isabelle: src/HOL/Old_Number_Theory/Chinese.thy@548a34929e98 (annotated)

32479 521cc9bf2958 some reorganization of number theory haftmann parents: 30242 diff changeset	1	(* Author: Thomas M. Rasmussen
11049 7eef34adb852 HOL-NumberTheory: converted to new-style format and proper document setup; wenzelm parents: 9508 diff changeset	2	Copyright 2000 University of Cambridge
9508 4d01dbf6ded7 Chinese Remainder Theorem, Wilsons Theorem, etc., by T M Masmussen paulson parents: diff changeset	3	*)
4d01dbf6ded7 Chinese Remainder Theorem, Wilsons Theorem, etc., by T M Masmussen paulson parents: diff changeset	4
11049 7eef34adb852 HOL-NumberTheory: converted to new-style format and proper document setup; wenzelm parents: 9508 diff changeset	5	header {* The Chinese Remainder Theorem *}
7eef34adb852 HOL-NumberTheory: converted to new-style format and proper document setup; wenzelm parents: 9508 diff changeset	6
27556 292098f2efdf unified curried gcd, lcm, zgcd, zlcm haftmann parents: 23894 diff changeset	7	theory Chinese
292098f2efdf unified curried gcd, lcm, zgcd, zlcm haftmann parents: 23894 diff changeset	8	imports IntPrimes
292098f2efdf unified curried gcd, lcm, zgcd, zlcm haftmann parents: 23894 diff changeset	9	begin
11049 7eef34adb852 HOL-NumberTheory: converted to new-style format and proper document setup; wenzelm parents: 9508 diff changeset	10
7eef34adb852 HOL-NumberTheory: converted to new-style format and proper document setup; wenzelm parents: 9508 diff changeset	11	text {*
7eef34adb852 HOL-NumberTheory: converted to new-style format and proper document setup; wenzelm parents: 9508 diff changeset	12	The Chinese Remainder Theorem for an arbitrary finite number of
7eef34adb852 HOL-NumberTheory: converted to new-style format and proper document setup; wenzelm parents: 9508 diff changeset	13	equations. (The one-equation case is included in theory @{text
7eef34adb852 HOL-NumberTheory: converted to new-style format and proper document setup; wenzelm parents: 9508 diff changeset	14	IntPrimes}. Uses functions for indexing.\footnote{Maybe @{term
7eef34adb852 HOL-NumberTheory: converted to new-style format and proper document setup; wenzelm parents: 9508 diff changeset	15	funprod} and @{term funsum} should be based on general @{term fold}
7eef34adb852 HOL-NumberTheory: converted to new-style format and proper document setup; wenzelm parents: 9508 diff changeset	16	on indices?}
7eef34adb852 HOL-NumberTheory: converted to new-style format and proper document setup; wenzelm parents: 9508 diff changeset	17	*}
7eef34adb852 HOL-NumberTheory: converted to new-style format and proper document setup; wenzelm parents: 9508 diff changeset	18
7eef34adb852 HOL-NumberTheory: converted to new-style format and proper document setup; wenzelm parents: 9508 diff changeset	19
7eef34adb852 HOL-NumberTheory: converted to new-style format and proper document setup; wenzelm parents: 9508 diff changeset	20	subsection {* Definitions *}
9508 4d01dbf6ded7 Chinese Remainder Theorem, Wilsons Theorem, etc., by T M Masmussen paulson parents: diff changeset	21
4d01dbf6ded7 Chinese Remainder Theorem, Wilsons Theorem, etc., by T M Masmussen paulson parents: diff changeset	22	consts
11049 7eef34adb852 HOL-NumberTheory: converted to new-style format and proper document setup; wenzelm parents: 9508 diff changeset	23	funprod :: "(nat => int) => nat => nat => int"
7eef34adb852 HOL-NumberTheory: converted to new-style format and proper document setup; wenzelm parents: 9508 diff changeset	24	funsum :: "(nat => int) => nat => nat => int"
9508 4d01dbf6ded7 Chinese Remainder Theorem, Wilsons Theorem, etc., by T M Masmussen paulson parents: diff changeset	25
4d01dbf6ded7 Chinese Remainder Theorem, Wilsons Theorem, etc., by T M Masmussen paulson parents: diff changeset	26	primrec
11049 7eef34adb852 HOL-NumberTheory: converted to new-style format and proper document setup; wenzelm parents: 9508 diff changeset	27	"funprod f i 0 = f i"
7eef34adb852 HOL-NumberTheory: converted to new-style format and proper document setup; wenzelm parents: 9508 diff changeset	28	"funprod f i (Suc n) = f (Suc (i + n)) * funprod f i n"
9508 4d01dbf6ded7 Chinese Remainder Theorem, Wilsons Theorem, etc., by T M Masmussen paulson parents: diff changeset	29
4d01dbf6ded7 Chinese Remainder Theorem, Wilsons Theorem, etc., by T M Masmussen paulson parents: diff changeset	30	primrec
11049 7eef34adb852 HOL-NumberTheory: converted to new-style format and proper document setup; wenzelm parents: 9508 diff changeset	31	"funsum f i 0 = f i"
7eef34adb852 HOL-NumberTheory: converted to new-style format and proper document setup; wenzelm parents: 9508 diff changeset	32	"funsum f i (Suc n) = f (Suc (i + n)) + funsum f i n"
9508 4d01dbf6ded7 Chinese Remainder Theorem, Wilsons Theorem, etc., by T M Masmussen paulson parents: diff changeset	33
19670 2e4a143c73c5 prefer 'definition' over low-level defs; wenzelm parents: 16417 diff changeset	34	definition
21404 eb85850d3eb7 more robust syntax for definition/abbreviation/notation; wenzelm parents: 20432 diff changeset	35	m_cond :: "nat => (nat => int) => bool" where
19670 2e4a143c73c5 prefer 'definition' over low-level defs; wenzelm parents: 16417 diff changeset	36	"m_cond n mf =
2e4a143c73c5 prefer 'definition' over low-level defs; wenzelm parents: 16417 diff changeset	37	((\<forall>i. i \<le> n --> 0 < mf i) \<and>
27556 292098f2efdf unified curried gcd, lcm, zgcd, zlcm haftmann parents: 23894 diff changeset	38	(\<forall>i j. i \<le> n \<and> j \<le> n \<and> i \<noteq> j --> zgcd (mf i) (mf j) = 1))"
19670 2e4a143c73c5 prefer 'definition' over low-level defs; wenzelm parents: 16417 diff changeset	39
21404 eb85850d3eb7 more robust syntax for definition/abbreviation/notation; wenzelm parents: 20432 diff changeset	40	definition
eb85850d3eb7 more robust syntax for definition/abbreviation/notation; wenzelm parents: 20432 diff changeset	41	km_cond :: "nat => (nat => int) => (nat => int) => bool" where
27556 292098f2efdf unified curried gcd, lcm, zgcd, zlcm haftmann parents: 23894 diff changeset	42	"km_cond n kf mf = (\<forall>i. i \<le> n --> zgcd (kf i) (mf i) = 1)"
19670 2e4a143c73c5 prefer 'definition' over low-level defs; wenzelm parents: 16417 diff changeset	43
21404 eb85850d3eb7 more robust syntax for definition/abbreviation/notation; wenzelm parents: 20432 diff changeset	44	definition
11049 7eef34adb852 HOL-NumberTheory: converted to new-style format and proper document setup; wenzelm parents: 9508 diff changeset	45	lincong_sol ::
21404 eb85850d3eb7 more robust syntax for definition/abbreviation/notation; wenzelm parents: 20432 diff changeset	46	"nat => (nat => int) => (nat => int) => (nat => int) => int => bool" where
19670 2e4a143c73c5 prefer 'definition' over low-level defs; wenzelm parents: 16417 diff changeset	47	"lincong_sol n kf bf mf x = (\<forall>i. i \<le> n --> zcong (kf i * x) (bf i) (mf i))"
9508 4d01dbf6ded7 Chinese Remainder Theorem, Wilsons Theorem, etc., by T M Masmussen paulson parents: diff changeset	48
21404 eb85850d3eb7 more robust syntax for definition/abbreviation/notation; wenzelm parents: 20432 diff changeset	49	definition
eb85850d3eb7 more robust syntax for definition/abbreviation/notation; wenzelm parents: 20432 diff changeset	50	mhf :: "(nat => int) => nat => nat => int" where
19670 2e4a143c73c5 prefer 'definition' over low-level defs; wenzelm parents: 16417 diff changeset	51	"mhf mf n i =
2e4a143c73c5 prefer 'definition' over low-level defs; wenzelm parents: 16417 diff changeset	52	(if i = 0 then funprod mf (Suc 0) (n - Suc 0)
2e4a143c73c5 prefer 'definition' over low-level defs; wenzelm parents: 16417 diff changeset	53	else if i = n then funprod mf 0 (n - Suc 0)
2e4a143c73c5 prefer 'definition' over low-level defs; wenzelm parents: 16417 diff changeset	54	else funprod mf 0 (i - Suc 0) * funprod mf (Suc i) (n - Suc 0 - i))"
2e4a143c73c5 prefer 'definition' over low-level defs; wenzelm parents: 16417 diff changeset	55
21404 eb85850d3eb7 more robust syntax for definition/abbreviation/notation; wenzelm parents: 20432 diff changeset	56	definition
11049 7eef34adb852 HOL-NumberTheory: converted to new-style format and proper document setup; wenzelm parents: 9508 diff changeset	57	xilin_sol ::
21404 eb85850d3eb7 more robust syntax for definition/abbreviation/notation; wenzelm parents: 20432 diff changeset	58	"nat => nat => (nat => int) => (nat => int) => (nat => int) => int" where
19670 2e4a143c73c5 prefer 'definition' over low-level defs; wenzelm parents: 16417 diff changeset	59	"xilin_sol i n kf bf mf =
2e4a143c73c5 prefer 'definition' over low-level defs; wenzelm parents: 16417 diff changeset	60	(if 0 < n \<and> i \<le> n \<and> m_cond n mf \<and> km_cond n kf mf then
2e4a143c73c5 prefer 'definition' over low-level defs; wenzelm parents: 16417 diff changeset	61	(SOME x. 0 \<le> x \<and> x < mf i \<and> zcong (kf i * mhf mf n i * x) (bf i) (mf i))
2e4a143c73c5 prefer 'definition' over low-level defs; wenzelm parents: 16417 diff changeset	62	else 0)"
11049 7eef34adb852 HOL-NumberTheory: converted to new-style format and proper document setup; wenzelm parents: 9508 diff changeset	63
21404 eb85850d3eb7 more robust syntax for definition/abbreviation/notation; wenzelm parents: 20432 diff changeset	64	definition
eb85850d3eb7 more robust syntax for definition/abbreviation/notation; wenzelm parents: 20432 diff changeset	65	x_sol :: "nat => (nat => int) => (nat => int) => (nat => int) => int" where
19670 2e4a143c73c5 prefer 'definition' over low-level defs; wenzelm parents: 16417 diff changeset	66	"x_sol n kf bf mf = funsum (\<lambda>i. xilin_sol i n kf bf mf * mhf mf n i) 0 n"
11049 7eef34adb852 HOL-NumberTheory: converted to new-style format and proper document setup; wenzelm parents: 9508 diff changeset	67
7eef34adb852 HOL-NumberTheory: converted to new-style format and proper document setup; wenzelm parents: 9508 diff changeset	68
7eef34adb852 HOL-NumberTheory: converted to new-style format and proper document setup; wenzelm parents: 9508 diff changeset	69	text {* \medskip @{term funprod} and @{term funsum} *}
7eef34adb852 HOL-NumberTheory: converted to new-style format and proper document setup; wenzelm parents: 9508 diff changeset	70
11868 56db9f3a6b3e Numerals now work for the integers: the binary numerals for 0 and 1 rewrite paulson parents: 11701 diff changeset	71	lemma funprod_pos: "(\<forall>i. i \<le> n --> 0 < mf i) ==> 0 < funprod mf 0 n"
11049 7eef34adb852 HOL-NumberTheory: converted to new-style format and proper document setup; wenzelm parents: 9508 diff changeset	72	apply (induct n)
7eef34adb852 HOL-NumberTheory: converted to new-style format and proper document setup; wenzelm parents: 9508 diff changeset	73	apply auto
14353 79f9fbef9106 Added lemmas to Ring_and_Field with slightly modified simplification rules paulson parents: 13524 diff changeset	74	apply (simp add: zero_less_mult_iff)
11049 7eef34adb852 HOL-NumberTheory: converted to new-style format and proper document setup; wenzelm parents: 9508 diff changeset	75	done
7eef34adb852 HOL-NumberTheory: converted to new-style format and proper document setup; wenzelm parents: 9508 diff changeset	76
7eef34adb852 HOL-NumberTheory: converted to new-style format and proper document setup; wenzelm parents: 9508 diff changeset	77	lemma funprod_zgcd [rule_format (no_asm)]:
27556 292098f2efdf unified curried gcd, lcm, zgcd, zlcm haftmann parents: 23894 diff changeset	78	"(\<forall>i. k \<le> i \<and> i \<le> k + l --> zgcd (mf i) (mf m) = 1) -->
292098f2efdf unified curried gcd, lcm, zgcd, zlcm haftmann parents: 23894 diff changeset	79	zgcd (funprod mf k l) (mf m) = 1"
11049 7eef34adb852 HOL-NumberTheory: converted to new-style format and proper document setup; wenzelm parents: 9508 diff changeset	80	apply (induct l)
7eef34adb852 HOL-NumberTheory: converted to new-style format and proper document setup; wenzelm parents: 9508 diff changeset	81	apply simp_all
7eef34adb852 HOL-NumberTheory: converted to new-style format and proper document setup; wenzelm parents: 9508 diff changeset	82	apply (rule impI)+
7eef34adb852 HOL-NumberTheory: converted to new-style format and proper document setup; wenzelm parents: 9508 diff changeset	83	apply (subst zgcd_zmult_cancel)
7eef34adb852 HOL-NumberTheory: converted to new-style format and proper document setup; wenzelm parents: 9508 diff changeset	84	apply auto
7eef34adb852 HOL-NumberTheory: converted to new-style format and proper document setup; wenzelm parents: 9508 diff changeset	85	done
9508 4d01dbf6ded7 Chinese Remainder Theorem, Wilsons Theorem, etc., by T M Masmussen paulson parents: diff changeset	86
11049 7eef34adb852 HOL-NumberTheory: converted to new-style format and proper document setup; wenzelm parents: 9508 diff changeset	87	lemma funprod_zdvd [rule_format]:
7eef34adb852 HOL-NumberTheory: converted to new-style format and proper document setup; wenzelm parents: 9508 diff changeset	88	"k \<le> i --> i \<le> k + l --> mf i dvd funprod mf k l"
7eef34adb852 HOL-NumberTheory: converted to new-style format and proper document setup; wenzelm parents: 9508 diff changeset	89	apply (induct l)
7eef34adb852 HOL-NumberTheory: converted to new-style format and proper document setup; wenzelm parents: 9508 diff changeset	90	apply auto
30042 31039ee583fa Removed subsumed lemmas nipkow parents: 30034 diff changeset	91	apply (subgoal_tac "i = Suc (k + l)")
31039ee583fa Removed subsumed lemmas nipkow parents: 30034 diff changeset	92	apply (simp_all (no_asm_simp))
11049 7eef34adb852 HOL-NumberTheory: converted to new-style format and proper document setup; wenzelm parents: 9508 diff changeset	93	done
7eef34adb852 HOL-NumberTheory: converted to new-style format and proper document setup; wenzelm parents: 9508 diff changeset	94
7eef34adb852 HOL-NumberTheory: converted to new-style format and proper document setup; wenzelm parents: 9508 diff changeset	95	lemma funsum_mod:
7eef34adb852 HOL-NumberTheory: converted to new-style format and proper document setup; wenzelm parents: 9508 diff changeset	96	"funsum f k l mod m = funsum (\<lambda>i. (f i) mod m) k l mod m"
7eef34adb852 HOL-NumberTheory: converted to new-style format and proper document setup; wenzelm parents: 9508 diff changeset	97	apply (induct l)
7eef34adb852 HOL-NumberTheory: converted to new-style format and proper document setup; wenzelm parents: 9508 diff changeset	98	apply auto
7eef34adb852 HOL-NumberTheory: converted to new-style format and proper document setup; wenzelm parents: 9508 diff changeset	99	apply (rule trans)
29948 cdf12a1cb963 Cleaned up IntDiv and removed subsumed lemmas. nipkow parents: 27556 diff changeset	100	apply (rule mod_add_eq)
11049 7eef34adb852 HOL-NumberTheory: converted to new-style format and proper document setup; wenzelm parents: 9508 diff changeset	101	apply simp
30034 60f64f112174 removed redundant thms nipkow parents: 29948 diff changeset	102	apply (rule mod_add_right_eq [symmetric])
11049 7eef34adb852 HOL-NumberTheory: converted to new-style format and proper document setup; wenzelm parents: 9508 diff changeset	103	done
9508 4d01dbf6ded7 Chinese Remainder Theorem, Wilsons Theorem, etc., by T M Masmussen paulson parents: diff changeset	104
11049 7eef34adb852 HOL-NumberTheory: converted to new-style format and proper document setup; wenzelm parents: 9508 diff changeset	105	lemma funsum_zero [rule_format (no_asm)]:
11868 56db9f3a6b3e Numerals now work for the integers: the binary numerals for 0 and 1 rewrite paulson parents: 11701 diff changeset	106	"(\<forall>i. k \<le> i \<and> i \<le> k + l --> f i = 0) --> (funsum f k l) = 0"
11049 7eef34adb852 HOL-NumberTheory: converted to new-style format and proper document setup; wenzelm parents: 9508 diff changeset	107	apply (induct l)
7eef34adb852 HOL-NumberTheory: converted to new-style format and proper document setup; wenzelm parents: 9508 diff changeset	108	apply auto
7eef34adb852 HOL-NumberTheory: converted to new-style format and proper document setup; wenzelm parents: 9508 diff changeset	109	done
7eef34adb852 HOL-NumberTheory: converted to new-style format and proper document setup; wenzelm parents: 9508 diff changeset	110
7eef34adb852 HOL-NumberTheory: converted to new-style format and proper document setup; wenzelm parents: 9508 diff changeset	111	lemma funsum_oneelem [rule_format (no_asm)]:
7eef34adb852 HOL-NumberTheory: converted to new-style format and proper document setup; wenzelm parents: 9508 diff changeset	112	"k \<le> j --> j \<le> k + l -->
11868 56db9f3a6b3e Numerals now work for the integers: the binary numerals for 0 and 1 rewrite paulson parents: 11701 diff changeset	113	(\<forall>i. k \<le> i \<and> i \<le> k + l \<and> i \<noteq> j --> f i = 0) -->
11049 7eef34adb852 HOL-NumberTheory: converted to new-style format and proper document setup; wenzelm parents: 9508 diff changeset	114	funsum f k l = f j"
7eef34adb852 HOL-NumberTheory: converted to new-style format and proper document setup; wenzelm parents: 9508 diff changeset	115	apply (induct l)
7eef34adb852 HOL-NumberTheory: converted to new-style format and proper document setup; wenzelm parents: 9508 diff changeset	116	prefer 2
7eef34adb852 HOL-NumberTheory: converted to new-style format and proper document setup; wenzelm parents: 9508 diff changeset	117	apply clarify
7eef34adb852 HOL-NumberTheory: converted to new-style format and proper document setup; wenzelm parents: 9508 diff changeset	118	defer
7eef34adb852 HOL-NumberTheory: converted to new-style format and proper document setup; wenzelm parents: 9508 diff changeset	119	apply clarify
7eef34adb852 HOL-NumberTheory: converted to new-style format and proper document setup; wenzelm parents: 9508 diff changeset	120	apply (subgoal_tac "k = j")
7eef34adb852 HOL-NumberTheory: converted to new-style format and proper document setup; wenzelm parents: 9508 diff changeset	121	apply (simp_all (no_asm_simp))
15236 f289e8ba2bb3 Proofs needed to be updated because induction now preserves name of nipkow parents: 15197 diff changeset	122	apply (case_tac "Suc (k + l) = j")
f289e8ba2bb3 Proofs needed to be updated because induction now preserves name of nipkow parents: 15197 diff changeset	123	apply (subgoal_tac "funsum f k l = 0")
11049 7eef34adb852 HOL-NumberTheory: converted to new-style format and proper document setup; wenzelm parents: 9508 diff changeset	124	apply (rule_tac [2] funsum_zero)
15236 f289e8ba2bb3 Proofs needed to be updated because induction now preserves name of nipkow parents: 15197 diff changeset	125	apply (subgoal_tac [3] "f (Suc (k + l)) = 0")
f289e8ba2bb3 Proofs needed to be updated because induction now preserves name of nipkow parents: 15197 diff changeset	126	apply (subgoal_tac [3] "j \<le> k + l")
11049 7eef34adb852 HOL-NumberTheory: converted to new-style format and proper document setup; wenzelm parents: 9508 diff changeset	127	prefer 4
7eef34adb852 HOL-NumberTheory: converted to new-style format and proper document setup; wenzelm parents: 9508 diff changeset	128	apply arith
7eef34adb852 HOL-NumberTheory: converted to new-style format and proper document setup; wenzelm parents: 9508 diff changeset	129	apply auto
7eef34adb852 HOL-NumberTheory: converted to new-style format and proper document setup; wenzelm parents: 9508 diff changeset	130	done
7eef34adb852 HOL-NumberTheory: converted to new-style format and proper document setup; wenzelm parents: 9508 diff changeset	131
7eef34adb852 HOL-NumberTheory: converted to new-style format and proper document setup; wenzelm parents: 9508 diff changeset	132
7eef34adb852 HOL-NumberTheory: converted to new-style format and proper document setup; wenzelm parents: 9508 diff changeset	133	subsection {* Chinese: uniqueness *}
9508 4d01dbf6ded7 Chinese Remainder Theorem, Wilsons Theorem, etc., by T M Masmussen paulson parents: diff changeset	134
13524 604d0f3622d6 * empty log message * wenzelm parents: 13187 diff changeset	135	lemma zcong_funprod_aux:
11049 7eef34adb852 HOL-NumberTheory: converted to new-style format and proper document setup; wenzelm parents: 9508 diff changeset	136	"m_cond n mf ==> km_cond n kf mf
7eef34adb852 HOL-NumberTheory: converted to new-style format and proper document setup; wenzelm parents: 9508 diff changeset	137	==> lincong_sol n kf bf mf x ==> lincong_sol n kf bf mf y
7eef34adb852 HOL-NumberTheory: converted to new-style format and proper document setup; wenzelm parents: 9508 diff changeset	138	==> [x = y] (mod mf n)"
7eef34adb852 HOL-NumberTheory: converted to new-style format and proper document setup; wenzelm parents: 9508 diff changeset	139	apply (unfold m_cond_def km_cond_def lincong_sol_def)
7eef34adb852 HOL-NumberTheory: converted to new-style format and proper document setup; wenzelm parents: 9508 diff changeset	140	apply (rule iffD1)
7eef34adb852 HOL-NumberTheory: converted to new-style format and proper document setup; wenzelm parents: 9508 diff changeset	141	apply (rule_tac k = "kf n" in zcong_cancel2)
7eef34adb852 HOL-NumberTheory: converted to new-style format and proper document setup; wenzelm parents: 9508 diff changeset	142	apply (rule_tac [3] b = "bf n" in zcong_trans)
7eef34adb852 HOL-NumberTheory: converted to new-style format and proper document setup; wenzelm parents: 9508 diff changeset	143	prefer 4
7eef34adb852 HOL-NumberTheory: converted to new-style format and proper document setup; wenzelm parents: 9508 diff changeset	144	apply (subst zcong_sym)
7eef34adb852 HOL-NumberTheory: converted to new-style format and proper document setup; wenzelm parents: 9508 diff changeset	145	defer
7eef34adb852 HOL-NumberTheory: converted to new-style format and proper document setup; wenzelm parents: 9508 diff changeset	146	apply (rule order_less_imp_le)
7eef34adb852 HOL-NumberTheory: converted to new-style format and proper document setup; wenzelm parents: 9508 diff changeset	147	apply simp_all
7eef34adb852 HOL-NumberTheory: converted to new-style format and proper document setup; wenzelm parents: 9508 diff changeset	148	done
7eef34adb852 HOL-NumberTheory: converted to new-style format and proper document setup; wenzelm parents: 9508 diff changeset	149
7eef34adb852 HOL-NumberTheory: converted to new-style format and proper document setup; wenzelm parents: 9508 diff changeset	150	lemma zcong_funprod [rule_format]:
7eef34adb852 HOL-NumberTheory: converted to new-style format and proper document setup; wenzelm parents: 9508 diff changeset	151	"m_cond n mf --> km_cond n kf mf -->
7eef34adb852 HOL-NumberTheory: converted to new-style format and proper document setup; wenzelm parents: 9508 diff changeset	152	lincong_sol n kf bf mf x --> lincong_sol n kf bf mf y -->
7eef34adb852 HOL-NumberTheory: converted to new-style format and proper document setup; wenzelm parents: 9508 diff changeset	153	[x = y] (mod funprod mf 0 n)"
7eef34adb852 HOL-NumberTheory: converted to new-style format and proper document setup; wenzelm parents: 9508 diff changeset	154	apply (induct n)
7eef34adb852 HOL-NumberTheory: converted to new-style format and proper document setup; wenzelm parents: 9508 diff changeset	155	apply (simp_all (no_asm))
13524 604d0f3622d6 * empty log message * wenzelm parents: 13187 diff changeset	156	apply (blast intro: zcong_funprod_aux)
11049 7eef34adb852 HOL-NumberTheory: converted to new-style format and proper document setup; wenzelm parents: 9508 diff changeset	157	apply (rule impI)+
7eef34adb852 HOL-NumberTheory: converted to new-style format and proper document setup; wenzelm parents: 9508 diff changeset	158	apply (rule zcong_zgcd_zmult_zmod)
13524 604d0f3622d6 * empty log message * wenzelm parents: 13187 diff changeset	159	apply (blast intro: zcong_funprod_aux)
11049 7eef34adb852 HOL-NumberTheory: converted to new-style format and proper document setup; wenzelm parents: 9508 diff changeset	160	prefer 2
7eef34adb852 HOL-NumberTheory: converted to new-style format and proper document setup; wenzelm parents: 9508 diff changeset	161	apply (subst zgcd_commute)
7eef34adb852 HOL-NumberTheory: converted to new-style format and proper document setup; wenzelm parents: 9508 diff changeset	162	apply (rule funprod_zgcd)
7eef34adb852 HOL-NumberTheory: converted to new-style format and proper document setup; wenzelm parents: 9508 diff changeset	163	apply (auto simp add: m_cond_def km_cond_def lincong_sol_def)
7eef34adb852 HOL-NumberTheory: converted to new-style format and proper document setup; wenzelm parents: 9508 diff changeset	164	done
7eef34adb852 HOL-NumberTheory: converted to new-style format and proper document setup; wenzelm parents: 9508 diff changeset	165
7eef34adb852 HOL-NumberTheory: converted to new-style format and proper document setup; wenzelm parents: 9508 diff changeset	166
7eef34adb852 HOL-NumberTheory: converted to new-style format and proper document setup; wenzelm parents: 9508 diff changeset	167	subsection {* Chinese: existence *}
7eef34adb852 HOL-NumberTheory: converted to new-style format and proper document setup; wenzelm parents: 9508 diff changeset	168
7eef34adb852 HOL-NumberTheory: converted to new-style format and proper document setup; wenzelm parents: 9508 diff changeset	169	lemma unique_xi_sol:
7eef34adb852 HOL-NumberTheory: converted to new-style format and proper document setup; wenzelm parents: 9508 diff changeset	170	"0 < n ==> i \<le> n ==> m_cond n mf ==> km_cond n kf mf
11868 56db9f3a6b3e Numerals now work for the integers: the binary numerals for 0 and 1 rewrite paulson parents: 11701 diff changeset	171	==> \<exists>!x. 0 \<le> x \<and> x < mf i \<and> [kf i * mhf mf n i * x = bf i] (mod mf i)"
11049 7eef34adb852 HOL-NumberTheory: converted to new-style format and proper document setup; wenzelm parents: 9508 diff changeset	172	apply (rule zcong_lineq_unique)
7eef34adb852 HOL-NumberTheory: converted to new-style format and proper document setup; wenzelm parents: 9508 diff changeset	173	apply (tactic {* stac (thm "zgcd_zmult_cancel") 2 *})
7eef34adb852 HOL-NumberTheory: converted to new-style format and proper document setup; wenzelm parents: 9508 diff changeset	174	apply (unfold m_cond_def km_cond_def mhf_def)
7eef34adb852 HOL-NumberTheory: converted to new-style format and proper document setup; wenzelm parents: 9508 diff changeset	175	apply (simp_all (no_asm_simp))
7eef34adb852 HOL-NumberTheory: converted to new-style format and proper document setup; wenzelm parents: 9508 diff changeset	176	apply safe
7eef34adb852 HOL-NumberTheory: converted to new-style format and proper document setup; wenzelm parents: 9508 diff changeset	177	apply (tactic {* stac (thm "zgcd_zmult_cancel") 3 *})
7eef34adb852 HOL-NumberTheory: converted to new-style format and proper document setup; wenzelm parents: 9508 diff changeset	178	apply (rule_tac [!] funprod_zgcd)
7eef34adb852 HOL-NumberTheory: converted to new-style format and proper document setup; wenzelm parents: 9508 diff changeset	179	apply safe
7eef34adb852 HOL-NumberTheory: converted to new-style format and proper document setup; wenzelm parents: 9508 diff changeset	180	apply simp_all
20432 07ec57376051 lin_arith_prover: splitting reverted because of performance loss webertj parents: 20272 diff changeset	181	apply (subgoal_tac "i<n")
07ec57376051 lin_arith_prover: splitting reverted because of performance loss webertj parents: 20272 diff changeset	182	prefer 2
07ec57376051 lin_arith_prover: splitting reverted because of performance loss webertj parents: 20272 diff changeset	183	apply arith
07ec57376051 lin_arith_prover: splitting reverted because of performance loss webertj parents: 20272 diff changeset	184	apply (case_tac [2] i)
07ec57376051 lin_arith_prover: splitting reverted because of performance loss webertj parents: 20272 diff changeset	185	apply simp_all
11049 7eef34adb852 HOL-NumberTheory: converted to new-style format and proper document setup; wenzelm parents: 9508 diff changeset	186	done
9508 4d01dbf6ded7 Chinese Remainder Theorem, Wilsons Theorem, etc., by T M Masmussen paulson parents: diff changeset	187
13524 604d0f3622d6 * empty log message * wenzelm parents: 13187 diff changeset	188	lemma x_sol_lin_aux:
11049 7eef34adb852 HOL-NumberTheory: converted to new-style format and proper document setup; wenzelm parents: 9508 diff changeset	189	"0 < n ==> i \<le> n ==> j \<le> n ==> j \<noteq> i ==> mf j dvd mhf mf n i"
7eef34adb852 HOL-NumberTheory: converted to new-style format and proper document setup; wenzelm parents: 9508 diff changeset	190	apply (unfold mhf_def)
7eef34adb852 HOL-NumberTheory: converted to new-style format and proper document setup; wenzelm parents: 9508 diff changeset	191	apply (case_tac "i = 0")
7eef34adb852 HOL-NumberTheory: converted to new-style format and proper document setup; wenzelm parents: 9508 diff changeset	192	apply (case_tac [2] "i = n")
7eef34adb852 HOL-NumberTheory: converted to new-style format and proper document setup; wenzelm parents: 9508 diff changeset	193	apply (simp_all (no_asm_simp))
7eef34adb852 HOL-NumberTheory: converted to new-style format and proper document setup; wenzelm parents: 9508 diff changeset	194	apply (case_tac [3] "j < i")
30042 31039ee583fa Removed subsumed lemmas nipkow parents: 30034 diff changeset	195	apply (rule_tac [3] dvd_mult2)
31039ee583fa Removed subsumed lemmas nipkow parents: 30034 diff changeset	196	apply (rule_tac [4] dvd_mult)
11049 7eef34adb852 HOL-NumberTheory: converted to new-style format and proper document setup; wenzelm parents: 9508 diff changeset	197	apply (rule_tac [!] funprod_zdvd)
23315 df3a7e9ebadb tuned Proof chaieb parents: 21404 diff changeset	198	apply arith
df3a7e9ebadb tuned Proof chaieb parents: 21404 diff changeset	199	apply arith
df3a7e9ebadb tuned Proof chaieb parents: 21404 diff changeset	200	apply arith
df3a7e9ebadb tuned Proof chaieb parents: 21404 diff changeset	201	apply arith
df3a7e9ebadb tuned Proof chaieb parents: 21404 diff changeset	202	apply arith
df3a7e9ebadb tuned Proof chaieb parents: 21404 diff changeset	203	apply arith
df3a7e9ebadb tuned Proof chaieb parents: 21404 diff changeset	204	apply arith
df3a7e9ebadb tuned Proof chaieb parents: 21404 diff changeset	205	apply arith
11049 7eef34adb852 HOL-NumberTheory: converted to new-style format and proper document setup; wenzelm parents: 9508 diff changeset	206	done
7eef34adb852 HOL-NumberTheory: converted to new-style format and proper document setup; wenzelm parents: 9508 diff changeset	207
7eef34adb852 HOL-NumberTheory: converted to new-style format and proper document setup; wenzelm parents: 9508 diff changeset	208	lemma x_sol_lin:
7eef34adb852 HOL-NumberTheory: converted to new-style format and proper document setup; wenzelm parents: 9508 diff changeset	209	"0 < n ==> i \<le> n
7eef34adb852 HOL-NumberTheory: converted to new-style format and proper document setup; wenzelm parents: 9508 diff changeset	210	==> x_sol n kf bf mf mod mf i =
7eef34adb852 HOL-NumberTheory: converted to new-style format and proper document setup; wenzelm parents: 9508 diff changeset	211	xilin_sol i n kf bf mf * mhf mf n i mod mf i"
7eef34adb852 HOL-NumberTheory: converted to new-style format and proper document setup; wenzelm parents: 9508 diff changeset	212	apply (unfold x_sol_def)
7eef34adb852 HOL-NumberTheory: converted to new-style format and proper document setup; wenzelm parents: 9508 diff changeset	213	apply (subst funsum_mod)
7eef34adb852 HOL-NumberTheory: converted to new-style format and proper document setup; wenzelm parents: 9508 diff changeset	214	apply (subst funsum_oneelem)
7eef34adb852 HOL-NumberTheory: converted to new-style format and proper document setup; wenzelm parents: 9508 diff changeset	215	apply auto
30042 31039ee583fa Removed subsumed lemmas nipkow parents: 30034 diff changeset	216	apply (subst dvd_eq_mod_eq_0 [symmetric])
31039ee583fa Removed subsumed lemmas nipkow parents: 30034 diff changeset	217	apply (rule dvd_mult)
13524 604d0f3622d6 * empty log message * wenzelm parents: 13187 diff changeset	218	apply (rule x_sol_lin_aux)
11049 7eef34adb852 HOL-NumberTheory: converted to new-style format and proper document setup; wenzelm parents: 9508 diff changeset	219	apply auto
7eef34adb852 HOL-NumberTheory: converted to new-style format and proper document setup; wenzelm parents: 9508 diff changeset	220	done
7eef34adb852 HOL-NumberTheory: converted to new-style format and proper document setup; wenzelm parents: 9508 diff changeset	221
7eef34adb852 HOL-NumberTheory: converted to new-style format and proper document setup; wenzelm parents: 9508 diff changeset	222
7eef34adb852 HOL-NumberTheory: converted to new-style format and proper document setup; wenzelm parents: 9508 diff changeset	223	subsection {* Chinese *}
9508 4d01dbf6ded7 Chinese Remainder Theorem, Wilsons Theorem, etc., by T M Masmussen paulson parents: diff changeset	224
11049 7eef34adb852 HOL-NumberTheory: converted to new-style format and proper document setup; wenzelm parents: 9508 diff changeset	225	lemma chinese_remainder:
7eef34adb852 HOL-NumberTheory: converted to new-style format and proper document setup; wenzelm parents: 9508 diff changeset	226	"0 < n ==> m_cond n mf ==> km_cond n kf mf
11868 56db9f3a6b3e Numerals now work for the integers: the binary numerals for 0 and 1 rewrite paulson parents: 11701 diff changeset	227	==> \<exists>!x. 0 \<le> x \<and> x < funprod mf 0 n \<and> lincong_sol n kf bf mf x"
11049 7eef34adb852 HOL-NumberTheory: converted to new-style format and proper document setup; wenzelm parents: 9508 diff changeset	228	apply safe
7eef34adb852 HOL-NumberTheory: converted to new-style format and proper document setup; wenzelm parents: 9508 diff changeset	229	apply (rule_tac [2] m = "funprod mf 0 n" in zcong_zless_imp_eq)
7eef34adb852 HOL-NumberTheory: converted to new-style format and proper document setup; wenzelm parents: 9508 diff changeset	230	apply (rule_tac [6] zcong_funprod)
7eef34adb852 HOL-NumberTheory: converted to new-style format and proper document setup; wenzelm parents: 9508 diff changeset	231	apply auto
7eef34adb852 HOL-NumberTheory: converted to new-style format and proper document setup; wenzelm parents: 9508 diff changeset	232	apply (rule_tac x = "x_sol n kf bf mf mod funprod mf 0 n" in exI)
7eef34adb852 HOL-NumberTheory: converted to new-style format and proper document setup; wenzelm parents: 9508 diff changeset	233	apply (unfold lincong_sol_def)
7eef34adb852 HOL-NumberTheory: converted to new-style format and proper document setup; wenzelm parents: 9508 diff changeset	234	apply safe
7eef34adb852 HOL-NumberTheory: converted to new-style format and proper document setup; wenzelm parents: 9508 diff changeset	235	apply (tactic {* stac (thm "zcong_zmod") 3 *})
29948 cdf12a1cb963 Cleaned up IntDiv and removed subsumed lemmas. nipkow parents: 27556 diff changeset	236	apply (tactic {* stac (thm "mod_mult_eq") 3 *})
30034 60f64f112174 removed redundant thms nipkow parents: 29948 diff changeset	237	apply (tactic {* stac (thm "mod_mod_cancel") 3 *})
60f64f112174 removed redundant thms nipkow parents: 29948 diff changeset	238	apply (tactic {* stac (thm "x_sol_lin") 4 *})
60f64f112174 removed redundant thms nipkow parents: 29948 diff changeset	239	apply (tactic {* stac (thm "mod_mult_eq" RS sym) 6 *})
60f64f112174 removed redundant thms nipkow parents: 29948 diff changeset	240	apply (tactic {* stac (thm "zcong_zmod" RS sym) 6 *})
60f64f112174 removed redundant thms nipkow parents: 29948 diff changeset	241	apply (subgoal_tac [6]
11868 56db9f3a6b3e Numerals now work for the integers: the binary numerals for 0 and 1 rewrite paulson parents: 11701 diff changeset	242	"0 \<le> xilin_sol i n kf bf mf \<and> xilin_sol i n kf bf mf < mf i
11049 7eef34adb852 HOL-NumberTheory: converted to new-style format and proper document setup; wenzelm parents: 9508 diff changeset	243	\<and> [kf i * mhf mf n i * xilin_sol i n kf bf mf = bf i] (mod mf i)")
30034 60f64f112174 removed redundant thms nipkow parents: 29948 diff changeset	244	prefer 6
11049 7eef34adb852 HOL-NumberTheory: converted to new-style format and proper document setup; wenzelm parents: 9508 diff changeset	245	apply (simp add: zmult_ac)
7eef34adb852 HOL-NumberTheory: converted to new-style format and proper document setup; wenzelm parents: 9508 diff changeset	246	apply (unfold xilin_sol_def)
30034 60f64f112174 removed redundant thms nipkow parents: 29948 diff changeset	247	apply (tactic {* asm_simp_tac @{simpset} 6 *})
60f64f112174 removed redundant thms nipkow parents: 29948 diff changeset	248	apply (rule_tac [6] ex1_implies_ex [THEN someI_ex])
60f64f112174 removed redundant thms nipkow parents: 29948 diff changeset	249	apply (rule_tac [6] unique_xi_sol)
60f64f112174 removed redundant thms nipkow parents: 29948 diff changeset	250	apply (rule_tac [3] funprod_zdvd)
11049 7eef34adb852 HOL-NumberTheory: converted to new-style format and proper document setup; wenzelm parents: 9508 diff changeset	251	apply (unfold m_cond_def)
7eef34adb852 HOL-NumberTheory: converted to new-style format and proper document setup; wenzelm parents: 9508 diff changeset	252	apply (rule funprod_pos [THEN pos_mod_sign])
7eef34adb852 HOL-NumberTheory: converted to new-style format and proper document setup; wenzelm parents: 9508 diff changeset	253	apply (rule_tac [2] funprod_pos [THEN pos_mod_bound])
7eef34adb852 HOL-NumberTheory: converted to new-style format and proper document setup; wenzelm parents: 9508 diff changeset	254	apply auto
7eef34adb852 HOL-NumberTheory: converted to new-style format and proper document setup; wenzelm parents: 9508 diff changeset	255	done
9508 4d01dbf6ded7 Chinese Remainder Theorem, Wilsons Theorem, etc., by T M Masmussen paulson parents: diff changeset	256
4d01dbf6ded7 Chinese Remainder Theorem, Wilsons Theorem, etc., by T M Masmussen paulson parents: diff changeset	257	end

author	hoelzl
	Thu, 12 Nov 2009 17:21:43 +0100
changeset 33638	548a34929e98
parent 32479	521cc9bf2958
child 38159	e9b4835a54ee
permissions	-rw-r--r--