isabelle: src/HOL/NumberTheory/EulerFermat.thy@3d80209e9a53 (annotated)

11049 7eef34adb852 HOL-NumberTheory: converted to new-style format and proper document setup; wenzelm parents: 10834 diff changeset	1	(* Title: HOL/NumberTheory/EulerFermat.thy
9508 4d01dbf6ded7 Chinese Remainder Theorem, Wilsons Theorem, etc., by T M Masmussen paulson parents: diff changeset	2	ID: $Id$
11049 7eef34adb852 HOL-NumberTheory: converted to new-style format and proper document setup; wenzelm parents: 10834 diff changeset	3	Author: Thomas M. Rasmussen
7eef34adb852 HOL-NumberTheory: converted to new-style format and proper document setup; wenzelm parents: 10834 diff changeset	4	Copyright 2000 University of Cambridge
13833 f8dcb1d9ea68 zprime_def fixes by Jeremy Avigad paulson parents: 13524 diff changeset	5
f8dcb1d9ea68 zprime_def fixes by Jeremy Avigad paulson parents: 13524 diff changeset	6	Changes by Jeremy Avigad, 2003/02/21:
f8dcb1d9ea68 zprime_def fixes by Jeremy Avigad paulson parents: 13524 diff changeset	7	repaired proof of Bnor_prime (removed use of zprime_def)
9508 4d01dbf6ded7 Chinese Remainder Theorem, Wilsons Theorem, etc., by T M Masmussen paulson parents: diff changeset	8	*)
4d01dbf6ded7 Chinese Remainder Theorem, Wilsons Theorem, etc., by T M Masmussen paulson parents: diff changeset	9
11049 7eef34adb852 HOL-NumberTheory: converted to new-style format and proper document setup; wenzelm parents: 10834 diff changeset	10	header {* Fermat's Little Theorem extended to Euler's Totient function *}
7eef34adb852 HOL-NumberTheory: converted to new-style format and proper document setup; wenzelm parents: 10834 diff changeset	11
16417 9bc16273c2d4 migrated theory headers to new format haftmann parents: 15481 diff changeset	12	theory EulerFermat imports BijectionRel IntFact begin
11049 7eef34adb852 HOL-NumberTheory: converted to new-style format and proper document setup; wenzelm parents: 10834 diff changeset	13
7eef34adb852 HOL-NumberTheory: converted to new-style format and proper document setup; wenzelm parents: 10834 diff changeset	14	text {*
7eef34adb852 HOL-NumberTheory: converted to new-style format and proper document setup; wenzelm parents: 10834 diff changeset	15	Fermat's Little Theorem extended to Euler's Totient function. More
7eef34adb852 HOL-NumberTheory: converted to new-style format and proper document setup; wenzelm parents: 10834 diff changeset	16	abstract approach than Boyer-Moore (which seems necessary to achieve
7eef34adb852 HOL-NumberTheory: converted to new-style format and proper document setup; wenzelm parents: 10834 diff changeset	17	the extended version).
7eef34adb852 HOL-NumberTheory: converted to new-style format and proper document setup; wenzelm parents: 10834 diff changeset	18	*}
7eef34adb852 HOL-NumberTheory: converted to new-style format and proper document setup; wenzelm parents: 10834 diff changeset	19
7eef34adb852 HOL-NumberTheory: converted to new-style format and proper document setup; wenzelm parents: 10834 diff changeset	20
7eef34adb852 HOL-NumberTheory: converted to new-style format and proper document setup; wenzelm parents: 10834 diff changeset	21	subsection {* Definitions and lemmas *}
9508 4d01dbf6ded7 Chinese Remainder Theorem, Wilsons Theorem, etc., by T M Masmussen paulson parents: diff changeset	22
4d01dbf6ded7 Chinese Remainder Theorem, Wilsons Theorem, etc., by T M Masmussen paulson parents: diff changeset	23	consts
11049 7eef34adb852 HOL-NumberTheory: converted to new-style format and proper document setup; wenzelm parents: 10834 diff changeset	24	RsetR :: "int => int set set"
7eef34adb852 HOL-NumberTheory: converted to new-style format and proper document setup; wenzelm parents: 10834 diff changeset	25	BnorRset :: "int * int => int set"
7eef34adb852 HOL-NumberTheory: converted to new-style format and proper document setup; wenzelm parents: 10834 diff changeset	26	norRRset :: "int => int set"
7eef34adb852 HOL-NumberTheory: converted to new-style format and proper document setup; wenzelm parents: 10834 diff changeset	27	noXRRset :: "int => int => int set"
7eef34adb852 HOL-NumberTheory: converted to new-style format and proper document setup; wenzelm parents: 10834 diff changeset	28	phi :: "int => nat"
7eef34adb852 HOL-NumberTheory: converted to new-style format and proper document setup; wenzelm parents: 10834 diff changeset	29	is_RRset :: "int set => int => bool"
7eef34adb852 HOL-NumberTheory: converted to new-style format and proper document setup; wenzelm parents: 10834 diff changeset	30	RRset2norRR :: "int set => int => int => int"
9508 4d01dbf6ded7 Chinese Remainder Theorem, Wilsons Theorem, etc., by T M Masmussen paulson parents: diff changeset	31
4d01dbf6ded7 Chinese Remainder Theorem, Wilsons Theorem, etc., by T M Masmussen paulson parents: diff changeset	32	inductive "RsetR m"
11049 7eef34adb852 HOL-NumberTheory: converted to new-style format and proper document setup; wenzelm parents: 10834 diff changeset	33	intros
7eef34adb852 HOL-NumberTheory: converted to new-style format and proper document setup; wenzelm parents: 10834 diff changeset	34	empty [simp]: "{} \<in> RsetR m"
11868 56db9f3a6b3e Numerals now work for the integers: the binary numerals for 0 and 1 rewrite paulson parents: 11704 diff changeset	35	insert: "A \<in> RsetR m ==> zgcd (a, m) = 1 ==>
11049 7eef34adb852 HOL-NumberTheory: converted to new-style format and proper document setup; wenzelm parents: 10834 diff changeset	36	\<forall>a'. a' \<in> A --> \<not> zcong a a' m ==> insert a A \<in> RsetR m"
9508 4d01dbf6ded7 Chinese Remainder Theorem, Wilsons Theorem, etc., by T M Masmussen paulson parents: diff changeset	37
11049 7eef34adb852 HOL-NumberTheory: converted to new-style format and proper document setup; wenzelm parents: 10834 diff changeset	38	recdef BnorRset
7eef34adb852 HOL-NumberTheory: converted to new-style format and proper document setup; wenzelm parents: 10834 diff changeset	39	"measure ((\<lambda>(a, m). nat a) :: int * int => nat)"
7eef34adb852 HOL-NumberTheory: converted to new-style format and proper document setup; wenzelm parents: 10834 diff changeset	40	"BnorRset (a, m) =
11868 56db9f3a6b3e Numerals now work for the integers: the binary numerals for 0 and 1 rewrite paulson parents: 11704 diff changeset	41	(if 0 < a then
56db9f3a6b3e Numerals now work for the integers: the binary numerals for 0 and 1 rewrite paulson parents: 11704 diff changeset	42	let na = BnorRset (a - 1, m)
56db9f3a6b3e Numerals now work for the integers: the binary numerals for 0 and 1 rewrite paulson parents: 11704 diff changeset	43	in (if zgcd (a, m) = 1 then insert a na else na)
11049 7eef34adb852 HOL-NumberTheory: converted to new-style format and proper document setup; wenzelm parents: 10834 diff changeset	44	else {})"
9508 4d01dbf6ded7 Chinese Remainder Theorem, Wilsons Theorem, etc., by T M Masmussen paulson parents: diff changeset	45
4d01dbf6ded7 Chinese Remainder Theorem, Wilsons Theorem, etc., by T M Masmussen paulson parents: diff changeset	46	defs
11868 56db9f3a6b3e Numerals now work for the integers: the binary numerals for 0 and 1 rewrite paulson parents: 11704 diff changeset	47	norRRset_def: "norRRset m == BnorRset (m - 1, m)"
11049 7eef34adb852 HOL-NumberTheory: converted to new-style format and proper document setup; wenzelm parents: 10834 diff changeset	48	noXRRset_def: "noXRRset m x == (\<lambda>a. a * x) ` norRRset m"
7eef34adb852 HOL-NumberTheory: converted to new-style format and proper document setup; wenzelm parents: 10834 diff changeset	49	phi_def: "phi m == card (norRRset m)"
7eef34adb852 HOL-NumberTheory: converted to new-style format and proper document setup; wenzelm parents: 10834 diff changeset	50	is_RRset_def: "is_RRset A m == A \<in> RsetR m \<and> card A = phi m"
7eef34adb852 HOL-NumberTheory: converted to new-style format and proper document setup; wenzelm parents: 10834 diff changeset	51	RRset2norRR_def:
7eef34adb852 HOL-NumberTheory: converted to new-style format and proper document setup; wenzelm parents: 10834 diff changeset	52	"RRset2norRR A m a ==
11868 56db9f3a6b3e Numerals now work for the integers: the binary numerals for 0 and 1 rewrite paulson parents: 11704 diff changeset	53	(if 1 < m \<and> is_RRset A m \<and> a \<in> A then
11049 7eef34adb852 HOL-NumberTheory: converted to new-style format and proper document setup; wenzelm parents: 10834 diff changeset	54	SOME b. zcong a b m \<and> b \<in> norRRset m
11868 56db9f3a6b3e Numerals now work for the integers: the binary numerals for 0 and 1 rewrite paulson parents: 11704 diff changeset	55	else 0)"
11049 7eef34adb852 HOL-NumberTheory: converted to new-style format and proper document setup; wenzelm parents: 10834 diff changeset	56
7eef34adb852 HOL-NumberTheory: converted to new-style format and proper document setup; wenzelm parents: 10834 diff changeset	57	constdefs
7eef34adb852 HOL-NumberTheory: converted to new-style format and proper document setup; wenzelm parents: 10834 diff changeset	58	zcongm :: "int => int => int => bool"
7eef34adb852 HOL-NumberTheory: converted to new-style format and proper document setup; wenzelm parents: 10834 diff changeset	59	"zcongm m == \<lambda>a b. zcong a b m"
7eef34adb852 HOL-NumberTheory: converted to new-style format and proper document setup; wenzelm parents: 10834 diff changeset	60
11868 56db9f3a6b3e Numerals now work for the integers: the binary numerals for 0 and 1 rewrite paulson parents: 11704 diff changeset	61	lemma abs_eq_1_iff [iff]: "(abs z = (1::int)) = (z = 1 \<or> z = -1)"
11049 7eef34adb852 HOL-NumberTheory: converted to new-style format and proper document setup; wenzelm parents: 10834 diff changeset	62	-- {* LCP: not sure why this lemma is needed now *}
15003 6145dd7538d7 replaced monomorphic abs definitions by abs_if paulson parents: 14174 diff changeset	63	by (auto simp add: abs_if)
11049 7eef34adb852 HOL-NumberTheory: converted to new-style format and proper document setup; wenzelm parents: 10834 diff changeset	64
7eef34adb852 HOL-NumberTheory: converted to new-style format and proper document setup; wenzelm parents: 10834 diff changeset	65
7eef34adb852 HOL-NumberTheory: converted to new-style format and proper document setup; wenzelm parents: 10834 diff changeset	66	text {* \medskip @{text norRRset} *}
7eef34adb852 HOL-NumberTheory: converted to new-style format and proper document setup; wenzelm parents: 10834 diff changeset	67
7eef34adb852 HOL-NumberTheory: converted to new-style format and proper document setup; wenzelm parents: 10834 diff changeset	68	declare BnorRset.simps [simp del]
7eef34adb852 HOL-NumberTheory: converted to new-style format and proper document setup; wenzelm parents: 10834 diff changeset	69
7eef34adb852 HOL-NumberTheory: converted to new-style format and proper document setup; wenzelm parents: 10834 diff changeset	70	lemma BnorRset_induct:
7eef34adb852 HOL-NumberTheory: converted to new-style format and proper document setup; wenzelm parents: 10834 diff changeset	71	"(!!a m. P {} a m) ==>
11868 56db9f3a6b3e Numerals now work for the integers: the binary numerals for 0 and 1 rewrite paulson parents: 11704 diff changeset	72	(!!a m. 0 < (a::int) ==> P (BnorRset (a - 1, m::int)) (a - 1) m
11049 7eef34adb852 HOL-NumberTheory: converted to new-style format and proper document setup; wenzelm parents: 10834 diff changeset	73	==> P (BnorRset(a,m)) a m)
7eef34adb852 HOL-NumberTheory: converted to new-style format and proper document setup; wenzelm parents: 10834 diff changeset	74	==> P (BnorRset(u,v)) u v"
7eef34adb852 HOL-NumberTheory: converted to new-style format and proper document setup; wenzelm parents: 10834 diff changeset	75	proof -
11549 e7265e70fd7c renamed "antecedent" case to "rule_context"; wenzelm parents: 11049 diff changeset	76	case rule_context
11049 7eef34adb852 HOL-NumberTheory: converted to new-style format and proper document setup; wenzelm parents: 10834 diff changeset	77	show ?thesis
13833 f8dcb1d9ea68 zprime_def fixes by Jeremy Avigad paulson parents: 13524 diff changeset	78	apply (rule BnorRset.induct, safe)
11868 56db9f3a6b3e Numerals now work for the integers: the binary numerals for 0 and 1 rewrite paulson parents: 11704 diff changeset	79	apply (case_tac [2] "0 < a")
13833 f8dcb1d9ea68 zprime_def fixes by Jeremy Avigad paulson parents: 13524 diff changeset	80	apply (rule_tac [2] rule_context, simp_all)
11549 e7265e70fd7c renamed "antecedent" case to "rule_context"; wenzelm parents: 11049 diff changeset	81	apply (simp_all add: BnorRset.simps rule_context)
11049 7eef34adb852 HOL-NumberTheory: converted to new-style format and proper document setup; wenzelm parents: 10834 diff changeset	82	done
7eef34adb852 HOL-NumberTheory: converted to new-style format and proper document setup; wenzelm parents: 10834 diff changeset	83	qed
7eef34adb852 HOL-NumberTheory: converted to new-style format and proper document setup; wenzelm parents: 10834 diff changeset	84
7eef34adb852 HOL-NumberTheory: converted to new-style format and proper document setup; wenzelm parents: 10834 diff changeset	85	lemma Bnor_mem_zle [rule_format]: "b \<in> BnorRset (a, m) --> b \<le> a"
7eef34adb852 HOL-NumberTheory: converted to new-style format and proper document setup; wenzelm parents: 10834 diff changeset	86	apply (induct a m rule: BnorRset_induct)
7eef34adb852 HOL-NumberTheory: converted to new-style format and proper document setup; wenzelm parents: 10834 diff changeset	87	prefer 2
7eef34adb852 HOL-NumberTheory: converted to new-style format and proper document setup; wenzelm parents: 10834 diff changeset	88	apply (subst BnorRset.simps)
13833 f8dcb1d9ea68 zprime_def fixes by Jeremy Avigad paulson parents: 13524 diff changeset	89	apply (unfold Let_def, auto)
11049 7eef34adb852 HOL-NumberTheory: converted to new-style format and proper document setup; wenzelm parents: 10834 diff changeset	90	done
7eef34adb852 HOL-NumberTheory: converted to new-style format and proper document setup; wenzelm parents: 10834 diff changeset	91
7eef34adb852 HOL-NumberTheory: converted to new-style format and proper document setup; wenzelm parents: 10834 diff changeset	92	lemma Bnor_mem_zle_swap: "a < b ==> b \<notin> BnorRset (a, m)"
13833 f8dcb1d9ea68 zprime_def fixes by Jeremy Avigad paulson parents: 13524 diff changeset	93	by (auto dest: Bnor_mem_zle)
11049 7eef34adb852 HOL-NumberTheory: converted to new-style format and proper document setup; wenzelm parents: 10834 diff changeset	94
11868 56db9f3a6b3e Numerals now work for the integers: the binary numerals for 0 and 1 rewrite paulson parents: 11704 diff changeset	95	lemma Bnor_mem_zg [rule_format]: "b \<in> BnorRset (a, m) --> 0 < b"
11049 7eef34adb852 HOL-NumberTheory: converted to new-style format and proper document setup; wenzelm parents: 10834 diff changeset	96	apply (induct a m rule: BnorRset_induct)
7eef34adb852 HOL-NumberTheory: converted to new-style format and proper document setup; wenzelm parents: 10834 diff changeset	97	prefer 2
7eef34adb852 HOL-NumberTheory: converted to new-style format and proper document setup; wenzelm parents: 10834 diff changeset	98	apply (subst BnorRset.simps)
13833 f8dcb1d9ea68 zprime_def fixes by Jeremy Avigad paulson parents: 13524 diff changeset	99	apply (unfold Let_def, auto)
11049 7eef34adb852 HOL-NumberTheory: converted to new-style format and proper document setup; wenzelm parents: 10834 diff changeset	100	done
7eef34adb852 HOL-NumberTheory: converted to new-style format and proper document setup; wenzelm parents: 10834 diff changeset	101
7eef34adb852 HOL-NumberTheory: converted to new-style format and proper document setup; wenzelm parents: 10834 diff changeset	102	lemma Bnor_mem_if [rule_format]:
11868 56db9f3a6b3e Numerals now work for the integers: the binary numerals for 0 and 1 rewrite paulson parents: 11704 diff changeset	103	"zgcd (b, m) = 1 --> 0 < b --> b \<le> a --> b \<in> BnorRset (a, m)"
13833 f8dcb1d9ea68 zprime_def fixes by Jeremy Avigad paulson parents: 13524 diff changeset	104	apply (induct a m rule: BnorRset.induct, auto)
11049 7eef34adb852 HOL-NumberTheory: converted to new-style format and proper document setup; wenzelm parents: 10834 diff changeset	105	apply (subst BnorRset.simps)
7eef34adb852 HOL-NumberTheory: converted to new-style format and proper document setup; wenzelm parents: 10834 diff changeset	106	defer
7eef34adb852 HOL-NumberTheory: converted to new-style format and proper document setup; wenzelm parents: 10834 diff changeset	107	apply (subst BnorRset.simps)
13833 f8dcb1d9ea68 zprime_def fixes by Jeremy Avigad paulson parents: 13524 diff changeset	108	apply (unfold Let_def, auto)
11049 7eef34adb852 HOL-NumberTheory: converted to new-style format and proper document setup; wenzelm parents: 10834 diff changeset	109	done
9508 4d01dbf6ded7 Chinese Remainder Theorem, Wilsons Theorem, etc., by T M Masmussen paulson parents: diff changeset	110
11049 7eef34adb852 HOL-NumberTheory: converted to new-style format and proper document setup; wenzelm parents: 10834 diff changeset	111	lemma Bnor_in_RsetR [rule_format]: "a < m --> BnorRset (a, m) \<in> RsetR m"
13833 f8dcb1d9ea68 zprime_def fixes by Jeremy Avigad paulson parents: 13524 diff changeset	112	apply (induct a m rule: BnorRset_induct, simp)
11049 7eef34adb852 HOL-NumberTheory: converted to new-style format and proper document setup; wenzelm parents: 10834 diff changeset	113	apply (subst BnorRset.simps)
13833 f8dcb1d9ea68 zprime_def fixes by Jeremy Avigad paulson parents: 13524 diff changeset	114	apply (unfold Let_def, auto)
11049 7eef34adb852 HOL-NumberTheory: converted to new-style format and proper document setup; wenzelm parents: 10834 diff changeset	115	apply (rule RsetR.insert)
7eef34adb852 HOL-NumberTheory: converted to new-style format and proper document setup; wenzelm parents: 10834 diff changeset	116	apply (rule_tac [3] allI)
7eef34adb852 HOL-NumberTheory: converted to new-style format and proper document setup; wenzelm parents: 10834 diff changeset	117	apply (rule_tac [3] impI)
7eef34adb852 HOL-NumberTheory: converted to new-style format and proper document setup; wenzelm parents: 10834 diff changeset	118	apply (rule_tac [3] zcong_not)
11868 56db9f3a6b3e Numerals now work for the integers: the binary numerals for 0 and 1 rewrite paulson parents: 11704 diff changeset	119	apply (subgoal_tac [6] "a' \<le> a - 1")
11049 7eef34adb852 HOL-NumberTheory: converted to new-style format and proper document setup; wenzelm parents: 10834 diff changeset	120	apply (rule_tac [7] Bnor_mem_zle)
13833 f8dcb1d9ea68 zprime_def fixes by Jeremy Avigad paulson parents: 13524 diff changeset	121	apply (rule_tac [5] Bnor_mem_zg, auto)
11049 7eef34adb852 HOL-NumberTheory: converted to new-style format and proper document setup; wenzelm parents: 10834 diff changeset	122	done
7eef34adb852 HOL-NumberTheory: converted to new-style format and proper document setup; wenzelm parents: 10834 diff changeset	123
7eef34adb852 HOL-NumberTheory: converted to new-style format and proper document setup; wenzelm parents: 10834 diff changeset	124	lemma Bnor_fin: "finite (BnorRset (a, m))"
7eef34adb852 HOL-NumberTheory: converted to new-style format and proper document setup; wenzelm parents: 10834 diff changeset	125	apply (induct a m rule: BnorRset_induct)
7eef34adb852 HOL-NumberTheory: converted to new-style format and proper document setup; wenzelm parents: 10834 diff changeset	126	prefer 2
7eef34adb852 HOL-NumberTheory: converted to new-style format and proper document setup; wenzelm parents: 10834 diff changeset	127	apply (subst BnorRset.simps)
13833 f8dcb1d9ea68 zprime_def fixes by Jeremy Avigad paulson parents: 13524 diff changeset	128	apply (unfold Let_def, auto)
11049 7eef34adb852 HOL-NumberTheory: converted to new-style format and proper document setup; wenzelm parents: 10834 diff changeset	129	done
7eef34adb852 HOL-NumberTheory: converted to new-style format and proper document setup; wenzelm parents: 10834 diff changeset	130
13524 604d0f3622d6 * empty log message * wenzelm parents: 13187 diff changeset	131	lemma norR_mem_unique_aux: "a \<le> b - 1 ==> a < (b::int)"
11049 7eef34adb852 HOL-NumberTheory: converted to new-style format and proper document setup; wenzelm parents: 10834 diff changeset	132	apply auto
7eef34adb852 HOL-NumberTheory: converted to new-style format and proper document setup; wenzelm parents: 10834 diff changeset	133	done
9508 4d01dbf6ded7 Chinese Remainder Theorem, Wilsons Theorem, etc., by T M Masmussen paulson parents: diff changeset	134
11049 7eef34adb852 HOL-NumberTheory: converted to new-style format and proper document setup; wenzelm parents: 10834 diff changeset	135	lemma norR_mem_unique:
11868 56db9f3a6b3e Numerals now work for the integers: the binary numerals for 0 and 1 rewrite paulson parents: 11704 diff changeset	136	"1 < m ==>
56db9f3a6b3e Numerals now work for the integers: the binary numerals for 0 and 1 rewrite paulson parents: 11704 diff changeset	137	zgcd (a, m) = 1 ==> \<exists>!b. [a = b] (mod m) \<and> b \<in> norRRset m"
11049 7eef34adb852 HOL-NumberTheory: converted to new-style format and proper document setup; wenzelm parents: 10834 diff changeset	138	apply (unfold norRRset_def)
13833 f8dcb1d9ea68 zprime_def fixes by Jeremy Avigad paulson parents: 13524 diff changeset	139	apply (cut_tac a = a and m = m in zcong_zless_unique, auto)
11049 7eef34adb852 HOL-NumberTheory: converted to new-style format and proper document setup; wenzelm parents: 10834 diff changeset	140	apply (rule_tac [2] m = m in zcong_zless_imp_eq)
7eef34adb852 HOL-NumberTheory: converted to new-style format and proper document setup; wenzelm parents: 10834 diff changeset	141	apply (auto intro: Bnor_mem_zle Bnor_mem_zg zcong_trans
13524 604d0f3622d6 * empty log message * wenzelm parents: 13187 diff changeset	142	order_less_imp_le norR_mem_unique_aux simp add: zcong_sym)
14174 f3cafd2929d5 Methods rule_tac etc support static (Isar) contexts. ballarin parents: 13833 diff changeset	143	apply (rule_tac x = b in exI, safe)
11049 7eef34adb852 HOL-NumberTheory: converted to new-style format and proper document setup; wenzelm parents: 10834 diff changeset	144	apply (rule Bnor_mem_if)
11868 56db9f3a6b3e Numerals now work for the integers: the binary numerals for 0 and 1 rewrite paulson parents: 11704 diff changeset	145	apply (case_tac [2] "b = 0")
11049 7eef34adb852 HOL-NumberTheory: converted to new-style format and proper document setup; wenzelm parents: 10834 diff changeset	146	apply (auto intro: order_less_le [THEN iffD2])
7eef34adb852 HOL-NumberTheory: converted to new-style format and proper document setup; wenzelm parents: 10834 diff changeset	147	prefer 2
7eef34adb852 HOL-NumberTheory: converted to new-style format and proper document setup; wenzelm parents: 10834 diff changeset	148	apply (simp only: zcong_def)
7eef34adb852 HOL-NumberTheory: converted to new-style format and proper document setup; wenzelm parents: 10834 diff changeset	149	apply (subgoal_tac "zgcd (a, m) = m")
7eef34adb852 HOL-NumberTheory: converted to new-style format and proper document setup; wenzelm parents: 10834 diff changeset	150	prefer 2
7eef34adb852 HOL-NumberTheory: converted to new-style format and proper document setup; wenzelm parents: 10834 diff changeset	151	apply (subst zdvd_iff_zgcd [symmetric])
7eef34adb852 HOL-NumberTheory: converted to new-style format and proper document setup; wenzelm parents: 10834 diff changeset	152	apply (rule_tac [4] zgcd_zcong_zgcd)
7eef34adb852 HOL-NumberTheory: converted to new-style format and proper document setup; wenzelm parents: 10834 diff changeset	153	apply (simp_all add: zdvd_zminus_iff zcong_sym)
7eef34adb852 HOL-NumberTheory: converted to new-style format and proper document setup; wenzelm parents: 10834 diff changeset	154	done
7eef34adb852 HOL-NumberTheory: converted to new-style format and proper document setup; wenzelm parents: 10834 diff changeset	155
7eef34adb852 HOL-NumberTheory: converted to new-style format and proper document setup; wenzelm parents: 10834 diff changeset	156
7eef34adb852 HOL-NumberTheory: converted to new-style format and proper document setup; wenzelm parents: 10834 diff changeset	157	text {* \medskip @{term noXRRset} *}
7eef34adb852 HOL-NumberTheory: converted to new-style format and proper document setup; wenzelm parents: 10834 diff changeset	158
7eef34adb852 HOL-NumberTheory: converted to new-style format and proper document setup; wenzelm parents: 10834 diff changeset	159	lemma RRset_gcd [rule_format]:
11868 56db9f3a6b3e Numerals now work for the integers: the binary numerals for 0 and 1 rewrite paulson parents: 11704 diff changeset	160	"is_RRset A m ==> a \<in> A --> zgcd (a, m) = 1"
11049 7eef34adb852 HOL-NumberTheory: converted to new-style format and proper document setup; wenzelm parents: 10834 diff changeset	161	apply (unfold is_RRset_def)
13833 f8dcb1d9ea68 zprime_def fixes by Jeremy Avigad paulson parents: 13524 diff changeset	162	apply (rule RsetR.induct, auto)
11049 7eef34adb852 HOL-NumberTheory: converted to new-style format and proper document setup; wenzelm parents: 10834 diff changeset	163	done
7eef34adb852 HOL-NumberTheory: converted to new-style format and proper document setup; wenzelm parents: 10834 diff changeset	164
7eef34adb852 HOL-NumberTheory: converted to new-style format and proper document setup; wenzelm parents: 10834 diff changeset	165	lemma RsetR_zmult_mono:
7eef34adb852 HOL-NumberTheory: converted to new-style format and proper document setup; wenzelm parents: 10834 diff changeset	166	"A \<in> RsetR m ==>
11868 56db9f3a6b3e Numerals now work for the integers: the binary numerals for 0 and 1 rewrite paulson parents: 11704 diff changeset	167	0 < m ==> zgcd (x, m) = 1 ==> (\<lambda>a. a * x) ` A \<in> RsetR m"
13833 f8dcb1d9ea68 zprime_def fixes by Jeremy Avigad paulson parents: 13524 diff changeset	168	apply (erule RsetR.induct, simp_all)
f8dcb1d9ea68 zprime_def fixes by Jeremy Avigad paulson parents: 13524 diff changeset	169	apply (rule RsetR.insert, auto)
11049 7eef34adb852 HOL-NumberTheory: converted to new-style format and proper document setup; wenzelm parents: 10834 diff changeset	170	apply (blast intro: zgcd_zgcd_zmult)
7eef34adb852 HOL-NumberTheory: converted to new-style format and proper document setup; wenzelm parents: 10834 diff changeset	171	apply (simp add: zcong_cancel)
7eef34adb852 HOL-NumberTheory: converted to new-style format and proper document setup; wenzelm parents: 10834 diff changeset	172	done
7eef34adb852 HOL-NumberTheory: converted to new-style format and proper document setup; wenzelm parents: 10834 diff changeset	173
7eef34adb852 HOL-NumberTheory: converted to new-style format and proper document setup; wenzelm parents: 10834 diff changeset	174	lemma card_nor_eq_noX:
11868 56db9f3a6b3e Numerals now work for the integers: the binary numerals for 0 and 1 rewrite paulson parents: 11704 diff changeset	175	"0 < m ==>
56db9f3a6b3e Numerals now work for the integers: the binary numerals for 0 and 1 rewrite paulson parents: 11704 diff changeset	176	zgcd (x, m) = 1 ==> card (noXRRset m x) = card (norRRset m)"
11049 7eef34adb852 HOL-NumberTheory: converted to new-style format and proper document setup; wenzelm parents: 10834 diff changeset	177	apply (unfold norRRset_def noXRRset_def)
7eef34adb852 HOL-NumberTheory: converted to new-style format and proper document setup; wenzelm parents: 10834 diff changeset	178	apply (rule card_image)
7eef34adb852 HOL-NumberTheory: converted to new-style format and proper document setup; wenzelm parents: 10834 diff changeset	179	apply (auto simp add: inj_on_def Bnor_fin)
7eef34adb852 HOL-NumberTheory: converted to new-style format and proper document setup; wenzelm parents: 10834 diff changeset	180	apply (simp add: BnorRset.simps)
7eef34adb852 HOL-NumberTheory: converted to new-style format and proper document setup; wenzelm parents: 10834 diff changeset	181	done
7eef34adb852 HOL-NumberTheory: converted to new-style format and proper document setup; wenzelm parents: 10834 diff changeset	182
7eef34adb852 HOL-NumberTheory: converted to new-style format and proper document setup; wenzelm parents: 10834 diff changeset	183	lemma noX_is_RRset:
11868 56db9f3a6b3e Numerals now work for the integers: the binary numerals for 0 and 1 rewrite paulson parents: 11704 diff changeset	184	"0 < m ==> zgcd (x, m) = 1 ==> is_RRset (noXRRset m x) m"
11049 7eef34adb852 HOL-NumberTheory: converted to new-style format and proper document setup; wenzelm parents: 10834 diff changeset	185	apply (unfold is_RRset_def phi_def)
7eef34adb852 HOL-NumberTheory: converted to new-style format and proper document setup; wenzelm parents: 10834 diff changeset	186	apply (auto simp add: card_nor_eq_noX)
7eef34adb852 HOL-NumberTheory: converted to new-style format and proper document setup; wenzelm parents: 10834 diff changeset	187	apply (unfold noXRRset_def norRRset_def)
7eef34adb852 HOL-NumberTheory: converted to new-style format and proper document setup; wenzelm parents: 10834 diff changeset	188	apply (rule RsetR_zmult_mono)
13833 f8dcb1d9ea68 zprime_def fixes by Jeremy Avigad paulson parents: 13524 diff changeset	189	apply (rule Bnor_in_RsetR, simp_all)
11049 7eef34adb852 HOL-NumberTheory: converted to new-style format and proper document setup; wenzelm parents: 10834 diff changeset	190	done
9508 4d01dbf6ded7 Chinese Remainder Theorem, Wilsons Theorem, etc., by T M Masmussen paulson parents: diff changeset	191
11049 7eef34adb852 HOL-NumberTheory: converted to new-style format and proper document setup; wenzelm parents: 10834 diff changeset	192	lemma aux_some:
11868 56db9f3a6b3e Numerals now work for the integers: the binary numerals for 0 and 1 rewrite paulson parents: 11704 diff changeset	193	"1 < m ==> is_RRset A m ==> a \<in> A
11049 7eef34adb852 HOL-NumberTheory: converted to new-style format and proper document setup; wenzelm parents: 10834 diff changeset	194	==> zcong a (SOME b. [a = b] (mod m) \<and> b \<in> norRRset m) m \<and>
7eef34adb852 HOL-NumberTheory: converted to new-style format and proper document setup; wenzelm parents: 10834 diff changeset	195	(SOME b. [a = b] (mod m) \<and> b \<in> norRRset m) \<in> norRRset m"
7eef34adb852 HOL-NumberTheory: converted to new-style format and proper document setup; wenzelm parents: 10834 diff changeset	196	apply (rule norR_mem_unique [THEN ex1_implies_ex, THEN someI_ex])
13833 f8dcb1d9ea68 zprime_def fixes by Jeremy Avigad paulson parents: 13524 diff changeset	197	apply (rule_tac [2] RRset_gcd, simp_all)
11049 7eef34adb852 HOL-NumberTheory: converted to new-style format and proper document setup; wenzelm parents: 10834 diff changeset	198	done
7eef34adb852 HOL-NumberTheory: converted to new-style format and proper document setup; wenzelm parents: 10834 diff changeset	199
7eef34adb852 HOL-NumberTheory: converted to new-style format and proper document setup; wenzelm parents: 10834 diff changeset	200	lemma RRset2norRR_correct:
11868 56db9f3a6b3e Numerals now work for the integers: the binary numerals for 0 and 1 rewrite paulson parents: 11704 diff changeset	201	"1 < m ==> is_RRset A m ==> a \<in> A ==>
11049 7eef34adb852 HOL-NumberTheory: converted to new-style format and proper document setup; wenzelm parents: 10834 diff changeset	202	[a = RRset2norRR A m a] (mod m) \<and> RRset2norRR A m a \<in> norRRset m"
13833 f8dcb1d9ea68 zprime_def fixes by Jeremy Avigad paulson parents: 13524 diff changeset	203	apply (unfold RRset2norRR_def, simp)
f8dcb1d9ea68 zprime_def fixes by Jeremy Avigad paulson parents: 13524 diff changeset	204	apply (rule aux_some, simp_all)
11049 7eef34adb852 HOL-NumberTheory: converted to new-style format and proper document setup; wenzelm parents: 10834 diff changeset	205	done
7eef34adb852 HOL-NumberTheory: converted to new-style format and proper document setup; wenzelm parents: 10834 diff changeset	206
7eef34adb852 HOL-NumberTheory: converted to new-style format and proper document setup; wenzelm parents: 10834 diff changeset	207	lemmas RRset2norRR_correct1 =
7eef34adb852 HOL-NumberTheory: converted to new-style format and proper document setup; wenzelm parents: 10834 diff changeset	208	RRset2norRR_correct [THEN conjunct1, standard]
7eef34adb852 HOL-NumberTheory: converted to new-style format and proper document setup; wenzelm parents: 10834 diff changeset	209	lemmas RRset2norRR_correct2 =
7eef34adb852 HOL-NumberTheory: converted to new-style format and proper document setup; wenzelm parents: 10834 diff changeset	210	RRset2norRR_correct [THEN conjunct2, standard]
7eef34adb852 HOL-NumberTheory: converted to new-style format and proper document setup; wenzelm parents: 10834 diff changeset	211
7eef34adb852 HOL-NumberTheory: converted to new-style format and proper document setup; wenzelm parents: 10834 diff changeset	212	lemma RsetR_fin: "A \<in> RsetR m ==> finite A"
13833 f8dcb1d9ea68 zprime_def fixes by Jeremy Avigad paulson parents: 13524 diff changeset	213	by (erule RsetR.induct, auto)
11049 7eef34adb852 HOL-NumberTheory: converted to new-style format and proper document setup; wenzelm parents: 10834 diff changeset	214
7eef34adb852 HOL-NumberTheory: converted to new-style format and proper document setup; wenzelm parents: 10834 diff changeset	215	lemma RRset_zcong_eq [rule_format]:
11868 56db9f3a6b3e Numerals now work for the integers: the binary numerals for 0 and 1 rewrite paulson parents: 11704 diff changeset	216	"1 < m ==>
11049 7eef34adb852 HOL-NumberTheory: converted to new-style format and proper document setup; wenzelm parents: 10834 diff changeset	217	is_RRset A m ==> [a = b] (mod m) ==> a \<in> A --> b \<in> A --> a = b"
7eef34adb852 HOL-NumberTheory: converted to new-style format and proper document setup; wenzelm parents: 10834 diff changeset	218	apply (unfold is_RRset_def)
7eef34adb852 HOL-NumberTheory: converted to new-style format and proper document setup; wenzelm parents: 10834 diff changeset	219	apply (rule RsetR.induct)
7eef34adb852 HOL-NumberTheory: converted to new-style format and proper document setup; wenzelm parents: 10834 diff changeset	220	apply (auto simp add: zcong_sym)
7eef34adb852 HOL-NumberTheory: converted to new-style format and proper document setup; wenzelm parents: 10834 diff changeset	221	done
7eef34adb852 HOL-NumberTheory: converted to new-style format and proper document setup; wenzelm parents: 10834 diff changeset	222
7eef34adb852 HOL-NumberTheory: converted to new-style format and proper document setup; wenzelm parents: 10834 diff changeset	223	lemma aux:
7eef34adb852 HOL-NumberTheory: converted to new-style format and proper document setup; wenzelm parents: 10834 diff changeset	224	"P (SOME a. P a) ==> Q (SOME a. Q a) ==>
7eef34adb852 HOL-NumberTheory: converted to new-style format and proper document setup; wenzelm parents: 10834 diff changeset	225	(SOME a. P a) = (SOME a. Q a) ==> \<exists>a. P a \<and> Q a"
7eef34adb852 HOL-NumberTheory: converted to new-style format and proper document setup; wenzelm parents: 10834 diff changeset	226	apply auto
7eef34adb852 HOL-NumberTheory: converted to new-style format and proper document setup; wenzelm parents: 10834 diff changeset	227	done
7eef34adb852 HOL-NumberTheory: converted to new-style format and proper document setup; wenzelm parents: 10834 diff changeset	228
7eef34adb852 HOL-NumberTheory: converted to new-style format and proper document setup; wenzelm parents: 10834 diff changeset	229	lemma RRset2norRR_inj:
11868 56db9f3a6b3e Numerals now work for the integers: the binary numerals for 0 and 1 rewrite paulson parents: 11704 diff changeset	230	"1 < m ==> is_RRset A m ==> inj_on (RRset2norRR A m) A"
13833 f8dcb1d9ea68 zprime_def fixes by Jeremy Avigad paulson parents: 13524 diff changeset	231	apply (unfold RRset2norRR_def inj_on_def, auto)
11049 7eef34adb852 HOL-NumberTheory: converted to new-style format and proper document setup; wenzelm parents: 10834 diff changeset	232	apply (subgoal_tac "\<exists>b. ([x = b] (mod m) \<and> b \<in> norRRset m) \<and>
7eef34adb852 HOL-NumberTheory: converted to new-style format and proper document setup; wenzelm parents: 10834 diff changeset	233	([y = b] (mod m) \<and> b \<in> norRRset m)")
7eef34adb852 HOL-NumberTheory: converted to new-style format and proper document setup; wenzelm parents: 10834 diff changeset	234	apply (rule_tac [2] aux)
7eef34adb852 HOL-NumberTheory: converted to new-style format and proper document setup; wenzelm parents: 10834 diff changeset	235	apply (rule_tac [3] aux_some)
7eef34adb852 HOL-NumberTheory: converted to new-style format and proper document setup; wenzelm parents: 10834 diff changeset	236	apply (rule_tac [2] aux_some)
13833 f8dcb1d9ea68 zprime_def fixes by Jeremy Avigad paulson parents: 13524 diff changeset	237	apply (rule RRset_zcong_eq, auto)
11049 7eef34adb852 HOL-NumberTheory: converted to new-style format and proper document setup; wenzelm parents: 10834 diff changeset	238	apply (rule_tac b = b in zcong_trans)
7eef34adb852 HOL-NumberTheory: converted to new-style format and proper document setup; wenzelm parents: 10834 diff changeset	239	apply (simp_all add: zcong_sym)
7eef34adb852 HOL-NumberTheory: converted to new-style format and proper document setup; wenzelm parents: 10834 diff changeset	240	done
7eef34adb852 HOL-NumberTheory: converted to new-style format and proper document setup; wenzelm parents: 10834 diff changeset	241
7eef34adb852 HOL-NumberTheory: converted to new-style format and proper document setup; wenzelm parents: 10834 diff changeset	242	lemma RRset2norRR_eq_norR:
11868 56db9f3a6b3e Numerals now work for the integers: the binary numerals for 0 and 1 rewrite paulson parents: 11704 diff changeset	243	"1 < m ==> is_RRset A m ==> RRset2norRR A m ` A = norRRset m"
11049 7eef34adb852 HOL-NumberTheory: converted to new-style format and proper document setup; wenzelm parents: 10834 diff changeset	244	apply (rule card_seteq)
7eef34adb852 HOL-NumberTheory: converted to new-style format and proper document setup; wenzelm parents: 10834 diff changeset	245	prefer 3
7eef34adb852 HOL-NumberTheory: converted to new-style format and proper document setup; wenzelm parents: 10834 diff changeset	246	apply (subst card_image)
15402 97204f3b4705 REorganized Finite_Set nipkow parents: 15392 diff changeset	247	apply (rule_tac RRset2norRR_inj, auto)
97204f3b4705 REorganized Finite_Set nipkow parents: 15392 diff changeset	248	apply (rule_tac [3] RRset2norRR_correct2, auto)
11049 7eef34adb852 HOL-NumberTheory: converted to new-style format and proper document setup; wenzelm parents: 10834 diff changeset	249	apply (unfold is_RRset_def phi_def norRRset_def)
15402 97204f3b4705 REorganized Finite_Set nipkow parents: 15392 diff changeset	250	apply (auto simp add: Bnor_fin)
11049 7eef34adb852 HOL-NumberTheory: converted to new-style format and proper document setup; wenzelm parents: 10834 diff changeset	251	done
7eef34adb852 HOL-NumberTheory: converted to new-style format and proper document setup; wenzelm parents: 10834 diff changeset	252
7eef34adb852 HOL-NumberTheory: converted to new-style format and proper document setup; wenzelm parents: 10834 diff changeset	253
13524 604d0f3622d6 * empty log message * wenzelm parents: 13187 diff changeset	254	lemma Bnor_prod_power_aux: "a \<notin> A ==> inj f ==> f a \<notin> f ` A"
13833 f8dcb1d9ea68 zprime_def fixes by Jeremy Avigad paulson parents: 13524 diff changeset	255	by (unfold inj_on_def, auto)
9508 4d01dbf6ded7 Chinese Remainder Theorem, Wilsons Theorem, etc., by T M Masmussen paulson parents: diff changeset	256
11049 7eef34adb852 HOL-NumberTheory: converted to new-style format and proper document setup; wenzelm parents: 10834 diff changeset	257	lemma Bnor_prod_power [rule_format]:
15392 290bc97038c7 First step in reorganizing Finite_Set nipkow parents: 15197 diff changeset	258	"x \<noteq> 0 ==> a < m --> \<Prod>((\<lambda>a. a * x) ` BnorRset (a, m)) =
290bc97038c7 First step in reorganizing Finite_Set nipkow parents: 15197 diff changeset	259	\<Prod>(BnorRset(a, m)) * x^card (BnorRset (a, m))"
11049 7eef34adb852 HOL-NumberTheory: converted to new-style format and proper document setup; wenzelm parents: 10834 diff changeset	260	apply (induct a m rule: BnorRset_induct)
7eef34adb852 HOL-NumberTheory: converted to new-style format and proper document setup; wenzelm parents: 10834 diff changeset	261	prefer 2
15481 fc075ae929e4 the new subst tactic, by Lucas Dixon paulson parents: 15402 diff changeset	262	apply (simplesubst BnorRset.simps) --{multiple redexes}
13833 f8dcb1d9ea68 zprime_def fixes by Jeremy Avigad paulson parents: 13524 diff changeset	263	apply (unfold Let_def, auto)
11049 7eef34adb852 HOL-NumberTheory: converted to new-style format and proper document setup; wenzelm parents: 10834 diff changeset	264	apply (simp add: Bnor_fin Bnor_mem_zle_swap)
7eef34adb852 HOL-NumberTheory: converted to new-style format and proper document setup; wenzelm parents: 10834 diff changeset	265	apply (subst setprod_insert)
13524 604d0f3622d6 * empty log message * wenzelm parents: 13187 diff changeset	266	apply (rule_tac [2] Bnor_prod_power_aux)
11049 7eef34adb852 HOL-NumberTheory: converted to new-style format and proper document setup; wenzelm parents: 10834 diff changeset	267	apply (unfold inj_on_def)
7eef34adb852 HOL-NumberTheory: converted to new-style format and proper document setup; wenzelm parents: 10834 diff changeset	268	apply (simp_all add: zmult_ac Bnor_fin finite_imageI
7eef34adb852 HOL-NumberTheory: converted to new-style format and proper document setup; wenzelm parents: 10834 diff changeset	269	Bnor_mem_zle_swap)
7eef34adb852 HOL-NumberTheory: converted to new-style format and proper document setup; wenzelm parents: 10834 diff changeset	270	done
7eef34adb852 HOL-NumberTheory: converted to new-style format and proper document setup; wenzelm parents: 10834 diff changeset	271
7eef34adb852 HOL-NumberTheory: converted to new-style format and proper document setup; wenzelm parents: 10834 diff changeset	272
7eef34adb852 HOL-NumberTheory: converted to new-style format and proper document setup; wenzelm parents: 10834 diff changeset	273	subsection {* Fermat *}
7eef34adb852 HOL-NumberTheory: converted to new-style format and proper document setup; wenzelm parents: 10834 diff changeset	274
7eef34adb852 HOL-NumberTheory: converted to new-style format and proper document setup; wenzelm parents: 10834 diff changeset	275	lemma bijzcong_zcong_prod:
15392 290bc97038c7 First step in reorganizing Finite_Set nipkow parents: 15197 diff changeset	276	"(A, B) \<in> bijR (zcongm m) ==> [\<Prod>A = \<Prod>B] (mod m)"
11049 7eef34adb852 HOL-NumberTheory: converted to new-style format and proper document setup; wenzelm parents: 10834 diff changeset	277	apply (unfold zcongm_def)
7eef34adb852 HOL-NumberTheory: converted to new-style format and proper document setup; wenzelm parents: 10834 diff changeset	278	apply (erule bijR.induct)
7eef34adb852 HOL-NumberTheory: converted to new-style format and proper document setup; wenzelm parents: 10834 diff changeset	279	apply (subgoal_tac [2] "a \<notin> A \<and> b \<notin> B \<and> finite A \<and> finite B")
7eef34adb852 HOL-NumberTheory: converted to new-style format and proper document setup; wenzelm parents: 10834 diff changeset	280	apply (auto intro: fin_bijRl fin_bijRr zcong_zmult)
7eef34adb852 HOL-NumberTheory: converted to new-style format and proper document setup; wenzelm parents: 10834 diff changeset	281	done
7eef34adb852 HOL-NumberTheory: converted to new-style format and proper document setup; wenzelm parents: 10834 diff changeset	282
7eef34adb852 HOL-NumberTheory: converted to new-style format and proper document setup; wenzelm parents: 10834 diff changeset	283	lemma Bnor_prod_zgcd [rule_format]:
15392 290bc97038c7 First step in reorganizing Finite_Set nipkow parents: 15197 diff changeset	284	"a < m --> zgcd (\<Prod>(BnorRset(a, m)), m) = 1"
11049 7eef34adb852 HOL-NumberTheory: converted to new-style format and proper document setup; wenzelm parents: 10834 diff changeset	285	apply (induct a m rule: BnorRset_induct)
7eef34adb852 HOL-NumberTheory: converted to new-style format and proper document setup; wenzelm parents: 10834 diff changeset	286	prefer 2
7eef34adb852 HOL-NumberTheory: converted to new-style format and proper document setup; wenzelm parents: 10834 diff changeset	287	apply (subst BnorRset.simps)
13833 f8dcb1d9ea68 zprime_def fixes by Jeremy Avigad paulson parents: 13524 diff changeset	288	apply (unfold Let_def, auto)
11049 7eef34adb852 HOL-NumberTheory: converted to new-style format and proper document setup; wenzelm parents: 10834 diff changeset	289	apply (simp add: Bnor_fin Bnor_mem_zle_swap)
7eef34adb852 HOL-NumberTheory: converted to new-style format and proper document setup; wenzelm parents: 10834 diff changeset	290	apply (blast intro: zgcd_zgcd_zmult)
7eef34adb852 HOL-NumberTheory: converted to new-style format and proper document setup; wenzelm parents: 10834 diff changeset	291	done
9508 4d01dbf6ded7 Chinese Remainder Theorem, Wilsons Theorem, etc., by T M Masmussen paulson parents: diff changeset	292
11049 7eef34adb852 HOL-NumberTheory: converted to new-style format and proper document setup; wenzelm parents: 10834 diff changeset	293	theorem Euler_Fermat:
11868 56db9f3a6b3e Numerals now work for the integers: the binary numerals for 0 and 1 rewrite paulson parents: 11704 diff changeset	294	"0 < m ==> zgcd (x, m) = 1 ==> [x^(phi m) = 1] (mod m)"
11049 7eef34adb852 HOL-NumberTheory: converted to new-style format and proper document setup; wenzelm parents: 10834 diff changeset	295	apply (unfold norRRset_def phi_def)
11868 56db9f3a6b3e Numerals now work for the integers: the binary numerals for 0 and 1 rewrite paulson parents: 11704 diff changeset	296	apply (case_tac "x = 0")
56db9f3a6b3e Numerals now work for the integers: the binary numerals for 0 and 1 rewrite paulson parents: 11704 diff changeset	297	apply (case_tac [2] "m = 1")
11049 7eef34adb852 HOL-NumberTheory: converted to new-style format and proper document setup; wenzelm parents: 10834 diff changeset	298	apply (rule_tac [3] iffD1)
15392 290bc97038c7 First step in reorganizing Finite_Set nipkow parents: 15197 diff changeset	299	apply (rule_tac [3] k = "\<Prod>(BnorRset(m - 1, m))"
11049 7eef34adb852 HOL-NumberTheory: converted to new-style format and proper document setup; wenzelm parents: 10834 diff changeset	300	in zcong_cancel2)
7eef34adb852 HOL-NumberTheory: converted to new-style format and proper document setup; wenzelm parents: 10834 diff changeset	301	prefer 5
7eef34adb852 HOL-NumberTheory: converted to new-style format and proper document setup; wenzelm parents: 10834 diff changeset	302	apply (subst Bnor_prod_power [symmetric])
13833 f8dcb1d9ea68 zprime_def fixes by Jeremy Avigad paulson parents: 13524 diff changeset	303	apply (rule_tac [7] Bnor_prod_zgcd, simp_all)
11049 7eef34adb852 HOL-NumberTheory: converted to new-style format and proper document setup; wenzelm parents: 10834 diff changeset	304	apply (rule bijzcong_zcong_prod)
7eef34adb852 HOL-NumberTheory: converted to new-style format and proper document setup; wenzelm parents: 10834 diff changeset	305	apply (fold norRRset_def noXRRset_def)
7eef34adb852 HOL-NumberTheory: converted to new-style format and proper document setup; wenzelm parents: 10834 diff changeset	306	apply (subst RRset2norRR_eq_norR [symmetric])
13833 f8dcb1d9ea68 zprime_def fixes by Jeremy Avigad paulson parents: 13524 diff changeset	307	apply (rule_tac [3] inj_func_bijR, auto)
13187 e5434b822a96 Modifications due to enhanced linear arithmetic. nipkow parents: 11868 diff changeset	308	apply (unfold zcongm_def)
e5434b822a96 Modifications due to enhanced linear arithmetic. nipkow parents: 11868 diff changeset	309	apply (rule_tac [2] RRset2norRR_correct1)
e5434b822a96 Modifications due to enhanced linear arithmetic. nipkow parents: 11868 diff changeset	310	apply (rule_tac [5] RRset2norRR_inj)
e5434b822a96 Modifications due to enhanced linear arithmetic. nipkow parents: 11868 diff changeset	311	apply (auto intro: order_less_le [THEN iffD2]
11049 7eef34adb852 HOL-NumberTheory: converted to new-style format and proper document setup; wenzelm parents: 10834 diff changeset	312	simp add: noX_is_RRset)
7eef34adb852 HOL-NumberTheory: converted to new-style format and proper document setup; wenzelm parents: 10834 diff changeset	313	apply (unfold noXRRset_def norRRset_def)
7eef34adb852 HOL-NumberTheory: converted to new-style format and proper document setup; wenzelm parents: 10834 diff changeset	314	apply (rule finite_imageI)
7eef34adb852 HOL-NumberTheory: converted to new-style format and proper document setup; wenzelm parents: 10834 diff changeset	315	apply (rule Bnor_fin)
7eef34adb852 HOL-NumberTheory: converted to new-style format and proper document setup; wenzelm parents: 10834 diff changeset	316	done
7eef34adb852 HOL-NumberTheory: converted to new-style format and proper document setup; wenzelm parents: 10834 diff changeset	317
16733 236dfafbeb63 linear arithmetic now takes "&" in assumptions apart. nipkow parents: 16663 diff changeset	318	lemma Bnor_prime:
236dfafbeb63 linear arithmetic now takes "&" in assumptions apart. nipkow parents: 16663 diff changeset	319	"\<lbrakk> zprime p; a < p \<rbrakk> \<Longrightarrow> card (BnorRset (a, p)) = nat a"
11049 7eef34adb852 HOL-NumberTheory: converted to new-style format and proper document setup; wenzelm parents: 10834 diff changeset	320	apply (induct a p rule: BnorRset.induct)
7eef34adb852 HOL-NumberTheory: converted to new-style format and proper document setup; wenzelm parents: 10834 diff changeset	321	apply (subst BnorRset.simps)
16733 236dfafbeb63 linear arithmetic now takes "&" in assumptions apart. nipkow parents: 16663 diff changeset	322	apply (unfold Let_def, auto simp add:zless_zprime_imp_zrelprime)
13833 f8dcb1d9ea68 zprime_def fixes by Jeremy Avigad paulson parents: 13524 diff changeset	323	apply (subgoal_tac "finite (BnorRset (a - 1,m))")
f8dcb1d9ea68 zprime_def fixes by Jeremy Avigad paulson parents: 13524 diff changeset	324	apply (subgoal_tac "a ~: BnorRset (a - 1,m)")
f8dcb1d9ea68 zprime_def fixes by Jeremy Avigad paulson parents: 13524 diff changeset	325	apply (auto simp add: card_insert_disjoint Suc_nat_eq_nat_zadd1)
f8dcb1d9ea68 zprime_def fixes by Jeremy Avigad paulson parents: 13524 diff changeset	326	apply (frule Bnor_mem_zle, arith)
f8dcb1d9ea68 zprime_def fixes by Jeremy Avigad paulson parents: 13524 diff changeset	327	apply (frule Bnor_fin)
11049 7eef34adb852 HOL-NumberTheory: converted to new-style format and proper document setup; wenzelm parents: 10834 diff changeset	328	done
7eef34adb852 HOL-NumberTheory: converted to new-style format and proper document setup; wenzelm parents: 10834 diff changeset	329
16663 13e9c402308b prime is a predicate now. nipkow parents: 16417 diff changeset	330	lemma phi_prime: "zprime p ==> phi p = nat (p - 1)"
11049 7eef34adb852 HOL-NumberTheory: converted to new-style format and proper document setup; wenzelm parents: 10834 diff changeset	331	apply (unfold phi_def norRRset_def)
13833 f8dcb1d9ea68 zprime_def fixes by Jeremy Avigad paulson parents: 13524 diff changeset	332	apply (rule Bnor_prime, auto)
11049 7eef34adb852 HOL-NumberTheory: converted to new-style format and proper document setup; wenzelm parents: 10834 diff changeset	333	done
7eef34adb852 HOL-NumberTheory: converted to new-style format and proper document setup; wenzelm parents: 10834 diff changeset	334
7eef34adb852 HOL-NumberTheory: converted to new-style format and proper document setup; wenzelm parents: 10834 diff changeset	335	theorem Little_Fermat:
16663 13e9c402308b prime is a predicate now. nipkow parents: 16417 diff changeset	336	"zprime p ==> \<not> p dvd x ==> [x^(nat (p - 1)) = 1] (mod p)"
11049 7eef34adb852 HOL-NumberTheory: converted to new-style format and proper document setup; wenzelm parents: 10834 diff changeset	337	apply (subst phi_prime [symmetric])
7eef34adb852 HOL-NumberTheory: converted to new-style format and proper document setup; wenzelm parents: 10834 diff changeset	338	apply (rule_tac [2] Euler_Fermat)
7eef34adb852 HOL-NumberTheory: converted to new-style format and proper document setup; wenzelm parents: 10834 diff changeset	339	apply (erule_tac [3] zprime_imp_zrelprime)
13833 f8dcb1d9ea68 zprime_def fixes by Jeremy Avigad paulson parents: 13524 diff changeset	340	apply (unfold zprime_def, auto)
11049 7eef34adb852 HOL-NumberTheory: converted to new-style format and proper document setup; wenzelm parents: 10834 diff changeset	341	done
9508 4d01dbf6ded7 Chinese Remainder Theorem, Wilsons Theorem, etc., by T M Masmussen paulson parents: diff changeset	342
4d01dbf6ded7 Chinese Remainder Theorem, Wilsons Theorem, etc., by T M Masmussen paulson parents: diff changeset	343	end

author	wenzelm
	Mon, 29 Aug 2005 16:18:04 +0200
changeset 17184	3d80209e9a53
parent 16733	236dfafbeb63
child 18369	694ea14ab4f2
permissions	-rw-r--r--