isabelle: src/HOL/Number_Theory/Euclidean_Algorithm.thy@7f927120b5a2 (annotated)

58023 62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	1	(* Author: Manuel Eberl *)
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	2
60526 fad653acf58f isabelle update_cartouches; wenzelm parents: 60517 diff changeset	3	section \<open>Abstract euclidean algorithm\<close>
58023 62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	4
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	5	theory Euclidean_Algorithm
60685 cb21b7022b00 moved normalization and unit_factor into Main HOL corpus haftmann parents: 60634 diff changeset	6	imports Main "~~/src/HOL/GCD" "~~/src/HOL/Library/Polynomial"
58023 62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	7	begin
60634 e3b6e516608b separate (semi)ring with normalization haftmann parents: 60600 diff changeset	8
60526 fad653acf58f isabelle update_cartouches; wenzelm parents: 60517 diff changeset	9	text \<open>
58023 62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	10	A Euclidean semiring is a semiring upon which the Euclidean algorithm can be
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	11	implemented. It must provide:
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	12	\begin{itemize}
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	13	\item division with remainder
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	14	\item a size function such that @{term "size (a mod b) < size b"}
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	15	for any @{term "b \<noteq> 0"}
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	16	\end{itemize}
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	17	The existence of these functions makes it possible to derive gcd and lcm functions
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	18	for any Euclidean semiring.
60526 fad653acf58f isabelle update_cartouches; wenzelm parents: 60517 diff changeset	19	\<close>
60634 e3b6e516608b separate (semi)ring with normalization haftmann parents: 60600 diff changeset	20	class euclidean_semiring = semiring_div + normalization_semidom +
58023 62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	21	fixes euclidean_size :: "'a \<Rightarrow> nat"
60569 f2f1f6860959 generalized to definition from literature, which covers also polynomials haftmann parents: 60526 diff changeset	22	assumes mod_size_less:
60600 87fbfea0bd0a simplified termination criterion for euclidean algorithm (again) haftmann parents: 60599 diff changeset	23	"b \<noteq> 0 \<Longrightarrow> euclidean_size (a mod b) < euclidean_size b"
58023 62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	24	assumes size_mult_mono:
60634 e3b6e516608b separate (semi)ring with normalization haftmann parents: 60600 diff changeset	25	"b \<noteq> 0 \<Longrightarrow> euclidean_size a \<le> euclidean_size (a * b)"
58023 62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	26	begin
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	27
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	28	lemma euclidean_division:
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	29	fixes a :: 'a and b :: 'a
60600 87fbfea0bd0a simplified termination criterion for euclidean algorithm (again) haftmann parents: 60599 diff changeset	30	assumes "b \<noteq> 0"
58023 62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	31	obtains s and t where "a = s * b + t"
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	32	and "euclidean_size t < euclidean_size b"
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	33	proof -
60569 f2f1f6860959 generalized to definition from literature, which covers also polynomials haftmann parents: 60526 diff changeset	34	from div_mod_equality [of a b 0]
58023 62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	35	have "a = a div b * b + a mod b" by simp
60569 f2f1f6860959 generalized to definition from literature, which covers also polynomials haftmann parents: 60526 diff changeset	36	with that and assms show ?thesis by (auto simp add: mod_size_less)
58023 62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	37	qed
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	38
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	39	lemma dvd_euclidean_size_eq_imp_dvd:
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	40	assumes "a \<noteq> 0" and b_dvd_a: "b dvd a" and size_eq: "euclidean_size a = euclidean_size b"
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	41	shows "a dvd b"
60569 f2f1f6860959 generalized to definition from literature, which covers also polynomials haftmann parents: 60526 diff changeset	42	proof (rule ccontr)
f2f1f6860959 generalized to definition from literature, which covers also polynomials haftmann parents: 60526 diff changeset	43	assume "\<not> a dvd b"
f2f1f6860959 generalized to definition from literature, which covers also polynomials haftmann parents: 60526 diff changeset	44	then have "b mod a \<noteq> 0" by (simp add: mod_eq_0_iff_dvd)
58023 62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	45	from b_dvd_a have b_dvd_mod: "b dvd b mod a" by (simp add: dvd_mod_iff)
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	46	from b_dvd_mod obtain c where "b mod a = b * c" unfolding dvd_def by blast
60526 fad653acf58f isabelle update_cartouches; wenzelm parents: 60517 diff changeset	47	with \<open>b mod a \<noteq> 0\<close> have "c \<noteq> 0" by auto
fad653acf58f isabelle update_cartouches; wenzelm parents: 60517 diff changeset	48	with \<open>b mod a = b * c\<close> have "euclidean_size (b mod a) \<ge> euclidean_size b"
58023 62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	49	using size_mult_mono by force
60569 f2f1f6860959 generalized to definition from literature, which covers also polynomials haftmann parents: 60526 diff changeset	50	moreover from \<open>\<not> a dvd b\<close> and \<open>a \<noteq> 0\<close>
f2f1f6860959 generalized to definition from literature, which covers also polynomials haftmann parents: 60526 diff changeset	51	have "euclidean_size (b mod a) < euclidean_size a"
58023 62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	52	using mod_size_less by blast
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	53	ultimately show False using size_eq by simp
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	54	qed
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	55
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	56	function gcd_eucl :: "'a \<Rightarrow> 'a \<Rightarrow> 'a"
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	57	where
60634 e3b6e516608b separate (semi)ring with normalization haftmann parents: 60600 diff changeset	58	"gcd_eucl a b = (if b = 0 then normalize a else gcd_eucl b (a mod b))"
60572 718b1ba06429 streamlined definitions and primitive lemma of euclidean algorithm, including code generation haftmann parents: 60571 diff changeset	59	by pat_completeness simp
60569 f2f1f6860959 generalized to definition from literature, which covers also polynomials haftmann parents: 60526 diff changeset	60	termination
f2f1f6860959 generalized to definition from literature, which covers also polynomials haftmann parents: 60526 diff changeset	61	by (relation "measure (euclidean_size \<circ> snd)") (simp_all add: mod_size_less)
58023 62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	62
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	63	declare gcd_eucl.simps [simp del]
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	64
60569 f2f1f6860959 generalized to definition from literature, which covers also polynomials haftmann parents: 60526 diff changeset	65	lemma gcd_eucl_induct [case_names zero mod]:
f2f1f6860959 generalized to definition from literature, which covers also polynomials haftmann parents: 60526 diff changeset	66	assumes H1: "\<And>b. P b 0"
f2f1f6860959 generalized to definition from literature, which covers also polynomials haftmann parents: 60526 diff changeset	67	and H2: "\<And>a b. b \<noteq> 0 \<Longrightarrow> P b (a mod b) \<Longrightarrow> P a b"
f2f1f6860959 generalized to definition from literature, which covers also polynomials haftmann parents: 60526 diff changeset	68	shows "P a b"
58023 62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	69	proof (induct a b rule: gcd_eucl.induct)
60569 f2f1f6860959 generalized to definition from literature, which covers also polynomials haftmann parents: 60526 diff changeset	70	case ("1" a b)
f2f1f6860959 generalized to definition from literature, which covers also polynomials haftmann parents: 60526 diff changeset	71	show ?case
f2f1f6860959 generalized to definition from literature, which covers also polynomials haftmann parents: 60526 diff changeset	72	proof (cases "b = 0")
f2f1f6860959 generalized to definition from literature, which covers also polynomials haftmann parents: 60526 diff changeset	73	case True then show "P a b" by simp (rule H1)
f2f1f6860959 generalized to definition from literature, which covers also polynomials haftmann parents: 60526 diff changeset	74	next
f2f1f6860959 generalized to definition from literature, which covers also polynomials haftmann parents: 60526 diff changeset	75	case False
60600 87fbfea0bd0a simplified termination criterion for euclidean algorithm (again) haftmann parents: 60599 diff changeset	76	then have "P b (a mod b)"
87fbfea0bd0a simplified termination criterion for euclidean algorithm (again) haftmann parents: 60599 diff changeset	77	by (rule "1.hyps")
60569 f2f1f6860959 generalized to definition from literature, which covers also polynomials haftmann parents: 60526 diff changeset	78	with \<open>b \<noteq> 0\<close> show "P a b"
f2f1f6860959 generalized to definition from literature, which covers also polynomials haftmann parents: 60526 diff changeset	79	by (blast intro: H2)
f2f1f6860959 generalized to definition from literature, which covers also polynomials haftmann parents: 60526 diff changeset	80	qed
58023 62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	81	qed
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	82
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	83	definition lcm_eucl :: "'a \<Rightarrow> 'a \<Rightarrow> 'a"
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	84	where
60634 e3b6e516608b separate (semi)ring with normalization haftmann parents: 60600 diff changeset	85	"lcm_eucl a b = normalize (a * b) div gcd_eucl a b"
58023 62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	86
60572 718b1ba06429 streamlined definitions and primitive lemma of euclidean algorithm, including code generation haftmann parents: 60571 diff changeset	87	definition Lcm_eucl :: "'a set \<Rightarrow> 'a" -- \<open>
718b1ba06429 streamlined definitions and primitive lemma of euclidean algorithm, including code generation haftmann parents: 60571 diff changeset	88	Somewhat complicated definition of Lcm that has the advantage of working
718b1ba06429 streamlined definitions and primitive lemma of euclidean algorithm, including code generation haftmann parents: 60571 diff changeset	89	for infinite sets as well\<close>
58023 62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	90	where
60430 ce559c850a27 standardized algebraic conventions: prefer a, b, c over x, y, z haftmann parents: 59061 diff changeset	91	"Lcm_eucl A = (if \<exists>l. l \<noteq> 0 \<and> (\<forall>a\<in>A. a dvd l) then
ce559c850a27 standardized algebraic conventions: prefer a, b, c over x, y, z haftmann parents: 59061 diff changeset	92	let l = SOME l. l \<noteq> 0 \<and> (\<forall>a\<in>A. a dvd l) \<and> euclidean_size l =
ce559c850a27 standardized algebraic conventions: prefer a, b, c over x, y, z haftmann parents: 59061 diff changeset	93	(LEAST n. \<exists>l. l \<noteq> 0 \<and> (\<forall>a\<in>A. a dvd l) \<and> euclidean_size l = n)
60634 e3b6e516608b separate (semi)ring with normalization haftmann parents: 60600 diff changeset	94	in normalize l
58023 62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	95	else 0)"
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	96
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	97	definition Gcd_eucl :: "'a set \<Rightarrow> 'a"
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	98	where
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	99	"Gcd_eucl A = Lcm_eucl {d. \<forall>a\<in>A. d dvd a}"
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	100
60572 718b1ba06429 streamlined definitions and primitive lemma of euclidean algorithm, including code generation haftmann parents: 60571 diff changeset	101	lemma gcd_eucl_0:
60634 e3b6e516608b separate (semi)ring with normalization haftmann parents: 60600 diff changeset	102	"gcd_eucl a 0 = normalize a"
60572 718b1ba06429 streamlined definitions and primitive lemma of euclidean algorithm, including code generation haftmann parents: 60571 diff changeset	103	by (simp add: gcd_eucl.simps [of a 0])
718b1ba06429 streamlined definitions and primitive lemma of euclidean algorithm, including code generation haftmann parents: 60571 diff changeset	104
718b1ba06429 streamlined definitions and primitive lemma of euclidean algorithm, including code generation haftmann parents: 60571 diff changeset	105	lemma gcd_eucl_0_left:
60634 e3b6e516608b separate (semi)ring with normalization haftmann parents: 60600 diff changeset	106	"gcd_eucl 0 a = normalize a"
60600 87fbfea0bd0a simplified termination criterion for euclidean algorithm (again) haftmann parents: 60599 diff changeset	107	by (simp_all add: gcd_eucl_0 gcd_eucl.simps [of 0 a])
60572 718b1ba06429 streamlined definitions and primitive lemma of euclidean algorithm, including code generation haftmann parents: 60571 diff changeset	108
718b1ba06429 streamlined definitions and primitive lemma of euclidean algorithm, including code generation haftmann parents: 60571 diff changeset	109	lemma gcd_eucl_non_0:
718b1ba06429 streamlined definitions and primitive lemma of euclidean algorithm, including code generation haftmann parents: 60571 diff changeset	110	"b \<noteq> 0 \<Longrightarrow> gcd_eucl a b = gcd_eucl b (a mod b)"
60600 87fbfea0bd0a simplified termination criterion for euclidean algorithm (again) haftmann parents: 60599 diff changeset	111	by (simp add: gcd_eucl.simps [of a b] gcd_eucl.simps [of b 0])
60572 718b1ba06429 streamlined definitions and primitive lemma of euclidean algorithm, including code generation haftmann parents: 60571 diff changeset	112
58023 62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	113	end
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	114
60598 78ca5674c66a rings follow immediately their corresponding semirings haftmann parents: 60582 diff changeset	115	class euclidean_ring = euclidean_semiring + idom
78ca5674c66a rings follow immediately their corresponding semirings haftmann parents: 60582 diff changeset	116	begin
78ca5674c66a rings follow immediately their corresponding semirings haftmann parents: 60582 diff changeset	117
78ca5674c66a rings follow immediately their corresponding semirings haftmann parents: 60582 diff changeset	118	function euclid_ext :: "'a \<Rightarrow> 'a \<Rightarrow> 'a \<times> 'a \<times> 'a" where
78ca5674c66a rings follow immediately their corresponding semirings haftmann parents: 60582 diff changeset	119	"euclid_ext a b =
78ca5674c66a rings follow immediately their corresponding semirings haftmann parents: 60582 diff changeset	120	(if b = 0 then
60634 e3b6e516608b separate (semi)ring with normalization haftmann parents: 60600 diff changeset	121	(1 div unit_factor a, 0, normalize a)
60598 78ca5674c66a rings follow immediately their corresponding semirings haftmann parents: 60582 diff changeset	122	else
78ca5674c66a rings follow immediately their corresponding semirings haftmann parents: 60582 diff changeset	123	case euclid_ext b (a mod b) of
78ca5674c66a rings follow immediately their corresponding semirings haftmann parents: 60582 diff changeset	124	(s, t, c) \<Rightarrow> (t, s - t * (a div b), c))"
78ca5674c66a rings follow immediately their corresponding semirings haftmann parents: 60582 diff changeset	125	by pat_completeness simp
78ca5674c66a rings follow immediately their corresponding semirings haftmann parents: 60582 diff changeset	126	termination
78ca5674c66a rings follow immediately their corresponding semirings haftmann parents: 60582 diff changeset	127	by (relation "measure (euclidean_size \<circ> snd)") (simp_all add: mod_size_less)
78ca5674c66a rings follow immediately their corresponding semirings haftmann parents: 60582 diff changeset	128
78ca5674c66a rings follow immediately their corresponding semirings haftmann parents: 60582 diff changeset	129	declare euclid_ext.simps [simp del]
78ca5674c66a rings follow immediately their corresponding semirings haftmann parents: 60582 diff changeset	130
78ca5674c66a rings follow immediately their corresponding semirings haftmann parents: 60582 diff changeset	131	lemma euclid_ext_0:
60634 e3b6e516608b separate (semi)ring with normalization haftmann parents: 60600 diff changeset	132	"euclid_ext a 0 = (1 div unit_factor a, 0, normalize a)"
60598 78ca5674c66a rings follow immediately their corresponding semirings haftmann parents: 60582 diff changeset	133	by (simp add: euclid_ext.simps [of a 0])
78ca5674c66a rings follow immediately their corresponding semirings haftmann parents: 60582 diff changeset	134
78ca5674c66a rings follow immediately their corresponding semirings haftmann parents: 60582 diff changeset	135	lemma euclid_ext_left_0:
60634 e3b6e516608b separate (semi)ring with normalization haftmann parents: 60600 diff changeset	136	"euclid_ext 0 a = (0, 1 div unit_factor a, normalize a)"
60600 87fbfea0bd0a simplified termination criterion for euclidean algorithm (again) haftmann parents: 60599 diff changeset	137	by (simp add: euclid_ext_0 euclid_ext.simps [of 0 a])
60598 78ca5674c66a rings follow immediately their corresponding semirings haftmann parents: 60582 diff changeset	138
78ca5674c66a rings follow immediately their corresponding semirings haftmann parents: 60582 diff changeset	139	lemma euclid_ext_non_0:
78ca5674c66a rings follow immediately their corresponding semirings haftmann parents: 60582 diff changeset	140	"b \<noteq> 0 \<Longrightarrow> euclid_ext a b = (case euclid_ext b (a mod b) of
78ca5674c66a rings follow immediately their corresponding semirings haftmann parents: 60582 diff changeset	141	(s, t, c) \<Rightarrow> (t, s - t * (a div b), c))"
60600 87fbfea0bd0a simplified termination criterion for euclidean algorithm (again) haftmann parents: 60599 diff changeset	142	by (simp add: euclid_ext.simps [of a b] euclid_ext.simps [of b 0])
60598 78ca5674c66a rings follow immediately their corresponding semirings haftmann parents: 60582 diff changeset	143
78ca5674c66a rings follow immediately their corresponding semirings haftmann parents: 60582 diff changeset	144	lemma euclid_ext_code [code]:
60634 e3b6e516608b separate (semi)ring with normalization haftmann parents: 60600 diff changeset	145	"euclid_ext a b = (if b = 0 then (1 div unit_factor a, 0, normalize a)
60598 78ca5674c66a rings follow immediately their corresponding semirings haftmann parents: 60582 diff changeset	146	else let (s, t, c) = euclid_ext b (a mod b) in (t, s - t * (a div b), c))"
78ca5674c66a rings follow immediately their corresponding semirings haftmann parents: 60582 diff changeset	147	by (simp add: euclid_ext.simps [of a b] euclid_ext.simps [of b 0])
78ca5674c66a rings follow immediately their corresponding semirings haftmann parents: 60582 diff changeset	148
78ca5674c66a rings follow immediately their corresponding semirings haftmann parents: 60582 diff changeset	149	lemma euclid_ext_correct:
78ca5674c66a rings follow immediately their corresponding semirings haftmann parents: 60582 diff changeset	150	"case euclid_ext a b of (s, t, c) \<Rightarrow> s * a + t * b = c"
78ca5674c66a rings follow immediately their corresponding semirings haftmann parents: 60582 diff changeset	151	proof (induct a b rule: gcd_eucl_induct)
78ca5674c66a rings follow immediately their corresponding semirings haftmann parents: 60582 diff changeset	152	case (zero a) then show ?case
78ca5674c66a rings follow immediately their corresponding semirings haftmann parents: 60582 diff changeset	153	by (simp add: euclid_ext_0 ac_simps)
78ca5674c66a rings follow immediately their corresponding semirings haftmann parents: 60582 diff changeset	154	next
78ca5674c66a rings follow immediately their corresponding semirings haftmann parents: 60582 diff changeset	155	case (mod a b)
78ca5674c66a rings follow immediately their corresponding semirings haftmann parents: 60582 diff changeset	156	obtain s t c where stc: "euclid_ext b (a mod b) = (s,t,c)"
78ca5674c66a rings follow immediately their corresponding semirings haftmann parents: 60582 diff changeset	157	by (cases "euclid_ext b (a mod b)") blast
78ca5674c66a rings follow immediately their corresponding semirings haftmann parents: 60582 diff changeset	158	with mod have "c = s * b + t * (a mod b)" by simp
78ca5674c66a rings follow immediately their corresponding semirings haftmann parents: 60582 diff changeset	159	also have "... = t * ((a div b) * b + a mod b) + (s - t * (a div b)) * b"
78ca5674c66a rings follow immediately their corresponding semirings haftmann parents: 60582 diff changeset	160	by (simp add: algebra_simps)
78ca5674c66a rings follow immediately their corresponding semirings haftmann parents: 60582 diff changeset	161	also have "(a div b) * b + a mod b = a" using mod_div_equality .
78ca5674c66a rings follow immediately their corresponding semirings haftmann parents: 60582 diff changeset	162	finally show ?case
78ca5674c66a rings follow immediately their corresponding semirings haftmann parents: 60582 diff changeset	163	by (subst euclid_ext.simps) (simp add: stc mod ac_simps)
78ca5674c66a rings follow immediately their corresponding semirings haftmann parents: 60582 diff changeset	164	qed
78ca5674c66a rings follow immediately their corresponding semirings haftmann parents: 60582 diff changeset	165
78ca5674c66a rings follow immediately their corresponding semirings haftmann parents: 60582 diff changeset	166	definition euclid_ext' :: "'a \<Rightarrow> 'a \<Rightarrow> 'a \<times> 'a"
78ca5674c66a rings follow immediately their corresponding semirings haftmann parents: 60582 diff changeset	167	where
78ca5674c66a rings follow immediately their corresponding semirings haftmann parents: 60582 diff changeset	168	"euclid_ext' a b = (case euclid_ext a b of (s, t, _) \<Rightarrow> (s, t))"
78ca5674c66a rings follow immediately their corresponding semirings haftmann parents: 60582 diff changeset	169
60634 e3b6e516608b separate (semi)ring with normalization haftmann parents: 60600 diff changeset	170	lemma euclid_ext'_0: "euclid_ext' a 0 = (1 div unit_factor a, 0)"
60598 78ca5674c66a rings follow immediately their corresponding semirings haftmann parents: 60582 diff changeset	171	by (simp add: euclid_ext'_def euclid_ext_0)
78ca5674c66a rings follow immediately their corresponding semirings haftmann parents: 60582 diff changeset	172
60634 e3b6e516608b separate (semi)ring with normalization haftmann parents: 60600 diff changeset	173	lemma euclid_ext'_left_0: "euclid_ext' 0 a = (0, 1 div unit_factor a)"
60598 78ca5674c66a rings follow immediately their corresponding semirings haftmann parents: 60582 diff changeset	174	by (simp add: euclid_ext'_def euclid_ext_left_0)
78ca5674c66a rings follow immediately their corresponding semirings haftmann parents: 60582 diff changeset	175
78ca5674c66a rings follow immediately their corresponding semirings haftmann parents: 60582 diff changeset	176	lemma euclid_ext'_non_0: "b \<noteq> 0 \<Longrightarrow> euclid_ext' a b = (snd (euclid_ext' b (a mod b)),
78ca5674c66a rings follow immediately their corresponding semirings haftmann parents: 60582 diff changeset	177	fst (euclid_ext' b (a mod b)) - snd (euclid_ext' b (a mod b)) * (a div b))"
78ca5674c66a rings follow immediately their corresponding semirings haftmann parents: 60582 diff changeset	178	by (simp add: euclid_ext'_def euclid_ext_non_0 split_def)
78ca5674c66a rings follow immediately their corresponding semirings haftmann parents: 60582 diff changeset	179
78ca5674c66a rings follow immediately their corresponding semirings haftmann parents: 60582 diff changeset	180	end
78ca5674c66a rings follow immediately their corresponding semirings haftmann parents: 60582 diff changeset	181
58023 62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	182	class euclidean_semiring_gcd = euclidean_semiring + gcd + Gcd +
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	183	assumes gcd_gcd_eucl: "gcd = gcd_eucl" and lcm_lcm_eucl: "lcm = lcm_eucl"
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	184	assumes Gcd_Gcd_eucl: "Gcd = Gcd_eucl" and Lcm_Lcm_eucl: "Lcm = Lcm_eucl"
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	185	begin
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	186
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	187	lemma gcd_0_left:
60634 e3b6e516608b separate (semi)ring with normalization haftmann parents: 60600 diff changeset	188	"gcd 0 a = normalize a"
60572 718b1ba06429 streamlined definitions and primitive lemma of euclidean algorithm, including code generation haftmann parents: 60571 diff changeset	189	unfolding gcd_gcd_eucl by (fact gcd_eucl_0_left)
58023 62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	190
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	191	lemma gcd_0:
60634 e3b6e516608b separate (semi)ring with normalization haftmann parents: 60600 diff changeset	192	"gcd a 0 = normalize a"
60572 718b1ba06429 streamlined definitions and primitive lemma of euclidean algorithm, including code generation haftmann parents: 60571 diff changeset	193	unfolding gcd_gcd_eucl by (fact gcd_eucl_0)
58023 62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	194
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	195	lemma gcd_non_0:
60430 ce559c850a27 standardized algebraic conventions: prefer a, b, c over x, y, z haftmann parents: 59061 diff changeset	196	"b \<noteq> 0 \<Longrightarrow> gcd a b = gcd b (a mod b)"
60572 718b1ba06429 streamlined definitions and primitive lemma of euclidean algorithm, including code generation haftmann parents: 60571 diff changeset	197	unfolding gcd_gcd_eucl by (fact gcd_eucl_non_0)
58023 62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	198
60430 ce559c850a27 standardized algebraic conventions: prefer a, b, c over x, y, z haftmann parents: 59061 diff changeset	199	lemma gcd_dvd1 [iff]: "gcd a b dvd a"
ce559c850a27 standardized algebraic conventions: prefer a, b, c over x, y, z haftmann parents: 59061 diff changeset	200	and gcd_dvd2 [iff]: "gcd a b dvd b"
60569 f2f1f6860959 generalized to definition from literature, which covers also polynomials haftmann parents: 60526 diff changeset	201	by (induct a b rule: gcd_eucl_induct)
f2f1f6860959 generalized to definition from literature, which covers also polynomials haftmann parents: 60526 diff changeset	202	(simp_all add: gcd_0 gcd_non_0 dvd_mod_iff)
f2f1f6860959 generalized to definition from literature, which covers also polynomials haftmann parents: 60526 diff changeset	203
58023 62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	204	lemma dvd_gcd_D1: "k dvd gcd m n \<Longrightarrow> k dvd m"
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	205	by (rule dvd_trans, assumption, rule gcd_dvd1)
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	206
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	207	lemma dvd_gcd_D2: "k dvd gcd m n \<Longrightarrow> k dvd n"
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	208	by (rule dvd_trans, assumption, rule gcd_dvd2)
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	209
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	210	lemma gcd_greatest:
60430 ce559c850a27 standardized algebraic conventions: prefer a, b, c over x, y, z haftmann parents: 59061 diff changeset	211	fixes k a b :: 'a
ce559c850a27 standardized algebraic conventions: prefer a, b, c over x, y, z haftmann parents: 59061 diff changeset	212	shows "k dvd a \<Longrightarrow> k dvd b \<Longrightarrow> k dvd gcd a b"
60569 f2f1f6860959 generalized to definition from literature, which covers also polynomials haftmann parents: 60526 diff changeset	213	proof (induct a b rule: gcd_eucl_induct)
f2f1f6860959 generalized to definition from literature, which covers also polynomials haftmann parents: 60526 diff changeset	214	case (zero a) from zero(1) show ?case by (rule dvd_trans) (simp add: gcd_0)
f2f1f6860959 generalized to definition from literature, which covers also polynomials haftmann parents: 60526 diff changeset	215	next
f2f1f6860959 generalized to definition from literature, which covers also polynomials haftmann parents: 60526 diff changeset	216	case (mod a b)
f2f1f6860959 generalized to definition from literature, which covers also polynomials haftmann parents: 60526 diff changeset	217	then show ?case
f2f1f6860959 generalized to definition from literature, which covers also polynomials haftmann parents: 60526 diff changeset	218	by (simp add: gcd_non_0 dvd_mod_iff)
58023 62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	219	qed
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	220
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	221	lemma dvd_gcd_iff:
60430 ce559c850a27 standardized algebraic conventions: prefer a, b, c over x, y, z haftmann parents: 59061 diff changeset	222	"k dvd gcd a b \<longleftrightarrow> k dvd a \<and> k dvd b"
58023 62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	223	by (blast intro!: gcd_greatest intro: dvd_trans)
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	224
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	225	lemmas gcd_greatest_iff = dvd_gcd_iff
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	226
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	227	lemma gcd_zero [simp]:
60430 ce559c850a27 standardized algebraic conventions: prefer a, b, c over x, y, z haftmann parents: 59061 diff changeset	228	"gcd a b = 0 \<longleftrightarrow> a = 0 \<and> b = 0"
58023 62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	229	by (metis dvd_0_left dvd_refl gcd_dvd1 gcd_dvd2 gcd_greatest)+
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	230
60688 01488b559910 avoid explicit definition of the relation of associated elements in a ring -- prefer explicit normalization instead haftmann parents: 60687 diff changeset	231	lemma normalize_gcd [simp]:
01488b559910 avoid explicit definition of the relation of associated elements in a ring -- prefer explicit normalization instead haftmann parents: 60687 diff changeset	232	"normalize (gcd a b) = gcd a b"
01488b559910 avoid explicit definition of the relation of associated elements in a ring -- prefer explicit normalization instead haftmann parents: 60687 diff changeset	233	by (induct a b rule: gcd_eucl_induct) (simp_all add: gcd_0 gcd_non_0)
58023 62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	234
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	235	lemma gcdI:
60634 e3b6e516608b separate (semi)ring with normalization haftmann parents: 60600 diff changeset	236	assumes "c dvd a" and "c dvd b" and greatest: "\<And>d. d dvd a \<Longrightarrow> d dvd b \<Longrightarrow> d dvd c"
60688 01488b559910 avoid explicit definition of the relation of associated elements in a ring -- prefer explicit normalization instead haftmann parents: 60687 diff changeset	237	and "normalize c = c"
60634 e3b6e516608b separate (semi)ring with normalization haftmann parents: 60600 diff changeset	238	shows "c = gcd a b"
60688 01488b559910 avoid explicit definition of the relation of associated elements in a ring -- prefer explicit normalization instead haftmann parents: 60687 diff changeset	239	by (rule associated_eqI) (auto simp: assms intro: gcd_greatest)
58023 62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	240
61605 1bf7b186542e qualifier is mandatory by default; wenzelm parents: 60690 diff changeset	241	sublocale gcd: abel_semigroup gcd
58023 62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	242	proof
60430 ce559c850a27 standardized algebraic conventions: prefer a, b, c over x, y, z haftmann parents: 59061 diff changeset	243	fix a b c
ce559c850a27 standardized algebraic conventions: prefer a, b, c over x, y, z haftmann parents: 59061 diff changeset	244	show "gcd (gcd a b) c = gcd a (gcd b c)"
58023 62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	245	proof (rule gcdI)
60430 ce559c850a27 standardized algebraic conventions: prefer a, b, c over x, y, z haftmann parents: 59061 diff changeset	246	have "gcd (gcd a b) c dvd gcd a b" "gcd a b dvd a" by simp_all
ce559c850a27 standardized algebraic conventions: prefer a, b, c over x, y, z haftmann parents: 59061 diff changeset	247	then show "gcd (gcd a b) c dvd a" by (rule dvd_trans)
ce559c850a27 standardized algebraic conventions: prefer a, b, c over x, y, z haftmann parents: 59061 diff changeset	248	have "gcd (gcd a b) c dvd gcd a b" "gcd a b dvd b" by simp_all
ce559c850a27 standardized algebraic conventions: prefer a, b, c over x, y, z haftmann parents: 59061 diff changeset	249	hence "gcd (gcd a b) c dvd b" by (rule dvd_trans)
ce559c850a27 standardized algebraic conventions: prefer a, b, c over x, y, z haftmann parents: 59061 diff changeset	250	moreover have "gcd (gcd a b) c dvd c" by simp
ce559c850a27 standardized algebraic conventions: prefer a, b, c over x, y, z haftmann parents: 59061 diff changeset	251	ultimately show "gcd (gcd a b) c dvd gcd b c"
58023 62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	252	by (rule gcd_greatest)
60688 01488b559910 avoid explicit definition of the relation of associated elements in a ring -- prefer explicit normalization instead haftmann parents: 60687 diff changeset	253	show "normalize (gcd (gcd a b) c) = gcd (gcd a b) c"
58023 62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	254	by auto
60430 ce559c850a27 standardized algebraic conventions: prefer a, b, c over x, y, z haftmann parents: 59061 diff changeset	255	fix l assume "l dvd a" and "l dvd gcd b c"
60688 01488b559910 avoid explicit definition of the relation of associated elements in a ring -- prefer explicit normalization instead haftmann parents: 60687 diff changeset	256	with dvd_trans [OF _ gcd_dvd1] and dvd_trans [OF _ gcd_dvd2]
60430 ce559c850a27 standardized algebraic conventions: prefer a, b, c over x, y, z haftmann parents: 59061 diff changeset	257	have "l dvd b" and "l dvd c" by blast+
60526 fad653acf58f isabelle update_cartouches; wenzelm parents: 60517 diff changeset	258	with \<open>l dvd a\<close> show "l dvd gcd (gcd a b) c"
58023 62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	259	by (intro gcd_greatest)
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	260	qed
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	261	next
60430 ce559c850a27 standardized algebraic conventions: prefer a, b, c over x, y, z haftmann parents: 59061 diff changeset	262	fix a b
ce559c850a27 standardized algebraic conventions: prefer a, b, c over x, y, z haftmann parents: 59061 diff changeset	263	show "gcd a b = gcd b a"
58023 62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	264	by (rule gcdI) (simp_all add: gcd_greatest)
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	265	qed
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	266
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	267	lemma gcd_unique: "d dvd a \<and> d dvd b \<and>
60688 01488b559910 avoid explicit definition of the relation of associated elements in a ring -- prefer explicit normalization instead haftmann parents: 60687 diff changeset	268	normalize d = d \<and>
58023 62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	269	(\<forall>e. e dvd a \<and> e dvd b \<longrightarrow> e dvd d) \<longleftrightarrow> d = gcd a b"
60688 01488b559910 avoid explicit definition of the relation of associated elements in a ring -- prefer explicit normalization instead haftmann parents: 60687 diff changeset	270	by rule (auto intro: gcdI simp: gcd_greatest)
58023 62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	271
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	272	lemma gcd_dvd_prod: "gcd a b dvd k * b"
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	273	using mult_dvd_mono [of 1] by auto
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	274
60430 ce559c850a27 standardized algebraic conventions: prefer a, b, c over x, y, z haftmann parents: 59061 diff changeset	275	lemma gcd_1_left [simp]: "gcd 1 a = 1"
58023 62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	276	by (rule sym, rule gcdI, simp_all)
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	277
60430 ce559c850a27 standardized algebraic conventions: prefer a, b, c over x, y, z haftmann parents: 59061 diff changeset	278	lemma gcd_1 [simp]: "gcd a 1 = 1"
58023 62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	279	by (rule sym, rule gcdI, simp_all)
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	280
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	281	lemma gcd_proj2_if_dvd:
60634 e3b6e516608b separate (semi)ring with normalization haftmann parents: 60600 diff changeset	282	"b dvd a \<Longrightarrow> gcd a b = normalize b"
60430 ce559c850a27 standardized algebraic conventions: prefer a, b, c over x, y, z haftmann parents: 59061 diff changeset	283	by (cases "b = 0", simp_all add: dvd_eq_mod_eq_0 gcd_non_0 gcd_0)
58023 62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	284
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	285	lemma gcd_proj1_if_dvd:
60634 e3b6e516608b separate (semi)ring with normalization haftmann parents: 60600 diff changeset	286	"a dvd b \<Longrightarrow> gcd a b = normalize a"
58023 62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	287	by (subst gcd.commute, simp add: gcd_proj2_if_dvd)
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	288
60634 e3b6e516608b separate (semi)ring with normalization haftmann parents: 60600 diff changeset	289	lemma gcd_proj1_iff: "gcd m n = normalize m \<longleftrightarrow> m dvd n"
58023 62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	290	proof
60634 e3b6e516608b separate (semi)ring with normalization haftmann parents: 60600 diff changeset	291	assume A: "gcd m n = normalize m"
58023 62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	292	show "m dvd n"
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	293	proof (cases "m = 0")
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	294	assume [simp]: "m \<noteq> 0"
60634 e3b6e516608b separate (semi)ring with normalization haftmann parents: 60600 diff changeset	295	from A have B: "m = gcd m n * unit_factor m"
58023 62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	296	by (simp add: unit_eq_div2)
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	297	show ?thesis by (subst B, simp add: mult_unit_dvd_iff)
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	298	qed (insert A, simp)
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	299	next
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	300	assume "m dvd n"
60634 e3b6e516608b separate (semi)ring with normalization haftmann parents: 60600 diff changeset	301	then show "gcd m n = normalize m" by (rule gcd_proj1_if_dvd)
58023 62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	302	qed
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	303
60634 e3b6e516608b separate (semi)ring with normalization haftmann parents: 60600 diff changeset	304	lemma gcd_proj2_iff: "gcd m n = normalize n \<longleftrightarrow> n dvd m"
e3b6e516608b separate (semi)ring with normalization haftmann parents: 60600 diff changeset	305	using gcd_proj1_iff [of n m] by (simp add: ac_simps)
58023 62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	306
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	307	lemma gcd_mod1 [simp]:
60430 ce559c850a27 standardized algebraic conventions: prefer a, b, c over x, y, z haftmann parents: 59061 diff changeset	308	"gcd (a mod b) b = gcd a b"
58023 62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	309	by (rule gcdI, metis dvd_mod_iff gcd_dvd1 gcd_dvd2, simp_all add: gcd_greatest dvd_mod_iff)
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	310
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	311	lemma gcd_mod2 [simp]:
60430 ce559c850a27 standardized algebraic conventions: prefer a, b, c over x, y, z haftmann parents: 59061 diff changeset	312	"gcd a (b mod a) = gcd a b"
58023 62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	313	by (rule gcdI, simp, metis dvd_mod_iff gcd_dvd1 gcd_dvd2, simp_all add: gcd_greatest dvd_mod_iff)
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	314
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	315	lemma gcd_mult_distrib':
60634 e3b6e516608b separate (semi)ring with normalization haftmann parents: 60600 diff changeset	316	"normalize c * gcd a b = gcd (c * a) (c * b)"
60569 f2f1f6860959 generalized to definition from literature, which covers also polynomials haftmann parents: 60526 diff changeset	317	proof (cases "c = 0")
f2f1f6860959 generalized to definition from literature, which covers also polynomials haftmann parents: 60526 diff changeset	318	case True then show ?thesis by (simp_all add: gcd_0)
f2f1f6860959 generalized to definition from literature, which covers also polynomials haftmann parents: 60526 diff changeset	319	next
60634 e3b6e516608b separate (semi)ring with normalization haftmann parents: 60600 diff changeset	320	case False then have [simp]: "is_unit (unit_factor c)" by simp
60569 f2f1f6860959 generalized to definition from literature, which covers also polynomials haftmann parents: 60526 diff changeset	321	show ?thesis
f2f1f6860959 generalized to definition from literature, which covers also polynomials haftmann parents: 60526 diff changeset	322	proof (induct a b rule: gcd_eucl_induct)
f2f1f6860959 generalized to definition from literature, which covers also polynomials haftmann parents: 60526 diff changeset	323	case (zero a) show ?case
f2f1f6860959 generalized to definition from literature, which covers also polynomials haftmann parents: 60526 diff changeset	324	proof (cases "a = 0")
f2f1f6860959 generalized to definition from literature, which covers also polynomials haftmann parents: 60526 diff changeset	325	case True then show ?thesis by (simp add: gcd_0)
f2f1f6860959 generalized to definition from literature, which covers also polynomials haftmann parents: 60526 diff changeset	326	next
60634 e3b6e516608b separate (semi)ring with normalization haftmann parents: 60600 diff changeset	327	case False
e3b6e516608b separate (semi)ring with normalization haftmann parents: 60600 diff changeset	328	then show ?thesis by (simp add: gcd_0 normalize_mult)
60569 f2f1f6860959 generalized to definition from literature, which covers also polynomials haftmann parents: 60526 diff changeset	329	qed
f2f1f6860959 generalized to definition from literature, which covers also polynomials haftmann parents: 60526 diff changeset	330	case (mod a b)
f2f1f6860959 generalized to definition from literature, which covers also polynomials haftmann parents: 60526 diff changeset	331	then show ?case by (simp add: mult_mod_right gcd.commute)
58023 62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	332	qed
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	333	qed
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	334
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	335	lemma gcd_mult_distrib:
60634 e3b6e516608b separate (semi)ring with normalization haftmann parents: 60600 diff changeset	336	"k * gcd a b = gcd (k * a) (k * b) * unit_factor k"
58023 62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	337	proof-
60634 e3b6e516608b separate (semi)ring with normalization haftmann parents: 60600 diff changeset	338	have "normalize k * gcd a b = gcd (k * a) (k * b)"
e3b6e516608b separate (semi)ring with normalization haftmann parents: 60600 diff changeset	339	by (simp add: gcd_mult_distrib')
e3b6e516608b separate (semi)ring with normalization haftmann parents: 60600 diff changeset	340	then have "normalize k * gcd a b * unit_factor k = gcd (k * a) (k * b) * unit_factor k"
e3b6e516608b separate (semi)ring with normalization haftmann parents: 60600 diff changeset	341	by simp
e3b6e516608b separate (semi)ring with normalization haftmann parents: 60600 diff changeset	342	then have "normalize k * unit_factor k * gcd a b = gcd (k * a) (k * b) * unit_factor k"
e3b6e516608b separate (semi)ring with normalization haftmann parents: 60600 diff changeset	343	by (simp only: ac_simps)
e3b6e516608b separate (semi)ring with normalization haftmann parents: 60600 diff changeset	344	then show ?thesis
59009 348561aa3869 generalized lemmas (particularly concerning dvd) as far as appropriate haftmann parents: 58953 diff changeset	345	by simp
58023 62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	346	qed
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	347
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	348	lemma euclidean_size_gcd_le1 [simp]:
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	349	assumes "a \<noteq> 0"
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	350	shows "euclidean_size (gcd a b) \<le> euclidean_size a"
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	351	proof -
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	352	have "gcd a b dvd a" by (rule gcd_dvd1)
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	353	then obtain c where A: "a = gcd a b * c" unfolding dvd_def by blast
60526 fad653acf58f isabelle update_cartouches; wenzelm parents: 60517 diff changeset	354	with \<open>a \<noteq> 0\<close> show ?thesis by (subst (2) A, intro size_mult_mono) auto
58023 62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	355	qed
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	356
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	357	lemma euclidean_size_gcd_le2 [simp]:
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	358	"b \<noteq> 0 \<Longrightarrow> euclidean_size (gcd a b) \<le> euclidean_size b"
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	359	by (subst gcd.commute, rule euclidean_size_gcd_le1)
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	360
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	361	lemma euclidean_size_gcd_less1:
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	362	assumes "a \<noteq> 0" and "\<not>a dvd b"
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	363	shows "euclidean_size (gcd a b) < euclidean_size a"
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	364	proof (rule ccontr)
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	365	assume "\<not>euclidean_size (gcd a b) < euclidean_size a"
60526 fad653acf58f isabelle update_cartouches; wenzelm parents: 60517 diff changeset	366	with \<open>a \<noteq> 0\<close> have "euclidean_size (gcd a b) = euclidean_size a"
58023 62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	367	by (intro le_antisym, simp_all)
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	368	with assms have "a dvd gcd a b" by (auto intro: dvd_euclidean_size_eq_imp_dvd)
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	369	hence "a dvd b" using dvd_gcd_D2 by blast
60526 fad653acf58f isabelle update_cartouches; wenzelm parents: 60517 diff changeset	370	with \<open>\<not>a dvd b\<close> show False by contradiction
58023 62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	371	qed
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	372
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	373	lemma euclidean_size_gcd_less2:
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	374	assumes "b \<noteq> 0" and "\<not>b dvd a"
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	375	shows "euclidean_size (gcd a b) < euclidean_size b"
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	376	using assms by (subst gcd.commute, rule euclidean_size_gcd_less1)
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	377
60430 ce559c850a27 standardized algebraic conventions: prefer a, b, c over x, y, z haftmann parents: 59061 diff changeset	378	lemma gcd_mult_unit1: "is_unit a \<Longrightarrow> gcd (b * a) c = gcd b c"
58023 62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	379	apply (rule gcdI)
60688 01488b559910 avoid explicit definition of the relation of associated elements in a ring -- prefer explicit normalization instead haftmann parents: 60687 diff changeset	380	apply simp_all
58023 62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	381	apply (rule dvd_trans, rule gcd_dvd1, simp add: unit_simps)
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	382	apply (rule gcd_greatest, simp add: unit_simps, assumption)
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	383	done
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	384
60430 ce559c850a27 standardized algebraic conventions: prefer a, b, c over x, y, z haftmann parents: 59061 diff changeset	385	lemma gcd_mult_unit2: "is_unit a \<Longrightarrow> gcd b (c * a) = gcd b c"
58023 62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	386	by (subst gcd.commute, subst gcd_mult_unit1, assumption, rule gcd.commute)
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	387
60430 ce559c850a27 standardized algebraic conventions: prefer a, b, c over x, y, z haftmann parents: 59061 diff changeset	388	lemma gcd_div_unit1: "is_unit a \<Longrightarrow> gcd (b div a) c = gcd b c"
60433 720f210c5b1d tuned lemmas and proofs haftmann parents: 60432 diff changeset	389	by (erule is_unitE [of _ b]) (simp add: gcd_mult_unit1)
58023 62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	390
60430 ce559c850a27 standardized algebraic conventions: prefer a, b, c over x, y, z haftmann parents: 59061 diff changeset	391	lemma gcd_div_unit2: "is_unit a \<Longrightarrow> gcd b (c div a) = gcd b c"
60433 720f210c5b1d tuned lemmas and proofs haftmann parents: 60432 diff changeset	392	by (erule is_unitE [of _ c]) (simp add: gcd_mult_unit2)
58023 62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	393
60634 e3b6e516608b separate (semi)ring with normalization haftmann parents: 60600 diff changeset	394	lemma normalize_gcd_left [simp]:
e3b6e516608b separate (semi)ring with normalization haftmann parents: 60600 diff changeset	395	"gcd (normalize a) b = gcd a b"
e3b6e516608b separate (semi)ring with normalization haftmann parents: 60600 diff changeset	396	proof (cases "a = 0")
e3b6e516608b separate (semi)ring with normalization haftmann parents: 60600 diff changeset	397	case True then show ?thesis
e3b6e516608b separate (semi)ring with normalization haftmann parents: 60600 diff changeset	398	by simp
e3b6e516608b separate (semi)ring with normalization haftmann parents: 60600 diff changeset	399	next
e3b6e516608b separate (semi)ring with normalization haftmann parents: 60600 diff changeset	400	case False then have "is_unit (unit_factor a)"
e3b6e516608b separate (semi)ring with normalization haftmann parents: 60600 diff changeset	401	by simp
e3b6e516608b separate (semi)ring with normalization haftmann parents: 60600 diff changeset	402	moreover have "normalize a = a div unit_factor a"
e3b6e516608b separate (semi)ring with normalization haftmann parents: 60600 diff changeset	403	by simp
e3b6e516608b separate (semi)ring with normalization haftmann parents: 60600 diff changeset	404	ultimately show ?thesis
e3b6e516608b separate (semi)ring with normalization haftmann parents: 60600 diff changeset	405	by (simp only: gcd_div_unit1)
e3b6e516608b separate (semi)ring with normalization haftmann parents: 60600 diff changeset	406	qed
e3b6e516608b separate (semi)ring with normalization haftmann parents: 60600 diff changeset	407
e3b6e516608b separate (semi)ring with normalization haftmann parents: 60600 diff changeset	408	lemma normalize_gcd_right [simp]:
e3b6e516608b separate (semi)ring with normalization haftmann parents: 60600 diff changeset	409	"gcd a (normalize b) = gcd a b"
e3b6e516608b separate (semi)ring with normalization haftmann parents: 60600 diff changeset	410	using normalize_gcd_left [of b a] by (simp add: ac_simps)
e3b6e516608b separate (semi)ring with normalization haftmann parents: 60600 diff changeset	411
e3b6e516608b separate (semi)ring with normalization haftmann parents: 60600 diff changeset	412	lemma gcd_idem: "gcd a a = normalize a"
60430 ce559c850a27 standardized algebraic conventions: prefer a, b, c over x, y, z haftmann parents: 59061 diff changeset	413	by (cases "a = 0") (simp add: gcd_0_left, rule sym, rule gcdI, simp_all)
58023 62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	414
60430 ce559c850a27 standardized algebraic conventions: prefer a, b, c over x, y, z haftmann parents: 59061 diff changeset	415	lemma gcd_right_idem: "gcd (gcd a b) b = gcd a b"
58023 62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	416	apply (rule gcdI)
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	417	apply (simp add: ac_simps)
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	418	apply (rule gcd_dvd2)
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	419	apply (rule gcd_greatest, erule (1) gcd_greatest, assumption)
59009 348561aa3869 generalized lemmas (particularly concerning dvd) as far as appropriate haftmann parents: 58953 diff changeset	420	apply simp
58023 62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	421	done
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	422
60430 ce559c850a27 standardized algebraic conventions: prefer a, b, c over x, y, z haftmann parents: 59061 diff changeset	423	lemma gcd_left_idem: "gcd a (gcd a b) = gcd a b"
58023 62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	424	apply (rule gcdI)
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	425	apply simp
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	426	apply (rule dvd_trans, rule gcd_dvd2, rule gcd_dvd2)
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	427	apply (rule gcd_greatest, assumption, erule gcd_greatest, assumption)
59009 348561aa3869 generalized lemmas (particularly concerning dvd) as far as appropriate haftmann parents: 58953 diff changeset	428	apply simp
58023 62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	429	done
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	430
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	431	lemma comp_fun_idem_gcd: "comp_fun_idem gcd"
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	432	proof
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	433	fix a b show "gcd a \<circ> gcd b = gcd b \<circ> gcd a"
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	434	by (simp add: fun_eq_iff ac_simps)
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	435	next
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	436	fix a show "gcd a \<circ> gcd a = gcd a"
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	437	by (simp add: fun_eq_iff gcd_left_idem)
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	438	qed
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	439
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	440	lemma coprime_dvd_mult:
60430 ce559c850a27 standardized algebraic conventions: prefer a, b, c over x, y, z haftmann parents: 59061 diff changeset	441	assumes "gcd c b = 1" and "c dvd a * b"
ce559c850a27 standardized algebraic conventions: prefer a, b, c over x, y, z haftmann parents: 59061 diff changeset	442	shows "c dvd a"
58023 62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	443	proof -
60634 e3b6e516608b separate (semi)ring with normalization haftmann parents: 60600 diff changeset	444	let ?nf = "unit_factor"
60430 ce559c850a27 standardized algebraic conventions: prefer a, b, c over x, y, z haftmann parents: 59061 diff changeset	445	from assms gcd_mult_distrib [of a c b]
ce559c850a27 standardized algebraic conventions: prefer a, b, c over x, y, z haftmann parents: 59061 diff changeset	446	have A: "a = gcd (a * c) (a * b) * ?nf a" by simp
60526 fad653acf58f isabelle update_cartouches; wenzelm parents: 60517 diff changeset	447	from \<open>c dvd a * b\<close> show ?thesis by (subst A, simp_all add: gcd_greatest)
58023 62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	448	qed
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	449
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	450	lemma coprime_dvd_mult_iff:
60430 ce559c850a27 standardized algebraic conventions: prefer a, b, c over x, y, z haftmann parents: 59061 diff changeset	451	"gcd c b = 1 \<Longrightarrow> (c dvd a * b) = (c dvd a)"
58023 62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	452	by (rule, rule coprime_dvd_mult, simp_all)
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	453
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	454	lemma gcd_dvd_antisym:
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	455	"gcd a b dvd gcd c d \<Longrightarrow> gcd c d dvd gcd a b \<Longrightarrow> gcd a b = gcd c d"
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	456	proof (rule gcdI)
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	457	assume A: "gcd a b dvd gcd c d" and B: "gcd c d dvd gcd a b"
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	458	have "gcd c d dvd c" by simp
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	459	with A show "gcd a b dvd c" by (rule dvd_trans)
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	460	have "gcd c d dvd d" by simp
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	461	with A show "gcd a b dvd d" by (rule dvd_trans)
60688 01488b559910 avoid explicit definition of the relation of associated elements in a ring -- prefer explicit normalization instead haftmann parents: 60687 diff changeset	462	show "normalize (gcd a b) = gcd a b"
59009 348561aa3869 generalized lemmas (particularly concerning dvd) as far as appropriate haftmann parents: 58953 diff changeset	463	by simp
58023 62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	464	fix l assume "l dvd c" and "l dvd d"
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	465	hence "l dvd gcd c d" by (rule gcd_greatest)
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	466	from this and B show "l dvd gcd a b" by (rule dvd_trans)
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	467	qed
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	468
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	469	lemma gcd_mult_cancel:
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	470	assumes "gcd k n = 1"
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	471	shows "gcd (k * m) n = gcd m n"
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	472	proof (rule gcd_dvd_antisym)
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	473	have "gcd (gcd (k * m) n) k = gcd (gcd k n) (k * m)" by (simp add: ac_simps)
60526 fad653acf58f isabelle update_cartouches; wenzelm parents: 60517 diff changeset	474	also note \<open>gcd k n = 1\<close>
58023 62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	475	finally have "gcd (gcd (k * m) n) k = 1" by simp
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	476	hence "gcd (k * m) n dvd m" by (rule coprime_dvd_mult, simp add: ac_simps)
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	477	moreover have "gcd (k * m) n dvd n" by simp
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	478	ultimately show "gcd (k * m) n dvd gcd m n" by (rule gcd_greatest)
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	479	have "gcd m n dvd (k * m)" and "gcd m n dvd n" by simp_all
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	480	then show "gcd m n dvd gcd (k * m) n" by (rule gcd_greatest)
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	481	qed
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	482
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	483	lemma coprime_crossproduct:
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	484	assumes [simp]: "gcd a d = 1" "gcd b c = 1"
60688 01488b559910 avoid explicit definition of the relation of associated elements in a ring -- prefer explicit normalization instead haftmann parents: 60687 diff changeset	485	shows "normalize (a * c) = normalize (b * d) \<longleftrightarrow> normalize a = normalize b \<and> normalize c = normalize d"
01488b559910 avoid explicit definition of the relation of associated elements in a ring -- prefer explicit normalization instead haftmann parents: 60687 diff changeset	486	(is "?lhs \<longleftrightarrow> ?rhs")
58023 62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	487	proof
60688 01488b559910 avoid explicit definition of the relation of associated elements in a ring -- prefer explicit normalization instead haftmann parents: 60687 diff changeset	488	assume ?rhs
01488b559910 avoid explicit definition of the relation of associated elements in a ring -- prefer explicit normalization instead haftmann parents: 60687 diff changeset	489	then have "a dvd b" "b dvd a" "c dvd d" "d dvd c" by (simp_all add: associated_iff_dvd)
01488b559910 avoid explicit definition of the relation of associated elements in a ring -- prefer explicit normalization instead haftmann parents: 60687 diff changeset	490	then have "a * c dvd b * d" "b * d dvd a * c" by (fast intro: mult_dvd_mono)+
01488b559910 avoid explicit definition of the relation of associated elements in a ring -- prefer explicit normalization instead haftmann parents: 60687 diff changeset	491	then show ?lhs by (simp add: associated_iff_dvd)
58023 62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	492	next
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	493	assume ?lhs
60688 01488b559910 avoid explicit definition of the relation of associated elements in a ring -- prefer explicit normalization instead haftmann parents: 60687 diff changeset	494	then have dvd: "a * c dvd b * d" "b * d dvd a * c" by (simp_all add: associated_iff_dvd)
01488b559910 avoid explicit definition of the relation of associated elements in a ring -- prefer explicit normalization instead haftmann parents: 60687 diff changeset	495	then have "a dvd b * d" by (metis dvd_mult_left)
58023 62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	496	hence "a dvd b" by (simp add: coprime_dvd_mult_iff)
60688 01488b559910 avoid explicit definition of the relation of associated elements in a ring -- prefer explicit normalization instead haftmann parents: 60687 diff changeset	497	moreover from dvd have "b dvd a * c" by (metis dvd_mult_left)
58023 62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	498	hence "b dvd a" by (simp add: coprime_dvd_mult_iff)
60688 01488b559910 avoid explicit definition of the relation of associated elements in a ring -- prefer explicit normalization instead haftmann parents: 60687 diff changeset	499	moreover from dvd have "c dvd d * b"
01488b559910 avoid explicit definition of the relation of associated elements in a ring -- prefer explicit normalization instead haftmann parents: 60687 diff changeset	500	by (auto dest: dvd_mult_right simp add: ac_simps)
58023 62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	501	hence "c dvd d" by (simp add: coprime_dvd_mult_iff gcd.commute)
60688 01488b559910 avoid explicit definition of the relation of associated elements in a ring -- prefer explicit normalization instead haftmann parents: 60687 diff changeset	502	moreover from dvd have "d dvd c * a"
01488b559910 avoid explicit definition of the relation of associated elements in a ring -- prefer explicit normalization instead haftmann parents: 60687 diff changeset	503	by (auto dest: dvd_mult_right simp add: ac_simps)
58023 62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	504	hence "d dvd c" by (simp add: coprime_dvd_mult_iff gcd.commute)
60688 01488b559910 avoid explicit definition of the relation of associated elements in a ring -- prefer explicit normalization instead haftmann parents: 60687 diff changeset	505	ultimately show ?rhs by (simp add: associated_iff_dvd)
58023 62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	506	qed
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	507
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	508	lemma gcd_add1 [simp]:
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	509	"gcd (m + n) n = gcd m n"
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	510	by (cases "n = 0", simp_all add: gcd_non_0)
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	511
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	512	lemma gcd_add2 [simp]:
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	513	"gcd m (m + n) = gcd m n"
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	514	using gcd_add1 [of n m] by (simp add: ac_simps)
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	515
60572 718b1ba06429 streamlined definitions and primitive lemma of euclidean algorithm, including code generation haftmann parents: 60571 diff changeset	516	lemma gcd_add_mult:
718b1ba06429 streamlined definitions and primitive lemma of euclidean algorithm, including code generation haftmann parents: 60571 diff changeset	517	"gcd m (k * m + n) = gcd m n"
718b1ba06429 streamlined definitions and primitive lemma of euclidean algorithm, including code generation haftmann parents: 60571 diff changeset	518	proof -
718b1ba06429 streamlined definitions and primitive lemma of euclidean algorithm, including code generation haftmann parents: 60571 diff changeset	519	have "gcd m ((k * m + n) mod m) = gcd m (k * m + n)"
718b1ba06429 streamlined definitions and primitive lemma of euclidean algorithm, including code generation haftmann parents: 60571 diff changeset	520	by (fact gcd_mod2)
718b1ba06429 streamlined definitions and primitive lemma of euclidean algorithm, including code generation haftmann parents: 60571 diff changeset	521	then show ?thesis by simp
718b1ba06429 streamlined definitions and primitive lemma of euclidean algorithm, including code generation haftmann parents: 60571 diff changeset	522	qed
58023 62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	523
60430 ce559c850a27 standardized algebraic conventions: prefer a, b, c over x, y, z haftmann parents: 59061 diff changeset	524	lemma coprimeI: "(\<And>l. \<lbrakk>l dvd a; l dvd b\<rbrakk> \<Longrightarrow> l dvd 1) \<Longrightarrow> gcd a b = 1"
58023 62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	525	by (rule sym, rule gcdI, simp_all)
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	526
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	527	lemma coprime: "gcd a b = 1 \<longleftrightarrow> (\<forall>d. d dvd a \<and> d dvd b \<longleftrightarrow> is_unit d)"
59061 67771d267ff2 prefer abbrev for is_unit haftmann parents: 59010 diff changeset	528	by (auto intro: coprimeI gcd_greatest dvd_gcd_D1 dvd_gcd_D2)
58023 62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	529
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	530	lemma div_gcd_coprime:
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	531	assumes nz: "a \<noteq> 0 \<or> b \<noteq> 0"
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	532	defines [simp]: "d \<equiv> gcd a b"
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	533	defines [simp]: "a' \<equiv> a div d" and [simp]: "b' \<equiv> b div d"
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	534	shows "gcd a' b' = 1"
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	535	proof (rule coprimeI)
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	536	fix l assume "l dvd a'" "l dvd b'"
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	537	then obtain s t where "a' = l * s" "b' = l * t" unfolding dvd_def by blast
59009 348561aa3869 generalized lemmas (particularly concerning dvd) as far as appropriate haftmann parents: 58953 diff changeset	538	moreover have "a = a' * d" "b = b' * d" by simp_all
58023 62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	539	ultimately have "a = (l * d) * s" "b = (l * d) * t"
59009 348561aa3869 generalized lemmas (particularly concerning dvd) as far as appropriate haftmann parents: 58953 diff changeset	540	by (simp_all only: ac_simps)
58023 62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	541	hence "ld dvd a" and "ld dvd b" by (simp_all only: dvd_triv_left)
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	542	hence "l*d dvd d" by (simp add: gcd_greatest)
59009 348561aa3869 generalized lemmas (particularly concerning dvd) as far as appropriate haftmann parents: 58953 diff changeset	543	then obtain u where "d = l * d * u" ..
348561aa3869 generalized lemmas (particularly concerning dvd) as far as appropriate haftmann parents: 58953 diff changeset	544	then have "d * (l * u) = d" by (simp add: ac_simps)
348561aa3869 generalized lemmas (particularly concerning dvd) as far as appropriate haftmann parents: 58953 diff changeset	545	moreover from nz have "d \<noteq> 0" by simp
348561aa3869 generalized lemmas (particularly concerning dvd) as far as appropriate haftmann parents: 58953 diff changeset	546	with div_mult_self1_is_id have "d * (l * u) div d = l * u" .
348561aa3869 generalized lemmas (particularly concerning dvd) as far as appropriate haftmann parents: 58953 diff changeset	547	ultimately have "1 = l * u"
60526 fad653acf58f isabelle update_cartouches; wenzelm parents: 60517 diff changeset	548	using \<open>d \<noteq> 0\<close> by simp
59009 348561aa3869 generalized lemmas (particularly concerning dvd) as far as appropriate haftmann parents: 58953 diff changeset	549	then show "l dvd 1" ..
58023 62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	550	qed
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	551
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	552	lemma coprime_mult:
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	553	assumes da: "gcd d a = 1" and db: "gcd d b = 1"
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	554	shows "gcd d (a * b) = 1"
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	555	apply (subst gcd.commute)
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	556	using da apply (subst gcd_mult_cancel)
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	557	apply (subst gcd.commute, assumption)
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	558	apply (subst gcd.commute, rule db)
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	559	done
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	560
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	561	lemma coprime_lmult:
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	562	assumes dab: "gcd d (a * b) = 1"
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	563	shows "gcd d a = 1"
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	564	proof (rule coprimeI)
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	565	fix l assume "l dvd d" and "l dvd a"
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	566	hence "l dvd a * b" by simp
60526 fad653acf58f isabelle update_cartouches; wenzelm parents: 60517 diff changeset	567	with \<open>l dvd d\<close> and dab show "l dvd 1" by (auto intro: gcd_greatest)
58023 62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	568	qed
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	569
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	570	lemma coprime_rmult:
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	571	assumes dab: "gcd d (a * b) = 1"
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	572	shows "gcd d b = 1"
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	573	proof (rule coprimeI)
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	574	fix l assume "l dvd d" and "l dvd b"
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	575	hence "l dvd a * b" by simp
60526 fad653acf58f isabelle update_cartouches; wenzelm parents: 60517 diff changeset	576	with \<open>l dvd d\<close> and dab show "l dvd 1" by (auto intro: gcd_greatest)
58023 62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	577	qed
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	578
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	579	lemma coprime_mul_eq: "gcd d (a * b) = 1 \<longleftrightarrow> gcd d a = 1 \<and> gcd d b = 1"
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	580	using coprime_rmult[of d a b] coprime_lmult[of d a b] coprime_mult[of d a b] by blast
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	581
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	582	lemma gcd_coprime:
60430 ce559c850a27 standardized algebraic conventions: prefer a, b, c over x, y, z haftmann parents: 59061 diff changeset	583	assumes c: "gcd a b \<noteq> 0" and a: "a = a' * gcd a b" and b: "b = b' * gcd a b"
58023 62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	584	shows "gcd a' b' = 1"
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	585	proof -
60430 ce559c850a27 standardized algebraic conventions: prefer a, b, c over x, y, z haftmann parents: 59061 diff changeset	586	from c have "a \<noteq> 0 \<or> b \<noteq> 0" by simp
58023 62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	587	with div_gcd_coprime have "gcd (a div gcd a b) (b div gcd a b) = 1" .
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	588	also from assms have "a div gcd a b = a'" by (metis div_mult_self2_is_id)+
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	589	also from assms have "b div gcd a b = b'" by (metis div_mult_self2_is_id)+
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	590	finally show ?thesis .
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	591	qed
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	592
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	593	lemma coprime_power:
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	594	assumes "0 < n"
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	595	shows "gcd a (b ^ n) = 1 \<longleftrightarrow> gcd a b = 1"
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	596	using assms proof (induct n)
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	597	case (Suc n) then show ?case
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	598	by (cases n) (simp_all add: coprime_mul_eq)
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	599	qed simp
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	600
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	601	lemma gcd_coprime_exists:
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	602	assumes nz: "gcd a b \<noteq> 0"
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	603	shows "\<exists>a' b'. a = a' * gcd a b \<and> b = b' * gcd a b \<and> gcd a' b' = 1"
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	604	apply (rule_tac x = "a div gcd a b" in exI)
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	605	apply (rule_tac x = "b div gcd a b" in exI)
59009 348561aa3869 generalized lemmas (particularly concerning dvd) as far as appropriate haftmann parents: 58953 diff changeset	606	apply (insert nz, auto intro: div_gcd_coprime)
58023 62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	607	done
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	608
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	609	lemma coprime_exp:
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	610	"gcd d a = 1 \<Longrightarrow> gcd d (a^n) = 1"
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	611	by (induct n, simp_all add: coprime_mult)
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	612
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	613	lemma coprime_exp2 [intro]:
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	614	"gcd a b = 1 \<Longrightarrow> gcd (a^n) (b^m) = 1"
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	615	apply (rule coprime_exp)
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	616	apply (subst gcd.commute)
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	617	apply (rule coprime_exp)
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	618	apply (subst gcd.commute)
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	619	apply assumption
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	620	done
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	621
60688 01488b559910 avoid explicit definition of the relation of associated elements in a ring -- prefer explicit normalization instead haftmann parents: 60687 diff changeset	622	lemma lcm_gcd:
01488b559910 avoid explicit definition of the relation of associated elements in a ring -- prefer explicit normalization instead haftmann parents: 60687 diff changeset	623	"lcm a b = normalize (a * b) div gcd a b"
01488b559910 avoid explicit definition of the relation of associated elements in a ring -- prefer explicit normalization instead haftmann parents: 60687 diff changeset	624	by (simp add: lcm_lcm_eucl gcd_gcd_eucl lcm_eucl_def)
01488b559910 avoid explicit definition of the relation of associated elements in a ring -- prefer explicit normalization instead haftmann parents: 60687 diff changeset	625
01488b559910 avoid explicit definition of the relation of associated elements in a ring -- prefer explicit normalization instead haftmann parents: 60687 diff changeset	626	subclass semiring_gcd
01488b559910 avoid explicit definition of the relation of associated elements in a ring -- prefer explicit normalization instead haftmann parents: 60687 diff changeset	627	apply standard
01488b559910 avoid explicit definition of the relation of associated elements in a ring -- prefer explicit normalization instead haftmann parents: 60687 diff changeset	628	using gcd_right_idem
01488b559910 avoid explicit definition of the relation of associated elements in a ring -- prefer explicit normalization instead haftmann parents: 60687 diff changeset	629	apply (simp_all add: lcm_gcd gcd_greatest_iff gcd_proj1_if_dvd)
01488b559910 avoid explicit definition of the relation of associated elements in a ring -- prefer explicit normalization instead haftmann parents: 60687 diff changeset	630	done
01488b559910 avoid explicit definition of the relation of associated elements in a ring -- prefer explicit normalization instead haftmann parents: 60687 diff changeset	631
58023 62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	632	lemma gcd_exp:
60688 01488b559910 avoid explicit definition of the relation of associated elements in a ring -- prefer explicit normalization instead haftmann parents: 60687 diff changeset	633	"gcd (a ^ n) (b ^ n) = gcd a b ^ n"
58023 62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	634	proof (cases "a = 0 \<and> b = 0")
60688 01488b559910 avoid explicit definition of the relation of associated elements in a ring -- prefer explicit normalization instead haftmann parents: 60687 diff changeset	635	case True
01488b559910 avoid explicit definition of the relation of associated elements in a ring -- prefer explicit normalization instead haftmann parents: 60687 diff changeset	636	then show ?thesis by (cases n) simp_all
58023 62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	637	next
60688 01488b559910 avoid explicit definition of the relation of associated elements in a ring -- prefer explicit normalization instead haftmann parents: 60687 diff changeset	638	case False
01488b559910 avoid explicit definition of the relation of associated elements in a ring -- prefer explicit normalization instead haftmann parents: 60687 diff changeset	639	then have "1 = gcd ((a div gcd a b) ^ n) ((b div gcd a b) ^ n)"
01488b559910 avoid explicit definition of the relation of associated elements in a ring -- prefer explicit normalization instead haftmann parents: 60687 diff changeset	640	using div_gcd_coprime by (subst sym) (auto simp: div_gcd_coprime)
01488b559910 avoid explicit definition of the relation of associated elements in a ring -- prefer explicit normalization instead haftmann parents: 60687 diff changeset	641	then have "gcd a b ^ n = gcd a b ^ n * ..." by simp
58023 62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	642	also note gcd_mult_distrib
60688 01488b559910 avoid explicit definition of the relation of associated elements in a ring -- prefer explicit normalization instead haftmann parents: 60687 diff changeset	643	also have "unit_factor (gcd a b ^ n) = 1"
01488b559910 avoid explicit definition of the relation of associated elements in a ring -- prefer explicit normalization instead haftmann parents: 60687 diff changeset	644	using False by (auto simp add: unit_factor_power unit_factor_gcd)
58023 62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	645	also have "(gcd a b)^n * (a div gcd a b)^n = a^n"
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	646	by (subst ac_simps, subst div_power, simp, rule dvd_div_mult_self, rule dvd_power_same, simp)
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	647	also have "(gcd a b)^n * (b div gcd a b)^n = b^n"
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	648	by (subst ac_simps, subst div_power, simp, rule dvd_div_mult_self, rule dvd_power_same, simp)
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	649	finally show ?thesis by simp
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	650	qed
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	651
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	652	lemma coprime_common_divisor:
60430 ce559c850a27 standardized algebraic conventions: prefer a, b, c over x, y, z haftmann parents: 59061 diff changeset	653	"gcd a b = 1 \<Longrightarrow> a dvd a \<Longrightarrow> a dvd b \<Longrightarrow> is_unit a"
ce559c850a27 standardized algebraic conventions: prefer a, b, c over x, y, z haftmann parents: 59061 diff changeset	654	apply (subgoal_tac "a dvd gcd a b")
59061 67771d267ff2 prefer abbrev for is_unit haftmann parents: 59010 diff changeset	655	apply simp
58023 62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	656	apply (erule (1) gcd_greatest)
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	657	done
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	658
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	659	lemma division_decomp:
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	660	assumes dc: "a dvd b * c"
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	661	shows "\<exists>b' c'. a = b' * c' \<and> b' dvd b \<and> c' dvd c"
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	662	proof (cases "gcd a b = 0")
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	663	assume "gcd a b = 0"
59009 348561aa3869 generalized lemmas (particularly concerning dvd) as far as appropriate haftmann parents: 58953 diff changeset	664	hence "a = 0 \<and> b = 0" by simp
58023 62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	665	hence "a = 0 * c \<and> 0 dvd b \<and> c dvd c" by simp
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	666	then show ?thesis by blast
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	667	next
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	668	let ?d = "gcd a b"
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	669	assume "?d \<noteq> 0"
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	670	from gcd_coprime_exists[OF this]
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	671	obtain a' b' where ab': "a = a' * ?d" "b = b' * ?d" "gcd a' b' = 1"
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	672	by blast
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	673	from ab'(1) have "a' dvd a" unfolding dvd_def by blast
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	674	with dc have "a' dvd bc" using dvd_trans[of a' a "bc"] by simp
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	675	from dc ab'(1,2) have "a'?d dvd (b'?d) * c" by simp
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	676	hence "?d * a' dvd ?d * (b' * c)" by (simp add: mult_ac)
60526 fad653acf58f isabelle update_cartouches; wenzelm parents: 60517 diff changeset	677	with \<open>?d \<noteq> 0\<close> have "a' dvd b' * c" by simp
58023 62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	678	with coprime_dvd_mult[OF ab'(3)]
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	679	have "a' dvd c" by (subst (asm) ac_simps, blast)
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	680	with ab'(1) have "a = ?d * a' \<and> ?d dvd b \<and> a' dvd c" by (simp add: mult_ac)
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	681	then show ?thesis by blast
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	682	qed
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	683
60433 720f210c5b1d tuned lemmas and proofs haftmann parents: 60432 diff changeset	684	lemma pow_divs_pow:
58023 62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	685	assumes ab: "a ^ n dvd b ^ n" and n: "n \<noteq> 0"
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	686	shows "a dvd b"
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	687	proof (cases "gcd a b = 0")
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	688	assume "gcd a b = 0"
59009 348561aa3869 generalized lemmas (particularly concerning dvd) as far as appropriate haftmann parents: 58953 diff changeset	689	then show ?thesis by simp
58023 62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	690	next
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	691	let ?d = "gcd a b"
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	692	assume "?d \<noteq> 0"
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	693	from n obtain m where m: "n = Suc m" by (cases n, simp_all)
60526 fad653acf58f isabelle update_cartouches; wenzelm parents: 60517 diff changeset	694	from \<open>?d \<noteq> 0\<close> have zn: "?d ^ n \<noteq> 0" by (rule power_not_zero)
fad653acf58f isabelle update_cartouches; wenzelm parents: 60517 diff changeset	695	from gcd_coprime_exists[OF \<open>?d \<noteq> 0\<close>]
58023 62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	696	obtain a' b' where ab': "a = a' * ?d" "b = b' * ?d" "gcd a' b' = 1"
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	697	by blast
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	698	from ab have "(a' * ?d) ^ n dvd (b' * ?d) ^ n"
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	699	by (simp add: ab'(1,2)[symmetric])
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	700	hence "?d^n * a'^n dvd ?d^n * b'^n"
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	701	by (simp only: power_mult_distrib ac_simps)
59009 348561aa3869 generalized lemmas (particularly concerning dvd) as far as appropriate haftmann parents: 58953 diff changeset	702	with zn have "a'^n dvd b'^n" by simp
58023 62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	703	hence "a' dvd b'^n" using dvd_trans[of a' "a'^n" "b'^n"] by (simp add: m)
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	704	hence "a' dvd b'^m * b'" by (simp add: m ac_simps)
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	705	with coprime_dvd_mult[OF coprime_exp[OF ab'(3), of m]]
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	706	have "a' dvd b'" by (subst (asm) ac_simps, blast)
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	707	hence "a'?d dvd b'?d" by (rule mult_dvd_mono, simp)
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	708	with ab'(1,2) show ?thesis by simp
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	709	qed
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	710
60433 720f210c5b1d tuned lemmas and proofs haftmann parents: 60432 diff changeset	711	lemma pow_divs_eq [simp]:
58023 62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	712	"n \<noteq> 0 \<Longrightarrow> a ^ n dvd b ^ n \<longleftrightarrow> a dvd b"
60433 720f210c5b1d tuned lemmas and proofs haftmann parents: 60432 diff changeset	713	by (auto intro: pow_divs_pow dvd_power_same)
58023 62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	714
60433 720f210c5b1d tuned lemmas and proofs haftmann parents: 60432 diff changeset	715	lemma divs_mult:
58023 62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	716	assumes mr: "m dvd r" and nr: "n dvd r" and mn: "gcd m n = 1"
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	717	shows "m * n dvd r"
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	718	proof -
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	719	from mr nr obtain m' n' where m': "r = mm'" and n': "r = nn'"
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	720	unfolding dvd_def by blast
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	721	from mr n' have "m dvd n'*n" by (simp add: ac_simps)
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	722	hence "m dvd n'" using coprime_dvd_mult_iff[OF mn] by simp
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	723	then obtain k where k: "n' = m*k" unfolding dvd_def by blast
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	724	with n' have "r = m * n * k" by (simp add: mult_ac)
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	725	then show ?thesis unfolding dvd_def by blast
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	726	qed
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	727
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	728	lemma coprime_plus_one [simp]: "gcd (n + 1) n = 1"
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	729	by (subst add_commute, simp)
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	730
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	731	lemma setprod_coprime [rule_format]:
60430 ce559c850a27 standardized algebraic conventions: prefer a, b, c over x, y, z haftmann parents: 59061 diff changeset	732	"(\<forall>i\<in>A. gcd (f i) a = 1) \<longrightarrow> gcd (\<Prod>i\<in>A. f i) a = 1"
58023 62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	733	apply (cases "finite A")
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	734	apply (induct set: finite)
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	735	apply (auto simp add: gcd_mult_cancel)
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	736	done
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	737
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	738	lemma coprime_divisors:
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	739	assumes "d dvd a" "e dvd b" "gcd a b = 1"
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	740	shows "gcd d e = 1"
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	741	proof -
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	742	from assms obtain k l where "a = d * k" "b = e * l"
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	743	unfolding dvd_def by blast
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	744	with assms have "gcd (d * k) (e * l) = 1" by simp
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	745	hence "gcd (d * k) e = 1" by (rule coprime_lmult)
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	746	also have "gcd (d * k) e = gcd e (d * k)" by (simp add: ac_simps)
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	747	finally have "gcd e d = 1" by (rule coprime_lmult)
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	748	then show ?thesis by (simp add: ac_simps)
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	749	qed
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	750
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	751	lemma invertible_coprime:
60430 ce559c850a27 standardized algebraic conventions: prefer a, b, c over x, y, z haftmann parents: 59061 diff changeset	752	assumes "a * b mod m = 1"
ce559c850a27 standardized algebraic conventions: prefer a, b, c over x, y, z haftmann parents: 59061 diff changeset	753	shows "coprime a m"
59009 348561aa3869 generalized lemmas (particularly concerning dvd) as far as appropriate haftmann parents: 58953 diff changeset	754	proof -
60430 ce559c850a27 standardized algebraic conventions: prefer a, b, c over x, y, z haftmann parents: 59061 diff changeset	755	from assms have "coprime m (a * b mod m)"
59009 348561aa3869 generalized lemmas (particularly concerning dvd) as far as appropriate haftmann parents: 58953 diff changeset	756	by simp
60430 ce559c850a27 standardized algebraic conventions: prefer a, b, c over x, y, z haftmann parents: 59061 diff changeset	757	then have "coprime m (a * b)"
59009 348561aa3869 generalized lemmas (particularly concerning dvd) as far as appropriate haftmann parents: 58953 diff changeset	758	by simp
60430 ce559c850a27 standardized algebraic conventions: prefer a, b, c over x, y, z haftmann parents: 59061 diff changeset	759	then have "coprime m a"
59009 348561aa3869 generalized lemmas (particularly concerning dvd) as far as appropriate haftmann parents: 58953 diff changeset	760	by (rule coprime_lmult)
348561aa3869 generalized lemmas (particularly concerning dvd) as far as appropriate haftmann parents: 58953 diff changeset	761	then show ?thesis
348561aa3869 generalized lemmas (particularly concerning dvd) as far as appropriate haftmann parents: 58953 diff changeset	762	by (simp add: ac_simps)
348561aa3869 generalized lemmas (particularly concerning dvd) as far as appropriate haftmann parents: 58953 diff changeset	763	qed
58023 62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	764
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	765	lemma lcm_gcd_prod:
60634 e3b6e516608b separate (semi)ring with normalization haftmann parents: 60600 diff changeset	766	"lcm a b * gcd a b = normalize (a * b)"
e3b6e516608b separate (semi)ring with normalization haftmann parents: 60600 diff changeset	767	by (simp add: lcm_gcd)
58023 62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	768
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	769	lemma lcm_zero:
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	770	"lcm a b = 0 \<longleftrightarrow> a = 0 \<or> b = 0"
60687 33dbbcb6a8a3 eliminated some duplication haftmann parents: 60686 diff changeset	771	by (fact lcm_eq_0_iff)
58023 62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	772
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	773	lemmas lcm_0_iff = lcm_zero
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	774
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	775	lemma gcd_lcm:
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	776	assumes "lcm a b \<noteq> 0"
60634 e3b6e516608b separate (semi)ring with normalization haftmann parents: 60600 diff changeset	777	shows "gcd a b = normalize (a * b) div lcm a b"
e3b6e516608b separate (semi)ring with normalization haftmann parents: 60600 diff changeset	778	proof -
e3b6e516608b separate (semi)ring with normalization haftmann parents: 60600 diff changeset	779	have "lcm a b * gcd a b = normalize (a * b)"
e3b6e516608b separate (semi)ring with normalization haftmann parents: 60600 diff changeset	780	by (fact lcm_gcd_prod)
e3b6e516608b separate (semi)ring with normalization haftmann parents: 60600 diff changeset	781	with assms show ?thesis
e3b6e516608b separate (semi)ring with normalization haftmann parents: 60600 diff changeset	782	by (metis nonzero_mult_divide_cancel_left)
58023 62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	783	qed
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	784
60687 33dbbcb6a8a3 eliminated some duplication haftmann parents: 60686 diff changeset	785	declare unit_factor_lcm [simp]
58023 62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	786
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	787	lemma lcmI:
60634 e3b6e516608b separate (semi)ring with normalization haftmann parents: 60600 diff changeset	788	assumes "a dvd c" and "b dvd c" and "\<And>d. a dvd d \<Longrightarrow> b dvd d \<Longrightarrow> c dvd d"
60688 01488b559910 avoid explicit definition of the relation of associated elements in a ring -- prefer explicit normalization instead haftmann parents: 60687 diff changeset	789	and "normalize c = c"
60634 e3b6e516608b separate (semi)ring with normalization haftmann parents: 60600 diff changeset	790	shows "c = lcm a b"
60688 01488b559910 avoid explicit definition of the relation of associated elements in a ring -- prefer explicit normalization instead haftmann parents: 60687 diff changeset	791	by (rule associated_eqI) (auto simp: assms intro: lcm_least)
58023 62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	792
61605 1bf7b186542e qualifier is mandatory by default; wenzelm parents: 60690 diff changeset	793	sublocale lcm: abel_semigroup lcm ..
58023 62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	794
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	795	lemma dvd_lcm_D1:
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	796	"lcm m n dvd k \<Longrightarrow> m dvd k"
60690 a9e45c9588c3 tuned facts haftmann parents: 60688 diff changeset	797	by (rule dvd_trans, rule dvd_lcm1, assumption)
58023 62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	798
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	799	lemma dvd_lcm_D2:
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	800	"lcm m n dvd k \<Longrightarrow> n dvd k"
60690 a9e45c9588c3 tuned facts haftmann parents: 60688 diff changeset	801	by (rule dvd_trans, rule dvd_lcm2, assumption)
58023 62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	802
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	803	lemma gcd_dvd_lcm [simp]:
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	804	"gcd a b dvd lcm a b"
60690 a9e45c9588c3 tuned facts haftmann parents: 60688 diff changeset	805	using gcd_dvd2 by (rule dvd_lcmI2)
58023 62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	806
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	807	lemma lcm_1_iff:
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	808	"lcm a b = 1 \<longleftrightarrow> is_unit a \<and> is_unit b"
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	809	proof
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	810	assume "lcm a b = 1"
59061 67771d267ff2 prefer abbrev for is_unit haftmann parents: 59010 diff changeset	811	then show "is_unit a \<and> is_unit b" by auto
58023 62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	812	next
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	813	assume "is_unit a \<and> is_unit b"
59061 67771d267ff2 prefer abbrev for is_unit haftmann parents: 59010 diff changeset	814	hence "a dvd 1" and "b dvd 1" by simp_all
67771d267ff2 prefer abbrev for is_unit haftmann parents: 59010 diff changeset	815	hence "is_unit (lcm a b)" by (rule lcm_least)
60634 e3b6e516608b separate (semi)ring with normalization haftmann parents: 60600 diff changeset	816	hence "lcm a b = unit_factor (lcm a b)"
e3b6e516608b separate (semi)ring with normalization haftmann parents: 60600 diff changeset	817	by (blast intro: sym is_unit_unit_factor)
60526 fad653acf58f isabelle update_cartouches; wenzelm parents: 60517 diff changeset	818	also have "\<dots> = 1" using \<open>is_unit a \<and> is_unit b\<close>
59061 67771d267ff2 prefer abbrev for is_unit haftmann parents: 59010 diff changeset	819	by auto
58023 62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	820	finally show "lcm a b = 1" .
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	821	qed
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	822
60687 33dbbcb6a8a3 eliminated some duplication haftmann parents: 60686 diff changeset	823	lemma lcm_0:
60430 ce559c850a27 standardized algebraic conventions: prefer a, b, c over x, y, z haftmann parents: 59061 diff changeset	824	"lcm a 0 = 0"
60687 33dbbcb6a8a3 eliminated some duplication haftmann parents: 60686 diff changeset	825	by (fact lcm_0_right)
58023 62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	826
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	827	lemma lcm_unique:
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	828	"a dvd d \<and> b dvd d \<and>
60688 01488b559910 avoid explicit definition of the relation of associated elements in a ring -- prefer explicit normalization instead haftmann parents: 60687 diff changeset	829	normalize d = d \<and>
58023 62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	830	(\<forall>e. a dvd e \<and> b dvd e \<longrightarrow> d dvd e) \<longleftrightarrow> d = lcm a b"
60688 01488b559910 avoid explicit definition of the relation of associated elements in a ring -- prefer explicit normalization instead haftmann parents: 60687 diff changeset	831	by rule (auto intro: lcmI simp: lcm_least lcm_zero)
58023 62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	832
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	833	lemma lcm_coprime:
60634 e3b6e516608b separate (semi)ring with normalization haftmann parents: 60600 diff changeset	834	"gcd a b = 1 \<Longrightarrow> lcm a b = normalize (a * b)"
58023 62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	835	by (subst lcm_gcd) simp
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	836
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	837	lemma lcm_proj1_if_dvd:
60634 e3b6e516608b separate (semi)ring with normalization haftmann parents: 60600 diff changeset	838	"b dvd a \<Longrightarrow> lcm a b = normalize a"
60430 ce559c850a27 standardized algebraic conventions: prefer a, b, c over x, y, z haftmann parents: 59061 diff changeset	839	by (cases "a = 0") (simp, rule sym, rule lcmI, simp_all)
58023 62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	840
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	841	lemma lcm_proj2_if_dvd:
60634 e3b6e516608b separate (semi)ring with normalization haftmann parents: 60600 diff changeset	842	"a dvd b \<Longrightarrow> lcm a b = normalize b"
60430 ce559c850a27 standardized algebraic conventions: prefer a, b, c over x, y, z haftmann parents: 59061 diff changeset	843	using lcm_proj1_if_dvd [of a b] by (simp add: ac_simps)
58023 62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	844
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	845	lemma lcm_proj1_iff:
60634 e3b6e516608b separate (semi)ring with normalization haftmann parents: 60600 diff changeset	846	"lcm m n = normalize m \<longleftrightarrow> n dvd m"
58023 62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	847	proof
60634 e3b6e516608b separate (semi)ring with normalization haftmann parents: 60600 diff changeset	848	assume A: "lcm m n = normalize m"
58023 62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	849	show "n dvd m"
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	850	proof (cases "m = 0")
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	851	assume [simp]: "m \<noteq> 0"
60634 e3b6e516608b separate (semi)ring with normalization haftmann parents: 60600 diff changeset	852	from A have B: "m = lcm m n * unit_factor m"
58023 62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	853	by (simp add: unit_eq_div2)
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	854	show ?thesis by (subst B, simp)
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	855	qed simp
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	856	next
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	857	assume "n dvd m"
60634 e3b6e516608b separate (semi)ring with normalization haftmann parents: 60600 diff changeset	858	then show "lcm m n = normalize m" by (rule lcm_proj1_if_dvd)
58023 62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	859	qed
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	860
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	861	lemma lcm_proj2_iff:
60634 e3b6e516608b separate (semi)ring with normalization haftmann parents: 60600 diff changeset	862	"lcm m n = normalize n \<longleftrightarrow> m dvd n"
58023 62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	863	using lcm_proj1_iff [of n m] by (simp add: ac_simps)
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	864
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	865	lemma euclidean_size_lcm_le1:
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	866	assumes "a \<noteq> 0" and "b \<noteq> 0"
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	867	shows "euclidean_size a \<le> euclidean_size (lcm a b)"
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	868	proof -
60690 a9e45c9588c3 tuned facts haftmann parents: 60688 diff changeset	869	have "a dvd lcm a b" by (rule dvd_lcm1)
a9e45c9588c3 tuned facts haftmann parents: 60688 diff changeset	870	then obtain c where A: "lcm a b = a * c" ..
60526 fad653acf58f isabelle update_cartouches; wenzelm parents: 60517 diff changeset	871	with \<open>a \<noteq> 0\<close> and \<open>b \<noteq> 0\<close> have "c \<noteq> 0" by (auto simp: lcm_zero)
58023 62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	872	then show ?thesis by (subst A, intro size_mult_mono)
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	873	qed
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	874
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	875	lemma euclidean_size_lcm_le2:
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	876	"a \<noteq> 0 \<Longrightarrow> b \<noteq> 0 \<Longrightarrow> euclidean_size b \<le> euclidean_size (lcm a b)"
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	877	using euclidean_size_lcm_le1 [of b a] by (simp add: ac_simps)
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	878
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	879	lemma euclidean_size_lcm_less1:
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	880	assumes "b \<noteq> 0" and "\<not>b dvd a"
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	881	shows "euclidean_size a < euclidean_size (lcm a b)"
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	882	proof (rule ccontr)
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	883	from assms have "a \<noteq> 0" by auto
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	884	assume "\<not>euclidean_size a < euclidean_size (lcm a b)"
60526 fad653acf58f isabelle update_cartouches; wenzelm parents: 60517 diff changeset	885	with \<open>a \<noteq> 0\<close> and \<open>b \<noteq> 0\<close> have "euclidean_size (lcm a b) = euclidean_size a"
58023 62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	886	by (intro le_antisym, simp, intro euclidean_size_lcm_le1)
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	887	with assms have "lcm a b dvd a"
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	888	by (rule_tac dvd_euclidean_size_eq_imp_dvd) (auto simp: lcm_zero)
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	889	hence "b dvd a" by (rule dvd_lcm_D2)
60526 fad653acf58f isabelle update_cartouches; wenzelm parents: 60517 diff changeset	890	with \<open>\<not>b dvd a\<close> show False by contradiction
58023 62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	891	qed
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	892
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	893	lemma euclidean_size_lcm_less2:
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	894	assumes "a \<noteq> 0" and "\<not>a dvd b"
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	895	shows "euclidean_size b < euclidean_size (lcm a b)"
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	896	using assms euclidean_size_lcm_less1 [of a b] by (simp add: ac_simps)
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	897
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	898	lemma lcm_mult_unit1:
60430 ce559c850a27 standardized algebraic conventions: prefer a, b, c over x, y, z haftmann parents: 59061 diff changeset	899	"is_unit a \<Longrightarrow> lcm (b * a) c = lcm b c"
60690 a9e45c9588c3 tuned facts haftmann parents: 60688 diff changeset	900	by (rule associated_eqI) (simp_all add: mult_unit_dvd_iff dvd_lcmI1)
58023 62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	901
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	902	lemma lcm_mult_unit2:
60430 ce559c850a27 standardized algebraic conventions: prefer a, b, c over x, y, z haftmann parents: 59061 diff changeset	903	"is_unit a \<Longrightarrow> lcm b (c * a) = lcm b c"
ce559c850a27 standardized algebraic conventions: prefer a, b, c over x, y, z haftmann parents: 59061 diff changeset	904	using lcm_mult_unit1 [of a c b] by (simp add: ac_simps)
58023 62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	905
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	906	lemma lcm_div_unit1:
60430 ce559c850a27 standardized algebraic conventions: prefer a, b, c over x, y, z haftmann parents: 59061 diff changeset	907	"is_unit a \<Longrightarrow> lcm (b div a) c = lcm b c"
60433 720f210c5b1d tuned lemmas and proofs haftmann parents: 60432 diff changeset	908	by (erule is_unitE [of _ b]) (simp add: lcm_mult_unit1)
58023 62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	909
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	910	lemma lcm_div_unit2:
60430 ce559c850a27 standardized algebraic conventions: prefer a, b, c over x, y, z haftmann parents: 59061 diff changeset	911	"is_unit a \<Longrightarrow> lcm b (c div a) = lcm b c"
60433 720f210c5b1d tuned lemmas and proofs haftmann parents: 60432 diff changeset	912	by (erule is_unitE [of _ c]) (simp add: lcm_mult_unit2)
58023 62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	913
60634 e3b6e516608b separate (semi)ring with normalization haftmann parents: 60600 diff changeset	914	lemma normalize_lcm_left [simp]:
e3b6e516608b separate (semi)ring with normalization haftmann parents: 60600 diff changeset	915	"lcm (normalize a) b = lcm a b"
e3b6e516608b separate (semi)ring with normalization haftmann parents: 60600 diff changeset	916	proof (cases "a = 0")
e3b6e516608b separate (semi)ring with normalization haftmann parents: 60600 diff changeset	917	case True then show ?thesis
e3b6e516608b separate (semi)ring with normalization haftmann parents: 60600 diff changeset	918	by simp
e3b6e516608b separate (semi)ring with normalization haftmann parents: 60600 diff changeset	919	next
e3b6e516608b separate (semi)ring with normalization haftmann parents: 60600 diff changeset	920	case False then have "is_unit (unit_factor a)"
e3b6e516608b separate (semi)ring with normalization haftmann parents: 60600 diff changeset	921	by simp
e3b6e516608b separate (semi)ring with normalization haftmann parents: 60600 diff changeset	922	moreover have "normalize a = a div unit_factor a"
e3b6e516608b separate (semi)ring with normalization haftmann parents: 60600 diff changeset	923	by simp
e3b6e516608b separate (semi)ring with normalization haftmann parents: 60600 diff changeset	924	ultimately show ?thesis
e3b6e516608b separate (semi)ring with normalization haftmann parents: 60600 diff changeset	925	by (simp only: lcm_div_unit1)
e3b6e516608b separate (semi)ring with normalization haftmann parents: 60600 diff changeset	926	qed
e3b6e516608b separate (semi)ring with normalization haftmann parents: 60600 diff changeset	927
e3b6e516608b separate (semi)ring with normalization haftmann parents: 60600 diff changeset	928	lemma normalize_lcm_right [simp]:
e3b6e516608b separate (semi)ring with normalization haftmann parents: 60600 diff changeset	929	"lcm a (normalize b) = lcm a b"
e3b6e516608b separate (semi)ring with normalization haftmann parents: 60600 diff changeset	930	using normalize_lcm_left [of b a] by (simp add: ac_simps)
e3b6e516608b separate (semi)ring with normalization haftmann parents: 60600 diff changeset	931
58023 62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	932	lemma lcm_left_idem:
60430 ce559c850a27 standardized algebraic conventions: prefer a, b, c over x, y, z haftmann parents: 59061 diff changeset	933	"lcm a (lcm a b) = lcm a b"
60690 a9e45c9588c3 tuned facts haftmann parents: 60688 diff changeset	934	by (rule associated_eqI) simp_all
58023 62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	935
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	936	lemma lcm_right_idem:
60430 ce559c850a27 standardized algebraic conventions: prefer a, b, c over x, y, z haftmann parents: 59061 diff changeset	937	"lcm (lcm a b) b = lcm a b"
60690 a9e45c9588c3 tuned facts haftmann parents: 60688 diff changeset	938	by (rule associated_eqI) simp_all
58023 62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	939
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	940	lemma comp_fun_idem_lcm: "comp_fun_idem lcm"
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	941	proof
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	942	fix a b show "lcm a \<circ> lcm b = lcm b \<circ> lcm a"
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	943	by (simp add: fun_eq_iff ac_simps)
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	944	next
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	945	fix a show "lcm a \<circ> lcm a = lcm a" unfolding o_def
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	946	by (intro ext, simp add: lcm_left_idem)
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	947	qed
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	948
60430 ce559c850a27 standardized algebraic conventions: prefer a, b, c over x, y, z haftmann parents: 59061 diff changeset	949	lemma dvd_Lcm [simp]: "a \<in> A \<Longrightarrow> a dvd Lcm A"
60634 e3b6e516608b separate (semi)ring with normalization haftmann parents: 60600 diff changeset	950	and Lcm_least: "(\<And>a. a \<in> A \<Longrightarrow> a dvd b) \<Longrightarrow> Lcm A dvd b"
e3b6e516608b separate (semi)ring with normalization haftmann parents: 60600 diff changeset	951	and unit_factor_Lcm [simp]:
e3b6e516608b separate (semi)ring with normalization haftmann parents: 60600 diff changeset	952	"unit_factor (Lcm A) = (if Lcm A = 0 then 0 else 1)"
58023 62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	953	proof -
60430 ce559c850a27 standardized algebraic conventions: prefer a, b, c over x, y, z haftmann parents: 59061 diff changeset	954	have "(\<forall>a\<in>A. a dvd Lcm A) \<and> (\<forall>l'. (\<forall>a\<in>A. a dvd l') \<longrightarrow> Lcm A dvd l') \<and>
60634 e3b6e516608b separate (semi)ring with normalization haftmann parents: 60600 diff changeset	955	unit_factor (Lcm A) = (if Lcm A = 0 then 0 else 1)" (is ?thesis)
60430 ce559c850a27 standardized algebraic conventions: prefer a, b, c over x, y, z haftmann parents: 59061 diff changeset	956	proof (cases "\<exists>l. l \<noteq> 0 \<and> (\<forall>a\<in>A. a dvd l)")
58023 62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	957	case False
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	958	hence "Lcm A = 0" by (auto simp: Lcm_Lcm_eucl Lcm_eucl_def)
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	959	with False show ?thesis by auto
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	960	next
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	961	case True
60430 ce559c850a27 standardized algebraic conventions: prefer a, b, c over x, y, z haftmann parents: 59061 diff changeset	962	then obtain l\<^sub>0 where l\<^sub>0_props: "l\<^sub>0 \<noteq> 0 \<and> (\<forall>a\<in>A. a dvd l\<^sub>0)" by blast
ce559c850a27 standardized algebraic conventions: prefer a, b, c over x, y, z haftmann parents: 59061 diff changeset	963	def n \<equiv> "LEAST n. \<exists>l. l \<noteq> 0 \<and> (\<forall>a\<in>A. a dvd l) \<and> euclidean_size l = n"
ce559c850a27 standardized algebraic conventions: prefer a, b, c over x, y, z haftmann parents: 59061 diff changeset	964	def l \<equiv> "SOME l. l \<noteq> 0 \<and> (\<forall>a\<in>A. a dvd l) \<and> euclidean_size l = n"
ce559c850a27 standardized algebraic conventions: prefer a, b, c over x, y, z haftmann parents: 59061 diff changeset	965	have "\<exists>l. l \<noteq> 0 \<and> (\<forall>a\<in>A. a dvd l) \<and> euclidean_size l = n"
58023 62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	966	apply (subst n_def)
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	967	apply (rule LeastI[of _ "euclidean_size l\<^sub>0"])
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	968	apply (rule exI[of _ l\<^sub>0])
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	969	apply (simp add: l\<^sub>0_props)
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	970	done
60430 ce559c850a27 standardized algebraic conventions: prefer a, b, c over x, y, z haftmann parents: 59061 diff changeset	971	from someI_ex[OF this] have "l \<noteq> 0" and "\<forall>a\<in>A. a dvd l" and "euclidean_size l = n"
58023 62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	972	unfolding l_def by simp_all
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	973	{
60430 ce559c850a27 standardized algebraic conventions: prefer a, b, c over x, y, z haftmann parents: 59061 diff changeset	974	fix l' assume "\<forall>a\<in>A. a dvd l'"
60526 fad653acf58f isabelle update_cartouches; wenzelm parents: 60517 diff changeset	975	with \<open>\<forall>a\<in>A. a dvd l\<close> have "\<forall>a\<in>A. a dvd gcd l l'" by (auto intro: gcd_greatest)
fad653acf58f isabelle update_cartouches; wenzelm parents: 60517 diff changeset	976	moreover from \<open>l \<noteq> 0\<close> have "gcd l l' \<noteq> 0" by simp
60430 ce559c850a27 standardized algebraic conventions: prefer a, b, c over x, y, z haftmann parents: 59061 diff changeset	977	ultimately have "\<exists>b. b \<noteq> 0 \<and> (\<forall>a\<in>A. a dvd b) \<and> euclidean_size b = euclidean_size (gcd l l')"
58023 62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	978	by (intro exI[of _ "gcd l l'"], auto)
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	979	hence "euclidean_size (gcd l l') \<ge> n" by (subst n_def) (rule Least_le)
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	980	moreover have "euclidean_size (gcd l l') \<le> n"
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	981	proof -
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	982	have "gcd l l' dvd l" by simp
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	983	then obtain a where "l = gcd l l' * a" unfolding dvd_def by blast
60526 fad653acf58f isabelle update_cartouches; wenzelm parents: 60517 diff changeset	984	with \<open>l \<noteq> 0\<close> have "a \<noteq> 0" by auto
58023 62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	985	hence "euclidean_size (gcd l l') \<le> euclidean_size (gcd l l' * a)"
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	986	by (rule size_mult_mono)
60526 fad653acf58f isabelle update_cartouches; wenzelm parents: 60517 diff changeset	987	also have "gcd l l' * a = l" using \<open>l = gcd l l' * a\<close> ..
fad653acf58f isabelle update_cartouches; wenzelm parents: 60517 diff changeset	988	also note \<open>euclidean_size l = n\<close>
58023 62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	989	finally show "euclidean_size (gcd l l') \<le> n" .
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	990	qed
60690 a9e45c9588c3 tuned facts haftmann parents: 60688 diff changeset	991	ultimately have *: "euclidean_size l = euclidean_size (gcd l l')"
60526 fad653acf58f isabelle update_cartouches; wenzelm parents: 60517 diff changeset	992	by (intro le_antisym, simp_all add: \<open>euclidean_size l = n\<close>)
60690 a9e45c9588c3 tuned facts haftmann parents: 60688 diff changeset	993	from \<open>l \<noteq> 0\<close> have "l dvd gcd l l'"
a9e45c9588c3 tuned facts haftmann parents: 60688 diff changeset	994	by (rule dvd_euclidean_size_eq_imp_dvd) (auto simp add: *)
58023 62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	995	hence "l dvd l'" by (blast dest: dvd_gcd_D2)
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	996	}
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	997
60634 e3b6e516608b separate (semi)ring with normalization haftmann parents: 60600 diff changeset	998	with \<open>(\<forall>a\<in>A. a dvd l)\<close> and unit_factor_is_unit[OF \<open>l \<noteq> 0\<close>] and \<open>l \<noteq> 0\<close>
e3b6e516608b separate (semi)ring with normalization haftmann parents: 60600 diff changeset	999	have "(\<forall>a\<in>A. a dvd normalize l) \<and>
e3b6e516608b separate (semi)ring with normalization haftmann parents: 60600 diff changeset	1000	(\<forall>l'. (\<forall>a\<in>A. a dvd l') \<longrightarrow> normalize l dvd l') \<and>
e3b6e516608b separate (semi)ring with normalization haftmann parents: 60600 diff changeset	1001	unit_factor (normalize l) =
e3b6e516608b separate (semi)ring with normalization haftmann parents: 60600 diff changeset	1002	(if normalize l = 0 then 0 else 1)"
58023 62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	1003	by (auto simp: unit_simps)
60634 e3b6e516608b separate (semi)ring with normalization haftmann parents: 60600 diff changeset	1004	also from True have "normalize l = Lcm A"
58023 62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	1005	by (simp add: Lcm_Lcm_eucl Lcm_eucl_def Let_def n_def l_def)
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	1006	finally show ?thesis .
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	1007	qed
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	1008	note A = this
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	1009
60430 ce559c850a27 standardized algebraic conventions: prefer a, b, c over x, y, z haftmann parents: 59061 diff changeset	1010	{fix a assume "a \<in> A" then show "a dvd Lcm A" using A by blast}
60634 e3b6e516608b separate (semi)ring with normalization haftmann parents: 60600 diff changeset	1011	{fix b assume "\<And>a. a \<in> A \<Longrightarrow> a dvd b" then show "Lcm A dvd b" using A by blast}
e3b6e516608b separate (semi)ring with normalization haftmann parents: 60600 diff changeset	1012	from A show "unit_factor (Lcm A) = (if Lcm A = 0 then 0 else 1)" by blast
58023 62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	1013	qed
60634 e3b6e516608b separate (semi)ring with normalization haftmann parents: 60600 diff changeset	1014
e3b6e516608b separate (semi)ring with normalization haftmann parents: 60600 diff changeset	1015	lemma normalize_Lcm [simp]:
e3b6e516608b separate (semi)ring with normalization haftmann parents: 60600 diff changeset	1016	"normalize (Lcm A) = Lcm A"
60688 01488b559910 avoid explicit definition of the relation of associated elements in a ring -- prefer explicit normalization instead haftmann parents: 60687 diff changeset	1017	proof (cases "Lcm A = 0")
01488b559910 avoid explicit definition of the relation of associated elements in a ring -- prefer explicit normalization instead haftmann parents: 60687 diff changeset	1018	case True then show ?thesis by simp
01488b559910 avoid explicit definition of the relation of associated elements in a ring -- prefer explicit normalization instead haftmann parents: 60687 diff changeset	1019	next
01488b559910 avoid explicit definition of the relation of associated elements in a ring -- prefer explicit normalization instead haftmann parents: 60687 diff changeset	1020	case False
01488b559910 avoid explicit definition of the relation of associated elements in a ring -- prefer explicit normalization instead haftmann parents: 60687 diff changeset	1021	have "unit_factor (Lcm A) * normalize (Lcm A) = Lcm A"
01488b559910 avoid explicit definition of the relation of associated elements in a ring -- prefer explicit normalization instead haftmann parents: 60687 diff changeset	1022	by (fact unit_factor_mult_normalize)
01488b559910 avoid explicit definition of the relation of associated elements in a ring -- prefer explicit normalization instead haftmann parents: 60687 diff changeset	1023	with False show ?thesis by simp
01488b559910 avoid explicit definition of the relation of associated elements in a ring -- prefer explicit normalization instead haftmann parents: 60687 diff changeset	1024	qed
60634 e3b6e516608b separate (semi)ring with normalization haftmann parents: 60600 diff changeset	1025
58023 62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	1026	lemma LcmI:
60634 e3b6e516608b separate (semi)ring with normalization haftmann parents: 60600 diff changeset	1027	assumes "\<And>a. a \<in> A \<Longrightarrow> a dvd b" and "\<And>c. (\<And>a. a \<in> A \<Longrightarrow> a dvd c) \<Longrightarrow> b dvd c"
60688 01488b559910 avoid explicit definition of the relation of associated elements in a ring -- prefer explicit normalization instead haftmann parents: 60687 diff changeset	1028	and "normalize b = b" shows "b = Lcm A"
01488b559910 avoid explicit definition of the relation of associated elements in a ring -- prefer explicit normalization instead haftmann parents: 60687 diff changeset	1029	by (rule associated_eqI) (auto simp: assms intro: Lcm_least)
58023 62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	1030
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	1031	lemma Lcm_subset:
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	1032	"A \<subseteq> B \<Longrightarrow> Lcm A dvd Lcm B"
60634 e3b6e516608b separate (semi)ring with normalization haftmann parents: 60600 diff changeset	1033	by (blast intro: Lcm_least dvd_Lcm)
58023 62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	1034
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	1035	lemma Lcm_Un:
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	1036	"Lcm (A \<union> B) = lcm (Lcm A) (Lcm B)"
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	1037	apply (rule lcmI)
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	1038	apply (blast intro: Lcm_subset)
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	1039	apply (blast intro: Lcm_subset)
60634 e3b6e516608b separate (semi)ring with normalization haftmann parents: 60600 diff changeset	1040	apply (intro Lcm_least ballI, elim UnE)
58023 62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	1041	apply (rule dvd_trans, erule dvd_Lcm, assumption)
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	1042	apply (rule dvd_trans, erule dvd_Lcm, assumption)
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	1043	apply simp
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	1044	done
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	1045
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	1046	lemma Lcm_1_iff:
60430 ce559c850a27 standardized algebraic conventions: prefer a, b, c over x, y, z haftmann parents: 59061 diff changeset	1047	"Lcm A = 1 \<longleftrightarrow> (\<forall>a\<in>A. is_unit a)"
58023 62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	1048	proof
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	1049	assume "Lcm A = 1"
60430 ce559c850a27 standardized algebraic conventions: prefer a, b, c over x, y, z haftmann parents: 59061 diff changeset	1050	then show "\<forall>a\<in>A. is_unit a" by auto
58023 62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	1051	qed (rule LcmI [symmetric], auto)
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	1052
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	1053	lemma Lcm_no_units:
60430 ce559c850a27 standardized algebraic conventions: prefer a, b, c over x, y, z haftmann parents: 59061 diff changeset	1054	"Lcm A = Lcm (A - {a. is_unit a})"
58023 62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	1055	proof -
60430 ce559c850a27 standardized algebraic conventions: prefer a, b, c over x, y, z haftmann parents: 59061 diff changeset	1056	have "(A - {a. is_unit a}) \<union> {a\<in>A. is_unit a} = A" by blast
ce559c850a27 standardized algebraic conventions: prefer a, b, c over x, y, z haftmann parents: 59061 diff changeset	1057	hence "Lcm A = lcm (Lcm (A - {a. is_unit a})) (Lcm {a\<in>A. is_unit a})"
60634 e3b6e516608b separate (semi)ring with normalization haftmann parents: 60600 diff changeset	1058	by (simp add: Lcm_Un [symmetric])
60430 ce559c850a27 standardized algebraic conventions: prefer a, b, c over x, y, z haftmann parents: 59061 diff changeset	1059	also have "Lcm {a\<in>A. is_unit a} = 1" by (simp add: Lcm_1_iff)
58023 62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	1060	finally show ?thesis by simp
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	1061	qed
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	1062
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	1063	lemma Lcm_empty [simp]:
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	1064	"Lcm {} = 1"
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	1065	by (simp add: Lcm_1_iff)
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	1066
62353 7f927120b5a2 dropped various legacy fact bindings and tuned proofs haftmann parents: 62348 diff changeset	1067	lemma Lcm_eq_0_I [simp]:
58023 62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	1068	"0 \<in> A \<Longrightarrow> Lcm A = 0"
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	1069	by (drule dvd_Lcm) simp
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	1070
62353 7f927120b5a2 dropped various legacy fact bindings and tuned proofs haftmann parents: 62348 diff changeset	1071	lemma Lcm_0_iff':
60430 ce559c850a27 standardized algebraic conventions: prefer a, b, c over x, y, z haftmann parents: 59061 diff changeset	1072	"Lcm A = 0 \<longleftrightarrow> \<not>(\<exists>l. l \<noteq> 0 \<and> (\<forall>a\<in>A. a dvd l))"
58023 62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	1073	proof
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	1074	assume "Lcm A = 0"
60430 ce559c850a27 standardized algebraic conventions: prefer a, b, c over x, y, z haftmann parents: 59061 diff changeset	1075	show "\<not>(\<exists>l. l \<noteq> 0 \<and> (\<forall>a\<in>A. a dvd l))"
58023 62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	1076	proof
60430 ce559c850a27 standardized algebraic conventions: prefer a, b, c over x, y, z haftmann parents: 59061 diff changeset	1077	assume ex: "\<exists>l. l \<noteq> 0 \<and> (\<forall>a\<in>A. a dvd l)"
ce559c850a27 standardized algebraic conventions: prefer a, b, c over x, y, z haftmann parents: 59061 diff changeset	1078	then obtain l\<^sub>0 where l\<^sub>0_props: "l\<^sub>0 \<noteq> 0 \<and> (\<forall>a\<in>A. a dvd l\<^sub>0)" by blast
ce559c850a27 standardized algebraic conventions: prefer a, b, c over x, y, z haftmann parents: 59061 diff changeset	1079	def n \<equiv> "LEAST n. \<exists>l. l \<noteq> 0 \<and> (\<forall>a\<in>A. a dvd l) \<and> euclidean_size l = n"
ce559c850a27 standardized algebraic conventions: prefer a, b, c over x, y, z haftmann parents: 59061 diff changeset	1080	def l \<equiv> "SOME l. l \<noteq> 0 \<and> (\<forall>a\<in>A. a dvd l) \<and> euclidean_size l = n"
ce559c850a27 standardized algebraic conventions: prefer a, b, c over x, y, z haftmann parents: 59061 diff changeset	1081	have "\<exists>l. l \<noteq> 0 \<and> (\<forall>a\<in>A. a dvd l) \<and> euclidean_size l = n"
58023 62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	1082	apply (subst n_def)
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	1083	apply (rule LeastI[of _ "euclidean_size l\<^sub>0"])
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	1084	apply (rule exI[of _ l\<^sub>0])
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	1085	apply (simp add: l\<^sub>0_props)
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	1086	done
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	1087	from someI_ex[OF this] have "l \<noteq> 0" unfolding l_def by simp_all
60634 e3b6e516608b separate (semi)ring with normalization haftmann parents: 60600 diff changeset	1088	hence "normalize l \<noteq> 0" by simp
e3b6e516608b separate (semi)ring with normalization haftmann parents: 60600 diff changeset	1089	also from ex have "normalize l = Lcm A"
58023 62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	1090	by (simp only: Lcm_Lcm_eucl Lcm_eucl_def n_def l_def if_True Let_def)
60526 fad653acf58f isabelle update_cartouches; wenzelm parents: 60517 diff changeset	1091	finally show False using \<open>Lcm A = 0\<close> by contradiction
58023 62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	1092	qed
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	1093	qed (simp only: Lcm_Lcm_eucl Lcm_eucl_def if_False)
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	1094
62353 7f927120b5a2 dropped various legacy fact bindings and tuned proofs haftmann parents: 62348 diff changeset	1095	lemma Lcm_0_iff [simp]:
58023 62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	1096	"finite A \<Longrightarrow> Lcm A = 0 \<longleftrightarrow> 0 \<in> A"
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	1097	proof -
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	1098	assume "finite A"
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	1099	have "0 \<in> A \<Longrightarrow> Lcm A = 0" by (intro dvd_0_left dvd_Lcm)
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	1100	moreover {
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	1101	assume "0 \<notin> A"
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	1102	hence "\<Prod>A \<noteq> 0"
60526 fad653acf58f isabelle update_cartouches; wenzelm parents: 60517 diff changeset	1103	apply (induct rule: finite_induct[OF \<open>finite A\<close>])
58023 62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	1104	apply simp
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	1105	apply (subst setprod.insert, assumption, assumption)
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	1106	apply (rule no_zero_divisors)
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	1107	apply blast+
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	1108	done
60526 fad653acf58f isabelle update_cartouches; wenzelm parents: 60517 diff changeset	1109	moreover from \<open>finite A\<close> have "\<forall>a\<in>A. a dvd \<Prod>A" by blast
60430 ce559c850a27 standardized algebraic conventions: prefer a, b, c over x, y, z haftmann parents: 59061 diff changeset	1110	ultimately have "\<exists>l. l \<noteq> 0 \<and> (\<forall>a\<in>A. a dvd l)" by blast
62353 7f927120b5a2 dropped various legacy fact bindings and tuned proofs haftmann parents: 62348 diff changeset	1111	with Lcm_0_iff' have "Lcm A \<noteq> 0" by simp
58023 62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	1112	}
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	1113	ultimately show "Lcm A = 0 \<longleftrightarrow> 0 \<in> A" by blast
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	1114	qed
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	1115
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	1116	lemma Lcm_no_multiple:
60430 ce559c850a27 standardized algebraic conventions: prefer a, b, c over x, y, z haftmann parents: 59061 diff changeset	1117	"(\<forall>m. m \<noteq> 0 \<longrightarrow> (\<exists>a\<in>A. \<not>a dvd m)) \<Longrightarrow> Lcm A = 0"
58023 62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	1118	proof -
60430 ce559c850a27 standardized algebraic conventions: prefer a, b, c over x, y, z haftmann parents: 59061 diff changeset	1119	assume "\<forall>m. m \<noteq> 0 \<longrightarrow> (\<exists>a\<in>A. \<not>a dvd m)"
ce559c850a27 standardized algebraic conventions: prefer a, b, c over x, y, z haftmann parents: 59061 diff changeset	1120	hence "\<not>(\<exists>l. l \<noteq> 0 \<and> (\<forall>a\<in>A. a dvd l))" by blast
58023 62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	1121	then show "Lcm A = 0" by (simp only: Lcm_Lcm_eucl Lcm_eucl_def if_False)
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	1122	qed
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	1123
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	1124	lemma Lcm_insert [simp]:
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	1125	"Lcm (insert a A) = lcm a (Lcm A)"
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	1126	proof (rule lcmI)
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	1127	fix l assume "a dvd l" and "Lcm A dvd l"
60687 33dbbcb6a8a3 eliminated some duplication haftmann parents: 60686 diff changeset	1128	then have "\<forall>a\<in>A. a dvd l" by (auto intro: dvd_trans [of _ "Lcm A" l])
60634 e3b6e516608b separate (semi)ring with normalization haftmann parents: 60600 diff changeset	1129	with \<open>a dvd l\<close> show "Lcm (insert a A) dvd l" by (force intro: Lcm_least)
e3b6e516608b separate (semi)ring with normalization haftmann parents: 60600 diff changeset	1130	qed (auto intro: Lcm_least dvd_Lcm)
58023 62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	1131
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	1132	lemma Lcm_finite:
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	1133	assumes "finite A"
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	1134	shows "Lcm A = Finite_Set.fold lcm 1 A"
60526 fad653acf58f isabelle update_cartouches; wenzelm parents: 60517 diff changeset	1135	by (induct rule: finite.induct[OF \<open>finite A\<close>])
58023 62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	1136	(simp_all add: comp_fun_idem.fold_insert_idem[OF comp_fun_idem_lcm])
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	1137
60431 db9c67b760f1 dropped warnings by dropping ineffective code declarations haftmann parents: 60430 diff changeset	1138	lemma Lcm_set [code_unfold]:
58023 62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	1139	"Lcm (set xs) = fold lcm xs 1"
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	1140	using comp_fun_idem.fold_set_fold[OF comp_fun_idem_lcm] Lcm_finite by (simp add: ac_simps)
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	1141
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	1142	lemma Lcm_singleton [simp]:
60634 e3b6e516608b separate (semi)ring with normalization haftmann parents: 60600 diff changeset	1143	"Lcm {a} = normalize a"
58023 62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	1144	by simp
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	1145
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	1146	lemma Lcm_2 [simp]:
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	1147	"Lcm {a,b} = lcm a b"
60634 e3b6e516608b separate (semi)ring with normalization haftmann parents: 60600 diff changeset	1148	by simp
58023 62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	1149
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	1150	lemma Lcm_coprime:
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	1151	assumes "finite A" and "A \<noteq> {}"
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	1152	assumes "\<And>a b. a \<in> A \<Longrightarrow> b \<in> A \<Longrightarrow> a \<noteq> b \<Longrightarrow> gcd a b = 1"
60634 e3b6e516608b separate (semi)ring with normalization haftmann parents: 60600 diff changeset	1153	shows "Lcm A = normalize (\<Prod>A)"
58023 62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	1154	using assms proof (induct rule: finite_ne_induct)
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	1155	case (insert a A)
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	1156	have "Lcm (insert a A) = lcm a (Lcm A)" by simp
60634 e3b6e516608b separate (semi)ring with normalization haftmann parents: 60600 diff changeset	1157	also from insert have "Lcm A = normalize (\<Prod>A)" by blast
58023 62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	1158	also have "lcm a \<dots> = lcm a (\<Prod>A)" by (cases "\<Prod>A = 0") (simp_all add: lcm_div_unit2)
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	1159	also from insert have "gcd a (\<Prod>A) = 1" by (subst gcd.commute, intro setprod_coprime) auto
60634 e3b6e516608b separate (semi)ring with normalization haftmann parents: 60600 diff changeset	1160	with insert have "lcm a (\<Prod>A) = normalize (\<Prod>(insert a A))"
58023 62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	1161	by (simp add: lcm_coprime)
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	1162	finally show ?case .
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	1163	qed simp
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	1164
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	1165	lemma Lcm_coprime':
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	1166	"card A \<noteq> 0 \<Longrightarrow> (\<And>a b. a \<in> A \<Longrightarrow> b \<in> A \<Longrightarrow> a \<noteq> b \<Longrightarrow> gcd a b = 1)
60634 e3b6e516608b separate (semi)ring with normalization haftmann parents: 60600 diff changeset	1167	\<Longrightarrow> Lcm A = normalize (\<Prod>A)"
58023 62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	1168	by (rule Lcm_coprime) (simp_all add: card_eq_0_iff)
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	1169
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	1170	lemma Gcd_Lcm:
60430 ce559c850a27 standardized algebraic conventions: prefer a, b, c over x, y, z haftmann parents: 59061 diff changeset	1171	"Gcd A = Lcm {d. \<forall>a\<in>A. d dvd a}"
58023 62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	1172	by (simp add: Gcd_Gcd_eucl Lcm_Lcm_eucl Gcd_eucl_def)
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	1173
60430 ce559c850a27 standardized algebraic conventions: prefer a, b, c over x, y, z haftmann parents: 59061 diff changeset	1174	lemma Gcd_dvd [simp]: "a \<in> A \<Longrightarrow> Gcd A dvd a"
60634 e3b6e516608b separate (semi)ring with normalization haftmann parents: 60600 diff changeset	1175	and Gcd_greatest: "(\<And>a. a \<in> A \<Longrightarrow> b dvd a) \<Longrightarrow> b dvd Gcd A"
e3b6e516608b separate (semi)ring with normalization haftmann parents: 60600 diff changeset	1176	and unit_factor_Gcd [simp]:
e3b6e516608b separate (semi)ring with normalization haftmann parents: 60600 diff changeset	1177	"unit_factor (Gcd A) = (if Gcd A = 0 then 0 else 1)"
58023 62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	1178	proof -
60430 ce559c850a27 standardized algebraic conventions: prefer a, b, c over x, y, z haftmann parents: 59061 diff changeset	1179	fix a assume "a \<in> A"
60634 e3b6e516608b separate (semi)ring with normalization haftmann parents: 60600 diff changeset	1180	hence "Lcm {d. \<forall>a\<in>A. d dvd a} dvd a" by (intro Lcm_least) blast
60430 ce559c850a27 standardized algebraic conventions: prefer a, b, c over x, y, z haftmann parents: 59061 diff changeset	1181	then show "Gcd A dvd a" by (simp add: Gcd_Lcm)
58023 62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	1182	next
60634 e3b6e516608b separate (semi)ring with normalization haftmann parents: 60600 diff changeset	1183	fix g' assume "\<And>a. a \<in> A \<Longrightarrow> g' dvd a"
60430 ce559c850a27 standardized algebraic conventions: prefer a, b, c over x, y, z haftmann parents: 59061 diff changeset	1184	hence "g' dvd Lcm {d. \<forall>a\<in>A. d dvd a}" by (intro dvd_Lcm) blast
58023 62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	1185	then show "g' dvd Gcd A" by (simp add: Gcd_Lcm)
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	1186	next
60634 e3b6e516608b separate (semi)ring with normalization haftmann parents: 60600 diff changeset	1187	show "unit_factor (Gcd A) = (if Gcd A = 0 then 0 else 1)"
59009 348561aa3869 generalized lemmas (particularly concerning dvd) as far as appropriate haftmann parents: 58953 diff changeset	1188	by (simp add: Gcd_Lcm)
58023 62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	1189	qed
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	1190
60634 e3b6e516608b separate (semi)ring with normalization haftmann parents: 60600 diff changeset	1191	lemma normalize_Gcd [simp]:
e3b6e516608b separate (semi)ring with normalization haftmann parents: 60600 diff changeset	1192	"normalize (Gcd A) = Gcd A"
60688 01488b559910 avoid explicit definition of the relation of associated elements in a ring -- prefer explicit normalization instead haftmann parents: 60687 diff changeset	1193	proof (cases "Gcd A = 0")
01488b559910 avoid explicit definition of the relation of associated elements in a ring -- prefer explicit normalization instead haftmann parents: 60687 diff changeset	1194	case True then show ?thesis by simp
01488b559910 avoid explicit definition of the relation of associated elements in a ring -- prefer explicit normalization instead haftmann parents: 60687 diff changeset	1195	next
01488b559910 avoid explicit definition of the relation of associated elements in a ring -- prefer explicit normalization instead haftmann parents: 60687 diff changeset	1196	case False
01488b559910 avoid explicit definition of the relation of associated elements in a ring -- prefer explicit normalization instead haftmann parents: 60687 diff changeset	1197	have "unit_factor (Gcd A) * normalize (Gcd A) = Gcd A"
01488b559910 avoid explicit definition of the relation of associated elements in a ring -- prefer explicit normalization instead haftmann parents: 60687 diff changeset	1198	by (fact unit_factor_mult_normalize)
01488b559910 avoid explicit definition of the relation of associated elements in a ring -- prefer explicit normalization instead haftmann parents: 60687 diff changeset	1199	with False show ?thesis by simp
01488b559910 avoid explicit definition of the relation of associated elements in a ring -- prefer explicit normalization instead haftmann parents: 60687 diff changeset	1200	qed
60634 e3b6e516608b separate (semi)ring with normalization haftmann parents: 60600 diff changeset	1201
60687 33dbbcb6a8a3 eliminated some duplication haftmann parents: 60686 diff changeset	1202	subclass semiring_Gcd
62348 9a5f43dac883 dropped various legacy fact bindings haftmann parents: 61605 diff changeset	1203	by standard (auto intro: Gcd_greatest Lcm_least)
60687 33dbbcb6a8a3 eliminated some duplication haftmann parents: 60686 diff changeset	1204
58023 62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	1205	lemma GcdI:
60634 e3b6e516608b separate (semi)ring with normalization haftmann parents: 60600 diff changeset	1206	assumes "\<And>a. a \<in> A \<Longrightarrow> b dvd a" and "\<And>c. (\<And>a. a \<in> A \<Longrightarrow> c dvd a) \<Longrightarrow> c dvd b"
60688 01488b559910 avoid explicit definition of the relation of associated elements in a ring -- prefer explicit normalization instead haftmann parents: 60687 diff changeset	1207	and "normalize b = b"
60634 e3b6e516608b separate (semi)ring with normalization haftmann parents: 60600 diff changeset	1208	shows "b = Gcd A"
60688 01488b559910 avoid explicit definition of the relation of associated elements in a ring -- prefer explicit normalization instead haftmann parents: 60687 diff changeset	1209	by (rule associated_eqI) (auto simp: assms intro: Gcd_greatest)
58023 62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	1210
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	1211	lemma Lcm_Gcd:
60430 ce559c850a27 standardized algebraic conventions: prefer a, b, c over x, y, z haftmann parents: 59061 diff changeset	1212	"Lcm A = Gcd {m. \<forall>a\<in>A. a dvd m}"
62353 7f927120b5a2 dropped various legacy fact bindings and tuned proofs haftmann parents: 62348 diff changeset	1213	by (rule LcmI[symmetric]) (auto intro: Gcd_greatest Gcd_greatest)
58023 62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	1214
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	1215	lemma Gcd_1:
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	1216	"1 \<in> A \<Longrightarrow> Gcd A = 1"
60687 33dbbcb6a8a3 eliminated some duplication haftmann parents: 60686 diff changeset	1217	by (auto intro!: Gcd_eq_1_I)
58023 62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	1218
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	1219	lemma Gcd_finite:
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	1220	assumes "finite A"
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	1221	shows "Gcd A = Finite_Set.fold gcd 0 A"
60526 fad653acf58f isabelle update_cartouches; wenzelm parents: 60517 diff changeset	1222	by (induct rule: finite.induct[OF \<open>finite A\<close>])
58023 62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	1223	(simp_all add: comp_fun_idem.fold_insert_idem[OF comp_fun_idem_gcd])
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	1224
60431 db9c67b760f1 dropped warnings by dropping ineffective code declarations haftmann parents: 60430 diff changeset	1225	lemma Gcd_set [code_unfold]:
58023 62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	1226	"Gcd (set xs) = fold gcd xs 0"
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	1227	using comp_fun_idem.fold_set_fold[OF comp_fun_idem_gcd] Gcd_finite by (simp add: ac_simps)
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	1228
60634 e3b6e516608b separate (semi)ring with normalization haftmann parents: 60600 diff changeset	1229	lemma Gcd_singleton [simp]: "Gcd {a} = normalize a"
60687 33dbbcb6a8a3 eliminated some duplication haftmann parents: 60686 diff changeset	1230	by simp
58023 62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	1231
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	1232	lemma Gcd_2 [simp]: "Gcd {a,b} = gcd a b"
60687 33dbbcb6a8a3 eliminated some duplication haftmann parents: 60686 diff changeset	1233	by simp
60686 ea5bc46c11e6 more algebraic properties for gcd/lcm haftmann parents: 60685 diff changeset	1234
58023 62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	1235	end
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	1236
60526 fad653acf58f isabelle update_cartouches; wenzelm parents: 60517 diff changeset	1237	text \<open>
58023 62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	1238	A Euclidean ring is a Euclidean semiring with additive inverses. It provides a
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	1239	few more lemmas; in particular, Bezout's lemma holds for any Euclidean ring.
60526 fad653acf58f isabelle update_cartouches; wenzelm parents: 60517 diff changeset	1240	\<close>
58023 62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	1241
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	1242	class euclidean_ring_gcd = euclidean_semiring_gcd + idom
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	1243	begin
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	1244
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	1245	subclass euclidean_ring ..
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	1246
60439 b765e08f8bc0 proper subclass instances for existing gcd (semi)rings haftmann parents: 60438 diff changeset	1247	subclass ring_gcd ..
b765e08f8bc0 proper subclass instances for existing gcd (semi)rings haftmann parents: 60438 diff changeset	1248
60572 718b1ba06429 streamlined definitions and primitive lemma of euclidean algorithm, including code generation haftmann parents: 60571 diff changeset	1249	lemma euclid_ext_gcd [simp]:
718b1ba06429 streamlined definitions and primitive lemma of euclidean algorithm, including code generation haftmann parents: 60571 diff changeset	1250	"(case euclid_ext a b of (_, _ , t) \<Rightarrow> t) = gcd a b"
718b1ba06429 streamlined definitions and primitive lemma of euclidean algorithm, including code generation haftmann parents: 60571 diff changeset	1251	by (induct a b rule: gcd_eucl_induct)
60686 ea5bc46c11e6 more algebraic properties for gcd/lcm haftmann parents: 60685 diff changeset	1252	(simp_all add: euclid_ext_0 euclid_ext_non_0 ac_simps split: prod.split prod.split_asm)
60572 718b1ba06429 streamlined definitions and primitive lemma of euclidean algorithm, including code generation haftmann parents: 60571 diff changeset	1253
718b1ba06429 streamlined definitions and primitive lemma of euclidean algorithm, including code generation haftmann parents: 60571 diff changeset	1254	lemma euclid_ext_gcd' [simp]:
718b1ba06429 streamlined definitions and primitive lemma of euclidean algorithm, including code generation haftmann parents: 60571 diff changeset	1255	"euclid_ext a b = (r, s, t) \<Longrightarrow> t = gcd a b"
718b1ba06429 streamlined definitions and primitive lemma of euclidean algorithm, including code generation haftmann parents: 60571 diff changeset	1256	by (insert euclid_ext_gcd[of a b], drule (1) subst, simp)
718b1ba06429 streamlined definitions and primitive lemma of euclidean algorithm, including code generation haftmann parents: 60571 diff changeset	1257
718b1ba06429 streamlined definitions and primitive lemma of euclidean algorithm, including code generation haftmann parents: 60571 diff changeset	1258	lemma euclid_ext'_correct:
718b1ba06429 streamlined definitions and primitive lemma of euclidean algorithm, including code generation haftmann parents: 60571 diff changeset	1259	"fst (euclid_ext' a b) * a + snd (euclid_ext' a b) * b = gcd a b"
718b1ba06429 streamlined definitions and primitive lemma of euclidean algorithm, including code generation haftmann parents: 60571 diff changeset	1260	proof-
718b1ba06429 streamlined definitions and primitive lemma of euclidean algorithm, including code generation haftmann parents: 60571 diff changeset	1261	obtain s t c where "euclid_ext a b = (s,t,c)"
718b1ba06429 streamlined definitions and primitive lemma of euclidean algorithm, including code generation haftmann parents: 60571 diff changeset	1262	by (cases "euclid_ext a b", blast)
718b1ba06429 streamlined definitions and primitive lemma of euclidean algorithm, including code generation haftmann parents: 60571 diff changeset	1263	with euclid_ext_correct[of a b] euclid_ext_gcd[of a b]
718b1ba06429 streamlined definitions and primitive lemma of euclidean algorithm, including code generation haftmann parents: 60571 diff changeset	1264	show ?thesis unfolding euclid_ext'_def by simp
718b1ba06429 streamlined definitions and primitive lemma of euclidean algorithm, including code generation haftmann parents: 60571 diff changeset	1265	qed
718b1ba06429 streamlined definitions and primitive lemma of euclidean algorithm, including code generation haftmann parents: 60571 diff changeset	1266
718b1ba06429 streamlined definitions and primitive lemma of euclidean algorithm, including code generation haftmann parents: 60571 diff changeset	1267	lemma bezout: "\<exists>s t. s * a + t * b = gcd a b"
718b1ba06429 streamlined definitions and primitive lemma of euclidean algorithm, including code generation haftmann parents: 60571 diff changeset	1268	using euclid_ext'_correct by blast
718b1ba06429 streamlined definitions and primitive lemma of euclidean algorithm, including code generation haftmann parents: 60571 diff changeset	1269
58023 62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	1270	lemma gcd_neg1 [simp]:
60430 ce559c850a27 standardized algebraic conventions: prefer a, b, c over x, y, z haftmann parents: 59061 diff changeset	1271	"gcd (-a) b = gcd a b"
59009 348561aa3869 generalized lemmas (particularly concerning dvd) as far as appropriate haftmann parents: 58953 diff changeset	1272	by (rule sym, rule gcdI, simp_all add: gcd_greatest)
58023 62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	1273
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	1274	lemma gcd_neg2 [simp]:
60430 ce559c850a27 standardized algebraic conventions: prefer a, b, c over x, y, z haftmann parents: 59061 diff changeset	1275	"gcd a (-b) = gcd a b"
59009 348561aa3869 generalized lemmas (particularly concerning dvd) as far as appropriate haftmann parents: 58953 diff changeset	1276	by (rule sym, rule gcdI, simp_all add: gcd_greatest)
58023 62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	1277
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	1278	lemma gcd_neg_numeral_1 [simp]:
60430 ce559c850a27 standardized algebraic conventions: prefer a, b, c over x, y, z haftmann parents: 59061 diff changeset	1279	"gcd (- numeral n) a = gcd (numeral n) a"
58023 62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	1280	by (fact gcd_neg1)
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	1281
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	1282	lemma gcd_neg_numeral_2 [simp]:
60430 ce559c850a27 standardized algebraic conventions: prefer a, b, c over x, y, z haftmann parents: 59061 diff changeset	1283	"gcd a (- numeral n) = gcd a (numeral n)"
58023 62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	1284	by (fact gcd_neg2)
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	1285
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	1286	lemma gcd_diff1: "gcd (m - n) n = gcd m n"
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	1287	by (subst diff_conv_add_uminus, subst gcd_neg2[symmetric], subst gcd_add1, simp)
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	1288
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	1289	lemma gcd_diff2: "gcd (n - m) n = gcd m n"
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	1290	by (subst gcd_neg1[symmetric], simp only: minus_diff_eq gcd_diff1)
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	1291
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	1292	lemma coprime_minus_one [simp]: "gcd (n - 1) n = 1"
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	1293	proof -
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	1294	have "gcd (n - 1) n = gcd n (n - 1)" by (fact gcd.commute)
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	1295	also have "\<dots> = gcd ((n - 1) + 1) (n - 1)" by simp
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	1296	also have "\<dots> = 1" by (rule coprime_plus_one)
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	1297	finally show ?thesis .
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	1298	qed
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	1299
60430 ce559c850a27 standardized algebraic conventions: prefer a, b, c over x, y, z haftmann parents: 59061 diff changeset	1300	lemma lcm_neg1 [simp]: "lcm (-a) b = lcm a b"
58023 62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	1301	by (rule sym, rule lcmI, simp_all add: lcm_least lcm_zero)
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	1302
60430 ce559c850a27 standardized algebraic conventions: prefer a, b, c over x, y, z haftmann parents: 59061 diff changeset	1303	lemma lcm_neg2 [simp]: "lcm a (-b) = lcm a b"
58023 62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	1304	by (rule sym, rule lcmI, simp_all add: lcm_least lcm_zero)
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	1305
60430 ce559c850a27 standardized algebraic conventions: prefer a, b, c over x, y, z haftmann parents: 59061 diff changeset	1306	lemma lcm_neg_numeral_1 [simp]: "lcm (- numeral n) a = lcm (numeral n) a"
58023 62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	1307	by (fact lcm_neg1)
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	1308
60430 ce559c850a27 standardized algebraic conventions: prefer a, b, c over x, y, z haftmann parents: 59061 diff changeset	1309	lemma lcm_neg_numeral_2 [simp]: "lcm a (- numeral n) = lcm a (numeral n)"
58023 62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	1310	by (fact lcm_neg2)
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	1311
60572 718b1ba06429 streamlined definitions and primitive lemma of euclidean algorithm, including code generation haftmann parents: 60571 diff changeset	1312	end
58023 62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	1313
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	1314
60572 718b1ba06429 streamlined definitions and primitive lemma of euclidean algorithm, including code generation haftmann parents: 60571 diff changeset	1315	subsection \<open>Typical instances\<close>
58023 62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	1316
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	1317	instantiation nat :: euclidean_semiring
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	1318	begin
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	1319
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	1320	definition [simp]:
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	1321	"euclidean_size_nat = (id :: nat \<Rightarrow> nat)"
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	1322
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	1323	instance proof
59061 67771d267ff2 prefer abbrev for is_unit haftmann parents: 59010 diff changeset	1324	qed simp_all
58023 62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	1325
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	1326	end
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	1327
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	1328	instantiation int :: euclidean_ring
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	1329	begin
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	1330
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	1331	definition [simp]:
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	1332	"euclidean_size_int = (nat \<circ> abs :: int \<Rightarrow> nat)"
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	1333
60580 7e741e22d7fc tuned proofs; wenzelm parents: 60526 diff changeset	1334	instance
60686 ea5bc46c11e6 more algebraic properties for gcd/lcm haftmann parents: 60685 diff changeset	1335	by standard (auto simp add: abs_mult nat_mult_distrib split: abs_split)
58023 62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	1336
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	1337	end
62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	1338
60572 718b1ba06429 streamlined definitions and primitive lemma of euclidean algorithm, including code generation haftmann parents: 60571 diff changeset	1339	instantiation poly :: (field) euclidean_ring
60571 c9fdf2080447 euclidean algorithm on polynomials haftmann parents: 60569 diff changeset	1340	begin
c9fdf2080447 euclidean algorithm on polynomials haftmann parents: 60569 diff changeset	1341
c9fdf2080447 euclidean algorithm on polynomials haftmann parents: 60569 diff changeset	1342	definition euclidean_size_poly :: "'a poly \<Rightarrow> nat"
60600 87fbfea0bd0a simplified termination criterion for euclidean algorithm (again) haftmann parents: 60599 diff changeset	1343	where "euclidean_size p = (if p = 0 then 0 else Suc (degree p))"
60571 c9fdf2080447 euclidean algorithm on polynomials haftmann parents: 60569 diff changeset	1344
60634 e3b6e516608b separate (semi)ring with normalization haftmann parents: 60600 diff changeset	1345	lemma euclidenan_size_poly_minus_one_degree [simp]:
e3b6e516608b separate (semi)ring with normalization haftmann parents: 60600 diff changeset	1346	"euclidean_size p - 1 = degree p"
e3b6e516608b separate (semi)ring with normalization haftmann parents: 60600 diff changeset	1347	by (simp add: euclidean_size_poly_def)
60571 c9fdf2080447 euclidean algorithm on polynomials haftmann parents: 60569 diff changeset	1348
60600 87fbfea0bd0a simplified termination criterion for euclidean algorithm (again) haftmann parents: 60599 diff changeset	1349	lemma euclidean_size_poly_0 [simp]:
87fbfea0bd0a simplified termination criterion for euclidean algorithm (again) haftmann parents: 60599 diff changeset	1350	"euclidean_size (0::'a poly) = 0"
87fbfea0bd0a simplified termination criterion for euclidean algorithm (again) haftmann parents: 60599 diff changeset	1351	by (simp add: euclidean_size_poly_def)
87fbfea0bd0a simplified termination criterion for euclidean algorithm (again) haftmann parents: 60599 diff changeset	1352
87fbfea0bd0a simplified termination criterion for euclidean algorithm (again) haftmann parents: 60599 diff changeset	1353	lemma euclidean_size_poly_not_0 [simp]:
87fbfea0bd0a simplified termination criterion for euclidean algorithm (again) haftmann parents: 60599 diff changeset	1354	"p \<noteq> 0 \<Longrightarrow> euclidean_size p = Suc (degree p)"
87fbfea0bd0a simplified termination criterion for euclidean algorithm (again) haftmann parents: 60599 diff changeset	1355	by (simp add: euclidean_size_poly_def)
87fbfea0bd0a simplified termination criterion for euclidean algorithm (again) haftmann parents: 60599 diff changeset	1356
60571 c9fdf2080447 euclidean algorithm on polynomials haftmann parents: 60569 diff changeset	1357	instance
60600 87fbfea0bd0a simplified termination criterion for euclidean algorithm (again) haftmann parents: 60599 diff changeset	1358	proof
60571 c9fdf2080447 euclidean algorithm on polynomials haftmann parents: 60569 diff changeset	1359	fix p q :: "'a poly"
60600 87fbfea0bd0a simplified termination criterion for euclidean algorithm (again) haftmann parents: 60599 diff changeset	1360	assume "q \<noteq> 0"
87fbfea0bd0a simplified termination criterion for euclidean algorithm (again) haftmann parents: 60599 diff changeset	1361	then have "p mod q = 0 \<or> degree (p mod q) < degree q"
87fbfea0bd0a simplified termination criterion for euclidean algorithm (again) haftmann parents: 60599 diff changeset	1362	by (rule degree_mod_less [of q p])
87fbfea0bd0a simplified termination criterion for euclidean algorithm (again) haftmann parents: 60599 diff changeset	1363	with \<open>q \<noteq> 0\<close> show "euclidean_size (p mod q) < euclidean_size q"
87fbfea0bd0a simplified termination criterion for euclidean algorithm (again) haftmann parents: 60599 diff changeset	1364	by (cases "p mod q = 0") simp_all
60571 c9fdf2080447 euclidean algorithm on polynomials haftmann parents: 60569 diff changeset	1365	next
c9fdf2080447 euclidean algorithm on polynomials haftmann parents: 60569 diff changeset	1366	fix p q :: "'a poly"
c9fdf2080447 euclidean algorithm on polynomials haftmann parents: 60569 diff changeset	1367	assume "q \<noteq> 0"
60600 87fbfea0bd0a simplified termination criterion for euclidean algorithm (again) haftmann parents: 60599 diff changeset	1368	from \<open>q \<noteq> 0\<close> have "degree p \<le> degree (p * q)"
60571 c9fdf2080447 euclidean algorithm on polynomials haftmann parents: 60569 diff changeset	1369	by (rule degree_mult_right_le)
60600 87fbfea0bd0a simplified termination criterion for euclidean algorithm (again) haftmann parents: 60599 diff changeset	1370	with \<open>q \<noteq> 0\<close> show "euclidean_size p \<le> euclidean_size (p * q)"
87fbfea0bd0a simplified termination criterion for euclidean algorithm (again) haftmann parents: 60599 diff changeset	1371	by (cases "p = 0") simp_all
60571 c9fdf2080447 euclidean algorithm on polynomials haftmann parents: 60569 diff changeset	1372	qed
c9fdf2080447 euclidean algorithm on polynomials haftmann parents: 60569 diff changeset	1373
58023 62826b36ac5e generic euclidean algorithm (due to Manuel Eberl) haftmann parents: diff changeset	1374	end
60571 c9fdf2080447 euclidean algorithm on polynomials haftmann parents: 60569 diff changeset	1375
60687 33dbbcb6a8a3 eliminated some duplication haftmann parents: 60686 diff changeset	1376	(*instance nat :: euclidean_semiring_gcd
33dbbcb6a8a3 eliminated some duplication haftmann parents: 60686 diff changeset	1377	proof (standard, auto intro!: ext)
33dbbcb6a8a3 eliminated some duplication haftmann parents: 60686 diff changeset	1378	fix m n :: nat
33dbbcb6a8a3 eliminated some duplication haftmann parents: 60686 diff changeset	1379	show *: "gcd m n = gcd_eucl m n"
33dbbcb6a8a3 eliminated some duplication haftmann parents: 60686 diff changeset	1380	proof (induct m n rule: gcd_eucl_induct)
33dbbcb6a8a3 eliminated some duplication haftmann parents: 60686 diff changeset	1381	case zero then show ?case by (simp add: gcd_eucl_0)
33dbbcb6a8a3 eliminated some duplication haftmann parents: 60686 diff changeset	1382	next
33dbbcb6a8a3 eliminated some duplication haftmann parents: 60686 diff changeset	1383	case (mod m n)
33dbbcb6a8a3 eliminated some duplication haftmann parents: 60686 diff changeset	1384	with gcd_eucl_non_0 [of n m, symmetric]
33dbbcb6a8a3 eliminated some duplication haftmann parents: 60686 diff changeset	1385	show ?case by (simp add: gcd_non_0_nat)
33dbbcb6a8a3 eliminated some duplication haftmann parents: 60686 diff changeset	1386	qed
33dbbcb6a8a3 eliminated some duplication haftmann parents: 60686 diff changeset	1387	show "lcm m n = lcm_eucl m n"
33dbbcb6a8a3 eliminated some duplication haftmann parents: 60686 diff changeset	1388	by (simp add: lcm_eucl_def lcm_gcd * [symmetric] lcm_nat_def)
33dbbcb6a8a3 eliminated some duplication haftmann parents: 60686 diff changeset	1389	qed*)
33dbbcb6a8a3 eliminated some duplication haftmann parents: 60686 diff changeset	1390
60571 c9fdf2080447 euclidean algorithm on polynomials haftmann parents: 60569 diff changeset	1391	end

author	haftmann
	Wed, 17 Feb 2016 21:51:58 +0100
changeset 62353	7f927120b5a2
parent 62348	9a5f43dac883
child 62422	4aa35fd6c152
permissions	-rw-r--r--