm
parents: 16775
diff changeset
   384
  done
13871
26e5f5e624f6 Gauss's law of quadratic reciprocity by Avigad, Gray and Kramer
paulson
parents:
diff changeset
   385
21233
5a5c8ea5f66a tuned specifications;
wenzelm
parents: 20898
diff changeset
   386
lemma prod_F_zcong:
18369
694ea14ab4f2 tuned sources and proofs
wenzelm
parents: 16775
diff changeset
   387
  "[setprod id F = ((-1) ^ (card E)) * (setprod id E)] (mod p)"
694ea14ab4f2 tuned sources and proofs
wenzelm
parents: 16775
diff changeset
   388
proof -
694ea14ab4f2 tuned sources and proofs
wenzelm
parents: 16775
diff changeset
   389
  have "setprod id F = setprod id (op - p ` E)"
694ea14ab4f2 tuned sources and proofs
wenzelm
parents: 16775
diff changeset
   390
    by (auto simp add: F_def)
694ea14ab4f2 tuned sources and proofs
wenzelm
parents: 16775
diff changeset
   391
  then have "setprod id F = setprod (op - p) E"
694ea14ab4f2 tuned sources and proofs
wenzelm
parents: 16775
diff changeset
   392
    apply simp
694ea14ab4f2 tuned sources and proofs
wenzelm
parents: 16775
diff changeset
   393
    apply (insert finite_E inj_on_pminusx_E)
57418
6ab1c7cb0b8d fact consolidation
haftmann
parents: 56544
diff changeset
   394
    apply (frule setprod.reindex [of "minus p" E id])
6ab1c7cb0b8d fact consolidation
haftmann
parents: 56544
diff changeset
   395
    apply auto
18369
694ea14ab4f2 tuned sources and proofs
wenzelm
parents: 16775
diff changeset
   396
    done
694ea14ab4f2 tuned sources and proofs
wenzelm
parents: 16775
diff changeset
   397
  then have one:
694ea14ab4f2 tuned sources and proofs
wenzelm
parents: 16775
diff changeset
   398
    "[setprod id F = setprod (StandardRes p o (op - p)) E] (mod p)"
694ea14ab4f2 tuned sources and proofs
wenzelm
parents: 16775
diff changeset
   399
    apply simp
30837
3d4832d9f7e4 added strong_setprod_cong[cong] (in analogy with setsum)
nipkow
parents: 30034
diff changeset
   400
    apply (insert p_g_0 finite_E StandardRes_prod)
3d4832d9f7e4 added strong_setprod_cong[cong] (in analogy with setsum)
nipkow
parents: 30034
diff changeset
   401
    by (auto)
18369
694ea14ab4f2 tuned sources and proofs
wenzelm
parents: 16775
diff changeset
   402
  moreover have a: "\<forall>x \<in> E. [p - x = 0 - x] (mod p)"
694ea14ab4f2 tuned sources and proofs
wenzelm
parents: 16775
diff changeset
   403
    apply clarify
694ea14ab4f2 tuned sources and proofs
wenzelm
parents: 16775
diff changeset
   404
    apply (insert zcong_id [of p])
694ea14ab4f2 tuned sources and proofs
wenzelm
parents: 16775
diff changeset
   405
    apply (rule_tac a = p and m = p and c = x and d = x in zcong_zdiff, auto)
694ea14ab4f2 tuned sources and proofs
wenzelm
parents: 16775
diff changeset
   406
    done
694ea14ab4f2 tuned sources and proofs
wenzelm
parents: 16775
diff changeset
   407
  moreover have b: "\<forall>x \<in> E. [StandardRes p (p - x) = p - x](mod p)"
694ea14ab4f2 tuned sources and proofs
wenzelm
parents: 16775
diff changeset
   408
    apply clarify
694ea14ab4f2 tuned sources and proofs
wenzelm
parents: 16775
diff changeset
   409
    apply (simp add: StandardRes_prop1 zcong_sym)
694ea14ab4f2 tuned sources and proofs
wenzelm
parents: 16775
diff changeset
   410
    done
694ea14ab4f2 tuned sources and proofs
wenzelm
parents: 16775
diff changeset
   411
  moreover have "\<forall>x \<in> E. [StandardRes p (p - x) = - x](mod p)"
694ea14ab4f2 tuned sources and proofs
wenzelm
parents: 16775
diff changeset
   412
    apply clarify
694ea14ab4f2 tuned sources and proofs
wenzelm
parents: 16775
diff changeset
   413
    apply (insert a b)
694ea14ab4f2 tuned sources and proofs
wenzelm
parents: 16775
diff changeset
   414
    apply (rule_tac b = "p - x" in zcong_trans, auto)
694ea14ab4f2 tuned sources and proofs
wenzelm
parents: 16775
diff changeset
   415
    done
694ea14ab4f2 tuned sources and proofs
wenzelm
parents: 16775
diff changeset
   416
  ultimately have c:
694ea14ab4f2 tuned sources and proofs
wenzelm
parents: 16775
diff changeset
   417
    "[setprod (StandardRes p o (op - p)) E = setprod (uminus) E](mod p)"
694ea14ab4f2 tuned sources and proofs
wenzelm
parents: 16775
diff changeset
   418
    apply simp
30837
3d4832d9f7e4 added strong_setprod_cong[cong] (in analogy with setsum)
nipkow
parents: 30034
diff changeset
   419
    using finite_E p_g_0
3d4832d9f7e4 added strong_setprod_cong[cong] (in analogy with setsum)
nipkow
parents: 30034
diff changeset
   420
      setprod_same_function_zcong [of E "StandardRes p o (op - p)" uminus p]
3d4832d9f7e4 added strong_setprod_cong[cong] (in analogy with setsum)
nipkow
parents: 30034
diff changeset
   421
    by auto
18369
694ea14ab4f2 tuned sources and proofs
wenzelm
parents: 16775
diff changeset
   422
  then have two: "[setprod id F = setprod (uminus) E](mod p)"
694ea14ab4f2 tuned sources and proofs
wenzelm
parents: 16775
diff changeset
   423
    apply (insert one c)
694ea14ab4f2 tuned sources and proofs
wenzelm
parents: 16775
diff changeset
   424
    apply (rule zcong_trans [of "setprod id F"
15392
290bc97038c7 First step in reorganizing Finite_Set
nipkow
parents: 14981
diff changeset
   425
                               "setprod (StandardRes p o op - p) E" p
18369
694ea14ab4f2 tuned sources and proofs
wenzelm
parents: 16775
diff changeset
   426
                               "setprod uminus E"], auto)
694ea14ab4f2 tuned sources and proofs
wenzelm
parents: 16775
diff changeset
   427
    done
694ea14ab4f2 tuned sources and proofs
wenzelm
parents: 16775
diff changeset
   428
  also have "setprod uminus E = (setprod id E) * (-1)^(card E)"
22274
ce1459004c8d Adapted to changes in Finite_Set theory.
berghofe
parents: 21404
diff changeset
   429
    using finite_E by (induct set: finite) auto
18369
694ea14ab4f2 tuned sources and proofs
wenzelm
parents: 16775
diff changeset
   430
  then have "setprod uminus E = (-1) ^ (card E) * (setprod id E)"
44766
d4d33a4d7548 avoid using legacy theorem names
huffman
parents: 41541
diff changeset
   431
    by (simp add: mult_commute)
18369
694ea14ab4f2 tuned sources and proofs
wenzelm
parents: 16775
diff changeset
   432
  with two show ?thesis
694ea14ab4f2 tuned sources and proofs
wenzelm
parents: 16775
diff changeset
   433
    by simp
15392
290bc97038c7 First step in reorganizing Finite_Set
nipkow
parents: 14981
diff changeset
   434
qed
13871
26e5f5e624f6 Gauss's law of quadratic reciprocity by Avigad, Gray and Kramer
paulson
parents:
diff changeset
   435
21233
5a5c8ea5f66a tuned specifications;
wenzelm
parents: 20898
diff changeset
   436
13871
26e5f5e624f6 Gauss's law of quadratic reciprocity by Avigad, Gray and Kramer
paulson
parents:
diff changeset
   437
subsection {* Gauss' Lemma *}
26e5f5e624f6 Gauss's law of quadratic reciprocity by Avigad, Gray and Kramer
paulson
parents:
diff changeset
   438
21233
5a5c8ea5f66a tuned specifications;
wenzelm
parents: 20898
diff changeset
   439
lemma aux: "setprod id A * -1 ^ card E * a ^ card A * -1 ^ card E = setprod id A * a ^ card A"
13871
26e5f5e624f6 Gauss's law of quadratic reciprocity by Avigad, Gray and Kramer
paulson
parents:
diff changeset
   440
  by (auto simp add: finite_E neg_one_special)
26e5f5e624f6 Gauss's law of quadratic reciprocity by Avigad, Gray and Kramer
paulson
parents:
diff changeset
   441
21233
5a5c8ea5f66a tuned specifications;
wenzelm
parents: 20898
diff changeset
   442
theorem pre_gauss_lemma:
18369
694ea14ab4f2 tuned sources and proofs
wenzelm
parents: 16775
diff changeset
   443
  "[a ^ nat((p - 1) div 2) = (-1) ^ (card E)] (mod p)"
694ea14ab4f2 tuned sources and proofs
wenzelm
parents: 16775
diff changeset
   444
proof -
694ea14ab4f2 tuned sources and proofs
wenzelm
parents: 16775
diff changeset
   445
  have "[setprod id A = setprod id F * setprod id D](mod p)"
57418
6ab1c7cb0b8d fact consolidation
haftmann
parents: 56544
diff changeset
   446
    by (auto simp add: prod_D_F_eq_prod_A mult_commute cong del:setprod.cong)
18369
694ea14ab4f2 tuned sources and proofs
wenzelm
parents: 16775
diff changeset
   447
  then have "[setprod id A = ((-1)^(card E) * setprod id E) *
694ea14ab4f2 tuned sources and proofs
wenzelm
parents: 16775
diff changeset
   448
      setprod id D] (mod p)"
694ea14ab4f2 tuned sources and proofs
wenzelm
parents: 16775
diff changeset
   449
    apply (rule zcong_trans)
57418
6ab1c7cb0b8d fact consolidation
haftmann
parents: 56544
diff changeset
   450
    apply (auto simp add: prod_F_zcong zcong_scalar cong del: setprod.cong)
18369
694ea14ab4f2 tuned sources and proofs
wenzelm
parents: 16775
diff changeset
   451
    done
694ea14ab4f2 tuned sources and proofs
wenzelm
parents: 16775
diff changeset
   452
  then have "[setprod id A = ((-1)^(card E) * setprod id C)] (mod p)"
694ea14ab4f2 tuned sources and proofs
wenzelm
parents: 16775
diff changeset
   453
    apply (rule zcong_trans)
694ea14ab4f2 tuned sources and proofs
wenzelm
parents: 16775
diff changeset
   454
    apply (insert C_prod_eq_D_times_E, erule subst)
44766
d4d33a4d7548 avoid using legacy theorem names
huffman
parents: 41541
diff changeset
   455
    apply (subst mult_assoc, auto)
18369
694ea14ab4f2 tuned sources and proofs
wenzelm
parents: 16775
diff changeset
   456
    done
694ea14ab4f2 tuned sources and proofs
wenzelm
parents: 16775
diff changeset
   457
  then have "[setprod id A = ((-1)^(card E) * setprod id B)] (mod p)"
694ea14ab4f2 tuned sources and proofs
wenzelm
parents: 16775
diff changeset
   458
    apply (rule zcong_trans)
57418
6ab1c7cb0b8d fact consolidation
haftmann
parents: 56544
diff changeset
   459
    apply (simp add: C_B_zcong_prod zcong_scalar2 cong del:setprod.cong)
18369
694ea14ab4f2 tuned sources and proofs
wenzelm
parents: 16775
diff changeset
   460
    done
694ea14ab4f2 tuned sources and proofs
wenzelm
parents: 16775
diff changeset
   461
  then have "[setprod id A = ((-1)^(card E) *
694ea14ab4f2 tuned sources and proofs
wenzelm
parents: 16775
diff changeset
   462
    (setprod id ((%x. x * a) ` A)))] (mod p)"
694ea14ab4f2 tuned sources and proofs
wenzelm
parents: 16775
diff changeset
   463
    by (simp add: B_def)
694ea14ab4f2 tuned sources and proofs
wenzelm
parents: 16775
diff changeset
   464
  then have "[setprod id A = ((-1)^(card E) * (setprod (%x. x * a) A))]
694ea14ab4f2 tuned sources and proofs
wenzelm
parents: 16775
diff changeset
   465
    (mod p)"
57418
6ab1c7cb0b8d fact consolidation
haftmann
parents: 56544
diff changeset
   466
    by (simp add:finite_A inj_on_xa_A setprod.reindex cong del:setprod.cong)
18369
694ea14ab4f2 tuned sources and proofs
wenzelm
parents: 16775
diff changeset
   467
  moreover have "setprod (%x. x * a) A =
694ea14ab4f2 tuned sources and proofs
wenzelm
parents: 16775
diff changeset
   468
    setprod (%x. a) A * setprod id A"
22274
ce1459004c8d Adapted to changes in Finite_Set theory.
berghofe
parents: 21404
diff changeset
   469
    using finite_A by (induct set: finite) auto
18369
694ea14ab4f2 tuned sources and proofs
wenzelm
parents: 16775
diff changeset
   470
  ultimately have "[setprod id A = ((-1)^(card E) * (setprod (%x. a) A *
694ea14ab4f2 tuned sources and proofs
wenzelm
parents: 16775
diff changeset
   471
    setprod id A))] (mod p)"
694ea14ab4f2 tuned sources and proofs
wenzelm
parents: 16775
diff changeset
   472
    by simp
694ea14ab4f2 tuned sources and proofs
wenzelm
parents: 16775
diff changeset
   473
  then have "[setprod id A = ((-1)^(card E) * a^(card A) *
694ea14ab4f2 tuned sources and proofs
wenzelm
parents: 16775
diff changeset
   474
      setprod id A)](mod p)"
694ea14ab4f2 tuned sources and proofs
wenzelm
parents: 16775
diff changeset
   475
    apply (rule zcong_trans)
44766
d4d33a4d7548 avoid using legacy theorem names
huffman
parents: 41541
diff changeset
   476
    apply (simp add: zcong_scalar2 zcong_scalar finite_A setprod_constant mult_assoc)
18369
694ea14ab4f2 tuned sources and proofs
wenzelm
parents: 16775
diff changeset
   477
    done
694ea14ab4f2 tuned sources and proofs
wenzelm
parents: 16775
diff changeset
   478
  then have a: "[setprod id A * (-1)^(card E) =
694ea14ab4f2 tuned sources and proofs
wenzelm
parents: 16775
diff changeset
   479
      ((-1)^(card E) * a^(card A) * setprod id A * (-1)^(card E))](mod p)"
694ea14ab4f2 tuned sources and proofs
wenzelm
parents: 16775
diff changeset
   480
    by (rule zcong_scalar)
694ea14ab4f2 tuned sources and proofs
wenzelm
parents: 16775
diff changeset
   481
  then have "[setprod id A * (-1)^(card E) = setprod id A *
694ea14ab4f2 tuned sources and proofs
wenzelm
parents: 16775
diff changeset
   482
      (-1)^(card E) * a^(card A) * (-1)^(card E)](mod p)"
694ea14ab4f2 tuned sources and proofs
wenzelm
parents: 16775
diff changeset
   483
    apply (rule zcong_trans)
694ea14ab4f2 tuned sources and proofs
wenzelm
parents: 16775
diff changeset
   484
    apply (simp add: a mult_commute mult_left_commute)
694ea14ab4f2 tuned sources and proofs
wenzelm
parents: 16775
diff changeset
   485
    done
694ea14ab4f2 tuned sources and proofs
wenzelm
parents: 16775
diff changeset
   486
  then have "[setprod id A * (-1)^(card E) = setprod id A *
694ea14ab4f2 tuned sources and proofs
wenzelm
parents: 16775
diff changeset
   487
      a^(card A)](mod p)"
694ea14ab4f2 tuned sources and proofs
wenzelm
parents: 16775
diff changeset
   488
    apply (rule zcong_trans)
57418
6ab1c7cb0b8d fact consolidation
haftmann
parents: 56544
diff changeset
   489
    apply (simp add: aux cong del:setprod.cong)
18369
694ea14ab4f2 tuned sources and proofs
wenzelm
parents: 16775
diff changeset
   490
    done
694ea14ab4f2 tuned sources and proofs
wenzelm
parents: 16775
diff changeset
   491
  with this zcong_cancel2 [of p "setprod id A" "-1 ^ card E" "a ^ card A"]
694ea14ab4f2 tuned sources and proofs
wenzelm
parents: 16775
diff changeset
   492
      p_g_0 A_prod_relprime have "[-1 ^ card E = a ^ card A](mod p)"
694ea14ab4f2 tuned sources and proofs
wenzelm
parents: 16775
diff changeset
   493
    by (simp add: order_less_imp_le)
694ea14ab4f2 tuned sources and proofs
wenzelm
parents: 16775
diff changeset
   494
  from this show ?thesis
694ea14ab4f2 tuned sources and proofs
wenzelm
parents: 16775
diff changeset
   495
    by (simp add: A_card_eq zcong_sym)
15392
290bc97038c7 First step in reorganizing Finite_Set
nipkow
parents: 14981
diff changeset
   496
qed
13871
26e5f5e624f6 Gauss's law of quadratic reciprocity by Avigad, Gray and Kramer
paulson
parents:
diff changeset
   497
21233
5a5c8ea5f66a tuned specifications;
wenzelm
parents: 20898
diff changeset
   498
theorem gauss_lemma: "(Legendre a p) = (-1) ^ (card E)"
15392
290bc97038c7 First step in reorganizing Finite_Set
nipkow
parents: 14981
diff changeset
   499
proof -
13871
26e5f5e624f6 Gauss's law of quadratic reciprocity by Avigad, Gray and Kramer
paulson
parents:
diff changeset
   500
  from Euler_Criterion p_prime p_g_2 have
18369
694ea14ab4f2 tuned sources and proofs
wenzelm
parents: 16775
diff changeset
   501
      "[(Legendre a p) = a^(nat (((p) - 1) div 2))] (mod p)"
13871
26e5f5e624f6 Gauss's law of quadratic reciprocity by Avigad, Gray and Kramer
paulson
parents:
diff changeset
   502
    by auto
15392
290bc97038c7 First step in reorganizing Finite_Set
nipkow
parents: 14981
diff changeset
   503
  moreover note pre_gauss_lemma
290bc97038c7 First step in reorganizing Finite_Set
nipkow
parents: 14981
diff changeset
   504
  ultimately have "[(Legendre a p) = (-1) ^ (card E)] (mod p)"
13871
26e5f5e624f6 Gauss's law of quadratic reciprocity by Avigad, Gray and Kramer
paulson
parents:
diff changeset
   505
    by (rule zcong_trans)
15392
290bc97038c7 First step in reorganizing Finite_Set
nipkow
parents: 14981
diff changeset
   506
  moreover from p_a_relprime have "(Legendre a p) = 1 | (Legendre a p) = (-1)"
13871
26e5f5e624f6 Gauss's law of quadratic reciprocity by Avigad, Gray and Kramer
paulson
parents:
diff changeset
   507
    by (auto simp add: Legendre_def)
15392
290bc97038c7 First step in reorganizing Finite_Set
nipkow
parents: 14981
diff changeset
   508
  moreover have "(-1::int) ^ (card E) = 1 | (-1::int) ^ (card E) = -1"
13871
26e5f5e624f6 Gauss's law of quadratic reciprocity by Avigad, Gray and Kramer
paulson
parents:
diff changeset
   509
    by (rule neg_one_power)
15392
290bc97038c7 First step in reorganizing Finite_Set
nipkow
parents: 14981
diff changeset
   510
  ultimately show ?thesis
13871
26e5f5e624f6 Gauss's law of quadratic reciprocity by Avigad, Gray and Kramer
paulson
parents:
diff changeset
   511
    by (auto simp add: p_g_2 one_not_neg_one_mod_m zcong_sym)
15392
290bc97038c7 First step in reorganizing Finite_Set
nipkow
parents: 14981
diff changeset
   512
qed
13871
26e5f5e624f6 Gauss's law of quadratic reciprocity by Avigad, Gray and Kramer
paulson
parents:
diff changeset
   513
16775
c1b87ef4a1c3 added lemmas to OrderedGroup.thy (reasoning about signs, absolute value, triangle inequalities)
avigad
parents: 16733
diff changeset
   514
end
21233
5a5c8ea5f66a tuned specifications;
wenzelm
parents: 20898
diff changeset
   515
5a5c8ea5f66a tuned specifications;
wenzelm
parents: 20898
diff changeset
   516
end