isabelle: src/HOL/Decision_Procs/Cooper.thy@d8bbb97689d3 (annotated)

30439 57c68b3af2ea Updated paths in Decision_Procs comments and NEWS hoelzl parents: 30042 diff changeset	1	(* Title: HOL/Decision_Procs/Cooper.thy
27456 52c7c42e7e27 code antiquotation roaring ahead haftmann parents: 26934 diff changeset	2	Author: Amine Chaieb
52c7c42e7e27 code antiquotation roaring ahead haftmann parents: 26934 diff changeset	3	*)
52c7c42e7e27 code antiquotation roaring ahead haftmann parents: 26934 diff changeset	4
29788 1b80ebe713a4 established session HOL-Reflection haftmann parents: 29700 diff changeset	5	theory Cooper
55885 c871a2e751ec tuned proofs; wenzelm parents: 55844 diff changeset	6	imports
c871a2e751ec tuned proofs; wenzelm parents: 55844 diff changeset	7	Complex_Main
c871a2e751ec tuned proofs; wenzelm parents: 55844 diff changeset	8	"~~/src/HOL/Library/Code_Target_Numeral"
c871a2e751ec tuned proofs; wenzelm parents: 55844 diff changeset	9	"~~/src/HOL/Library/Old_Recdef"
23477 f4b83f03cac9 tuned and renamed group_eq_simps and ring_eq_simps nipkow parents: 23315 diff changeset	10	begin
17378 105519771c67 The oracle for Presburger has been changer: It is automatically generated form a verified formaliztion of Cooper's Algorithm ex/Reflected_Presburger.thy chaieb parents: diff changeset	11
105519771c67 The oracle for Presburger has been changer: It is automatically generated form a verified formaliztion of Cooper's Algorithm ex/Reflected_Presburger.thy chaieb parents: diff changeset	12	(* Periodicity of dvd *)
23315 df3a7e9ebadb tuned Proof chaieb parents: 23274 diff changeset	13
55885 c871a2e751ec tuned proofs; wenzelm parents: 55844 diff changeset	14	(*********************************************************************************)
c871a2e751ec tuned proofs; wenzelm parents: 55844 diff changeset	15	(** SHADOW SYNTAX AND SEMANTICS **)
c871a2e751ec tuned proofs; wenzelm parents: 55844 diff changeset	16	(*********************************************************************************)
23274 f997514ad8f4 New Reflected Presburger added to HOL/ex chaieb parents: 21404 diff changeset	17
50313 5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	18	datatype num = C int \| Bound nat \| CN nat int num \| Neg num \| Add num num\| Sub num num
23274 f997514ad8f4 New Reflected Presburger added to HOL/ex chaieb parents: 21404 diff changeset	19	\| Mul int num
f997514ad8f4 New Reflected Presburger added to HOL/ex chaieb parents: 21404 diff changeset	20
50313 5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	21	primrec num_size :: "num \<Rightarrow> nat" -- {* A size for num to make inductive proofs simpler *}
5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	22	where
23274 f997514ad8f4 New Reflected Presburger added to HOL/ex chaieb parents: 21404 diff changeset	23	"num_size (C c) = 1"
27456 52c7c42e7e27 code antiquotation roaring ahead haftmann parents: 26934 diff changeset	24	\| "num_size (Bound n) = 1"
52c7c42e7e27 code antiquotation roaring ahead haftmann parents: 26934 diff changeset	25	\| "num_size (Neg a) = 1 + num_size a"
52c7c42e7e27 code antiquotation roaring ahead haftmann parents: 26934 diff changeset	26	\| "num_size (Add a b) = 1 + num_size a + num_size b"
52c7c42e7e27 code antiquotation roaring ahead haftmann parents: 26934 diff changeset	27	\| "num_size (Sub a b) = 3 + num_size a + num_size b"
52c7c42e7e27 code antiquotation roaring ahead haftmann parents: 26934 diff changeset	28	\| "num_size (CN n c a) = 4 + num_size a"
52c7c42e7e27 code antiquotation roaring ahead haftmann parents: 26934 diff changeset	29	\| "num_size (Mul c a) = 1 + num_size a"
17378 105519771c67 The oracle for Presburger has been changer: It is automatically generated form a verified formaliztion of Cooper's Algorithm ex/Reflected_Presburger.thy chaieb parents: diff changeset	30
55844 fc04c24ad9ee tuned proofs; wenzelm parents: 55814 diff changeset	31	primrec Inum :: "int list \<Rightarrow> num \<Rightarrow> int"
fc04c24ad9ee tuned proofs; wenzelm parents: 55814 diff changeset	32	where
23274 f997514ad8f4 New Reflected Presburger added to HOL/ex chaieb parents: 21404 diff changeset	33	"Inum bs (C c) = c"
27456 52c7c42e7e27 code antiquotation roaring ahead haftmann parents: 26934 diff changeset	34	\| "Inum bs (Bound n) = bs!n"
52c7c42e7e27 code antiquotation roaring ahead haftmann parents: 26934 diff changeset	35	\| "Inum bs (CN n c a) = c * (bs!n) + (Inum bs a)"
52c7c42e7e27 code antiquotation roaring ahead haftmann parents: 26934 diff changeset	36	\| "Inum bs (Neg a) = -(Inum bs a)"
52c7c42e7e27 code antiquotation roaring ahead haftmann parents: 26934 diff changeset	37	\| "Inum bs (Add a b) = Inum bs a + Inum bs b"
52c7c42e7e27 code antiquotation roaring ahead haftmann parents: 26934 diff changeset	38	\| "Inum bs (Sub a b) = Inum bs a - Inum bs b"
52c7c42e7e27 code antiquotation roaring ahead haftmann parents: 26934 diff changeset	39	\| "Inum bs (Mul c a) = c* Inum bs a"
23274 f997514ad8f4 New Reflected Presburger added to HOL/ex chaieb parents: 21404 diff changeset	40
50313 5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	41	datatype fm =
23274 f997514ad8f4 New Reflected Presburger added to HOL/ex chaieb parents: 21404 diff changeset	42	T\| F\| Lt num\| Le num\| Gt num\| Ge num\| Eq num\| NEq num\| Dvd int num\| NDvd int num\|
50313 5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	43	NOT fm\| And fm fm\| Or fm fm\| Imp fm fm\| Iff fm fm\| E fm\| A fm
23274 f997514ad8f4 New Reflected Presburger added to HOL/ex chaieb parents: 21404 diff changeset	44	\| Closed nat \| NClosed nat
f997514ad8f4 New Reflected Presburger added to HOL/ex chaieb parents: 21404 diff changeset	45
f997514ad8f4 New Reflected Presburger added to HOL/ex chaieb parents: 21404 diff changeset	46
50313 5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	47	fun fmsize :: "fm \<Rightarrow> nat" -- {* A size for fm *}
5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	48	where
23274 f997514ad8f4 New Reflected Presburger added to HOL/ex chaieb parents: 21404 diff changeset	49	"fmsize (NOT p) = 1 + fmsize p"
41837 6fc224dc5473 recdef -> fun(ction); krauss parents: 41836 diff changeset	50	\| "fmsize (And p q) = 1 + fmsize p + fmsize q"
6fc224dc5473 recdef -> fun(ction); krauss parents: 41836 diff changeset	51	\| "fmsize (Or p q) = 1 + fmsize p + fmsize q"
6fc224dc5473 recdef -> fun(ction); krauss parents: 41836 diff changeset	52	\| "fmsize (Imp p q) = 3 + fmsize p + fmsize q"
6fc224dc5473 recdef -> fun(ction); krauss parents: 41836 diff changeset	53	\| "fmsize (Iff p q) = 3 + 2*(fmsize p + fmsize q)"
6fc224dc5473 recdef -> fun(ction); krauss parents: 41836 diff changeset	54	\| "fmsize (E p) = 1 + fmsize p"
6fc224dc5473 recdef -> fun(ction); krauss parents: 41836 diff changeset	55	\| "fmsize (A p) = 4+ fmsize p"
6fc224dc5473 recdef -> fun(ction); krauss parents: 41836 diff changeset	56	\| "fmsize (Dvd i t) = 2"
6fc224dc5473 recdef -> fun(ction); krauss parents: 41836 diff changeset	57	\| "fmsize (NDvd i t) = 2"
6fc224dc5473 recdef -> fun(ction); krauss parents: 41836 diff changeset	58	\| "fmsize p = 1"
50313 5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	59
32960 69916a850301 eliminated hard tabulators, guessing at each author's individual tab-width; wenzelm parents: 31952 diff changeset	60	lemma fmsize_pos: "fmsize p > 0"
69916a850301 eliminated hard tabulators, guessing at each author's individual tab-width; wenzelm parents: 31952 diff changeset	61	by (induct p rule: fmsize.induct) simp_all
17378 105519771c67 The oracle for Presburger has been changer: It is automatically generated form a verified formaliztion of Cooper's Algorithm ex/Reflected_Presburger.thy chaieb parents: diff changeset	62
50313 5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	63	primrec Ifm :: "bool list \<Rightarrow> int list \<Rightarrow> fm \<Rightarrow> bool" -- {* Semantics of formulae (fm) *}
5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	64	where
55981 66739f41d5b2 tuned proofs; wenzelm parents: 55964 diff changeset	65	"Ifm bbs bs T \<longleftrightarrow> True"
66739f41d5b2 tuned proofs; wenzelm parents: 55964 diff changeset	66	\| "Ifm bbs bs F \<longleftrightarrow> False"
66739f41d5b2 tuned proofs; wenzelm parents: 55964 diff changeset	67	\| "Ifm bbs bs (Lt a) \<longleftrightarrow> Inum bs a < 0"
66739f41d5b2 tuned proofs; wenzelm parents: 55964 diff changeset	68	\| "Ifm bbs bs (Gt a) \<longleftrightarrow> Inum bs a > 0"
66739f41d5b2 tuned proofs; wenzelm parents: 55964 diff changeset	69	\| "Ifm bbs bs (Le a) \<longleftrightarrow> Inum bs a \<le> 0"
66739f41d5b2 tuned proofs; wenzelm parents: 55964 diff changeset	70	\| "Ifm bbs bs (Ge a) \<longleftrightarrow> Inum bs a \<ge> 0"
66739f41d5b2 tuned proofs; wenzelm parents: 55964 diff changeset	71	\| "Ifm bbs bs (Eq a) \<longleftrightarrow> Inum bs a = 0"
66739f41d5b2 tuned proofs; wenzelm parents: 55964 diff changeset	72	\| "Ifm bbs bs (NEq a) \<longleftrightarrow> Inum bs a \<noteq> 0"
66739f41d5b2 tuned proofs; wenzelm parents: 55964 diff changeset	73	\| "Ifm bbs bs (Dvd i b) \<longleftrightarrow> i dvd Inum bs b"
66739f41d5b2 tuned proofs; wenzelm parents: 55964 diff changeset	74	\| "Ifm bbs bs (NDvd i b) \<longleftrightarrow> \<not> i dvd Inum bs b"
66739f41d5b2 tuned proofs; wenzelm parents: 55964 diff changeset	75	\| "Ifm bbs bs (NOT p) \<longleftrightarrow> \<not> Ifm bbs bs p"
66739f41d5b2 tuned proofs; wenzelm parents: 55964 diff changeset	76	\| "Ifm bbs bs (And p q) \<longleftrightarrow> Ifm bbs bs p \<and> Ifm bbs bs q"
66739f41d5b2 tuned proofs; wenzelm parents: 55964 diff changeset	77	\| "Ifm bbs bs (Or p q) \<longleftrightarrow> Ifm bbs bs p \<or> Ifm bbs bs q"
66739f41d5b2 tuned proofs; wenzelm parents: 55964 diff changeset	78	\| "Ifm bbs bs (Imp p q) \<longleftrightarrow> (Ifm bbs bs p \<longrightarrow> Ifm bbs bs q)"
66739f41d5b2 tuned proofs; wenzelm parents: 55964 diff changeset	79	\| "Ifm bbs bs (Iff p q) \<longleftrightarrow> Ifm bbs bs p = Ifm bbs bs q"
66739f41d5b2 tuned proofs; wenzelm parents: 55964 diff changeset	80	\| "Ifm bbs bs (E p) \<longleftrightarrow> (\<exists>x. Ifm bbs (x # bs) p)"
66739f41d5b2 tuned proofs; wenzelm parents: 55964 diff changeset	81	\| "Ifm bbs bs (A p) \<longleftrightarrow> (\<forall>x. Ifm bbs (x # bs) p)"
66739f41d5b2 tuned proofs; wenzelm parents: 55964 diff changeset	82	\| "Ifm bbs bs (Closed n) \<longleftrightarrow> bbs!n"
66739f41d5b2 tuned proofs; wenzelm parents: 55964 diff changeset	83	\| "Ifm bbs bs (NClosed n) \<longleftrightarrow> \<not> bbs!n"
23274 f997514ad8f4 New Reflected Presburger added to HOL/ex chaieb parents: 21404 diff changeset	84
f997514ad8f4 New Reflected Presburger added to HOL/ex chaieb parents: 21404 diff changeset	85	consts prep :: "fm \<Rightarrow> fm"
f997514ad8f4 New Reflected Presburger added to HOL/ex chaieb parents: 21404 diff changeset	86	recdef prep "measure fmsize"
f997514ad8f4 New Reflected Presburger added to HOL/ex chaieb parents: 21404 diff changeset	87	"prep (E T) = T"
f997514ad8f4 New Reflected Presburger added to HOL/ex chaieb parents: 21404 diff changeset	88	"prep (E F) = F"
f997514ad8f4 New Reflected Presburger added to HOL/ex chaieb parents: 21404 diff changeset	89	"prep (E (Or p q)) = Or (prep (E p)) (prep (E q))"
f997514ad8f4 New Reflected Presburger added to HOL/ex chaieb parents: 21404 diff changeset	90	"prep (E (Imp p q)) = Or (prep (E (NOT p))) (prep (E q))"
50313 5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	91	"prep (E (Iff p q)) = Or (prep (E (And p q))) (prep (E (And (NOT p) (NOT q))))"
23274 f997514ad8f4 New Reflected Presburger added to HOL/ex chaieb parents: 21404 diff changeset	92	"prep (E (NOT (And p q))) = Or (prep (E (NOT p))) (prep (E(NOT q)))"
f997514ad8f4 New Reflected Presburger added to HOL/ex chaieb parents: 21404 diff changeset	93	"prep (E (NOT (Imp p q))) = prep (E (And p (NOT q)))"
f997514ad8f4 New Reflected Presburger added to HOL/ex chaieb parents: 21404 diff changeset	94	"prep (E (NOT (Iff p q))) = Or (prep (E (And p (NOT q)))) (prep (E(And (NOT p) q)))"
f997514ad8f4 New Reflected Presburger added to HOL/ex chaieb parents: 21404 diff changeset	95	"prep (E p) = E (prep p)"
f997514ad8f4 New Reflected Presburger added to HOL/ex chaieb parents: 21404 diff changeset	96	"prep (A (And p q)) = And (prep (A p)) (prep (A q))"
f997514ad8f4 New Reflected Presburger added to HOL/ex chaieb parents: 21404 diff changeset	97	"prep (A p) = prep (NOT (E (NOT p)))"
f997514ad8f4 New Reflected Presburger added to HOL/ex chaieb parents: 21404 diff changeset	98	"prep (NOT (NOT p)) = prep p"
f997514ad8f4 New Reflected Presburger added to HOL/ex chaieb parents: 21404 diff changeset	99	"prep (NOT (And p q)) = Or (prep (NOT p)) (prep (NOT q))"
f997514ad8f4 New Reflected Presburger added to HOL/ex chaieb parents: 21404 diff changeset	100	"prep (NOT (A p)) = prep (E (NOT p))"
f997514ad8f4 New Reflected Presburger added to HOL/ex chaieb parents: 21404 diff changeset	101	"prep (NOT (Or p q)) = And (prep (NOT p)) (prep (NOT q))"
f997514ad8f4 New Reflected Presburger added to HOL/ex chaieb parents: 21404 diff changeset	102	"prep (NOT (Imp p q)) = And (prep p) (prep (NOT q))"
f997514ad8f4 New Reflected Presburger added to HOL/ex chaieb parents: 21404 diff changeset	103	"prep (NOT (Iff p q)) = Or (prep (And p (NOT q))) (prep (And (NOT p) q))"
f997514ad8f4 New Reflected Presburger added to HOL/ex chaieb parents: 21404 diff changeset	104	"prep (NOT p) = NOT (prep p)"
f997514ad8f4 New Reflected Presburger added to HOL/ex chaieb parents: 21404 diff changeset	105	"prep (Or p q) = Or (prep p) (prep q)"
f997514ad8f4 New Reflected Presburger added to HOL/ex chaieb parents: 21404 diff changeset	106	"prep (And p q) = And (prep p) (prep q)"
f997514ad8f4 New Reflected Presburger added to HOL/ex chaieb parents: 21404 diff changeset	107	"prep (Imp p q) = prep (Or (NOT p) q)"
f997514ad8f4 New Reflected Presburger added to HOL/ex chaieb parents: 21404 diff changeset	108	"prep (Iff p q) = Or (prep (And p q)) (prep (And (NOT p) (NOT q)))"
f997514ad8f4 New Reflected Presburger added to HOL/ex chaieb parents: 21404 diff changeset	109	"prep p = p"
50313 5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	110	(hints simp add: fmsize_pos)
5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	111
23274 f997514ad8f4 New Reflected Presburger added to HOL/ex chaieb parents: 21404 diff changeset	112	lemma prep: "Ifm bbs bs (prep p) = Ifm bbs bs p"
50313 5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	113	by (induct p arbitrary: bs rule: prep.induct) auto
23274 f997514ad8f4 New Reflected Presburger added to HOL/ex chaieb parents: 21404 diff changeset	114
17378 105519771c67 The oracle for Presburger has been changer: It is automatically generated form a verified formaliztion of Cooper's Algorithm ex/Reflected_Presburger.thy chaieb parents: diff changeset	115
50313 5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	116	fun qfree :: "fm \<Rightarrow> bool" -- {* Quantifier freeness *}
5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	117	where
55999 6477fc70cfa0 tuned proofs; wenzelm parents: 55981 diff changeset	118	"qfree (E p) \<longleftrightarrow> False"
6477fc70cfa0 tuned proofs; wenzelm parents: 55981 diff changeset	119	\| "qfree (A p) \<longleftrightarrow> False"
6477fc70cfa0 tuned proofs; wenzelm parents: 55981 diff changeset	120	\| "qfree (NOT p) \<longleftrightarrow> qfree p"
6477fc70cfa0 tuned proofs; wenzelm parents: 55981 diff changeset	121	\| "qfree (And p q) \<longleftrightarrow> qfree p \<and> qfree q"
6477fc70cfa0 tuned proofs; wenzelm parents: 55981 diff changeset	122	\| "qfree (Or p q) \<longleftrightarrow> qfree p \<and> qfree q"
6477fc70cfa0 tuned proofs; wenzelm parents: 55981 diff changeset	123	\| "qfree (Imp p q) \<longleftrightarrow> qfree p \<and> qfree q"
6477fc70cfa0 tuned proofs; wenzelm parents: 55981 diff changeset	124	\| "qfree (Iff p q) \<longleftrightarrow> qfree p \<and> qfree q"
6477fc70cfa0 tuned proofs; wenzelm parents: 55981 diff changeset	125	\| "qfree p \<longleftrightarrow> True"
23274 f997514ad8f4 New Reflected Presburger added to HOL/ex chaieb parents: 21404 diff changeset	126
50313 5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	127
5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	128	text {* Boundedness and substitution *}
5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	129
5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	130	primrec numbound0 :: "num \<Rightarrow> bool" -- {* a num is INDEPENDENT of Bound 0 *}
5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	131	where
55981 66739f41d5b2 tuned proofs; wenzelm parents: 55964 diff changeset	132	"numbound0 (C c) \<longleftrightarrow> True"
66739f41d5b2 tuned proofs; wenzelm parents: 55964 diff changeset	133	\| "numbound0 (Bound n) \<longleftrightarrow> n > 0"
66739f41d5b2 tuned proofs; wenzelm parents: 55964 diff changeset	134	\| "numbound0 (CN n i a) \<longleftrightarrow> n > 0 \<and> numbound0 a"
66739f41d5b2 tuned proofs; wenzelm parents: 55964 diff changeset	135	\| "numbound0 (Neg a) \<longleftrightarrow> numbound0 a"
66739f41d5b2 tuned proofs; wenzelm parents: 55964 diff changeset	136	\| "numbound0 (Add a b) \<longleftrightarrow> numbound0 a \<and> numbound0 b"
66739f41d5b2 tuned proofs; wenzelm parents: 55964 diff changeset	137	\| "numbound0 (Sub a b) \<longleftrightarrow> numbound0 a \<and> numbound0 b"
66739f41d5b2 tuned proofs; wenzelm parents: 55964 diff changeset	138	\| "numbound0 (Mul i a) \<longleftrightarrow> numbound0 a"
23274 f997514ad8f4 New Reflected Presburger added to HOL/ex chaieb parents: 21404 diff changeset	139
f997514ad8f4 New Reflected Presburger added to HOL/ex chaieb parents: 21404 diff changeset	140	lemma numbound0_I:
f997514ad8f4 New Reflected Presburger added to HOL/ex chaieb parents: 21404 diff changeset	141	assumes nb: "numbound0 a"
55981 66739f41d5b2 tuned proofs; wenzelm parents: 55964 diff changeset	142	shows "Inum (b # bs) a = Inum (b' # bs) a"
50313 5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	143	using nb by (induct a rule: num.induct) (auto simp add: gr0_conv_Suc)
17378 105519771c67 The oracle for Presburger has been changer: It is automatically generated form a verified formaliztion of Cooper's Algorithm ex/Reflected_Presburger.thy chaieb parents: diff changeset	144
50313 5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	145	primrec bound0 :: "fm \<Rightarrow> bool" -- {* A Formula is independent of Bound 0 *}
5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	146	where
55981 66739f41d5b2 tuned proofs; wenzelm parents: 55964 diff changeset	147	"bound0 T \<longleftrightarrow> True"
66739f41d5b2 tuned proofs; wenzelm parents: 55964 diff changeset	148	\| "bound0 F \<longleftrightarrow> True"
66739f41d5b2 tuned proofs; wenzelm parents: 55964 diff changeset	149	\| "bound0 (Lt a) \<longleftrightarrow> numbound0 a"
66739f41d5b2 tuned proofs; wenzelm parents: 55964 diff changeset	150	\| "bound0 (Le a) \<longleftrightarrow> numbound0 a"
66739f41d5b2 tuned proofs; wenzelm parents: 55964 diff changeset	151	\| "bound0 (Gt a) \<longleftrightarrow> numbound0 a"
66739f41d5b2 tuned proofs; wenzelm parents: 55964 diff changeset	152	\| "bound0 (Ge a) \<longleftrightarrow> numbound0 a"
66739f41d5b2 tuned proofs; wenzelm parents: 55964 diff changeset	153	\| "bound0 (Eq a) \<longleftrightarrow> numbound0 a"
66739f41d5b2 tuned proofs; wenzelm parents: 55964 diff changeset	154	\| "bound0 (NEq a) \<longleftrightarrow> numbound0 a"
66739f41d5b2 tuned proofs; wenzelm parents: 55964 diff changeset	155	\| "bound0 (Dvd i a) \<longleftrightarrow> numbound0 a"
66739f41d5b2 tuned proofs; wenzelm parents: 55964 diff changeset	156	\| "bound0 (NDvd i a) \<longleftrightarrow> numbound0 a"
66739f41d5b2 tuned proofs; wenzelm parents: 55964 diff changeset	157	\| "bound0 (NOT p) \<longleftrightarrow> bound0 p"
66739f41d5b2 tuned proofs; wenzelm parents: 55964 diff changeset	158	\| "bound0 (And p q) \<longleftrightarrow> bound0 p \<and> bound0 q"
66739f41d5b2 tuned proofs; wenzelm parents: 55964 diff changeset	159	\| "bound0 (Or p q) \<longleftrightarrow> bound0 p \<and> bound0 q"
66739f41d5b2 tuned proofs; wenzelm parents: 55964 diff changeset	160	\| "bound0 (Imp p q) \<longleftrightarrow> bound0 p \<and> bound0 q"
66739f41d5b2 tuned proofs; wenzelm parents: 55964 diff changeset	161	\| "bound0 (Iff p q) \<longleftrightarrow> bound0 p \<and> bound0 q"
66739f41d5b2 tuned proofs; wenzelm parents: 55964 diff changeset	162	\| "bound0 (E p) \<longleftrightarrow> False"
66739f41d5b2 tuned proofs; wenzelm parents: 55964 diff changeset	163	\| "bound0 (A p) \<longleftrightarrow> False"
66739f41d5b2 tuned proofs; wenzelm parents: 55964 diff changeset	164	\| "bound0 (Closed P) \<longleftrightarrow> True"
66739f41d5b2 tuned proofs; wenzelm parents: 55964 diff changeset	165	\| "bound0 (NClosed P) \<longleftrightarrow> True"
50313 5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	166
23274 f997514ad8f4 New Reflected Presburger added to HOL/ex chaieb parents: 21404 diff changeset	167	lemma bound0_I:
f997514ad8f4 New Reflected Presburger added to HOL/ex chaieb parents: 21404 diff changeset	168	assumes bp: "bound0 p"
55981 66739f41d5b2 tuned proofs; wenzelm parents: 55964 diff changeset	169	shows "Ifm bbs (b # bs) p = Ifm bbs (b' # bs) p"
50313 5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	170	using bp numbound0_I[where b="b" and bs="bs" and b'="b'"]
5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	171	by (induct p rule: fm.induct) (auto simp add: gr0_conv_Suc)
23274 f997514ad8f4 New Reflected Presburger added to HOL/ex chaieb parents: 21404 diff changeset	172
50313 5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	173	fun numsubst0 :: "num \<Rightarrow> num \<Rightarrow> num"
5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	174	where
23274 f997514ad8f4 New Reflected Presburger added to HOL/ex chaieb parents: 21404 diff changeset	175	"numsubst0 t (C c) = (C c)"
23995 c34490f1e0ff Updated proofs; changed shadow syntax to improve (processing) time chaieb parents: 23984 diff changeset	176	\| "numsubst0 t (Bound n) = (if n=0 then t else Bound n)"
c34490f1e0ff Updated proofs; changed shadow syntax to improve (processing) time chaieb parents: 23984 diff changeset	177	\| "numsubst0 t (CN 0 i a) = Add (Mul i t) (numsubst0 t a)"
c34490f1e0ff Updated proofs; changed shadow syntax to improve (processing) time chaieb parents: 23984 diff changeset	178	\| "numsubst0 t (CN n i a) = CN n i (numsubst0 t a)"
c34490f1e0ff Updated proofs; changed shadow syntax to improve (processing) time chaieb parents: 23984 diff changeset	179	\| "numsubst0 t (Neg a) = Neg (numsubst0 t a)"
c34490f1e0ff Updated proofs; changed shadow syntax to improve (processing) time chaieb parents: 23984 diff changeset	180	\| "numsubst0 t (Add a b) = Add (numsubst0 t a) (numsubst0 t b)"
50313 5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	181	\| "numsubst0 t (Sub a b) = Sub (numsubst0 t a) (numsubst0 t b)"
23995 c34490f1e0ff Updated proofs; changed shadow syntax to improve (processing) time chaieb parents: 23984 diff changeset	182	\| "numsubst0 t (Mul i a) = Mul i (numsubst0 t a)"
23274 f997514ad8f4 New Reflected Presburger added to HOL/ex chaieb parents: 21404 diff changeset	183
50313 5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	184	lemma numsubst0_I: "Inum (b#bs) (numsubst0 a t) = Inum ((Inum (b#bs) a)#bs) t"
5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	185	by (induct t rule: numsubst0.induct) (auto simp: nth_Cons')
17378 105519771c67 The oracle for Presburger has been changer: It is automatically generated form a verified formaliztion of Cooper's Algorithm ex/Reflected_Presburger.thy chaieb parents: diff changeset	186
23274 f997514ad8f4 New Reflected Presburger added to HOL/ex chaieb parents: 21404 diff changeset	187	lemma numsubst0_I':
25134 3d4953e88449 Eliminated most of the neq0_conv occurrences. As a result, many nipkow parents: 25112 diff changeset	188	"numbound0 a \<Longrightarrow> Inum (b#bs) (numsubst0 a t) = Inum ((Inum (b'#bs) a)#bs) t"
50313 5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	189	by (induct t rule: numsubst0.induct) (auto simp: nth_Cons' numbound0_I[where b="b" and b'="b'"])
23274 f997514ad8f4 New Reflected Presburger added to HOL/ex chaieb parents: 21404 diff changeset	190
50313 5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	191	primrec subst0:: "num \<Rightarrow> fm \<Rightarrow> fm" -- {* substitue a num into a formula for Bound 0 *}
5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	192	where
23274 f997514ad8f4 New Reflected Presburger added to HOL/ex chaieb parents: 21404 diff changeset	193	"subst0 t T = T"
39246 9e58f0499f57 modernized primrec haftmann parents: 38795 diff changeset	194	\| "subst0 t F = F"
9e58f0499f57 modernized primrec haftmann parents: 38795 diff changeset	195	\| "subst0 t (Lt a) = Lt (numsubst0 t a)"
9e58f0499f57 modernized primrec haftmann parents: 38795 diff changeset	196	\| "subst0 t (Le a) = Le (numsubst0 t a)"
9e58f0499f57 modernized primrec haftmann parents: 38795 diff changeset	197	\| "subst0 t (Gt a) = Gt (numsubst0 t a)"
9e58f0499f57 modernized primrec haftmann parents: 38795 diff changeset	198	\| "subst0 t (Ge a) = Ge (numsubst0 t a)"
9e58f0499f57 modernized primrec haftmann parents: 38795 diff changeset	199	\| "subst0 t (Eq a) = Eq (numsubst0 t a)"
9e58f0499f57 modernized primrec haftmann parents: 38795 diff changeset	200	\| "subst0 t (NEq a) = NEq (numsubst0 t a)"
9e58f0499f57 modernized primrec haftmann parents: 38795 diff changeset	201	\| "subst0 t (Dvd i a) = Dvd i (numsubst0 t a)"
9e58f0499f57 modernized primrec haftmann parents: 38795 diff changeset	202	\| "subst0 t (NDvd i a) = NDvd i (numsubst0 t a)"
9e58f0499f57 modernized primrec haftmann parents: 38795 diff changeset	203	\| "subst0 t (NOT p) = NOT (subst0 t p)"
9e58f0499f57 modernized primrec haftmann parents: 38795 diff changeset	204	\| "subst0 t (And p q) = And (subst0 t p) (subst0 t q)"
9e58f0499f57 modernized primrec haftmann parents: 38795 diff changeset	205	\| "subst0 t (Or p q) = Or (subst0 t p) (subst0 t q)"
9e58f0499f57 modernized primrec haftmann parents: 38795 diff changeset	206	\| "subst0 t (Imp p q) = Imp (subst0 t p) (subst0 t q)"
9e58f0499f57 modernized primrec haftmann parents: 38795 diff changeset	207	\| "subst0 t (Iff p q) = Iff (subst0 t p) (subst0 t q)"
9e58f0499f57 modernized primrec haftmann parents: 38795 diff changeset	208	\| "subst0 t (Closed P) = (Closed P)"
9e58f0499f57 modernized primrec haftmann parents: 38795 diff changeset	209	\| "subst0 t (NClosed P) = (NClosed P)"
23274 f997514ad8f4 New Reflected Presburger added to HOL/ex chaieb parents: 21404 diff changeset	210
50313 5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	211	lemma subst0_I:
55999 6477fc70cfa0 tuned proofs; wenzelm parents: 55981 diff changeset	212	assumes "qfree p"
55885 c871a2e751ec tuned proofs; wenzelm parents: 55844 diff changeset	213	shows "Ifm bbs (b # bs) (subst0 a p) = Ifm bbs (Inum (b # bs) a # bs) p"
55999 6477fc70cfa0 tuned proofs; wenzelm parents: 55981 diff changeset	214	using assms numsubst0_I[where b="b" and bs="bs" and a="a"]
23689 0410269099dc replaced code generator framework for reflected cooper haftmann parents: 23515 diff changeset	215	by (induct p) (simp_all add: gr0_conv_Suc)
23274 f997514ad8f4 New Reflected Presburger added to HOL/ex chaieb parents: 21404 diff changeset	216
50313 5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	217	fun decrnum:: "num \<Rightarrow> num"
5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	218	where
23274 f997514ad8f4 New Reflected Presburger added to HOL/ex chaieb parents: 21404 diff changeset	219	"decrnum (Bound n) = Bound (n - 1)"
41837 6fc224dc5473 recdef -> fun(ction); krauss parents: 41836 diff changeset	220	\| "decrnum (Neg a) = Neg (decrnum a)"
6fc224dc5473 recdef -> fun(ction); krauss parents: 41836 diff changeset	221	\| "decrnum (Add a b) = Add (decrnum a) (decrnum b)"
6fc224dc5473 recdef -> fun(ction); krauss parents: 41836 diff changeset	222	\| "decrnum (Sub a b) = Sub (decrnum a) (decrnum b)"
6fc224dc5473 recdef -> fun(ction); krauss parents: 41836 diff changeset	223	\| "decrnum (Mul c a) = Mul c (decrnum a)"
6fc224dc5473 recdef -> fun(ction); krauss parents: 41836 diff changeset	224	\| "decrnum (CN n i a) = (CN (n - 1) i (decrnum a))"
6fc224dc5473 recdef -> fun(ction); krauss parents: 41836 diff changeset	225	\| "decrnum a = a"
17378 105519771c67 The oracle for Presburger has been changer: It is automatically generated form a verified formaliztion of Cooper's Algorithm ex/Reflected_Presburger.thy chaieb parents: diff changeset	226
50313 5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	227	fun decr :: "fm \<Rightarrow> fm"
5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	228	where
23274 f997514ad8f4 New Reflected Presburger added to HOL/ex chaieb parents: 21404 diff changeset	229	"decr (Lt a) = Lt (decrnum a)"
41837 6fc224dc5473 recdef -> fun(ction); krauss parents: 41836 diff changeset	230	\| "decr (Le a) = Le (decrnum a)"
6fc224dc5473 recdef -> fun(ction); krauss parents: 41836 diff changeset	231	\| "decr (Gt a) = Gt (decrnum a)"
6fc224dc5473 recdef -> fun(ction); krauss parents: 41836 diff changeset	232	\| "decr (Ge a) = Ge (decrnum a)"
6fc224dc5473 recdef -> fun(ction); krauss parents: 41836 diff changeset	233	\| "decr (Eq a) = Eq (decrnum a)"
6fc224dc5473 recdef -> fun(ction); krauss parents: 41836 diff changeset	234	\| "decr (NEq a) = NEq (decrnum a)"
6fc224dc5473 recdef -> fun(ction); krauss parents: 41836 diff changeset	235	\| "decr (Dvd i a) = Dvd i (decrnum a)"
6fc224dc5473 recdef -> fun(ction); krauss parents: 41836 diff changeset	236	\| "decr (NDvd i a) = NDvd i (decrnum a)"
50313 5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	237	\| "decr (NOT p) = NOT (decr p)"
41837 6fc224dc5473 recdef -> fun(ction); krauss parents: 41836 diff changeset	238	\| "decr (And p q) = And (decr p) (decr q)"
6fc224dc5473 recdef -> fun(ction); krauss parents: 41836 diff changeset	239	\| "decr (Or p q) = Or (decr p) (decr q)"
6fc224dc5473 recdef -> fun(ction); krauss parents: 41836 diff changeset	240	\| "decr (Imp p q) = Imp (decr p) (decr q)"
6fc224dc5473 recdef -> fun(ction); krauss parents: 41836 diff changeset	241	\| "decr (Iff p q) = Iff (decr p) (decr q)"
6fc224dc5473 recdef -> fun(ction); krauss parents: 41836 diff changeset	242	\| "decr p = p"
23274 f997514ad8f4 New Reflected Presburger added to HOL/ex chaieb parents: 21404 diff changeset	243
50313 5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	244	lemma decrnum:
5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	245	assumes nb: "numbound0 t"
55885 c871a2e751ec tuned proofs; wenzelm parents: 55844 diff changeset	246	shows "Inum (x # bs) t = Inum bs (decrnum t)"
50313 5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	247	using nb by (induct t rule: decrnum.induct) (auto simp add: gr0_conv_Suc)
23274 f997514ad8f4 New Reflected Presburger added to HOL/ex chaieb parents: 21404 diff changeset	248
50313 5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	249	lemma decr:
5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	250	assumes nb: "bound0 p"
55885 c871a2e751ec tuned proofs; wenzelm parents: 55844 diff changeset	251	shows "Ifm bbs (x # bs) p = Ifm bbs bs (decr p)"
50313 5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	252	using nb by (induct p rule: decr.induct) (simp_all add: gr0_conv_Suc decrnum)
23274 f997514ad8f4 New Reflected Presburger added to HOL/ex chaieb parents: 21404 diff changeset	253
f997514ad8f4 New Reflected Presburger added to HOL/ex chaieb parents: 21404 diff changeset	254	lemma decr_qf: "bound0 p \<Longrightarrow> qfree (decr p)"
50313 5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	255	by (induct p) simp_all
23274 f997514ad8f4 New Reflected Presburger added to HOL/ex chaieb parents: 21404 diff changeset	256
50313 5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	257	fun isatom :: "fm \<Rightarrow> bool" -- {* test for atomicity *}
5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	258	where
55981 66739f41d5b2 tuned proofs; wenzelm parents: 55964 diff changeset	259	"isatom T \<longleftrightarrow> True"
66739f41d5b2 tuned proofs; wenzelm parents: 55964 diff changeset	260	\| "isatom F \<longleftrightarrow> True"
66739f41d5b2 tuned proofs; wenzelm parents: 55964 diff changeset	261	\| "isatom (Lt a) \<longleftrightarrow> True"
66739f41d5b2 tuned proofs; wenzelm parents: 55964 diff changeset	262	\| "isatom (Le a) \<longleftrightarrow> True"
66739f41d5b2 tuned proofs; wenzelm parents: 55964 diff changeset	263	\| "isatom (Gt a) \<longleftrightarrow> True"
66739f41d5b2 tuned proofs; wenzelm parents: 55964 diff changeset	264	\| "isatom (Ge a) \<longleftrightarrow> True"
66739f41d5b2 tuned proofs; wenzelm parents: 55964 diff changeset	265	\| "isatom (Eq a) \<longleftrightarrow> True"
66739f41d5b2 tuned proofs; wenzelm parents: 55964 diff changeset	266	\| "isatom (NEq a) \<longleftrightarrow> True"
66739f41d5b2 tuned proofs; wenzelm parents: 55964 diff changeset	267	\| "isatom (Dvd i b) \<longleftrightarrow> True"
66739f41d5b2 tuned proofs; wenzelm parents: 55964 diff changeset	268	\| "isatom (NDvd i b) \<longleftrightarrow> True"
66739f41d5b2 tuned proofs; wenzelm parents: 55964 diff changeset	269	\| "isatom (Closed P) \<longleftrightarrow> True"
66739f41d5b2 tuned proofs; wenzelm parents: 55964 diff changeset	270	\| "isatom (NClosed P) \<longleftrightarrow> True"
66739f41d5b2 tuned proofs; wenzelm parents: 55964 diff changeset	271	\| "isatom p \<longleftrightarrow> False"
17378 105519771c67 The oracle for Presburger has been changer: It is automatically generated form a verified formaliztion of Cooper's Algorithm ex/Reflected_Presburger.thy chaieb parents: diff changeset	272
50313 5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	273	lemma numsubst0_numbound0:
55844 fc04c24ad9ee tuned proofs; wenzelm parents: 55814 diff changeset	274	assumes "numbound0 t"
23274 f997514ad8f4 New Reflected Presburger added to HOL/ex chaieb parents: 21404 diff changeset	275	shows "numbound0 (numsubst0 t a)"
55844 fc04c24ad9ee tuned proofs; wenzelm parents: 55814 diff changeset	276	using assms
fc04c24ad9ee tuned proofs; wenzelm parents: 55814 diff changeset	277	apply (induct a)
50313 5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	278	apply simp_all
55844 fc04c24ad9ee tuned proofs; wenzelm parents: 55814 diff changeset	279	apply (case_tac nat)
fc04c24ad9ee tuned proofs; wenzelm parents: 55814 diff changeset	280	apply simp_all
50313 5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	281	done
23274 f997514ad8f4 New Reflected Presburger added to HOL/ex chaieb parents: 21404 diff changeset	282
50313 5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	283	lemma subst0_bound0:
55844 fc04c24ad9ee tuned proofs; wenzelm parents: 55814 diff changeset	284	assumes qf: "qfree p"
fc04c24ad9ee tuned proofs; wenzelm parents: 55814 diff changeset	285	and nb: "numbound0 t"
23274 f997514ad8f4 New Reflected Presburger added to HOL/ex chaieb parents: 21404 diff changeset	286	shows "bound0 (subst0 t p)"
50313 5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	287	using qf numsubst0_numbound0[OF nb] by (induct p) auto
23274 f997514ad8f4 New Reflected Presburger added to HOL/ex chaieb parents: 21404 diff changeset	288
f997514ad8f4 New Reflected Presburger added to HOL/ex chaieb parents: 21404 diff changeset	289	lemma bound0_qf: "bound0 p \<Longrightarrow> qfree p"
50313 5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	290	by (induct p) simp_all
23274 f997514ad8f4 New Reflected Presburger added to HOL/ex chaieb parents: 21404 diff changeset	291
f997514ad8f4 New Reflected Presburger added to HOL/ex chaieb parents: 21404 diff changeset	292
50313 5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	293	definition djf :: "('a \<Rightarrow> fm) \<Rightarrow> 'a \<Rightarrow> fm \<Rightarrow> fm"
5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	294	where
5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	295	"djf f p q =
55885 c871a2e751ec tuned proofs; wenzelm parents: 55844 diff changeset	296	(if q = T then T
c871a2e751ec tuned proofs; wenzelm parents: 55844 diff changeset	297	else if q = F then f p
c871a2e751ec tuned proofs; wenzelm parents: 55844 diff changeset	298	else
c871a2e751ec tuned proofs; wenzelm parents: 55844 diff changeset	299	let fp = f p
c871a2e751ec tuned proofs; wenzelm parents: 55844 diff changeset	300	in case fp of T \<Rightarrow> T \| F \<Rightarrow> q \| _ \<Rightarrow> Or (f p) q)"
50313 5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	301
5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	302	definition evaldjf :: "('a \<Rightarrow> fm) \<Rightarrow> 'a list \<Rightarrow> fm"
5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	303	where "evaldjf f ps = foldr (djf f) ps F"
23274 f997514ad8f4 New Reflected Presburger added to HOL/ex chaieb parents: 21404 diff changeset	304
f997514ad8f4 New Reflected Presburger added to HOL/ex chaieb parents: 21404 diff changeset	305	lemma djf_Or: "Ifm bbs bs (djf f p q) = Ifm bbs bs (Or (f p) q)"
55885 c871a2e751ec tuned proofs; wenzelm parents: 55844 diff changeset	306	by (cases "q=T", simp add: djf_def, cases "q = F", simp add: djf_def)
50313 5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	307	(cases "f p", simp_all add: Let_def djf_def)
23274 f997514ad8f4 New Reflected Presburger added to HOL/ex chaieb parents: 21404 diff changeset	308
55885 c871a2e751ec tuned proofs; wenzelm parents: 55844 diff changeset	309	lemma evaldjf_ex: "Ifm bbs bs (evaldjf f ps) \<longleftrightarrow> (\<exists>p \<in> set ps. Ifm bbs bs (f p))"
50313 5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	310	by (induct ps) (simp_all add: evaldjf_def djf_Or)
17378 105519771c67 The oracle for Presburger has been changer: It is automatically generated form a verified formaliztion of Cooper's Algorithm ex/Reflected_Presburger.thy chaieb parents: diff changeset	311
50313 5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	312	lemma evaldjf_bound0:
5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	313	assumes nb: "\<forall>x\<in> set xs. bound0 (f x)"
23274 f997514ad8f4 New Reflected Presburger added to HOL/ex chaieb parents: 21404 diff changeset	314	shows "bound0 (evaldjf f xs)"
55422 6445a05a1234 compile blanchet parents: 55417 diff changeset	315	using nb by (induct xs) (auto simp add: evaldjf_def djf_def Let_def, case_tac "f a", auto)
23274 f997514ad8f4 New Reflected Presburger added to HOL/ex chaieb parents: 21404 diff changeset	316
50313 5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	317	lemma evaldjf_qf:
5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	318	assumes nb: "\<forall>x\<in> set xs. qfree (f x)"
23274 f997514ad8f4 New Reflected Presburger added to HOL/ex chaieb parents: 21404 diff changeset	319	shows "qfree (evaldjf f xs)"
55422 6445a05a1234 compile blanchet parents: 55417 diff changeset	320	using nb by (induct xs) (auto simp add: evaldjf_def djf_def Let_def, case_tac "f a", auto)
17378 105519771c67 The oracle for Presburger has been changer: It is automatically generated form a verified formaliztion of Cooper's Algorithm ex/Reflected_Presburger.thy chaieb parents: diff changeset	321
50313 5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	322	fun disjuncts :: "fm \<Rightarrow> fm list"
5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	323	where
5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	324	"disjuncts (Or p q) = disjuncts p @ disjuncts q"
41837 6fc224dc5473 recdef -> fun(ction); krauss parents: 41836 diff changeset	325	\| "disjuncts F = []"
6fc224dc5473 recdef -> fun(ction); krauss parents: 41836 diff changeset	326	\| "disjuncts p = [p]"
23274 f997514ad8f4 New Reflected Presburger added to HOL/ex chaieb parents: 21404 diff changeset	327
55885 c871a2e751ec tuned proofs; wenzelm parents: 55844 diff changeset	328	lemma disjuncts: "(\<exists>q \<in> set (disjuncts p). Ifm bbs bs q) \<longleftrightarrow> Ifm bbs bs p"
c871a2e751ec tuned proofs; wenzelm parents: 55844 diff changeset	329	by (induct p rule: disjuncts.induct) auto
23274 f997514ad8f4 New Reflected Presburger added to HOL/ex chaieb parents: 21404 diff changeset	330
50313 5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	331	lemma disjuncts_nb:
55999 6477fc70cfa0 tuned proofs; wenzelm parents: 55981 diff changeset	332	assumes "bound0 p"
50313 5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	333	shows "\<forall>q \<in> set (disjuncts p). bound0 q"
5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	334	proof -
55999 6477fc70cfa0 tuned proofs; wenzelm parents: 55981 diff changeset	335	from assms have "list_all bound0 (disjuncts p)"
50313 5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	336	by (induct p rule: disjuncts.induct) auto
55999 6477fc70cfa0 tuned proofs; wenzelm parents: 55981 diff changeset	337	then show ?thesis
6477fc70cfa0 tuned proofs; wenzelm parents: 55981 diff changeset	338	by (simp only: list_all_iff)
17378 105519771c67 The oracle for Presburger has been changer: It is automatically generated form a verified formaliztion of Cooper's Algorithm ex/Reflected_Presburger.thy chaieb parents: diff changeset	339	qed
105519771c67 The oracle for Presburger has been changer: It is automatically generated form a verified formaliztion of Cooper's Algorithm ex/Reflected_Presburger.thy chaieb parents: diff changeset	340
50313 5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	341	lemma disjuncts_qf:
55999 6477fc70cfa0 tuned proofs; wenzelm parents: 55981 diff changeset	342	assumes "qfree p"
50313 5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	343	shows "\<forall>q \<in> set (disjuncts p). qfree q"
5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	344	proof -
55999 6477fc70cfa0 tuned proofs; wenzelm parents: 55981 diff changeset	345	from assms have "list_all qfree (disjuncts p)"
50313 5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	346	by (induct p rule: disjuncts.induct) auto
55885 c871a2e751ec tuned proofs; wenzelm parents: 55844 diff changeset	347	then show ?thesis by (simp only: list_all_iff)
23274 f997514ad8f4 New Reflected Presburger added to HOL/ex chaieb parents: 21404 diff changeset	348	qed
17378 105519771c67 The oracle for Presburger has been changer: It is automatically generated form a verified formaliztion of Cooper's Algorithm ex/Reflected_Presburger.thy chaieb parents: diff changeset	349
50313 5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	350	definition DJ :: "(fm \<Rightarrow> fm) \<Rightarrow> fm \<Rightarrow> fm"
5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	351	where "DJ f p = evaldjf f (disjuncts p)"
17378 105519771c67 The oracle for Presburger has been changer: It is automatically generated form a verified formaliztion of Cooper's Algorithm ex/Reflected_Presburger.thy chaieb parents: diff changeset	352
50313 5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	353	lemma DJ:
55999 6477fc70cfa0 tuned proofs; wenzelm parents: 55981 diff changeset	354	assumes "\<forall>p q. f (Or p q) = Or (f p) (f q)"
6477fc70cfa0 tuned proofs; wenzelm parents: 55981 diff changeset	355	and "f F = F"
23274 f997514ad8f4 New Reflected Presburger added to HOL/ex chaieb parents: 21404 diff changeset	356	shows "Ifm bbs bs (DJ f p) = Ifm bbs bs (f p)"
50313 5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	357	proof -
55999 6477fc70cfa0 tuned proofs; wenzelm parents: 55981 diff changeset	358	have "Ifm bbs bs (DJ f p) \<longleftrightarrow> (\<exists>q \<in> set (disjuncts p). Ifm bbs bs (f q))"
50313 5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	359	by (simp add: DJ_def evaldjf_ex)
55999 6477fc70cfa0 tuned proofs; wenzelm parents: 55981 diff changeset	360	also from assms have "\<dots> = Ifm bbs bs (f p)"
6477fc70cfa0 tuned proofs; wenzelm parents: 55981 diff changeset	361	by (induct p rule: disjuncts.induct) auto
23274 f997514ad8f4 New Reflected Presburger added to HOL/ex chaieb parents: 21404 diff changeset	362	finally show ?thesis .
f997514ad8f4 New Reflected Presburger added to HOL/ex chaieb parents: 21404 diff changeset	363	qed
17378 105519771c67 The oracle for Presburger has been changer: It is automatically generated form a verified formaliztion of Cooper's Algorithm ex/Reflected_Presburger.thy chaieb parents: diff changeset	364
50313 5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	365	lemma DJ_qf:
55999 6477fc70cfa0 tuned proofs; wenzelm parents: 55981 diff changeset	366	assumes "\<forall>p. qfree p \<longrightarrow> qfree (f p)"
23274 f997514ad8f4 New Reflected Presburger added to HOL/ex chaieb parents: 21404 diff changeset	367	shows "\<forall>p. qfree p \<longrightarrow> qfree (DJ f p) "
50313 5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	368	proof clarify
55844 fc04c24ad9ee tuned proofs; wenzelm parents: 55814 diff changeset	369	fix p
fc04c24ad9ee tuned proofs; wenzelm parents: 55814 diff changeset	370	assume qf: "qfree p"
fc04c24ad9ee tuned proofs; wenzelm parents: 55814 diff changeset	371	have th: "DJ f p = evaldjf f (disjuncts p)"
fc04c24ad9ee tuned proofs; wenzelm parents: 55814 diff changeset	372	by (simp add: DJ_def)
55925 56165322c98b tuned proofs; wenzelm parents: 55921 diff changeset	373	from disjuncts_qf[OF qf] have "\<forall>q \<in> set (disjuncts p). qfree q" .
55999 6477fc70cfa0 tuned proofs; wenzelm parents: 55981 diff changeset	374	with assms have th': "\<forall>q \<in> set (disjuncts p). qfree (f q)"
55844 fc04c24ad9ee tuned proofs; wenzelm parents: 55814 diff changeset	375	by blast
fc04c24ad9ee tuned proofs; wenzelm parents: 55814 diff changeset	376	from evaldjf_qf[OF th'] th show "qfree (DJ f p)"
fc04c24ad9ee tuned proofs; wenzelm parents: 55814 diff changeset	377	by simp
17378 105519771c67 The oracle for Presburger has been changer: It is automatically generated form a verified formaliztion of Cooper's Algorithm ex/Reflected_Presburger.thy chaieb parents: diff changeset	378	qed
105519771c67 The oracle for Presburger has been changer: It is automatically generated form a verified formaliztion of Cooper's Algorithm ex/Reflected_Presburger.thy chaieb parents: diff changeset	379
50313 5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	380	lemma DJ_qe:
55885 c871a2e751ec tuned proofs; wenzelm parents: 55844 diff changeset	381	assumes qe: "\<forall>bs p. qfree p \<longrightarrow> qfree (qe p) \<and> Ifm bbs bs (qe p) = Ifm bbs bs (E p)"
c871a2e751ec tuned proofs; wenzelm parents: 55844 diff changeset	382	shows "\<forall>bs p. qfree p \<longrightarrow> qfree (DJ qe p) \<and> Ifm bbs bs ((DJ qe p)) = Ifm bbs bs (E p)"
50313 5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	383	proof clarify
55844 fc04c24ad9ee tuned proofs; wenzelm parents: 55814 diff changeset	384	fix p :: fm
fc04c24ad9ee tuned proofs; wenzelm parents: 55814 diff changeset	385	fix bs
23274 f997514ad8f4 New Reflected Presburger added to HOL/ex chaieb parents: 21404 diff changeset	386	assume qf: "qfree p"
55844 fc04c24ad9ee tuned proofs; wenzelm parents: 55814 diff changeset	387	from qe have qth: "\<forall>p. qfree p \<longrightarrow> qfree (qe p)"
fc04c24ad9ee tuned proofs; wenzelm parents: 55814 diff changeset	388	by blast
55925 56165322c98b tuned proofs; wenzelm parents: 55921 diff changeset	389	from DJ_qf[OF qth] qf have qfth: "qfree (DJ qe p)"
55844 fc04c24ad9ee tuned proofs; wenzelm parents: 55814 diff changeset	390	by auto
50313 5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	391	have "Ifm bbs bs (DJ qe p) = (\<exists>q\<in> set (disjuncts p). Ifm bbs bs (qe q))"
23274 f997514ad8f4 New Reflected Presburger added to HOL/ex chaieb parents: 21404 diff changeset	392	by (simp add: DJ_def evaldjf_ex)
55999 6477fc70cfa0 tuned proofs; wenzelm parents: 55981 diff changeset	393	also have "\<dots> \<longleftrightarrow> (\<exists>q \<in> set (disjuncts p). Ifm bbs bs (E q))"
50313 5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	394	using qe disjuncts_qf[OF qf] by auto
55925 56165322c98b tuned proofs; wenzelm parents: 55921 diff changeset	395	also have "\<dots> \<longleftrightarrow> Ifm bbs bs (E p)"
50313 5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	396	by (induct p rule: disjuncts.induct) auto
5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	397	finally show "qfree (DJ qe p) \<and> Ifm bbs bs (DJ qe p) = Ifm bbs bs (E p)"
5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	398	using qfth by blast
23274 f997514ad8f4 New Reflected Presburger added to HOL/ex chaieb parents: 21404 diff changeset	399	qed
50313 5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	400
5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	401
5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	402	text {* Simplification *}
23274 f997514ad8f4 New Reflected Presburger added to HOL/ex chaieb parents: 21404 diff changeset	403
50313 5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	404	text {* Algebraic simplifications for nums *}
41837 6fc224dc5473 recdef -> fun(ction); krauss parents: 41836 diff changeset	405
50313 5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	406	fun bnds :: "num \<Rightarrow> nat list"
5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	407	where
23274 f997514ad8f4 New Reflected Presburger added to HOL/ex chaieb parents: 21404 diff changeset	408	"bnds (Bound n) = [n]"
55921 22e9fc998d65 tuned proofs; wenzelm parents: 55885 diff changeset	409	\| "bnds (CN n c a) = n # bnds a"
41837 6fc224dc5473 recdef -> fun(ction); krauss parents: 41836 diff changeset	410	\| "bnds (Neg a) = bnds a"
55921 22e9fc998d65 tuned proofs; wenzelm parents: 55885 diff changeset	411	\| "bnds (Add a b) = bnds a @ bnds b"
55999 6477fc70cfa0 tuned proofs; wenzelm parents: 55981 diff changeset	412	\| "bnds (Sub a b) = bnds a @ bnds b"
41837 6fc224dc5473 recdef -> fun(ction); krauss parents: 41836 diff changeset	413	\| "bnds (Mul i a) = bnds a"
6fc224dc5473 recdef -> fun(ction); krauss parents: 41836 diff changeset	414	\| "bnds a = []"
6fc224dc5473 recdef -> fun(ction); krauss parents: 41836 diff changeset	415
50313 5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	416	fun lex_ns:: "nat list \<Rightarrow> nat list \<Rightarrow> bool"
5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	417	where
55844 fc04c24ad9ee tuned proofs; wenzelm parents: 55814 diff changeset	418	"lex_ns [] ms \<longleftrightarrow> True"
fc04c24ad9ee tuned proofs; wenzelm parents: 55814 diff changeset	419	\| "lex_ns ns [] \<longleftrightarrow> False"
fc04c24ad9ee tuned proofs; wenzelm parents: 55814 diff changeset	420	\| "lex_ns (n # ns) (m # ms) \<longleftrightarrow> n < m \<or> (n = m \<and> lex_ns ns ms)"
23274 f997514ad8f4 New Reflected Presburger added to HOL/ex chaieb parents: 21404 diff changeset	421
50313 5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	422	definition lex_bnd :: "num \<Rightarrow> num \<Rightarrow> bool"
5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	423	where "lex_bnd t s = lex_ns (bnds t) (bnds s)"
5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	424
5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	425	consts numadd:: "num \<times> num \<Rightarrow> num"
55921 22e9fc998d65 tuned proofs; wenzelm parents: 55885 diff changeset	426	recdef numadd "measure (\<lambda>(t, s). num_size t + num_size s)"
55981 66739f41d5b2 tuned proofs; wenzelm parents: 55964 diff changeset	427	"numadd (CN n1 c1 r1, CN n2 c2 r2) =
50313 5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	428	(if n1 = n2 then
55981 66739f41d5b2 tuned proofs; wenzelm parents: 55964 diff changeset	429	let c = c1 + c2
66739f41d5b2 tuned proofs; wenzelm parents: 55964 diff changeset	430	in if c = 0 then numadd (r1, r2) else CN n1 c (numadd (r1, r2))
55921 22e9fc998d65 tuned proofs; wenzelm parents: 55885 diff changeset	431	else if n1 \<le> n2 then CN n1 c1 (numadd (r1, Add (Mul c2 (Bound n2)) r2))
50313 5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	432	else CN n2 c2 (numadd (Add (Mul c1 (Bound n1)) r1, r2)))"
5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	433	"numadd (CN n1 c1 r1, t) = CN n1 c1 (numadd (r1, t))"
5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	434	"numadd (t, CN n2 c2 r2) = CN n2 c2 (numadd (t, r2))"
5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	435	"numadd (C b1, C b2) = C (b1 + b2)"
5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	436	"numadd (a, b) = Add a b"
23274 f997514ad8f4 New Reflected Presburger added to HOL/ex chaieb parents: 21404 diff changeset	437
23689 0410269099dc replaced code generator framework for reflected cooper haftmann parents: 23515 diff changeset	438	(*function (sequential)
0410269099dc replaced code generator framework for reflected cooper haftmann parents: 23515 diff changeset	439	numadd :: "num \<Rightarrow> num \<Rightarrow> num"
0410269099dc replaced code generator framework for reflected cooper haftmann parents: 23515 diff changeset	440	where
0410269099dc replaced code generator framework for reflected cooper haftmann parents: 23515 diff changeset	441	"numadd (Add (Mul c1 (Bound n1)) r1) (Add (Mul c2 (Bound n2)) r2) =
0410269099dc replaced code generator framework for reflected cooper haftmann parents: 23515 diff changeset	442	(if n1 = n2 then (let c = c1 + c2
0410269099dc replaced code generator framework for reflected cooper haftmann parents: 23515 diff changeset	443	in (if c = 0 then numadd r1 r2 else
0410269099dc replaced code generator framework for reflected cooper haftmann parents: 23515 diff changeset	444	Add (Mul c (Bound n1)) (numadd r1 r2)))
0410269099dc replaced code generator framework for reflected cooper haftmann parents: 23515 diff changeset	445	else if n1 \<le> n2 then
0410269099dc replaced code generator framework for reflected cooper haftmann parents: 23515 diff changeset	446	Add (Mul c1 (Bound n1)) (numadd r1 (Add (Mul c2 (Bound n2)) r2))
0410269099dc replaced code generator framework for reflected cooper haftmann parents: 23515 diff changeset	447	else
0410269099dc replaced code generator framework for reflected cooper haftmann parents: 23515 diff changeset	448	Add (Mul c2 (Bound n2)) (numadd (Add (Mul c1 (Bound n1)) r1) r2))"
0410269099dc replaced code generator framework for reflected cooper haftmann parents: 23515 diff changeset	449	\| "numadd (Add (Mul c1 (Bound n1)) r1) t =
50313 5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	450	Add (Mul c1 (Bound n1)) (numadd r1 t)"
23689 0410269099dc replaced code generator framework for reflected cooper haftmann parents: 23515 diff changeset	451	\| "numadd t (Add (Mul c2 (Bound n2)) r2) =
50313 5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	452	Add (Mul c2 (Bound n2)) (numadd t r2)"
23689 0410269099dc replaced code generator framework for reflected cooper haftmann parents: 23515 diff changeset	453	\| "numadd (C b1) (C b2) = C (b1 + b2)"
0410269099dc replaced code generator framework for reflected cooper haftmann parents: 23515 diff changeset	454	\| "numadd a b = Add a b"
0410269099dc replaced code generator framework for reflected cooper haftmann parents: 23515 diff changeset	455	apply pat_completeness apply auto*)
50313 5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	456
23274 f997514ad8f4 New Reflected Presburger added to HOL/ex chaieb parents: 21404 diff changeset	457	lemma numadd: "Inum bs (numadd (t,s)) = Inum bs (Add t s)"
55885 c871a2e751ec tuned proofs; wenzelm parents: 55844 diff changeset	458	apply (induct t s rule: numadd.induct)
c871a2e751ec tuned proofs; wenzelm parents: 55844 diff changeset	459	apply (simp_all add: Let_def)
55844 fc04c24ad9ee tuned proofs; wenzelm parents: 55814 diff changeset	460	apply (case_tac "c1 + c2 = 0")
fc04c24ad9ee tuned proofs; wenzelm parents: 55814 diff changeset	461	apply (case_tac "n1 \<le> n2")
fc04c24ad9ee tuned proofs; wenzelm parents: 55814 diff changeset	462	apply simp_all
50313 5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	463	apply (case_tac "n1 = n2")
55844 fc04c24ad9ee tuned proofs; wenzelm parents: 55814 diff changeset	464	apply (simp_all add: algebra_simps)
fc04c24ad9ee tuned proofs; wenzelm parents: 55814 diff changeset	465	apply (simp add: distrib_right[symmetric])
50313 5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	466	done
23274 f997514ad8f4 New Reflected Presburger added to HOL/ex chaieb parents: 21404 diff changeset	467
50313 5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	468	lemma numadd_nb: "numbound0 t \<Longrightarrow> numbound0 s \<Longrightarrow> numbound0 (numadd (t, s))"
5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	469	by (induct t s rule: numadd.induct) (auto simp add: Let_def)
23274 f997514ad8f4 New Reflected Presburger added to HOL/ex chaieb parents: 21404 diff changeset	470
50313 5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	471	fun nummul :: "int \<Rightarrow> num \<Rightarrow> num"
5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	472	where
23689 0410269099dc replaced code generator framework for reflected cooper haftmann parents: 23515 diff changeset	473	"nummul i (C j) = C (i * j)"
55844 fc04c24ad9ee tuned proofs; wenzelm parents: 55814 diff changeset	474	\| "nummul i (CN n c t) = CN n (c * i) (nummul i t)"
41837 6fc224dc5473 recdef -> fun(ction); krauss parents: 41836 diff changeset	475	\| "nummul i t = Mul i t"
23274 f997514ad8f4 New Reflected Presburger added to HOL/ex chaieb parents: 21404 diff changeset	476
50313 5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	477	lemma nummul: "Inum bs (nummul i t) = Inum bs (Mul i t)"
5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	478	by (induct t arbitrary: i rule: nummul.induct) (auto simp add: algebra_simps numadd)
23274 f997514ad8f4 New Reflected Presburger added to HOL/ex chaieb parents: 21404 diff changeset	479
50313 5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	480	lemma nummul_nb: "numbound0 t \<Longrightarrow> numbound0 (nummul i t)"
5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	481	by (induct t arbitrary: i rule: nummul.induct) (auto simp add: numadd_nb)
23274 f997514ad8f4 New Reflected Presburger added to HOL/ex chaieb parents: 21404 diff changeset	482
50313 5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	483	definition numneg :: "num \<Rightarrow> num"
5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	484	where "numneg t = nummul (- 1) t"
23274 f997514ad8f4 New Reflected Presburger added to HOL/ex chaieb parents: 21404 diff changeset	485
50313 5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	486	definition numsub :: "num \<Rightarrow> num \<Rightarrow> num"
5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	487	where "numsub s t = (if s = t then C 0 else numadd (s, numneg t))"
23274 f997514ad8f4 New Reflected Presburger added to HOL/ex chaieb parents: 21404 diff changeset	488
f997514ad8f4 New Reflected Presburger added to HOL/ex chaieb parents: 21404 diff changeset	489	lemma numneg: "Inum bs (numneg t) = Inum bs (Neg t)"
50313 5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	490	using numneg_def nummul by simp
23274 f997514ad8f4 New Reflected Presburger added to HOL/ex chaieb parents: 21404 diff changeset	491
f997514ad8f4 New Reflected Presburger added to HOL/ex chaieb parents: 21404 diff changeset	492	lemma numneg_nb: "numbound0 t \<Longrightarrow> numbound0 (numneg t)"
50313 5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	493	using numneg_def nummul_nb by simp
23274 f997514ad8f4 New Reflected Presburger added to HOL/ex chaieb parents: 21404 diff changeset	494
f997514ad8f4 New Reflected Presburger added to HOL/ex chaieb parents: 21404 diff changeset	495	lemma numsub: "Inum bs (numsub a b) = Inum bs (Sub a b)"
50313 5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	496	using numneg numadd numsub_def by simp
23274 f997514ad8f4 New Reflected Presburger added to HOL/ex chaieb parents: 21404 diff changeset	497
50313 5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	498	lemma numsub_nb: "numbound0 t \<Longrightarrow> numbound0 s \<Longrightarrow> numbound0 (numsub t s)"
5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	499	using numsub_def numadd_nb numneg_nb by simp
23274 f997514ad8f4 New Reflected Presburger added to HOL/ex chaieb parents: 21404 diff changeset	500
50313 5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	501	fun simpnum :: "num \<Rightarrow> num"
23689 0410269099dc replaced code generator framework for reflected cooper haftmann parents: 23515 diff changeset	502	where
23274 f997514ad8f4 New Reflected Presburger added to HOL/ex chaieb parents: 21404 diff changeset	503	"simpnum (C j) = C j"
50313 5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	504	\| "simpnum (Bound n) = CN n 1 (C 0)"
5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	505	\| "simpnum (Neg t) = numneg (simpnum t)"
5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	506	\| "simpnum (Add t s) = numadd (simpnum t, simpnum s)"
5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	507	\| "simpnum (Sub t s) = numsub (simpnum t) (simpnum s)"
5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	508	\| "simpnum (Mul i t) = (if i = 0 then C 0 else nummul i (simpnum t))"
5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	509	\| "simpnum t = t"
23274 f997514ad8f4 New Reflected Presburger added to HOL/ex chaieb parents: 21404 diff changeset	510
f997514ad8f4 New Reflected Presburger added to HOL/ex chaieb parents: 21404 diff changeset	511	lemma simpnum_ci: "Inum bs (simpnum t) = Inum bs t"
50313 5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	512	by (induct t rule: simpnum.induct) (auto simp add: numneg numadd numsub nummul)
23274 f997514ad8f4 New Reflected Presburger added to HOL/ex chaieb parents: 21404 diff changeset	513
50313 5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	514	lemma simpnum_numbound0: "numbound0 t \<Longrightarrow> numbound0 (simpnum t)"
5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	515	by (induct t rule: simpnum.induct) (auto simp add: numadd_nb numsub_nb nummul_nb numneg_nb)
23274 f997514ad8f4 New Reflected Presburger added to HOL/ex chaieb parents: 21404 diff changeset	516
50313 5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	517	fun not :: "fm \<Rightarrow> fm"
23689 0410269099dc replaced code generator framework for reflected cooper haftmann parents: 23515 diff changeset	518	where
23274 f997514ad8f4 New Reflected Presburger added to HOL/ex chaieb parents: 21404 diff changeset	519	"not (NOT p) = p"
50313 5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	520	\| "not T = F"
5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	521	\| "not F = T"
5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	522	\| "not p = NOT p"
5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	523
23274 f997514ad8f4 New Reflected Presburger added to HOL/ex chaieb parents: 21404 diff changeset	524	lemma not: "Ifm bbs bs (not p) = Ifm bbs bs (NOT p)"
41807 ab5d2d81f9fb tuned proofs -- eliminated prems; wenzelm parents: 41413 diff changeset	525	by (cases p) auto
50313 5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	526
23274 f997514ad8f4 New Reflected Presburger added to HOL/ex chaieb parents: 21404 diff changeset	527	lemma not_qf: "qfree p \<Longrightarrow> qfree (not p)"
41807 ab5d2d81f9fb tuned proofs -- eliminated prems; wenzelm parents: 41413 diff changeset	528	by (cases p) auto
50313 5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	529
23274 f997514ad8f4 New Reflected Presburger added to HOL/ex chaieb parents: 21404 diff changeset	530	lemma not_bn: "bound0 p \<Longrightarrow> bound0 (not p)"
41807 ab5d2d81f9fb tuned proofs -- eliminated prems; wenzelm parents: 41413 diff changeset	531	by (cases p) auto
23274 f997514ad8f4 New Reflected Presburger added to HOL/ex chaieb parents: 21404 diff changeset	532
50313 5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	533	definition conj :: "fm \<Rightarrow> fm \<Rightarrow> fm"
5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	534	where
55844 fc04c24ad9ee tuned proofs; wenzelm parents: 55814 diff changeset	535	"conj p q =
fc04c24ad9ee tuned proofs; wenzelm parents: 55814 diff changeset	536	(if p = F \<or> q = F then F
fc04c24ad9ee tuned proofs; wenzelm parents: 55814 diff changeset	537	else if p = T then q
fc04c24ad9ee tuned proofs; wenzelm parents: 55814 diff changeset	538	else if q = T then p
fc04c24ad9ee tuned proofs; wenzelm parents: 55814 diff changeset	539	else And p q)"
50313 5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	540
23274 f997514ad8f4 New Reflected Presburger added to HOL/ex chaieb parents: 21404 diff changeset	541	lemma conj: "Ifm bbs bs (conj p q) = Ifm bbs bs (And p q)"
55844 fc04c24ad9ee tuned proofs; wenzelm parents: 55814 diff changeset	542	by (cases "p = F \<or> q = F", simp_all add: conj_def) (cases p, simp_all)
23274 f997514ad8f4 New Reflected Presburger added to HOL/ex chaieb parents: 21404 diff changeset	543
50313 5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	544	lemma conj_qf: "qfree p \<Longrightarrow> qfree q \<Longrightarrow> qfree (conj p q)"
5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	545	using conj_def by auto
23274 f997514ad8f4 New Reflected Presburger added to HOL/ex chaieb parents: 21404 diff changeset	546
50313 5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	547	lemma conj_nb: "bound0 p \<Longrightarrow> bound0 q \<Longrightarrow> bound0 (conj p q)"
5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	548	using conj_def by auto
5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	549
5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	550	definition disj :: "fm \<Rightarrow> fm \<Rightarrow> fm"
5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	551	where
5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	552	"disj p q =
55844 fc04c24ad9ee tuned proofs; wenzelm parents: 55814 diff changeset	553	(if p = T \<or> q = T then T
fc04c24ad9ee tuned proofs; wenzelm parents: 55814 diff changeset	554	else if p = F then q
fc04c24ad9ee tuned proofs; wenzelm parents: 55814 diff changeset	555	else if q = F then p
fc04c24ad9ee tuned proofs; wenzelm parents: 55814 diff changeset	556	else Or p q)"
23274 f997514ad8f4 New Reflected Presburger added to HOL/ex chaieb parents: 21404 diff changeset	557
f997514ad8f4 New Reflected Presburger added to HOL/ex chaieb parents: 21404 diff changeset	558	lemma disj: "Ifm bbs bs (disj p q) = Ifm bbs bs (Or p q)"
55885 c871a2e751ec tuned proofs; wenzelm parents: 55844 diff changeset	559	by (cases "p = T \<or> q = T", simp_all add: disj_def) (cases p, simp_all)
50313 5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	560
55844 fc04c24ad9ee tuned proofs; wenzelm parents: 55814 diff changeset	561	lemma disj_qf: "qfree p \<Longrightarrow> qfree q \<Longrightarrow> qfree (disj p q)"
50313 5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	562	using disj_def by auto
5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	563
55844 fc04c24ad9ee tuned proofs; wenzelm parents: 55814 diff changeset	564	lemma disj_nb: "bound0 p \<Longrightarrow> bound0 q \<Longrightarrow> bound0 (disj p q)"
50313 5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	565	using disj_def by auto
23274 f997514ad8f4 New Reflected Presburger added to HOL/ex chaieb parents: 21404 diff changeset	566
50313 5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	567	definition imp :: "fm \<Rightarrow> fm \<Rightarrow> fm"
5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	568	where
55844 fc04c24ad9ee tuned proofs; wenzelm parents: 55814 diff changeset	569	"imp p q =
fc04c24ad9ee tuned proofs; wenzelm parents: 55814 diff changeset	570	(if p = F \<or> q = T then T
fc04c24ad9ee tuned proofs; wenzelm parents: 55814 diff changeset	571	else if p = T then q
fc04c24ad9ee tuned proofs; wenzelm parents: 55814 diff changeset	572	else if q = F then not p
fc04c24ad9ee tuned proofs; wenzelm parents: 55814 diff changeset	573	else Imp p q)"
50313 5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	574
23274 f997514ad8f4 New Reflected Presburger added to HOL/ex chaieb parents: 21404 diff changeset	575	lemma imp: "Ifm bbs bs (imp p q) = Ifm bbs bs (Imp p q)"
55844 fc04c24ad9ee tuned proofs; wenzelm parents: 55814 diff changeset	576	by (cases "p = F \<or> q = T", simp_all add: imp_def, cases p) (simp_all add: not)
50313 5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	577
5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	578	lemma imp_qf: "qfree p \<Longrightarrow> qfree q \<Longrightarrow> qfree (imp p q)"
55844 fc04c24ad9ee tuned proofs; wenzelm parents: 55814 diff changeset	579	using imp_def by (cases "p = F \<or> q = T", simp_all add: imp_def, cases p) (simp_all add: not_qf)
50313 5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	580
5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	581	lemma imp_nb: "bound0 p \<Longrightarrow> bound0 q \<Longrightarrow> bound0 (imp p q)"
55844 fc04c24ad9ee tuned proofs; wenzelm parents: 55814 diff changeset	582	using imp_def by (cases "p = F \<or> q = T", simp_all add: imp_def, cases p) simp_all
23274 f997514ad8f4 New Reflected Presburger added to HOL/ex chaieb parents: 21404 diff changeset	583
50313 5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	584	definition iff :: "fm \<Rightarrow> fm \<Rightarrow> fm"
55885 c871a2e751ec tuned proofs; wenzelm parents: 55844 diff changeset	585	where
c871a2e751ec tuned proofs; wenzelm parents: 55844 diff changeset	586	"iff p q =
c871a2e751ec tuned proofs; wenzelm parents: 55844 diff changeset	587	(if p = q then T
c871a2e751ec tuned proofs; wenzelm parents: 55844 diff changeset	588	else if p = not q \<or> not p = q then F
c871a2e751ec tuned proofs; wenzelm parents: 55844 diff changeset	589	else if p = F then not q
c871a2e751ec tuned proofs; wenzelm parents: 55844 diff changeset	590	else if q = F then not p
c871a2e751ec tuned proofs; wenzelm parents: 55844 diff changeset	591	else if p = T then q
c871a2e751ec tuned proofs; wenzelm parents: 55844 diff changeset	592	else if q = T then p
c871a2e751ec tuned proofs; wenzelm parents: 55844 diff changeset	593	else Iff p q)"
50313 5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	594
23274 f997514ad8f4 New Reflected Presburger added to HOL/ex chaieb parents: 21404 diff changeset	595	lemma iff: "Ifm bbs bs (iff p q) = Ifm bbs bs (Iff p q)"
55885 c871a2e751ec tuned proofs; wenzelm parents: 55844 diff changeset	596	by (unfold iff_def, cases "p = q", simp, cases "p = not q", simp add: not)
c871a2e751ec tuned proofs; wenzelm parents: 55844 diff changeset	597	(cases "not p = q", auto simp add: not)
50313 5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	598
55885 c871a2e751ec tuned proofs; wenzelm parents: 55844 diff changeset	599	lemma iff_qf: "qfree p \<Longrightarrow> qfree q \<Longrightarrow> qfree (iff p q)"
c871a2e751ec tuned proofs; wenzelm parents: 55844 diff changeset	600	by (unfold iff_def, cases "p = q", auto simp add: not_qf)
23274 f997514ad8f4 New Reflected Presburger added to HOL/ex chaieb parents: 21404 diff changeset	601
55885 c871a2e751ec tuned proofs; wenzelm parents: 55844 diff changeset	602	lemma iff_nb: "bound0 p \<Longrightarrow> bound0 q \<Longrightarrow> bound0 (iff p q)"
c871a2e751ec tuned proofs; wenzelm parents: 55844 diff changeset	603	using iff_def by (unfold iff_def, cases "p = q", auto simp add: not_bn)
50313 5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	604
5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	605	function (sequential) simpfm :: "fm \<Rightarrow> fm"
23689 0410269099dc replaced code generator framework for reflected cooper haftmann parents: 23515 diff changeset	606	where
23274 f997514ad8f4 New Reflected Presburger added to HOL/ex chaieb parents: 21404 diff changeset	607	"simpfm (And p q) = conj (simpfm p) (simpfm q)"
50313 5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	608	\| "simpfm (Or p q) = disj (simpfm p) (simpfm q)"
5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	609	\| "simpfm (Imp p q) = imp (simpfm p) (simpfm q)"
5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	610	\| "simpfm (Iff p q) = iff (simpfm p) (simpfm q)"
5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	611	\| "simpfm (NOT p) = not (simpfm p)"
55921 22e9fc998d65 tuned proofs; wenzelm parents: 55885 diff changeset	612	\| "simpfm (Lt a) = (let a' = simpnum a in case a' of C v \<Rightarrow> if v < 0 then T else F \| _ \<Rightarrow> Lt a')"
22e9fc998d65 tuned proofs; wenzelm parents: 55885 diff changeset	613	\| "simpfm (Le a) = (let a' = simpnum a in case a' of C v \<Rightarrow> if v \<le> 0 then T else F \| _ \<Rightarrow> Le a')"
22e9fc998d65 tuned proofs; wenzelm parents: 55885 diff changeset	614	\| "simpfm (Gt a) = (let a' = simpnum a in case a' of C v \<Rightarrow> if v > 0 then T else F \| _ \<Rightarrow> Gt a')"
22e9fc998d65 tuned proofs; wenzelm parents: 55885 diff changeset	615	\| "simpfm (Ge a) = (let a' = simpnum a in case a' of C v \<Rightarrow> if v \<ge> 0 then T else F \| _ \<Rightarrow> Ge a')"
22e9fc998d65 tuned proofs; wenzelm parents: 55885 diff changeset	616	\| "simpfm (Eq a) = (let a' = simpnum a in case a' of C v \<Rightarrow> if v = 0 then T else F \| _ \<Rightarrow> Eq a')"
22e9fc998d65 tuned proofs; wenzelm parents: 55885 diff changeset	617	\| "simpfm (NEq a) = (let a' = simpnum a in case a' of C v \<Rightarrow> if v \<noteq> 0 then T else F \| _ \<Rightarrow> NEq a')"
50313 5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	618	\| "simpfm (Dvd i a) =
55885 c871a2e751ec tuned proofs; wenzelm parents: 55844 diff changeset	619	(if i = 0 then simpfm (Eq a)
c871a2e751ec tuned proofs; wenzelm parents: 55844 diff changeset	620	else if abs i = 1 then T
55921 22e9fc998d65 tuned proofs; wenzelm parents: 55885 diff changeset	621	else let a' = simpnum a in case a' of C v \<Rightarrow> if i dvd v then T else F \| _ \<Rightarrow> Dvd i a')"
50313 5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	622	\| "simpfm (NDvd i a) =
55885 c871a2e751ec tuned proofs; wenzelm parents: 55844 diff changeset	623	(if i = 0 then simpfm (NEq a)
c871a2e751ec tuned proofs; wenzelm parents: 55844 diff changeset	624	else if abs i = 1 then F
55921 22e9fc998d65 tuned proofs; wenzelm parents: 55885 diff changeset	625	else let a' = simpnum a in case a' of C v \<Rightarrow> if \<not>( i dvd v) then T else F \| _ \<Rightarrow> NDvd i a')"
50313 5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	626	\| "simpfm p = p"
5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	627	by pat_completeness auto
23689 0410269099dc replaced code generator framework for reflected cooper haftmann parents: 23515 diff changeset	628	termination by (relation "measure fmsize") auto
0410269099dc replaced code generator framework for reflected cooper haftmann parents: 23515 diff changeset	629
23274 f997514ad8f4 New Reflected Presburger added to HOL/ex chaieb parents: 21404 diff changeset	630	lemma simpfm: "Ifm bbs bs (simpfm p) = Ifm bbs bs p"
55844 fc04c24ad9ee tuned proofs; wenzelm parents: 55814 diff changeset	631	proof (induct p rule: simpfm.induct)
50313 5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	632	case (6 a)
5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	633	let ?sa = "simpnum a"
55925 56165322c98b tuned proofs; wenzelm parents: 55921 diff changeset	634	from simpnum_ci have sa: "Inum bs ?sa = Inum bs a"
56165322c98b tuned proofs; wenzelm parents: 55921 diff changeset	635	by simp
56165322c98b tuned proofs; wenzelm parents: 55921 diff changeset	636	{
56165322c98b tuned proofs; wenzelm parents: 55921 diff changeset	637	fix v
56165322c98b tuned proofs; wenzelm parents: 55921 diff changeset	638	assume "?sa = C v"
56165322c98b tuned proofs; wenzelm parents: 55921 diff changeset	639	then have ?case using sa
56165322c98b tuned proofs; wenzelm parents: 55921 diff changeset	640	by simp
56165322c98b tuned proofs; wenzelm parents: 55921 diff changeset	641	}
50313 5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	642	moreover {
5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	643	assume "\<not> (\<exists>v. ?sa = C v)"
55925 56165322c98b tuned proofs; wenzelm parents: 55921 diff changeset	644	then have ?case
56165322c98b tuned proofs; wenzelm parents: 55921 diff changeset	645	using sa by (cases ?sa) (simp_all add: Let_def)
50313 5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	646	}
23274 f997514ad8f4 New Reflected Presburger added to HOL/ex chaieb parents: 21404 diff changeset	647	ultimately show ?case by blast
17378 105519771c67 The oracle for Presburger has been changer: It is automatically generated form a verified formaliztion of Cooper's Algorithm ex/Reflected_Presburger.thy chaieb parents: diff changeset	648	next
50313 5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	649	case (7 a)
5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	650	let ?sa = "simpnum a"
55925 56165322c98b tuned proofs; wenzelm parents: 55921 diff changeset	651	from simpnum_ci have sa: "Inum bs ?sa = Inum bs a"
56165322c98b tuned proofs; wenzelm parents: 55921 diff changeset	652	by simp
56165322c98b tuned proofs; wenzelm parents: 55921 diff changeset	653	{
56165322c98b tuned proofs; wenzelm parents: 55921 diff changeset	654	fix v
56165322c98b tuned proofs; wenzelm parents: 55921 diff changeset	655	assume "?sa = C v"
56165322c98b tuned proofs; wenzelm parents: 55921 diff changeset	656	then have ?case using sa
56165322c98b tuned proofs; wenzelm parents: 55921 diff changeset	657	by simp
56165322c98b tuned proofs; wenzelm parents: 55921 diff changeset	658	}
50313 5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	659	moreover {
5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	660	assume "\<not> (\<exists>v. ?sa = C v)"
55925 56165322c98b tuned proofs; wenzelm parents: 55921 diff changeset	661	then have ?case
56165322c98b tuned proofs; wenzelm parents: 55921 diff changeset	662	using sa by (cases ?sa) (simp_all add: Let_def)
50313 5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	663	}
23274 f997514ad8f4 New Reflected Presburger added to HOL/ex chaieb parents: 21404 diff changeset	664	ultimately show ?case by blast
f997514ad8f4 New Reflected Presburger added to HOL/ex chaieb parents: 21404 diff changeset	665	next
50313 5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	666	case (8 a)
5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	667	let ?sa = "simpnum a"
55925 56165322c98b tuned proofs; wenzelm parents: 55921 diff changeset	668	from simpnum_ci have sa: "Inum bs ?sa = Inum bs a"
56165322c98b tuned proofs; wenzelm parents: 55921 diff changeset	669	by simp
56165322c98b tuned proofs; wenzelm parents: 55921 diff changeset	670	{
56165322c98b tuned proofs; wenzelm parents: 55921 diff changeset	671	fix v
56165322c98b tuned proofs; wenzelm parents: 55921 diff changeset	672	assume "?sa = C v"
56165322c98b tuned proofs; wenzelm parents: 55921 diff changeset	673	then have ?case using sa
56165322c98b tuned proofs; wenzelm parents: 55921 diff changeset	674	by simp
56165322c98b tuned proofs; wenzelm parents: 55921 diff changeset	675	}
50313 5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	676	moreover {
5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	677	assume "\<not> (\<exists>v. ?sa = C v)"
55925 56165322c98b tuned proofs; wenzelm parents: 55921 diff changeset	678	then have ?case
56165322c98b tuned proofs; wenzelm parents: 55921 diff changeset	679	using sa by (cases ?sa) (simp_all add: Let_def)
50313 5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	680	}
23274 f997514ad8f4 New Reflected Presburger added to HOL/ex chaieb parents: 21404 diff changeset	681	ultimately show ?case by blast
f997514ad8f4 New Reflected Presburger added to HOL/ex chaieb parents: 21404 diff changeset	682	next
50313 5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	683	case (9 a)
5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	684	let ?sa = "simpnum a"
55925 56165322c98b tuned proofs; wenzelm parents: 55921 diff changeset	685	from simpnum_ci have sa: "Inum bs ?sa = Inum bs a"
56165322c98b tuned proofs; wenzelm parents: 55921 diff changeset	686	by simp
56165322c98b tuned proofs; wenzelm parents: 55921 diff changeset	687	{
56165322c98b tuned proofs; wenzelm parents: 55921 diff changeset	688	fix v
56165322c98b tuned proofs; wenzelm parents: 55921 diff changeset	689	assume "?sa = C v"
56165322c98b tuned proofs; wenzelm parents: 55921 diff changeset	690	then have ?case using sa
56165322c98b tuned proofs; wenzelm parents: 55921 diff changeset	691	by simp
56165322c98b tuned proofs; wenzelm parents: 55921 diff changeset	692	}
50313 5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	693	moreover {
5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	694	assume "\<not> (\<exists>v. ?sa = C v)"
55925 56165322c98b tuned proofs; wenzelm parents: 55921 diff changeset	695	then have ?case using sa
56165322c98b tuned proofs; wenzelm parents: 55921 diff changeset	696	by (cases ?sa) (simp_all add: Let_def)
50313 5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	697	}
23274 f997514ad8f4 New Reflected Presburger added to HOL/ex chaieb parents: 21404 diff changeset	698	ultimately show ?case by blast
f997514ad8f4 New Reflected Presburger added to HOL/ex chaieb parents: 21404 diff changeset	699	next
50313 5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	700	case (10 a)
5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	701	let ?sa = "simpnum a"
55925 56165322c98b tuned proofs; wenzelm parents: 55921 diff changeset	702	from simpnum_ci have sa: "Inum bs ?sa = Inum bs a"
56165322c98b tuned proofs; wenzelm parents: 55921 diff changeset	703	by simp
56165322c98b tuned proofs; wenzelm parents: 55921 diff changeset	704	{
56165322c98b tuned proofs; wenzelm parents: 55921 diff changeset	705	fix v
56165322c98b tuned proofs; wenzelm parents: 55921 diff changeset	706	assume "?sa = C v"
56165322c98b tuned proofs; wenzelm parents: 55921 diff changeset	707	then have ?case
56165322c98b tuned proofs; wenzelm parents: 55921 diff changeset	708	using sa by simp
56165322c98b tuned proofs; wenzelm parents: 55921 diff changeset	709	}
50313 5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	710	moreover {
5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	711	assume "\<not> (\<exists>v. ?sa = C v)"
55925 56165322c98b tuned proofs; wenzelm parents: 55921 diff changeset	712	then have ?case
56165322c98b tuned proofs; wenzelm parents: 55921 diff changeset	713	using sa by (cases ?sa) (simp_all add: Let_def)
50313 5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	714	}
23274 f997514ad8f4 New Reflected Presburger added to HOL/ex chaieb parents: 21404 diff changeset	715	ultimately show ?case by blast
f997514ad8f4 New Reflected Presburger added to HOL/ex chaieb parents: 21404 diff changeset	716	next
50313 5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	717	case (11 a)
5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	718	let ?sa = "simpnum a"
55925 56165322c98b tuned proofs; wenzelm parents: 55921 diff changeset	719	from simpnum_ci have sa: "Inum bs ?sa = Inum bs a"
56165322c98b tuned proofs; wenzelm parents: 55921 diff changeset	720	by simp
56165322c98b tuned proofs; wenzelm parents: 55921 diff changeset	721	{
56165322c98b tuned proofs; wenzelm parents: 55921 diff changeset	722	fix v
56165322c98b tuned proofs; wenzelm parents: 55921 diff changeset	723	assume "?sa = C v"
56165322c98b tuned proofs; wenzelm parents: 55921 diff changeset	724	then have ?case using sa
56165322c98b tuned proofs; wenzelm parents: 55921 diff changeset	725	by simp
56165322c98b tuned proofs; wenzelm parents: 55921 diff changeset	726	}
50313 5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	727	moreover {
5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	728	assume "\<not> (\<exists>v. ?sa = C v)"
55925 56165322c98b tuned proofs; wenzelm parents: 55921 diff changeset	729	then have ?case
56165322c98b tuned proofs; wenzelm parents: 55921 diff changeset	730	using sa by (cases ?sa) (simp_all add: Let_def)
50313 5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	731	}
23274 f997514ad8f4 New Reflected Presburger added to HOL/ex chaieb parents: 21404 diff changeset	732	ultimately show ?case by blast
f997514ad8f4 New Reflected Presburger added to HOL/ex chaieb parents: 21404 diff changeset	733	next
50313 5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	734	case (12 i a)
5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	735	let ?sa = "simpnum a"
55925 56165322c98b tuned proofs; wenzelm parents: 55921 diff changeset	736	from simpnum_ci have sa: "Inum bs ?sa = Inum bs a"
56165322c98b tuned proofs; wenzelm parents: 55921 diff changeset	737	by simp
56165322c98b tuned proofs; wenzelm parents: 55921 diff changeset	738	{
56165322c98b tuned proofs; wenzelm parents: 55921 diff changeset	739	assume "i = 0"
56165322c98b tuned proofs; wenzelm parents: 55921 diff changeset	740	then have ?case using "12.hyps"
56165322c98b tuned proofs; wenzelm parents: 55921 diff changeset	741	by (simp add: dvd_def Let_def)
56165322c98b tuned proofs; wenzelm parents: 55921 diff changeset	742	}
50313 5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	743	moreover
55925 56165322c98b tuned proofs; wenzelm parents: 55921 diff changeset	744	{
56165322c98b tuned proofs; wenzelm parents: 55921 diff changeset	745	assume i1: "abs i = 1"
50313 5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	746	from one_dvd[of "Inum bs a"] uminus_dvd_conv[where d="1" and t="Inum bs a"]
55925 56165322c98b tuned proofs; wenzelm parents: 55921 diff changeset	747	have ?case
56165322c98b tuned proofs; wenzelm parents: 55921 diff changeset	748	using i1
56165322c98b tuned proofs; wenzelm parents: 55921 diff changeset	749	apply (cases "i = 0")
56165322c98b tuned proofs; wenzelm parents: 55921 diff changeset	750	apply (simp_all add: Let_def)
56165322c98b tuned proofs; wenzelm parents: 55921 diff changeset	751	apply (cases "i > 0")
56165322c98b tuned proofs; wenzelm parents: 55921 diff changeset	752	apply simp_all
50313 5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	753	done
5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	754	}
5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	755	moreover
55925 56165322c98b tuned proofs; wenzelm parents: 55921 diff changeset	756	{
56165322c98b tuned proofs; wenzelm parents: 55921 diff changeset	757	assume inz: "i \<noteq> 0" and cond: "abs i \<noteq> 1"
56165322c98b tuned proofs; wenzelm parents: 55921 diff changeset	758	{
56165322c98b tuned proofs; wenzelm parents: 55921 diff changeset	759	fix v
56165322c98b tuned proofs; wenzelm parents: 55921 diff changeset	760	assume "?sa = C v"
56165322c98b tuned proofs; wenzelm parents: 55921 diff changeset	761	then have ?case
56165322c98b tuned proofs; wenzelm parents: 55921 diff changeset	762	using sa[symmetric] inz cond
56165322c98b tuned proofs; wenzelm parents: 55921 diff changeset	763	by (cases "abs i = 1") auto
56165322c98b tuned proofs; wenzelm parents: 55921 diff changeset	764	}
56165322c98b tuned proofs; wenzelm parents: 55921 diff changeset	765	moreover
56165322c98b tuned proofs; wenzelm parents: 55921 diff changeset	766	{
50313 5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	767	assume "\<not> (\<exists>v. ?sa = C v)"
55925 56165322c98b tuned proofs; wenzelm parents: 55921 diff changeset	768	then have "simpfm (Dvd i a) = Dvd i ?sa"
56165322c98b tuned proofs; wenzelm parents: 55921 diff changeset	769	using inz cond by (cases ?sa) (auto simp add: Let_def)
56165322c98b tuned proofs; wenzelm parents: 55921 diff changeset	770	then have ?case
56165322c98b tuned proofs; wenzelm parents: 55921 diff changeset	771	using sa by simp
56165322c98b tuned proofs; wenzelm parents: 55921 diff changeset	772	}
56165322c98b tuned proofs; wenzelm parents: 55921 diff changeset	773	ultimately have ?case by blast
56165322c98b tuned proofs; wenzelm parents: 55921 diff changeset	774	}
50313 5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	775	ultimately show ?case by blast
5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	776	next
5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	777	case (13 i a)
55925 56165322c98b tuned proofs; wenzelm parents: 55921 diff changeset	778	let ?sa = "simpnum a"
56165322c98b tuned proofs; wenzelm parents: 55921 diff changeset	779	from simpnum_ci have sa: "Inum bs ?sa = Inum bs a"
56165322c98b tuned proofs; wenzelm parents: 55921 diff changeset	780	by simp
56165322c98b tuned proofs; wenzelm parents: 55921 diff changeset	781	{
56165322c98b tuned proofs; wenzelm parents: 55921 diff changeset	782	assume "i = 0"
56165322c98b tuned proofs; wenzelm parents: 55921 diff changeset	783	then have ?case using "13.hyps"
56165322c98b tuned proofs; wenzelm parents: 55921 diff changeset	784	by (simp add: dvd_def Let_def)
56165322c98b tuned proofs; wenzelm parents: 55921 diff changeset	785	}
50313 5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	786	moreover
55925 56165322c98b tuned proofs; wenzelm parents: 55921 diff changeset	787	{
56165322c98b tuned proofs; wenzelm parents: 55921 diff changeset	788	assume i1: "abs i = 1"
50313 5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	789	from one_dvd[of "Inum bs a"] uminus_dvd_conv[where d="1" and t="Inum bs a"]
55925 56165322c98b tuned proofs; wenzelm parents: 55921 diff changeset	790	have ?case
56165322c98b tuned proofs; wenzelm parents: 55921 diff changeset	791	using i1
56165322c98b tuned proofs; wenzelm parents: 55921 diff changeset	792	apply (cases "i = 0")
56165322c98b tuned proofs; wenzelm parents: 55921 diff changeset	793	apply (simp_all add: Let_def)
56165322c98b tuned proofs; wenzelm parents: 55921 diff changeset	794	apply (cases "i > 0")
56165322c98b tuned proofs; wenzelm parents: 55921 diff changeset	795	apply simp_all
50313 5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	796	done
5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	797	}
5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	798	moreover
55925 56165322c98b tuned proofs; wenzelm parents: 55921 diff changeset	799	{
56165322c98b tuned proofs; wenzelm parents: 55921 diff changeset	800	assume inz: "i \<noteq> 0" and cond: "abs i \<noteq> 1"
56165322c98b tuned proofs; wenzelm parents: 55921 diff changeset	801	{
56165322c98b tuned proofs; wenzelm parents: 55921 diff changeset	802	fix v
56165322c98b tuned proofs; wenzelm parents: 55921 diff changeset	803	assume "?sa = C v"
56165322c98b tuned proofs; wenzelm parents: 55921 diff changeset	804	then have ?case
56165322c98b tuned proofs; wenzelm parents: 55921 diff changeset	805	using sa[symmetric] inz cond by (cases "abs i = 1") auto
56165322c98b tuned proofs; wenzelm parents: 55921 diff changeset	806	}
56165322c98b tuned proofs; wenzelm parents: 55921 diff changeset	807	moreover
56165322c98b tuned proofs; wenzelm parents: 55921 diff changeset	808	{
50313 5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	809	assume "\<not> (\<exists>v. ?sa = C v)"
55925 56165322c98b tuned proofs; wenzelm parents: 55921 diff changeset	810	then have "simpfm (NDvd i a) = NDvd i ?sa"
56165322c98b tuned proofs; wenzelm parents: 55921 diff changeset	811	using inz cond by (cases ?sa) (auto simp add: Let_def)
56165322c98b tuned proofs; wenzelm parents: 55921 diff changeset	812	then have ?case using sa
56165322c98b tuned proofs; wenzelm parents: 55921 diff changeset	813	by simp
56165322c98b tuned proofs; wenzelm parents: 55921 diff changeset	814	}
56165322c98b tuned proofs; wenzelm parents: 55921 diff changeset	815	ultimately have ?case by blast
56165322c98b tuned proofs; wenzelm parents: 55921 diff changeset	816	}
23274 f997514ad8f4 New Reflected Presburger added to HOL/ex chaieb parents: 21404 diff changeset	817	ultimately show ?case by blast
50313 5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	818	qed (simp_all add: conj disj imp iff not)
17378 105519771c67 The oracle for Presburger has been changer: It is automatically generated form a verified formaliztion of Cooper's Algorithm ex/Reflected_Presburger.thy chaieb parents: diff changeset	819
23274 f997514ad8f4 New Reflected Presburger added to HOL/ex chaieb parents: 21404 diff changeset	820	lemma simpfm_bound0: "bound0 p \<Longrightarrow> bound0 (simpfm p)"
50313 5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	821	proof (induct p rule: simpfm.induct)
55925 56165322c98b tuned proofs; wenzelm parents: 55921 diff changeset	822	case (6 a)
56165322c98b tuned proofs; wenzelm parents: 55921 diff changeset	823	then have nb: "numbound0 a" by simp
55885 c871a2e751ec tuned proofs; wenzelm parents: 55844 diff changeset	824	then have "numbound0 (simpnum a)" by (simp only: simpnum_numbound0[OF nb])
c871a2e751ec tuned proofs; wenzelm parents: 55844 diff changeset	825	then show ?case by (cases "simpnum a") (auto simp add: Let_def)
23274 f997514ad8f4 New Reflected Presburger added to HOL/ex chaieb parents: 21404 diff changeset	826	next
55925 56165322c98b tuned proofs; wenzelm parents: 55921 diff changeset	827	case (7 a)
56165322c98b tuned proofs; wenzelm parents: 55921 diff changeset	828	then have nb: "numbound0 a" by simp
55885 c871a2e751ec tuned proofs; wenzelm parents: 55844 diff changeset	829	then have "numbound0 (simpnum a)" by (simp only: simpnum_numbound0[OF nb])
c871a2e751ec tuned proofs; wenzelm parents: 55844 diff changeset	830	then show ?case by (cases "simpnum a") (auto simp add: Let_def)
23274 f997514ad8f4 New Reflected Presburger added to HOL/ex chaieb parents: 21404 diff changeset	831	next
55925 56165322c98b tuned proofs; wenzelm parents: 55921 diff changeset	832	case (8 a)
56165322c98b tuned proofs; wenzelm parents: 55921 diff changeset	833	then have nb: "numbound0 a" by simp
55885 c871a2e751ec tuned proofs; wenzelm parents: 55844 diff changeset	834	then have "numbound0 (simpnum a)" by (simp only: simpnum_numbound0[OF nb])
c871a2e751ec tuned proofs; wenzelm parents: 55844 diff changeset	835	then show ?case by (cases "simpnum a") (auto simp add: Let_def)
23274 f997514ad8f4 New Reflected Presburger added to HOL/ex chaieb parents: 21404 diff changeset	836	next
55925 56165322c98b tuned proofs; wenzelm parents: 55921 diff changeset	837	case (9 a)
56165322c98b tuned proofs; wenzelm parents: 55921 diff changeset	838	then have nb: "numbound0 a" by simp
55885 c871a2e751ec tuned proofs; wenzelm parents: 55844 diff changeset	839	then have "numbound0 (simpnum a)" by (simp only: simpnum_numbound0[OF nb])
c871a2e751ec tuned proofs; wenzelm parents: 55844 diff changeset	840	then show ?case by (cases "simpnum a") (auto simp add: Let_def)
23274 f997514ad8f4 New Reflected Presburger added to HOL/ex chaieb parents: 21404 diff changeset	841	next
55925 56165322c98b tuned proofs; wenzelm parents: 55921 diff changeset	842	case (10 a)
56165322c98b tuned proofs; wenzelm parents: 55921 diff changeset	843	then have nb: "numbound0 a" by simp
55885 c871a2e751ec tuned proofs; wenzelm parents: 55844 diff changeset	844	then have "numbound0 (simpnum a)" by (simp only: simpnum_numbound0[OF nb])
c871a2e751ec tuned proofs; wenzelm parents: 55844 diff changeset	845	then show ?case by (cases "simpnum a") (auto simp add: Let_def)
23274 f997514ad8f4 New Reflected Presburger added to HOL/ex chaieb parents: 21404 diff changeset	846	next
55925 56165322c98b tuned proofs; wenzelm parents: 55921 diff changeset	847	case (11 a)
56165322c98b tuned proofs; wenzelm parents: 55921 diff changeset	848	then have nb: "numbound0 a" by simp
55885 c871a2e751ec tuned proofs; wenzelm parents: 55844 diff changeset	849	then have "numbound0 (simpnum a)" by (simp only: simpnum_numbound0[OF nb])
c871a2e751ec tuned proofs; wenzelm parents: 55844 diff changeset	850	then show ?case by (cases "simpnum a") (auto simp add: Let_def)
23274 f997514ad8f4 New Reflected Presburger added to HOL/ex chaieb parents: 21404 diff changeset	851	next
55925 56165322c98b tuned proofs; wenzelm parents: 55921 diff changeset	852	case (12 i a)
56165322c98b tuned proofs; wenzelm parents: 55921 diff changeset	853	then have nb: "numbound0 a" by simp
55885 c871a2e751ec tuned proofs; wenzelm parents: 55844 diff changeset	854	then have "numbound0 (simpnum a)" by (simp only: simpnum_numbound0[OF nb])
c871a2e751ec tuned proofs; wenzelm parents: 55844 diff changeset	855	then show ?case by (cases "simpnum a") (auto simp add: Let_def)
23274 f997514ad8f4 New Reflected Presburger added to HOL/ex chaieb parents: 21404 diff changeset	856	next
55925 56165322c98b tuned proofs; wenzelm parents: 55921 diff changeset	857	case (13 i a)
56165322c98b tuned proofs; wenzelm parents: 55921 diff changeset	858	then have nb: "numbound0 a" by simp
55885 c871a2e751ec tuned proofs; wenzelm parents: 55844 diff changeset	859	then have "numbound0 (simpnum a)" by (simp only: simpnum_numbound0[OF nb])
c871a2e751ec tuned proofs; wenzelm parents: 55844 diff changeset	860	then show ?case by (cases "simpnum a") (auto simp add: Let_def)
50313 5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	861	qed (auto simp add: disj_def imp_def iff_def conj_def not_bn)
17378 105519771c67 The oracle for Presburger has been changer: It is automatically generated form a verified formaliztion of Cooper's Algorithm ex/Reflected_Presburger.thy chaieb parents: diff changeset	862
23274 f997514ad8f4 New Reflected Presburger added to HOL/ex chaieb parents: 21404 diff changeset	863	lemma simpfm_qf: "qfree p \<Longrightarrow> qfree (simpfm p)"
50313 5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	864	by (induct p rule: simpfm.induct, auto simp add: disj_qf imp_qf iff_qf conj_qf not_qf Let_def)
5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	865	(case_tac "simpnum a", auto)+
23274 f997514ad8f4 New Reflected Presburger added to HOL/ex chaieb parents: 21404 diff changeset	866
50313 5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	867	text {* Generic quantifier elimination *}
5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	868	function (sequential) qelim :: "fm \<Rightarrow> (fm \<Rightarrow> fm) \<Rightarrow> fm"
5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	869	where
5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	870	"qelim (E p) = (\<lambda>qe. DJ qe (qelim p qe))"
5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	871	\| "qelim (A p) = (\<lambda>qe. not (qe ((qelim (NOT p) qe))))"
5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	872	\| "qelim (NOT p) = (\<lambda>qe. not (qelim p qe))"
5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	873	\| "qelim (And p q) = (\<lambda>qe. conj (qelim p qe) (qelim q qe))"
5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	874	\| "qelim (Or p q) = (\<lambda>qe. disj (qelim p qe) (qelim q qe))"
5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	875	\| "qelim (Imp p q) = (\<lambda>qe. imp (qelim p qe) (qelim q qe))"
5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	876	\| "qelim (Iff p q) = (\<lambda>qe. iff (qelim p qe) (qelim q qe))"
5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	877	\| "qelim p = (\<lambda>y. simpfm p)"
5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	878	by pat_completeness auto
41837 6fc224dc5473 recdef -> fun(ction); krauss parents: 41836 diff changeset	879	termination by (relation "measure fmsize") auto
23689 0410269099dc replaced code generator framework for reflected cooper haftmann parents: 23515 diff changeset	880
23274 f997514ad8f4 New Reflected Presburger added to HOL/ex chaieb parents: 21404 diff changeset	881	lemma qelim_ci:
55885 c871a2e751ec tuned proofs; wenzelm parents: 55844 diff changeset	882	assumes qe_inv: "\<forall>bs p. qfree p \<longrightarrow> qfree (qe p) \<and> Ifm bbs bs (qe p) = Ifm bbs bs (E p)"
c871a2e751ec tuned proofs; wenzelm parents: 55844 diff changeset	883	shows "\<And>bs. qfree (qelim p qe) \<and> Ifm bbs bs (qelim p qe) = Ifm bbs bs p"
50313 5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	884	using qe_inv DJ_qe[OF qe_inv]
55964 acdde1a5faa0 tuned proofs; wenzelm parents: 55925 diff changeset	885	by (induct p rule: qelim.induct)
acdde1a5faa0 tuned proofs; wenzelm parents: 55925 diff changeset	886	(auto simp add: not disj conj iff imp not_qf disj_qf conj_qf imp_qf iff_qf
acdde1a5faa0 tuned proofs; wenzelm parents: 55925 diff changeset	887	simpfm simpfm_qf simp del: simpfm.simps)
23689 0410269099dc replaced code generator framework for reflected cooper haftmann parents: 23515 diff changeset	888
50313 5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	889	text {* Linearity for fm where Bound 0 ranges over @{text "\<int>"} *}
5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	890
5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	891	fun zsplit0 :: "num \<Rightarrow> int \<times> num" -- {* splits the bounded from the unbounded part *}
23689 0410269099dc replaced code generator framework for reflected cooper haftmann parents: 23515 diff changeset	892	where
55885 c871a2e751ec tuned proofs; wenzelm parents: 55844 diff changeset	893	"zsplit0 (C c) = (0, C c)"
c871a2e751ec tuned proofs; wenzelm parents: 55844 diff changeset	894	\| "zsplit0 (Bound n) = (if n = 0 then (1, C 0) else (0, Bound n))"
50313 5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	895	\| "zsplit0 (CN n i a) =
55885 c871a2e751ec tuned proofs; wenzelm parents: 55844 diff changeset	896	(let (i', a') = zsplit0 a
c871a2e751ec tuned proofs; wenzelm parents: 55844 diff changeset	897	in if n = 0 then (i + i', a') else (i', CN n i a'))"
c871a2e751ec tuned proofs; wenzelm parents: 55844 diff changeset	898	\| "zsplit0 (Neg a) = (let (i', a') = zsplit0 a in (-i', Neg a'))"
c871a2e751ec tuned proofs; wenzelm parents: 55844 diff changeset	899	\| "zsplit0 (Add a b) =
c871a2e751ec tuned proofs; wenzelm parents: 55844 diff changeset	900	(let
c871a2e751ec tuned proofs; wenzelm parents: 55844 diff changeset	901	(ia, a') = zsplit0 a;
c871a2e751ec tuned proofs; wenzelm parents: 55844 diff changeset	902	(ib, b') = zsplit0 b
c871a2e751ec tuned proofs; wenzelm parents: 55844 diff changeset	903	in (ia + ib, Add a' b'))"
c871a2e751ec tuned proofs; wenzelm parents: 55844 diff changeset	904	\| "zsplit0 (Sub a b) =
c871a2e751ec tuned proofs; wenzelm parents: 55844 diff changeset	905	(let
c871a2e751ec tuned proofs; wenzelm parents: 55844 diff changeset	906	(ia, a') = zsplit0 a;
c871a2e751ec tuned proofs; wenzelm parents: 55844 diff changeset	907	(ib, b') = zsplit0 b
c871a2e751ec tuned proofs; wenzelm parents: 55844 diff changeset	908	in (ia - ib, Sub a' b'))"
c871a2e751ec tuned proofs; wenzelm parents: 55844 diff changeset	909	\| "zsplit0 (Mul i a) = (let (i', a') = zsplit0 a in (i*i', Mul i a'))"
23274 f997514ad8f4 New Reflected Presburger added to HOL/ex chaieb parents: 21404 diff changeset	910
f997514ad8f4 New Reflected Presburger added to HOL/ex chaieb parents: 21404 diff changeset	911	lemma zsplit0_I:
55964 acdde1a5faa0 tuned proofs; wenzelm parents: 55925 diff changeset	912	"\<And>n a. zsplit0 t = (n, a) \<Longrightarrow>
55921 22e9fc998d65 tuned proofs; wenzelm parents: 55885 diff changeset	913	(Inum ((x::int) # bs) (CN 0 n a) = Inum (x # bs) t) \<and> numbound0 a"
50313 5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	914	(is "\<And>n a. ?S t = (n,a) \<Longrightarrow> (?I x (CN 0 n a) = ?I x t) \<and> ?N a")
5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	915	proof (induct t rule: zsplit0.induct)
55844 fc04c24ad9ee tuned proofs; wenzelm parents: 55814 diff changeset	916	case (1 c n a)
fc04c24ad9ee tuned proofs; wenzelm parents: 55814 diff changeset	917	then show ?case by auto
23274 f997514ad8f4 New Reflected Presburger added to HOL/ex chaieb parents: 21404 diff changeset	918	next
55844 fc04c24ad9ee tuned proofs; wenzelm parents: 55814 diff changeset	919	case (2 m n a)
fc04c24ad9ee tuned proofs; wenzelm parents: 55814 diff changeset	920	then show ?case by (cases "m = 0") auto
23274 f997514ad8f4 New Reflected Presburger added to HOL/ex chaieb parents: 21404 diff changeset	921	next
23995 c34490f1e0ff Updated proofs; changed shadow syntax to improve (processing) time chaieb parents: 23984 diff changeset	922	case (3 m i a n a')
23274 f997514ad8f4 New Reflected Presburger added to HOL/ex chaieb parents: 21404 diff changeset	923	let ?j = "fst (zsplit0 a)"
f997514ad8f4 New Reflected Presburger added to HOL/ex chaieb parents: 21404 diff changeset	924	let ?b = "snd (zsplit0 a)"
55844 fc04c24ad9ee tuned proofs; wenzelm parents: 55814 diff changeset	925	have abj: "zsplit0 a = (?j, ?b)" by simp
fc04c24ad9ee tuned proofs; wenzelm parents: 55814 diff changeset	926	{
fc04c24ad9ee tuned proofs; wenzelm parents: 55814 diff changeset	927	assume "m \<noteq> 0"
fc04c24ad9ee tuned proofs; wenzelm parents: 55814 diff changeset	928	with 3(1)[OF abj] 3(2) have ?case
fc04c24ad9ee tuned proofs; wenzelm parents: 55814 diff changeset	929	by (auto simp add: Let_def split_def)
fc04c24ad9ee tuned proofs; wenzelm parents: 55814 diff changeset	930	}
23995 c34490f1e0ff Updated proofs; changed shadow syntax to improve (processing) time chaieb parents: 23984 diff changeset	931	moreover
55844 fc04c24ad9ee tuned proofs; wenzelm parents: 55814 diff changeset	932	{
fc04c24ad9ee tuned proofs; wenzelm parents: 55814 diff changeset	933	assume m0: "m = 0"
55964 acdde1a5faa0 tuned proofs; wenzelm parents: 55925 diff changeset	934	with abj have th: "a' = ?b \<and> n = i + ?j"
acdde1a5faa0 tuned proofs; wenzelm parents: 55925 diff changeset	935	using 3 by (simp add: Let_def split_def)
55844 fc04c24ad9ee tuned proofs; wenzelm parents: 55814 diff changeset	936	from abj 3 m0 have th2: "(?I x (CN 0 ?j ?b) = ?I x a) \<and> ?N ?b"
fc04c24ad9ee tuned proofs; wenzelm parents: 55814 diff changeset	937	by blast
55964 acdde1a5faa0 tuned proofs; wenzelm parents: 55925 diff changeset	938	from th have "?I x (CN 0 n a') = ?I x (CN 0 (i + ?j) ?b)"
55844 fc04c24ad9ee tuned proofs; wenzelm parents: 55814 diff changeset	939	by simp
fc04c24ad9ee tuned proofs; wenzelm parents: 55814 diff changeset	940	also from th2 have "\<dots> = ?I x (CN 0 i (CN 0 ?j ?b))"
fc04c24ad9ee tuned proofs; wenzelm parents: 55814 diff changeset	941	by (simp add: distrib_right)
fc04c24ad9ee tuned proofs; wenzelm parents: 55814 diff changeset	942	finally have "?I x (CN 0 n a') = ?I x (CN 0 i a)"
fc04c24ad9ee tuned proofs; wenzelm parents: 55814 diff changeset	943	using th2 by simp
fc04c24ad9ee tuned proofs; wenzelm parents: 55814 diff changeset	944	with th2 th have ?case using m0
fc04c24ad9ee tuned proofs; wenzelm parents: 55814 diff changeset	945	by blast
fc04c24ad9ee tuned proofs; wenzelm parents: 55814 diff changeset	946	}
fc04c24ad9ee tuned proofs; wenzelm parents: 55814 diff changeset	947	ultimately show ?case by blast
23274 f997514ad8f4 New Reflected Presburger added to HOL/ex chaieb parents: 21404 diff changeset	948	next
f997514ad8f4 New Reflected Presburger added to HOL/ex chaieb parents: 21404 diff changeset	949	case (4 t n a)
f997514ad8f4 New Reflected Presburger added to HOL/ex chaieb parents: 21404 diff changeset	950	let ?nt = "fst (zsplit0 t)"
f997514ad8f4 New Reflected Presburger added to HOL/ex chaieb parents: 21404 diff changeset	951	let ?at = "snd (zsplit0 t)"
55964 acdde1a5faa0 tuned proofs; wenzelm parents: 55925 diff changeset	952	have abj: "zsplit0 t = (?nt, ?at)"
acdde1a5faa0 tuned proofs; wenzelm parents: 55925 diff changeset	953	by simp
acdde1a5faa0 tuned proofs; wenzelm parents: 55925 diff changeset	954	then have th: "a = Neg ?at \<and> n = - ?nt"
55844 fc04c24ad9ee tuned proofs; wenzelm parents: 55814 diff changeset	955	using 4 by (simp add: Let_def split_def)
fc04c24ad9ee tuned proofs; wenzelm parents: 55814 diff changeset	956	from abj 4 have th2: "(?I x (CN 0 ?nt ?at) = ?I x t) \<and> ?N ?at"
fc04c24ad9ee tuned proofs; wenzelm parents: 55814 diff changeset	957	by blast
fc04c24ad9ee tuned proofs; wenzelm parents: 55814 diff changeset	958	from th2[simplified] th[simplified] show ?case
fc04c24ad9ee tuned proofs; wenzelm parents: 55814 diff changeset	959	by simp
23274 f997514ad8f4 New Reflected Presburger added to HOL/ex chaieb parents: 21404 diff changeset	960	next
f997514ad8f4 New Reflected Presburger added to HOL/ex chaieb parents: 21404 diff changeset	961	case (5 s t n a)
f997514ad8f4 New Reflected Presburger added to HOL/ex chaieb parents: 21404 diff changeset	962	let ?ns = "fst (zsplit0 s)"
f997514ad8f4 New Reflected Presburger added to HOL/ex chaieb parents: 21404 diff changeset	963	let ?as = "snd (zsplit0 s)"
f997514ad8f4 New Reflected Presburger added to HOL/ex chaieb parents: 21404 diff changeset	964	let ?nt = "fst (zsplit0 t)"
f997514ad8f4 New Reflected Presburger added to HOL/ex chaieb parents: 21404 diff changeset	965	let ?at = "snd (zsplit0 t)"
55844 fc04c24ad9ee tuned proofs; wenzelm parents: 55814 diff changeset	966	have abjs: "zsplit0 s = (?ns, ?as)"
fc04c24ad9ee tuned proofs; wenzelm parents: 55814 diff changeset	967	by simp
fc04c24ad9ee tuned proofs; wenzelm parents: 55814 diff changeset	968	moreover have abjt: "zsplit0 t = (?nt, ?at)"
fc04c24ad9ee tuned proofs; wenzelm parents: 55814 diff changeset	969	by simp
55964 acdde1a5faa0 tuned proofs; wenzelm parents: 55925 diff changeset	970	ultimately have th: "a = Add ?as ?at \<and> n = ?ns + ?nt"
55844 fc04c24ad9ee tuned proofs; wenzelm parents: 55814 diff changeset	971	using 5 by (simp add: Let_def split_def)
55964 acdde1a5faa0 tuned proofs; wenzelm parents: 55925 diff changeset	972	from abjs[symmetric] have bluddy: "\<exists>x y. (x, y) = zsplit0 s"
55844 fc04c24ad9ee tuned proofs; wenzelm parents: 55814 diff changeset	973	by blast
fc04c24ad9ee tuned proofs; wenzelm parents: 55814 diff changeset	974	from 5 have "(\<exists>x y. (x, y) = zsplit0 s) \<longrightarrow>
fc04c24ad9ee tuned proofs; wenzelm parents: 55814 diff changeset	975	(\<forall>xa xb. zsplit0 t = (xa, xb) \<longrightarrow> Inum (x # bs) (CN 0 xa xb) = Inum (x # bs) t \<and> numbound0 xb)"
fc04c24ad9ee tuned proofs; wenzelm parents: 55814 diff changeset	976	by auto
fc04c24ad9ee tuned proofs; wenzelm parents: 55814 diff changeset	977	with bluddy abjt have th3: "(?I x (CN 0 ?nt ?at) = ?I x t) \<and> ?N ?at"
fc04c24ad9ee tuned proofs; wenzelm parents: 55814 diff changeset	978	by blast
fc04c24ad9ee tuned proofs; wenzelm parents: 55814 diff changeset	979	from abjs 5 have th2: "(?I x (CN 0 ?ns ?as) = ?I x s) \<and> ?N ?as"
fc04c24ad9ee tuned proofs; wenzelm parents: 55814 diff changeset	980	by blast
50313 5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	981	from th3[simplified] th2[simplified] th[simplified] show ?case
49962 a8cc904a6820 Renamed {left,right}_distrib to distrib_{right,left}. webertj parents: 48891 diff changeset	982	by (simp add: distrib_right)
23274 f997514ad8f4 New Reflected Presburger added to HOL/ex chaieb parents: 21404 diff changeset	983	next
f997514ad8f4 New Reflected Presburger added to HOL/ex chaieb parents: 21404 diff changeset	984	case (6 s t n a)
f997514ad8f4 New Reflected Presburger added to HOL/ex chaieb parents: 21404 diff changeset	985	let ?ns = "fst (zsplit0 s)"
f997514ad8f4 New Reflected Presburger added to HOL/ex chaieb parents: 21404 diff changeset	986	let ?as = "snd (zsplit0 s)"
f997514ad8f4 New Reflected Presburger added to HOL/ex chaieb parents: 21404 diff changeset	987	let ?nt = "fst (zsplit0 t)"
f997514ad8f4 New Reflected Presburger added to HOL/ex chaieb parents: 21404 diff changeset	988	let ?at = "snd (zsplit0 t)"
55844 fc04c24ad9ee tuned proofs; wenzelm parents: 55814 diff changeset	989	have abjs: "zsplit0 s = (?ns, ?as)"
fc04c24ad9ee tuned proofs; wenzelm parents: 55814 diff changeset	990	by simp
fc04c24ad9ee tuned proofs; wenzelm parents: 55814 diff changeset	991	moreover have abjt: "zsplit0 t = (?nt, ?at)"
fc04c24ad9ee tuned proofs; wenzelm parents: 55814 diff changeset	992	by simp
55964 acdde1a5faa0 tuned proofs; wenzelm parents: 55925 diff changeset	993	ultimately have th: "a = Sub ?as ?at \<and> n = ?ns - ?nt"
55844 fc04c24ad9ee tuned proofs; wenzelm parents: 55814 diff changeset	994	using 6 by (simp add: Let_def split_def)
55964 acdde1a5faa0 tuned proofs; wenzelm parents: 55925 diff changeset	995	from abjs[symmetric] have bluddy: "\<exists>x y. (x, y) = zsplit0 s"
55844 fc04c24ad9ee tuned proofs; wenzelm parents: 55814 diff changeset	996	by blast
50313 5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	997	from 6 have "(\<exists>x y. (x,y) = zsplit0 s) \<longrightarrow>
5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	998	(\<forall>xa xb. zsplit0 t = (xa, xb) \<longrightarrow> Inum (x # bs) (CN 0 xa xb) = Inum (x # bs) t \<and> numbound0 xb)"
5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	999	by auto
55844 fc04c24ad9ee tuned proofs; wenzelm parents: 55814 diff changeset	1000	with bluddy abjt have th3: "(?I x (CN 0 ?nt ?at) = ?I x t) \<and> ?N ?at"
fc04c24ad9ee tuned proofs; wenzelm parents: 55814 diff changeset	1001	by blast
fc04c24ad9ee tuned proofs; wenzelm parents: 55814 diff changeset	1002	from abjs 6 have th2: "(?I x (CN 0 ?ns ?as) = ?I x s) \<and> ?N ?as"
fc04c24ad9ee tuned proofs; wenzelm parents: 55814 diff changeset	1003	by blast
50313 5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	1004	from th3[simplified] th2[simplified] th[simplified] show ?case
23274 f997514ad8f4 New Reflected Presburger added to HOL/ex chaieb parents: 21404 diff changeset	1005	by (simp add: left_diff_distrib)
f997514ad8f4 New Reflected Presburger added to HOL/ex chaieb parents: 21404 diff changeset	1006	next
f997514ad8f4 New Reflected Presburger added to HOL/ex chaieb parents: 21404 diff changeset	1007	case (7 i t n a)
f997514ad8f4 New Reflected Presburger added to HOL/ex chaieb parents: 21404 diff changeset	1008	let ?nt = "fst (zsplit0 t)"
f997514ad8f4 New Reflected Presburger added to HOL/ex chaieb parents: 21404 diff changeset	1009	let ?at = "snd (zsplit0 t)"
55844 fc04c24ad9ee tuned proofs; wenzelm parents: 55814 diff changeset	1010	have abj: "zsplit0 t = (?nt,?at)"
fc04c24ad9ee tuned proofs; wenzelm parents: 55814 diff changeset	1011	by simp
55964 acdde1a5faa0 tuned proofs; wenzelm parents: 55925 diff changeset	1012	then have th: "a = Mul i ?at \<and> n = i * ?nt"
55844 fc04c24ad9ee tuned proofs; wenzelm parents: 55814 diff changeset	1013	using 7 by (simp add: Let_def split_def)
fc04c24ad9ee tuned proofs; wenzelm parents: 55814 diff changeset	1014	from abj 7 have th2: "(?I x (CN 0 ?nt ?at) = ?I x t) \<and> ?N ?at"
fc04c24ad9ee tuned proofs; wenzelm parents: 55814 diff changeset	1015	by blast
fc04c24ad9ee tuned proofs; wenzelm parents: 55814 diff changeset	1016	then have "?I x (Mul i t) = i * ?I x (CN 0 ?nt ?at)"
fc04c24ad9ee tuned proofs; wenzelm parents: 55814 diff changeset	1017	by simp
fc04c24ad9ee tuned proofs; wenzelm parents: 55814 diff changeset	1018	also have "\<dots> = ?I x (CN 0 (i*?nt) (Mul i ?at))"
fc04c24ad9ee tuned proofs; wenzelm parents: 55814 diff changeset	1019	by (simp add: distrib_left)
fc04c24ad9ee tuned proofs; wenzelm parents: 55814 diff changeset	1020	finally show ?case using th th2
fc04c24ad9ee tuned proofs; wenzelm parents: 55814 diff changeset	1021	by simp
17378 105519771c67 The oracle for Presburger has been changer: It is automatically generated form a verified formaliztion of Cooper's Algorithm ex/Reflected_Presburger.thy chaieb parents: diff changeset	1022	qed
105519771c67 The oracle for Presburger has been changer: It is automatically generated form a verified formaliztion of Cooper's Algorithm ex/Reflected_Presburger.thy chaieb parents: diff changeset	1023
50313 5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	1024	consts iszlfm :: "fm \<Rightarrow> bool" -- {* Linearity test for fm *}
23274 f997514ad8f4 New Reflected Presburger added to HOL/ex chaieb parents: 21404 diff changeset	1025	recdef iszlfm "measure size"
55885 c871a2e751ec tuned proofs; wenzelm parents: 55844 diff changeset	1026	"iszlfm (And p q) \<longleftrightarrow> iszlfm p \<and> iszlfm q"
c871a2e751ec tuned proofs; wenzelm parents: 55844 diff changeset	1027	"iszlfm (Or p q) \<longleftrightarrow> iszlfm p \<and> iszlfm q"
c871a2e751ec tuned proofs; wenzelm parents: 55844 diff changeset	1028	"iszlfm (Eq (CN 0 c e)) \<longleftrightarrow> c > 0 \<and> numbound0 e"
c871a2e751ec tuned proofs; wenzelm parents: 55844 diff changeset	1029	"iszlfm (NEq (CN 0 c e)) \<longleftrightarrow> c > 0 \<and> numbound0 e"
c871a2e751ec tuned proofs; wenzelm parents: 55844 diff changeset	1030	"iszlfm (Lt (CN 0 c e)) \<longleftrightarrow> c > 0 \<and> numbound0 e"
c871a2e751ec tuned proofs; wenzelm parents: 55844 diff changeset	1031	"iszlfm (Le (CN 0 c e)) \<longleftrightarrow> c > 0 \<and> numbound0 e"
c871a2e751ec tuned proofs; wenzelm parents: 55844 diff changeset	1032	"iszlfm (Gt (CN 0 c e)) \<longleftrightarrow> c > 0 \<and> numbound0 e"
c871a2e751ec tuned proofs; wenzelm parents: 55844 diff changeset	1033	"iszlfm (Ge (CN 0 c e)) \<longleftrightarrow> c > 0 \<and> numbound0 e"
c871a2e751ec tuned proofs; wenzelm parents: 55844 diff changeset	1034	"iszlfm (Dvd i (CN 0 c e)) \<longleftrightarrow> c > 0 \<and> i > 0 \<and> numbound0 e"
c871a2e751ec tuned proofs; wenzelm parents: 55844 diff changeset	1035	"iszlfm (NDvd i (CN 0 c e)) \<longleftrightarrow> c > 0 \<and> i > 0 \<and> numbound0 e"
c871a2e751ec tuned proofs; wenzelm parents: 55844 diff changeset	1036	"iszlfm p \<longleftrightarrow> isatom p \<and> bound0 p"
17378 105519771c67 The oracle for Presburger has been changer: It is automatically generated form a verified formaliztion of Cooper's Algorithm ex/Reflected_Presburger.thy chaieb parents: diff changeset	1037
23274 f997514ad8f4 New Reflected Presburger added to HOL/ex chaieb parents: 21404 diff changeset	1038	lemma zlin_qfree: "iszlfm p \<Longrightarrow> qfree p"
f997514ad8f4 New Reflected Presburger added to HOL/ex chaieb parents: 21404 diff changeset	1039	by (induct p rule: iszlfm.induct) auto
17378 105519771c67 The oracle for Presburger has been changer: It is automatically generated form a verified formaliztion of Cooper's Algorithm ex/Reflected_Presburger.thy chaieb parents: diff changeset	1040
50313 5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	1041	consts zlfm :: "fm \<Rightarrow> fm" -- {* Linearity transformation for fm *}
23274 f997514ad8f4 New Reflected Presburger added to HOL/ex chaieb parents: 21404 diff changeset	1042	recdef zlfm "measure fmsize"
f997514ad8f4 New Reflected Presburger added to HOL/ex chaieb parents: 21404 diff changeset	1043	"zlfm (And p q) = And (zlfm p) (zlfm q)"
f997514ad8f4 New Reflected Presburger added to HOL/ex chaieb parents: 21404 diff changeset	1044	"zlfm (Or p q) = Or (zlfm p) (zlfm q)"
f997514ad8f4 New Reflected Presburger added to HOL/ex chaieb parents: 21404 diff changeset	1045	"zlfm (Imp p q) = Or (zlfm (NOT p)) (zlfm q)"
f997514ad8f4 New Reflected Presburger added to HOL/ex chaieb parents: 21404 diff changeset	1046	"zlfm (Iff p q) = Or (And (zlfm p) (zlfm q)) (And (zlfm (NOT p)) (zlfm (NOT q)))"
55964 acdde1a5faa0 tuned proofs; wenzelm parents: 55925 diff changeset	1047	"zlfm (Lt a) =
acdde1a5faa0 tuned proofs; wenzelm parents: 55925 diff changeset	1048	(let (c, r) = zsplit0 a in
acdde1a5faa0 tuned proofs; wenzelm parents: 55925 diff changeset	1049	if c = 0 then Lt r else
acdde1a5faa0 tuned proofs; wenzelm parents: 55925 diff changeset	1050	if c > 0 then (Lt (CN 0 c r))
acdde1a5faa0 tuned proofs; wenzelm parents: 55925 diff changeset	1051	else Gt (CN 0 (- c) (Neg r)))"
acdde1a5faa0 tuned proofs; wenzelm parents: 55925 diff changeset	1052	"zlfm (Le a) =
acdde1a5faa0 tuned proofs; wenzelm parents: 55925 diff changeset	1053	(let (c, r) = zsplit0 a in
acdde1a5faa0 tuned proofs; wenzelm parents: 55925 diff changeset	1054	if c = 0 then Le r
acdde1a5faa0 tuned proofs; wenzelm parents: 55925 diff changeset	1055	else if c > 0 then Le (CN 0 c r)
acdde1a5faa0 tuned proofs; wenzelm parents: 55925 diff changeset	1056	else Ge (CN 0 (- c) (Neg r)))"
acdde1a5faa0 tuned proofs; wenzelm parents: 55925 diff changeset	1057	"zlfm (Gt a) =
acdde1a5faa0 tuned proofs; wenzelm parents: 55925 diff changeset	1058	(let (c, r) = zsplit0 a in
acdde1a5faa0 tuned proofs; wenzelm parents: 55925 diff changeset	1059	if c = 0 then Gt r else
acdde1a5faa0 tuned proofs; wenzelm parents: 55925 diff changeset	1060	if c > 0 then Gt (CN 0 c r)
acdde1a5faa0 tuned proofs; wenzelm parents: 55925 diff changeset	1061	else Lt (CN 0 (- c) (Neg r)))"
acdde1a5faa0 tuned proofs; wenzelm parents: 55925 diff changeset	1062	"zlfm (Ge a) =
acdde1a5faa0 tuned proofs; wenzelm parents: 55925 diff changeset	1063	(let (c, r) = zsplit0 a in
acdde1a5faa0 tuned proofs; wenzelm parents: 55925 diff changeset	1064	if c = 0 then Ge r
acdde1a5faa0 tuned proofs; wenzelm parents: 55925 diff changeset	1065	else if c > 0 then Ge (CN 0 c r)
acdde1a5faa0 tuned proofs; wenzelm parents: 55925 diff changeset	1066	else Le (CN 0 (- c) (Neg r)))"
acdde1a5faa0 tuned proofs; wenzelm parents: 55925 diff changeset	1067	"zlfm (Eq a) =
acdde1a5faa0 tuned proofs; wenzelm parents: 55925 diff changeset	1068	(let (c, r) = zsplit0 a in
acdde1a5faa0 tuned proofs; wenzelm parents: 55925 diff changeset	1069	if c = 0 then Eq r
acdde1a5faa0 tuned proofs; wenzelm parents: 55925 diff changeset	1070	else if c > 0 then Eq (CN 0 c r)
acdde1a5faa0 tuned proofs; wenzelm parents: 55925 diff changeset	1071	else Eq (CN 0 (- c) (Neg r)))"
acdde1a5faa0 tuned proofs; wenzelm parents: 55925 diff changeset	1072	"zlfm (NEq a) =
acdde1a5faa0 tuned proofs; wenzelm parents: 55925 diff changeset	1073	(let (c, r) = zsplit0 a in
acdde1a5faa0 tuned proofs; wenzelm parents: 55925 diff changeset	1074	if c = 0 then NEq r
acdde1a5faa0 tuned proofs; wenzelm parents: 55925 diff changeset	1075	else if c > 0 then NEq (CN 0 c r)
acdde1a5faa0 tuned proofs; wenzelm parents: 55925 diff changeset	1076	else NEq (CN 0 (- c) (Neg r)))"
acdde1a5faa0 tuned proofs; wenzelm parents: 55925 diff changeset	1077	"zlfm (Dvd i a) =
acdde1a5faa0 tuned proofs; wenzelm parents: 55925 diff changeset	1078	(if i = 0 then zlfm (Eq a)
acdde1a5faa0 tuned proofs; wenzelm parents: 55925 diff changeset	1079	else
acdde1a5faa0 tuned proofs; wenzelm parents: 55925 diff changeset	1080	let (c, r) = zsplit0 a in
acdde1a5faa0 tuned proofs; wenzelm parents: 55925 diff changeset	1081	if c = 0 then Dvd (abs i) r
acdde1a5faa0 tuned proofs; wenzelm parents: 55925 diff changeset	1082	else if c > 0 then Dvd (abs i) (CN 0 c r)
acdde1a5faa0 tuned proofs; wenzelm parents: 55925 diff changeset	1083	else Dvd (abs i) (CN 0 (- c) (Neg r)))"
acdde1a5faa0 tuned proofs; wenzelm parents: 55925 diff changeset	1084	"zlfm (NDvd i a) =
acdde1a5faa0 tuned proofs; wenzelm parents: 55925 diff changeset	1085	(if i = 0 then zlfm (NEq a)
acdde1a5faa0 tuned proofs; wenzelm parents: 55925 diff changeset	1086	else
acdde1a5faa0 tuned proofs; wenzelm parents: 55925 diff changeset	1087	let (c, r) = zsplit0 a in
acdde1a5faa0 tuned proofs; wenzelm parents: 55925 diff changeset	1088	if c = 0 then NDvd (abs i) r
acdde1a5faa0 tuned proofs; wenzelm parents: 55925 diff changeset	1089	else if c > 0 then NDvd (abs i) (CN 0 c r)
acdde1a5faa0 tuned proofs; wenzelm parents: 55925 diff changeset	1090	else NDvd (abs i) (CN 0 (- c) (Neg r)))"
23274 f997514ad8f4 New Reflected Presburger added to HOL/ex chaieb parents: 21404 diff changeset	1091	"zlfm (NOT (And p q)) = Or (zlfm (NOT p)) (zlfm (NOT q))"
f997514ad8f4 New Reflected Presburger added to HOL/ex chaieb parents: 21404 diff changeset	1092	"zlfm (NOT (Or p q)) = And (zlfm (NOT p)) (zlfm (NOT q))"
f997514ad8f4 New Reflected Presburger added to HOL/ex chaieb parents: 21404 diff changeset	1093	"zlfm (NOT (Imp p q)) = And (zlfm p) (zlfm (NOT q))"
f997514ad8f4 New Reflected Presburger added to HOL/ex chaieb parents: 21404 diff changeset	1094	"zlfm (NOT (Iff p q)) = Or (And(zlfm p) (zlfm(NOT q))) (And (zlfm(NOT p)) (zlfm q))"
f997514ad8f4 New Reflected Presburger added to HOL/ex chaieb parents: 21404 diff changeset	1095	"zlfm (NOT (NOT p)) = zlfm p"
f997514ad8f4 New Reflected Presburger added to HOL/ex chaieb parents: 21404 diff changeset	1096	"zlfm (NOT T) = F"
f997514ad8f4 New Reflected Presburger added to HOL/ex chaieb parents: 21404 diff changeset	1097	"zlfm (NOT F) = T"
f997514ad8f4 New Reflected Presburger added to HOL/ex chaieb parents: 21404 diff changeset	1098	"zlfm (NOT (Lt a)) = zlfm (Ge a)"
f997514ad8f4 New Reflected Presburger added to HOL/ex chaieb parents: 21404 diff changeset	1099	"zlfm (NOT (Le a)) = zlfm (Gt a)"
f997514ad8f4 New Reflected Presburger added to HOL/ex chaieb parents: 21404 diff changeset	1100	"zlfm (NOT (Gt a)) = zlfm (Le a)"
f997514ad8f4 New Reflected Presburger added to HOL/ex chaieb parents: 21404 diff changeset	1101	"zlfm (NOT (Ge a)) = zlfm (Lt a)"
f997514ad8f4 New Reflected Presburger added to HOL/ex chaieb parents: 21404 diff changeset	1102	"zlfm (NOT (Eq a)) = zlfm (NEq a)"
f997514ad8f4 New Reflected Presburger added to HOL/ex chaieb parents: 21404 diff changeset	1103	"zlfm (NOT (NEq a)) = zlfm (Eq a)"
f997514ad8f4 New Reflected Presburger added to HOL/ex chaieb parents: 21404 diff changeset	1104	"zlfm (NOT (Dvd i a)) = zlfm (NDvd i a)"
f997514ad8f4 New Reflected Presburger added to HOL/ex chaieb parents: 21404 diff changeset	1105	"zlfm (NOT (NDvd i a)) = zlfm (Dvd i a)"
f997514ad8f4 New Reflected Presburger added to HOL/ex chaieb parents: 21404 diff changeset	1106	"zlfm (NOT (Closed P)) = NClosed P"
f997514ad8f4 New Reflected Presburger added to HOL/ex chaieb parents: 21404 diff changeset	1107	"zlfm (NOT (NClosed P)) = Closed P"
f997514ad8f4 New Reflected Presburger added to HOL/ex chaieb parents: 21404 diff changeset	1108	"zlfm p = p" (hints simp add: fmsize_pos)
f997514ad8f4 New Reflected Presburger added to HOL/ex chaieb parents: 21404 diff changeset	1109
f997514ad8f4 New Reflected Presburger added to HOL/ex chaieb parents: 21404 diff changeset	1110	lemma zlfm_I:
f997514ad8f4 New Reflected Presburger added to HOL/ex chaieb parents: 21404 diff changeset	1111	assumes qfp: "qfree p"
55981 66739f41d5b2 tuned proofs; wenzelm parents: 55964 diff changeset	1112	shows "Ifm bbs (i # bs) (zlfm p) = Ifm bbs (i # bs) p \<and> iszlfm (zlfm p)"
66739f41d5b2 tuned proofs; wenzelm parents: 55964 diff changeset	1113	(is "?I (?l p) = ?I p \<and> ?L (?l p)")
50313 5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	1114	using qfp
5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	1115	proof (induct p rule: zlfm.induct)
5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	1116	case (5 a)
23274 f997514ad8f4 New Reflected Presburger added to HOL/ex chaieb parents: 21404 diff changeset	1117	let ?c = "fst (zsplit0 a)"
f997514ad8f4 New Reflected Presburger added to HOL/ex chaieb parents: 21404 diff changeset	1118	let ?r = "snd (zsplit0 a)"
55844 fc04c24ad9ee tuned proofs; wenzelm parents: 55814 diff changeset	1119	have spl: "zsplit0 a = (?c, ?r)"
fc04c24ad9ee tuned proofs; wenzelm parents: 55814 diff changeset	1120	by simp
50313 5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	1121	from zsplit0_I[OF spl, where x="i" and bs="bs"]
55964 acdde1a5faa0 tuned proofs; wenzelm parents: 55925 diff changeset	1122	have Ia: "Inum (i # bs) a = Inum (i #bs) (CN 0 ?c ?r)" and nb: "numbound0 ?r"
55844 fc04c24ad9ee tuned proofs; wenzelm parents: 55814 diff changeset	1123	by auto
55964 acdde1a5faa0 tuned proofs; wenzelm parents: 55925 diff changeset	1124	let ?N = "\<lambda>t. Inum (i # bs) t"
acdde1a5faa0 tuned proofs; wenzelm parents: 55925 diff changeset	1125	from 5 Ia nb show ?case
50313 5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	1126	apply (auto simp add: Let_def split_def algebra_simps)
55844 fc04c24ad9ee tuned proofs; wenzelm parents: 55814 diff changeset	1127	apply (cases "?r")
fc04c24ad9ee tuned proofs; wenzelm parents: 55814 diff changeset	1128	apply auto
fc04c24ad9ee tuned proofs; wenzelm parents: 55814 diff changeset	1129	apply (case_tac nat)
fc04c24ad9ee tuned proofs; wenzelm parents: 55814 diff changeset	1130	apply auto
23995 c34490f1e0ff Updated proofs; changed shadow syntax to improve (processing) time chaieb parents: 23984 diff changeset	1131	done
23274 f997514ad8f4 New Reflected Presburger added to HOL/ex chaieb parents: 21404 diff changeset	1132	next
50313 5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	1133	case (6 a)
23274 f997514ad8f4 New Reflected Presburger added to HOL/ex chaieb parents: 21404 diff changeset	1134	let ?c = "fst (zsplit0 a)"
f997514ad8f4 New Reflected Presburger added to HOL/ex chaieb parents: 21404 diff changeset	1135	let ?r = "snd (zsplit0 a)"
55844 fc04c24ad9ee tuned proofs; wenzelm parents: 55814 diff changeset	1136	have spl: "zsplit0 a = (?c, ?r)"
fc04c24ad9ee tuned proofs; wenzelm parents: 55814 diff changeset	1137	by simp
50313 5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	1138	from zsplit0_I[OF spl, where x="i" and bs="bs"]
55964 acdde1a5faa0 tuned proofs; wenzelm parents: 55925 diff changeset	1139	have Ia: "Inum (i # bs) a = Inum (i #bs) (CN 0 ?c ?r)" and nb: "numbound0 ?r"
55844 fc04c24ad9ee tuned proofs; wenzelm parents: 55814 diff changeset	1140	by auto
55964 acdde1a5faa0 tuned proofs; wenzelm parents: 55925 diff changeset	1141	let ?N = "\<lambda>t. Inum (i # bs) t"
50313 5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	1142	from 6 Ia nb show ?case
5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	1143	apply (auto simp add: Let_def split_def algebra_simps)
55844 fc04c24ad9ee tuned proofs; wenzelm parents: 55814 diff changeset	1144	apply (cases "?r")
fc04c24ad9ee tuned proofs; wenzelm parents: 55814 diff changeset	1145	apply auto
fc04c24ad9ee tuned proofs; wenzelm parents: 55814 diff changeset	1146	apply (case_tac nat)
fc04c24ad9ee tuned proofs; wenzelm parents: 55814 diff changeset	1147	apply auto
23995 c34490f1e0ff Updated proofs; changed shadow syntax to improve (processing) time chaieb parents: 23984 diff changeset	1148	done
23274 f997514ad8f4 New Reflected Presburger added to HOL/ex chaieb parents: 21404 diff changeset	1149	next
50313 5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	1150	case (7 a)
23274 f997514ad8f4 New Reflected Presburger added to HOL/ex chaieb parents: 21404 diff changeset	1151	let ?c = "fst (zsplit0 a)"
f997514ad8f4 New Reflected Presburger added to HOL/ex chaieb parents: 21404 diff changeset	1152	let ?r = "snd (zsplit0 a)"
55844 fc04c24ad9ee tuned proofs; wenzelm parents: 55814 diff changeset	1153	have spl: "zsplit0 a = (?c, ?r)"
fc04c24ad9ee tuned proofs; wenzelm parents: 55814 diff changeset	1154	by simp
50313 5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	1155	from zsplit0_I[OF spl, where x="i" and bs="bs"]
55844 fc04c24ad9ee tuned proofs; wenzelm parents: 55814 diff changeset	1156	have Ia: "Inum (i # bs) a = Inum (i #bs) (CN 0 ?c ?r)" and nb: "numbound0 ?r"
fc04c24ad9ee tuned proofs; wenzelm parents: 55814 diff changeset	1157	by auto
55964 acdde1a5faa0 tuned proofs; wenzelm parents: 55925 diff changeset	1158	let ?N = "\<lambda>t. Inum (i # bs) t"
50313 5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	1159	from 7 Ia nb show ?case
5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	1160	apply (auto simp add: Let_def split_def algebra_simps)
55844 fc04c24ad9ee tuned proofs; wenzelm parents: 55814 diff changeset	1161	apply (cases "?r")
fc04c24ad9ee tuned proofs; wenzelm parents: 55814 diff changeset	1162	apply auto
fc04c24ad9ee tuned proofs; wenzelm parents: 55814 diff changeset	1163	apply (case_tac nat)
fc04c24ad9ee tuned proofs; wenzelm parents: 55814 diff changeset	1164	apply auto
23995 c34490f1e0ff Updated proofs; changed shadow syntax to improve (processing) time chaieb parents: 23984 diff changeset	1165	done
23274 f997514ad8f4 New Reflected Presburger added to HOL/ex chaieb parents: 21404 diff changeset	1166	next
50313 5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	1167	case (8 a)
23274 f997514ad8f4 New Reflected Presburger added to HOL/ex chaieb parents: 21404 diff changeset	1168	let ?c = "fst (zsplit0 a)"
f997514ad8f4 New Reflected Presburger added to HOL/ex chaieb parents: 21404 diff changeset	1169	let ?r = "snd (zsplit0 a)"
55844 fc04c24ad9ee tuned proofs; wenzelm parents: 55814 diff changeset	1170	have spl: "zsplit0 a = (?c, ?r)"
fc04c24ad9ee tuned proofs; wenzelm parents: 55814 diff changeset	1171	by simp
50313 5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	1172	from zsplit0_I[OF spl, where x="i" and bs="bs"]
55964 acdde1a5faa0 tuned proofs; wenzelm parents: 55925 diff changeset	1173	have Ia: "Inum (i # bs) a = Inum (i #bs) (CN 0 ?c ?r)" and nb: "numbound0 ?r"
55844 fc04c24ad9ee tuned proofs; wenzelm parents: 55814 diff changeset	1174	by auto
55964 acdde1a5faa0 tuned proofs; wenzelm parents: 55925 diff changeset	1175	let ?N = "\<lambda>t. Inum (i # bs) t"
55844 fc04c24ad9ee tuned proofs; wenzelm parents: 55814 diff changeset	1176	from 8 Ia nb show ?case
50313 5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	1177	apply (auto simp add: Let_def split_def algebra_simps)
55844 fc04c24ad9ee tuned proofs; wenzelm parents: 55814 diff changeset	1178	apply (cases "?r")
fc04c24ad9ee tuned proofs; wenzelm parents: 55814 diff changeset	1179	apply auto
fc04c24ad9ee tuned proofs; wenzelm parents: 55814 diff changeset	1180	apply (case_tac nat)
fc04c24ad9ee tuned proofs; wenzelm parents: 55814 diff changeset	1181	apply auto
23995 c34490f1e0ff Updated proofs; changed shadow syntax to improve (processing) time chaieb parents: 23984 diff changeset	1182	done
23274 f997514ad8f4 New Reflected Presburger added to HOL/ex chaieb parents: 21404 diff changeset	1183	next
50313 5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	1184	case (9 a)
23274 f997514ad8f4 New Reflected Presburger added to HOL/ex chaieb parents: 21404 diff changeset	1185	let ?c = "fst (zsplit0 a)"
f997514ad8f4 New Reflected Presburger added to HOL/ex chaieb parents: 21404 diff changeset	1186	let ?r = "snd (zsplit0 a)"
55844 fc04c24ad9ee tuned proofs; wenzelm parents: 55814 diff changeset	1187	have spl: "zsplit0 a = (?c, ?r)"
fc04c24ad9ee tuned proofs; wenzelm parents: 55814 diff changeset	1188	by simp
50313 5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	1189	from zsplit0_I[OF spl, where x="i" and bs="bs"]
55844 fc04c24ad9ee tuned proofs; wenzelm parents: 55814 diff changeset	1190	have Ia:"Inum (i # bs) a = Inum (i #bs) (CN 0 ?c ?r)" and nb: "numbound0 ?r"
fc04c24ad9ee tuned proofs; wenzelm parents: 55814 diff changeset	1191	by auto
55964 acdde1a5faa0 tuned proofs; wenzelm parents: 55925 diff changeset	1192	let ?N = "\<lambda>t. Inum (i # bs) t"
55844 fc04c24ad9ee tuned proofs; wenzelm parents: 55814 diff changeset	1193	from 9 Ia nb show ?case
50313 5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	1194	apply (auto simp add: Let_def split_def algebra_simps)
55844 fc04c24ad9ee tuned proofs; wenzelm parents: 55814 diff changeset	1195	apply (cases "?r")
fc04c24ad9ee tuned proofs; wenzelm parents: 55814 diff changeset	1196	apply auto
fc04c24ad9ee tuned proofs; wenzelm parents: 55814 diff changeset	1197	apply (case_tac nat)
fc04c24ad9ee tuned proofs; wenzelm parents: 55814 diff changeset	1198	apply auto
23995 c34490f1e0ff Updated proofs; changed shadow syntax to improve (processing) time chaieb parents: 23984 diff changeset	1199	done
23274 f997514ad8f4 New Reflected Presburger added to HOL/ex chaieb parents: 21404 diff changeset	1200	next
50313 5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	1201	case (10 a)
23274 f997514ad8f4 New Reflected Presburger added to HOL/ex chaieb parents: 21404 diff changeset	1202	let ?c = "fst (zsplit0 a)"
f997514ad8f4 New Reflected Presburger added to HOL/ex chaieb parents: 21404 diff changeset	1203	let ?r = "snd (zsplit0 a)"
55844 fc04c24ad9ee tuned proofs; wenzelm parents: 55814 diff changeset	1204	have spl: "zsplit0 a = (?c, ?r)"
fc04c24ad9ee tuned proofs; wenzelm parents: 55814 diff changeset	1205	by simp
50313 5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	1206	from zsplit0_I[OF spl, where x="i" and bs="bs"]
55844 fc04c24ad9ee tuned proofs; wenzelm parents: 55814 diff changeset	1207	have Ia: "Inum (i # bs) a = Inum (i #bs) (CN 0 ?c ?r)" and nb: "numbound0 ?r"
fc04c24ad9ee tuned proofs; wenzelm parents: 55814 diff changeset	1208	by auto
55964 acdde1a5faa0 tuned proofs; wenzelm parents: 55925 diff changeset	1209	let ?N = "\<lambda>t. Inum (i # bs) t"
55844 fc04c24ad9ee tuned proofs; wenzelm parents: 55814 diff changeset	1210	from 10 Ia nb show ?case
50313 5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	1211	apply (auto simp add: Let_def split_def algebra_simps)
55844 fc04c24ad9ee tuned proofs; wenzelm parents: 55814 diff changeset	1212	apply (cases "?r")
fc04c24ad9ee tuned proofs; wenzelm parents: 55814 diff changeset	1213	apply auto
fc04c24ad9ee tuned proofs; wenzelm parents: 55814 diff changeset	1214	apply (case_tac nat)
fc04c24ad9ee tuned proofs; wenzelm parents: 55814 diff changeset	1215	apply auto
23995 c34490f1e0ff Updated proofs; changed shadow syntax to improve (processing) time chaieb parents: 23984 diff changeset	1216	done
17378 105519771c67 The oracle for Presburger has been changer: It is automatically generated form a verified formaliztion of Cooper's Algorithm ex/Reflected_Presburger.thy chaieb parents: diff changeset	1217	next
50313 5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	1218	case (11 j a)
23274 f997514ad8f4 New Reflected Presburger added to HOL/ex chaieb parents: 21404 diff changeset	1219	let ?c = "fst (zsplit0 a)"
f997514ad8f4 New Reflected Presburger added to HOL/ex chaieb parents: 21404 diff changeset	1220	let ?r = "snd (zsplit0 a)"
55844 fc04c24ad9ee tuned proofs; wenzelm parents: 55814 diff changeset	1221	have spl: "zsplit0 a = (?c,?r)"
fc04c24ad9ee tuned proofs; wenzelm parents: 55814 diff changeset	1222	by simp
50313 5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	1223	from zsplit0_I[OF spl, where x="i" and bs="bs"]
55844 fc04c24ad9ee tuned proofs; wenzelm parents: 55814 diff changeset	1224	have Ia: "Inum (i # bs) a = Inum (i #bs) (CN 0 ?c ?r)" and nb: "numbound0 ?r"
fc04c24ad9ee tuned proofs; wenzelm parents: 55814 diff changeset	1225	by auto
50313 5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	1226	let ?N = "\<lambda>t. Inum (i#bs) t"
55844 fc04c24ad9ee tuned proofs; wenzelm parents: 55814 diff changeset	1227	have "j = 0 \<or> (j \<noteq> 0 \<and> ?c = 0) \<or> (j \<noteq> 0 \<and> ?c > 0) \<or> (j \<noteq> 0 \<and> ?c < 0)"
fc04c24ad9ee tuned proofs; wenzelm parents: 55814 diff changeset	1228	by arith
23274 f997514ad8f4 New Reflected Presburger added to HOL/ex chaieb parents: 21404 diff changeset	1229	moreover
55844 fc04c24ad9ee tuned proofs; wenzelm parents: 55814 diff changeset	1230	{
fc04c24ad9ee tuned proofs; wenzelm parents: 55814 diff changeset	1231	assume "j = 0"
fc04c24ad9ee tuned proofs; wenzelm parents: 55814 diff changeset	1232	then have z: "zlfm (Dvd j a) = (zlfm (Eq a))"
fc04c24ad9ee tuned proofs; wenzelm parents: 55814 diff changeset	1233	by (simp add: Let_def)
fc04c24ad9ee tuned proofs; wenzelm parents: 55814 diff changeset	1234	then have ?case using 11 `j = 0`
fc04c24ad9ee tuned proofs; wenzelm parents: 55814 diff changeset	1235	by (simp del: zlfm.simps)
fc04c24ad9ee tuned proofs; wenzelm parents: 55814 diff changeset	1236	}
23274 f997514ad8f4 New Reflected Presburger added to HOL/ex chaieb parents: 21404 diff changeset	1237	moreover
55844 fc04c24ad9ee tuned proofs; wenzelm parents: 55814 diff changeset	1238	{
fc04c24ad9ee tuned proofs; wenzelm parents: 55814 diff changeset	1239	assume "?c = 0" and "j \<noteq> 0"
fc04c24ad9ee tuned proofs; wenzelm parents: 55814 diff changeset	1240	then have ?case
29700 22faf21db3df added some simp rules nipkow parents: 29667 diff changeset	1241	using zsplit0_I[OF spl, where x="i" and bs="bs"]
50313 5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	1242	apply (auto simp add: Let_def split_def algebra_simps)
55844 fc04c24ad9ee tuned proofs; wenzelm parents: 55814 diff changeset	1243	apply (cases "?r")
fc04c24ad9ee tuned proofs; wenzelm parents: 55814 diff changeset	1244	apply auto
fc04c24ad9ee tuned proofs; wenzelm parents: 55814 diff changeset	1245	apply (case_tac nat)
fc04c24ad9ee tuned proofs; wenzelm parents: 55814 diff changeset	1246	apply auto
fc04c24ad9ee tuned proofs; wenzelm parents: 55814 diff changeset	1247	done
fc04c24ad9ee tuned proofs; wenzelm parents: 55814 diff changeset	1248	}
23274 f997514ad8f4 New Reflected Presburger added to HOL/ex chaieb parents: 21404 diff changeset	1249	moreover
55844 fc04c24ad9ee tuned proofs; wenzelm parents: 55814 diff changeset	1250	{
fc04c24ad9ee tuned proofs; wenzelm parents: 55814 diff changeset	1251	assume cp: "?c > 0" and jnz: "j \<noteq> 0"
fc04c24ad9ee tuned proofs; wenzelm parents: 55814 diff changeset	1252	then have l: "?L (?l (Dvd j a))"
23274 f997514ad8f4 New Reflected Presburger added to HOL/ex chaieb parents: 21404 diff changeset	1253	by (simp add: nb Let_def split_def)
55844 fc04c24ad9ee tuned proofs; wenzelm parents: 55814 diff changeset	1254	then have ?case
fc04c24ad9ee tuned proofs; wenzelm parents: 55814 diff changeset	1255	using Ia cp jnz by (simp add: Let_def split_def)
fc04c24ad9ee tuned proofs; wenzelm parents: 55814 diff changeset	1256	}
23274 f997514ad8f4 New Reflected Presburger added to HOL/ex chaieb parents: 21404 diff changeset	1257	moreover
55844 fc04c24ad9ee tuned proofs; wenzelm parents: 55814 diff changeset	1258	{
fc04c24ad9ee tuned proofs; wenzelm parents: 55814 diff changeset	1259	assume cn: "?c < 0" and jnz: "j \<noteq> 0"
fc04c24ad9ee tuned proofs; wenzelm parents: 55814 diff changeset	1260	then have l: "?L (?l (Dvd j a))"
23274 f997514ad8f4 New Reflected Presburger added to HOL/ex chaieb parents: 21404 diff changeset	1261	by (simp add: nb Let_def split_def)
55844 fc04c24ad9ee tuned proofs; wenzelm parents: 55814 diff changeset	1262	then have ?case
fc04c24ad9ee tuned proofs; wenzelm parents: 55814 diff changeset	1263	using Ia cn jnz dvd_minus_iff[of "abs j" "?c*i + ?N ?r"]
fc04c24ad9ee tuned proofs; wenzelm parents: 55814 diff changeset	1264	by (simp add: Let_def split_def)
fc04c24ad9ee tuned proofs; wenzelm parents: 55814 diff changeset	1265	}
23274 f997514ad8f4 New Reflected Presburger added to HOL/ex chaieb parents: 21404 diff changeset	1266	ultimately show ?case by blast
17378 105519771c67 The oracle for Presburger has been changer: It is automatically generated form a verified formaliztion of Cooper's Algorithm ex/Reflected_Presburger.thy chaieb parents: diff changeset	1267	next
50313 5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	1268	case (12 j a)
23274 f997514ad8f4 New Reflected Presburger added to HOL/ex chaieb parents: 21404 diff changeset	1269	let ?c = "fst (zsplit0 a)"
f997514ad8f4 New Reflected Presburger added to HOL/ex chaieb parents: 21404 diff changeset	1270	let ?r = "snd (zsplit0 a)"
55844 fc04c24ad9ee tuned proofs; wenzelm parents: 55814 diff changeset	1271	have spl: "zsplit0 a = (?c, ?r)"
fc04c24ad9ee tuned proofs; wenzelm parents: 55814 diff changeset	1272	by simp
50313 5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	1273	from zsplit0_I[OF spl, where x="i" and bs="bs"]
55844 fc04c24ad9ee tuned proofs; wenzelm parents: 55814 diff changeset	1274	have Ia:"Inum (i # bs) a = Inum (i #bs) (CN 0 ?c ?r)" and nb: "numbound0 ?r"
fc04c24ad9ee tuned proofs; wenzelm parents: 55814 diff changeset	1275	by auto
55964 acdde1a5faa0 tuned proofs; wenzelm parents: 55925 diff changeset	1276	let ?N = "\<lambda>t. Inum (i # bs) t"
55844 fc04c24ad9ee tuned proofs; wenzelm parents: 55814 diff changeset	1277	have "j = 0 \<or> (j \<noteq> 0 \<and> ?c = 0) \<or> (j \<noteq> 0 \<and> ?c > 0) \<or> (j \<noteq> 0 \<and> ?c < 0)"
fc04c24ad9ee tuned proofs; wenzelm parents: 55814 diff changeset	1278	by arith
23274 f997514ad8f4 New Reflected Presburger added to HOL/ex chaieb parents: 21404 diff changeset	1279	moreover
55844 fc04c24ad9ee tuned proofs; wenzelm parents: 55814 diff changeset	1280	{
fc04c24ad9ee tuned proofs; wenzelm parents: 55814 diff changeset	1281	assume "j = 0"
55964 acdde1a5faa0 tuned proofs; wenzelm parents: 55925 diff changeset	1282	then have z: "zlfm (NDvd j a) = zlfm (NEq a)"
55844 fc04c24ad9ee tuned proofs; wenzelm parents: 55814 diff changeset	1283	by (simp add: Let_def)
fc04c24ad9ee tuned proofs; wenzelm parents: 55814 diff changeset	1284	then have ?case
fc04c24ad9ee tuned proofs; wenzelm parents: 55814 diff changeset	1285	using assms 12 `j = 0` by (simp del: zlfm.simps)
fc04c24ad9ee tuned proofs; wenzelm parents: 55814 diff changeset	1286	}
23274 f997514ad8f4 New Reflected Presburger added to HOL/ex chaieb parents: 21404 diff changeset	1287	moreover
55844 fc04c24ad9ee tuned proofs; wenzelm parents: 55814 diff changeset	1288	{
fc04c24ad9ee tuned proofs; wenzelm parents: 55814 diff changeset	1289	assume "?c = 0" and "j \<noteq> 0"
fc04c24ad9ee tuned proofs; wenzelm parents: 55814 diff changeset	1290	then have ?case
29700 22faf21db3df added some simp rules nipkow parents: 29667 diff changeset	1291	using zsplit0_I[OF spl, where x="i" and bs="bs"]
50313 5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	1292	apply (auto simp add: Let_def split_def algebra_simps)
55844 fc04c24ad9ee tuned proofs; wenzelm parents: 55814 diff changeset	1293	apply (cases "?r")
fc04c24ad9ee tuned proofs; wenzelm parents: 55814 diff changeset	1294	apply auto
fc04c24ad9ee tuned proofs; wenzelm parents: 55814 diff changeset	1295	apply (case_tac nat)
fc04c24ad9ee tuned proofs; wenzelm parents: 55814 diff changeset	1296	apply auto
fc04c24ad9ee tuned proofs; wenzelm parents: 55814 diff changeset	1297	done
fc04c24ad9ee tuned proofs; wenzelm parents: 55814 diff changeset	1298	}
23274 f997514ad8f4 New Reflected Presburger added to HOL/ex chaieb parents: 21404 diff changeset	1299	moreover
55844 fc04c24ad9ee tuned proofs; wenzelm parents: 55814 diff changeset	1300	{
fc04c24ad9ee tuned proofs; wenzelm parents: 55814 diff changeset	1301	assume cp: "?c > 0" and jnz: "j \<noteq> 0"
fc04c24ad9ee tuned proofs; wenzelm parents: 55814 diff changeset	1302	then have l: "?L (?l (Dvd j a))"
23274 f997514ad8f4 New Reflected Presburger added to HOL/ex chaieb parents: 21404 diff changeset	1303	by (simp add: nb Let_def split_def)
55844 fc04c24ad9ee tuned proofs; wenzelm parents: 55814 diff changeset	1304	then have ?case using Ia cp jnz
fc04c24ad9ee tuned proofs; wenzelm parents: 55814 diff changeset	1305	by (simp add: Let_def split_def)
fc04c24ad9ee tuned proofs; wenzelm parents: 55814 diff changeset	1306	}
23274 f997514ad8f4 New Reflected Presburger added to HOL/ex chaieb parents: 21404 diff changeset	1307	moreover
55844 fc04c24ad9ee tuned proofs; wenzelm parents: 55814 diff changeset	1308	{
fc04c24ad9ee tuned proofs; wenzelm parents: 55814 diff changeset	1309	assume cn: "?c < 0" and jnz: "j \<noteq> 0"
fc04c24ad9ee tuned proofs; wenzelm parents: 55814 diff changeset	1310	then have l: "?L (?l (Dvd j a))"
23274 f997514ad8f4 New Reflected Presburger added to HOL/ex chaieb parents: 21404 diff changeset	1311	by (simp add: nb Let_def split_def)
55844 fc04c24ad9ee tuned proofs; wenzelm parents: 55814 diff changeset	1312	then have ?case
fc04c24ad9ee tuned proofs; wenzelm parents: 55814 diff changeset	1313	using Ia cn jnz dvd_minus_iff[of "abs j" "?c*i + ?N ?r"]
fc04c24ad9ee tuned proofs; wenzelm parents: 55814 diff changeset	1314	by (simp add: Let_def split_def)
fc04c24ad9ee tuned proofs; wenzelm parents: 55814 diff changeset	1315	}
23274 f997514ad8f4 New Reflected Presburger added to HOL/ex chaieb parents: 21404 diff changeset	1316	ultimately show ?case by blast
f997514ad8f4 New Reflected Presburger added to HOL/ex chaieb parents: 21404 diff changeset	1317	qed auto
f997514ad8f4 New Reflected Presburger added to HOL/ex chaieb parents: 21404 diff changeset	1318
50313 5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	1319	consts minusinf :: "fm \<Rightarrow> fm" -- {* Virtual substitution of @{text "-\<infinity>"} *}
23274 f997514ad8f4 New Reflected Presburger added to HOL/ex chaieb parents: 21404 diff changeset	1320	recdef minusinf "measure size"
50313 5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	1321	"minusinf (And p q) = And (minusinf p) (minusinf q)"
5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	1322	"minusinf (Or p q) = Or (minusinf p) (minusinf q)"
23995 c34490f1e0ff Updated proofs; changed shadow syntax to improve (processing) time chaieb parents: 23984 diff changeset	1323	"minusinf (Eq (CN 0 c e)) = F"
c34490f1e0ff Updated proofs; changed shadow syntax to improve (processing) time chaieb parents: 23984 diff changeset	1324	"minusinf (NEq (CN 0 c e)) = T"
c34490f1e0ff Updated proofs; changed shadow syntax to improve (processing) time chaieb parents: 23984 diff changeset	1325	"minusinf (Lt (CN 0 c e)) = T"
c34490f1e0ff Updated proofs; changed shadow syntax to improve (processing) time chaieb parents: 23984 diff changeset	1326	"minusinf (Le (CN 0 c e)) = T"
c34490f1e0ff Updated proofs; changed shadow syntax to improve (processing) time chaieb parents: 23984 diff changeset	1327	"minusinf (Gt (CN 0 c e)) = F"
c34490f1e0ff Updated proofs; changed shadow syntax to improve (processing) time chaieb parents: 23984 diff changeset	1328	"minusinf (Ge (CN 0 c e)) = F"
23274 f997514ad8f4 New Reflected Presburger added to HOL/ex chaieb parents: 21404 diff changeset	1329	"minusinf p = p"
f997514ad8f4 New Reflected Presburger added to HOL/ex chaieb parents: 21404 diff changeset	1330
f997514ad8f4 New Reflected Presburger added to HOL/ex chaieb parents: 21404 diff changeset	1331	lemma minusinf_qfree: "qfree p \<Longrightarrow> qfree (minusinf p)"
50313 5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	1332	by (induct p rule: minusinf.induct) auto
23274 f997514ad8f4 New Reflected Presburger added to HOL/ex chaieb parents: 21404 diff changeset	1333
50313 5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	1334	consts plusinf :: "fm \<Rightarrow> fm" -- {* Virtual substitution of @{text "+\<infinity>"} *}
23274 f997514ad8f4 New Reflected Presburger added to HOL/ex chaieb parents: 21404 diff changeset	1335	recdef plusinf "measure size"
50313 5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	1336	"plusinf (And p q) = And (plusinf p) (plusinf q)"
5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	1337	"plusinf (Or p q) = Or (plusinf p) (plusinf q)"
23995 c34490f1e0ff Updated proofs; changed shadow syntax to improve (processing) time chaieb parents: 23984 diff changeset	1338	"plusinf (Eq (CN 0 c e)) = F"
c34490f1e0ff Updated proofs; changed shadow syntax to improve (processing) time chaieb parents: 23984 diff changeset	1339	"plusinf (NEq (CN 0 c e)) = T"
c34490f1e0ff Updated proofs; changed shadow syntax to improve (processing) time chaieb parents: 23984 diff changeset	1340	"plusinf (Lt (CN 0 c e)) = F"
c34490f1e0ff Updated proofs; changed shadow syntax to improve (processing) time chaieb parents: 23984 diff changeset	1341	"plusinf (Le (CN 0 c e)) = F"
c34490f1e0ff Updated proofs; changed shadow syntax to improve (processing) time chaieb parents: 23984 diff changeset	1342	"plusinf (Gt (CN 0 c e)) = T"
c34490f1e0ff Updated proofs; changed shadow syntax to improve (processing) time chaieb parents: 23984 diff changeset	1343	"plusinf (Ge (CN 0 c e)) = T"
23274 f997514ad8f4 New Reflected Presburger added to HOL/ex chaieb parents: 21404 diff changeset	1344	"plusinf p = p"
f997514ad8f4 New Reflected Presburger added to HOL/ex chaieb parents: 21404 diff changeset	1345
53015 a1119cf551e8 standardized symbols via "isabelle update_sub_sup", excluding src/Pure and src/Tools/WWW_Find; wenzelm parents: 51272 diff changeset	1346	consts \<delta> :: "fm \<Rightarrow> int" -- {* Compute @{text "lcm {d\| N\<^sup>? Dvd cx+t \<in> p}"} }
23274 f997514ad8f4 New Reflected Presburger added to HOL/ex chaieb parents: 21404 diff changeset	1347	recdef \<delta> "measure size"
50313 5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	1348	"\<delta> (And p q) = lcm (\<delta> p) (\<delta> q)"
5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	1349	"\<delta> (Or p q) = lcm (\<delta> p) (\<delta> q)"
23995 c34490f1e0ff Updated proofs; changed shadow syntax to improve (processing) time chaieb parents: 23984 diff changeset	1350	"\<delta> (Dvd i (CN 0 c e)) = i"
c34490f1e0ff Updated proofs; changed shadow syntax to improve (processing) time chaieb parents: 23984 diff changeset	1351	"\<delta> (NDvd i (CN 0 c e)) = i"
23274 f997514ad8f4 New Reflected Presburger added to HOL/ex chaieb parents: 21404 diff changeset	1352	"\<delta> p = 1"
f997514ad8f4 New Reflected Presburger added to HOL/ex chaieb parents: 21404 diff changeset	1353
50313 5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	1354	consts d_\<delta> :: "fm \<Rightarrow> int \<Rightarrow> bool" -- {* check if a given l divides all the ds above *}
50252 4aa34bd43228 eliminated slightly odd identifiers; wenzelm parents: 49962 diff changeset	1355	recdef d_\<delta> "measure size"
50313 5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	1356	"d_\<delta> (And p q) = (\<lambda>d. d_\<delta> p d \<and> d_\<delta> q d)"
5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	1357	"d_\<delta> (Or p q) = (\<lambda>d. d_\<delta> p d \<and> d_\<delta> q d)"
5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	1358	"d_\<delta> (Dvd i (CN 0 c e)) = (\<lambda>d. i dvd d)"
5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	1359	"d_\<delta> (NDvd i (CN 0 c e)) = (\<lambda>d. i dvd d)"
5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	1360	"d_\<delta> p = (\<lambda>d. True)"
23274 f997514ad8f4 New Reflected Presburger added to HOL/ex chaieb parents: 21404 diff changeset	1361
50313 5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	1362	lemma delta_mono:
23274 f997514ad8f4 New Reflected Presburger added to HOL/ex chaieb parents: 21404 diff changeset	1363	assumes lin: "iszlfm p"
50313 5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	1364	and d: "d dvd d'"
5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	1365	and ad: "d_\<delta> p d"
50252 4aa34bd43228 eliminated slightly odd identifiers; wenzelm parents: 49962 diff changeset	1366	shows "d_\<delta> p d'"
55999 6477fc70cfa0 tuned proofs; wenzelm parents: 55981 diff changeset	1367	using lin ad
50313 5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	1368	proof (induct p rule: iszlfm.induct)
55844 fc04c24ad9ee tuned proofs; wenzelm parents: 55814 diff changeset	1369	case (9 i c e)
fc04c24ad9ee tuned proofs; wenzelm parents: 55814 diff changeset	1370	then show ?case using d
30042 31039ee583fa Removed subsumed lemmas nipkow parents: 29823 diff changeset	1371	by (simp add: dvd_trans[of "i" "d" "d'"])
17378 105519771c67 The oracle for Presburger has been changer: It is automatically generated form a verified formaliztion of Cooper's Algorithm ex/Reflected_Presburger.thy chaieb parents: diff changeset	1372	next
55844 fc04c24ad9ee tuned proofs; wenzelm parents: 55814 diff changeset	1373	case (10 i c e)
fc04c24ad9ee tuned proofs; wenzelm parents: 55814 diff changeset	1374	then show ?case using d
30042 31039ee583fa Removed subsumed lemmas nipkow parents: 29823 diff changeset	1375	by (simp add: dvd_trans[of "i" "d" "d'"])
23274 f997514ad8f4 New Reflected Presburger added to HOL/ex chaieb parents: 21404 diff changeset	1376	qed simp_all
17378 105519771c67 The oracle for Presburger has been changer: It is automatically generated form a verified formaliztion of Cooper's Algorithm ex/Reflected_Presburger.thy chaieb parents: diff changeset	1377
50313 5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	1378	lemma \<delta>:
55885 c871a2e751ec tuned proofs; wenzelm parents: 55844 diff changeset	1379	assumes lin: "iszlfm p"
50252 4aa34bd43228 eliminated slightly odd identifiers; wenzelm parents: 49962 diff changeset	1380	shows "d_\<delta> p (\<delta> p) \<and> \<delta> p >0"
50313 5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	1381	using lin
23274 f997514ad8f4 New Reflected Presburger added to HOL/ex chaieb parents: 21404 diff changeset	1382	proof (induct p rule: iszlfm.induct)
50313 5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	1383	case (1 p q)
23274 f997514ad8f4 New Reflected Presburger added to HOL/ex chaieb parents: 21404 diff changeset	1384	let ?d = "\<delta> (And p q)"
55844 fc04c24ad9ee tuned proofs; wenzelm parents: 55814 diff changeset	1385	from 1 lcm_pos_int have dp: "?d > 0"
fc04c24ad9ee tuned proofs; wenzelm parents: 55814 diff changeset	1386	by simp
fc04c24ad9ee tuned proofs; wenzelm parents: 55814 diff changeset	1387	have d1: "\<delta> p dvd \<delta> (And p q)"
fc04c24ad9ee tuned proofs; wenzelm parents: 55814 diff changeset	1388	using 1 by simp
fc04c24ad9ee tuned proofs; wenzelm parents: 55814 diff changeset	1389	then have th: "d_\<delta> p ?d"
fc04c24ad9ee tuned proofs; wenzelm parents: 55814 diff changeset	1390	using delta_mono 1(2,3) by (simp only: iszlfm.simps)
fc04c24ad9ee tuned proofs; wenzelm parents: 55814 diff changeset	1391	have "\<delta> q dvd \<delta> (And p q)"
fc04c24ad9ee tuned proofs; wenzelm parents: 55814 diff changeset	1392	using 1 by simp
fc04c24ad9ee tuned proofs; wenzelm parents: 55814 diff changeset	1393	then have th': "d_\<delta> q ?d"
fc04c24ad9ee tuned proofs; wenzelm parents: 55814 diff changeset	1394	using delta_mono 1 by (simp only: iszlfm.simps)
fc04c24ad9ee tuned proofs; wenzelm parents: 55814 diff changeset	1395	from th th' dp show ?case
fc04c24ad9ee tuned proofs; wenzelm parents: 55814 diff changeset	1396	by simp
23274 f997514ad8f4 New Reflected Presburger added to HOL/ex chaieb parents: 21404 diff changeset	1397	next
50313 5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	1398	case (2 p q)
23274 f997514ad8f4 New Reflected Presburger added to HOL/ex chaieb parents: 21404 diff changeset	1399	let ?d = "\<delta> (And p q)"
55844 fc04c24ad9ee tuned proofs; wenzelm parents: 55814 diff changeset	1400	from 2 lcm_pos_int have dp: "?d > 0"
fc04c24ad9ee tuned proofs; wenzelm parents: 55814 diff changeset	1401	by simp
fc04c24ad9ee tuned proofs; wenzelm parents: 55814 diff changeset	1402	have "\<delta> p dvd \<delta> (And p q)"
fc04c24ad9ee tuned proofs; wenzelm parents: 55814 diff changeset	1403	using 2 by simp
fc04c24ad9ee tuned proofs; wenzelm parents: 55814 diff changeset	1404	then have th: "d_\<delta> p ?d"
fc04c24ad9ee tuned proofs; wenzelm parents: 55814 diff changeset	1405	using delta_mono 2 by (simp only: iszlfm.simps)
fc04c24ad9ee tuned proofs; wenzelm parents: 55814 diff changeset	1406	have "\<delta> q dvd \<delta> (And p q)"
fc04c24ad9ee tuned proofs; wenzelm parents: 55814 diff changeset	1407	using 2 by simp
fc04c24ad9ee tuned proofs; wenzelm parents: 55814 diff changeset	1408	then have th': "d_\<delta> q ?d"
fc04c24ad9ee tuned proofs; wenzelm parents: 55814 diff changeset	1409	using delta_mono 2 by (simp only: iszlfm.simps)
fc04c24ad9ee tuned proofs; wenzelm parents: 55814 diff changeset	1410	from th th' dp show ?case
fc04c24ad9ee tuned proofs; wenzelm parents: 55814 diff changeset	1411	by simp
17378 105519771c67 The oracle for Presburger has been changer: It is automatically generated form a verified formaliztion of Cooper's Algorithm ex/Reflected_Presburger.thy chaieb parents: diff changeset	1412	qed simp_all
105519771c67 The oracle for Presburger has been changer: It is automatically generated form a verified formaliztion of Cooper's Algorithm ex/Reflected_Presburger.thy chaieb parents: diff changeset	1413
105519771c67 The oracle for Presburger has been changer: It is automatically generated form a verified formaliztion of Cooper's Algorithm ex/Reflected_Presburger.thy chaieb parents: diff changeset	1414
55921 22e9fc998d65 tuned proofs; wenzelm parents: 55885 diff changeset	1415	consts a_\<beta> :: "fm \<Rightarrow> int \<Rightarrow> fm" -- {* adjust the coefficients of a formula *}
50252 4aa34bd43228 eliminated slightly odd identifiers; wenzelm parents: 49962 diff changeset	1416	recdef a_\<beta> "measure size"
50313 5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	1417	"a_\<beta> (And p q) = (\<lambda>k. And (a_\<beta> p k) (a_\<beta> q k))"
5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	1418	"a_\<beta> (Or p q) = (\<lambda>k. Or (a_\<beta> p k) (a_\<beta> q k))"
5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	1419	"a_\<beta> (Eq (CN 0 c e)) = (\<lambda>k. Eq (CN 0 1 (Mul (k div c) e)))"
5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	1420	"a_\<beta> (NEq (CN 0 c e)) = (\<lambda>k. NEq (CN 0 1 (Mul (k div c) e)))"
5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	1421	"a_\<beta> (Lt (CN 0 c e)) = (\<lambda>k. Lt (CN 0 1 (Mul (k div c) e)))"
5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	1422	"a_\<beta> (Le (CN 0 c e)) = (\<lambda>k. Le (CN 0 1 (Mul (k div c) e)))"
5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	1423	"a_\<beta> (Gt (CN 0 c e)) = (\<lambda>k. Gt (CN 0 1 (Mul (k div c) e)))"
5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	1424	"a_\<beta> (Ge (CN 0 c e)) = (\<lambda>k. Ge (CN 0 1 (Mul (k div c) e)))"
5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	1425	"a_\<beta> (Dvd i (CN 0 c e)) =(\<lambda>k. Dvd ((k div c)*i) (CN 0 1 (Mul (k div c) e)))"
5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	1426	"a_\<beta> (NDvd i (CN 0 c e))=(\<lambda>k. NDvd ((k div c)*i) (CN 0 1 (Mul (k div c) e)))"
5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	1427	"a_\<beta> p = (\<lambda>k. p)"
17378 105519771c67 The oracle for Presburger has been changer: It is automatically generated form a verified formaliztion of Cooper's Algorithm ex/Reflected_Presburger.thy chaieb parents: diff changeset	1428
50313 5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	1429	consts d_\<beta> :: "fm \<Rightarrow> int \<Rightarrow> bool" -- {* test if all coeffs c of c divide a given l *}
50252 4aa34bd43228 eliminated slightly odd identifiers; wenzelm parents: 49962 diff changeset	1430	recdef d_\<beta> "measure size"
50313 5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	1431	"d_\<beta> (And p q) = (\<lambda>k. (d_\<beta> p k) \<and> (d_\<beta> q k))"
5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	1432	"d_\<beta> (Or p q) = (\<lambda>k. (d_\<beta> p k) \<and> (d_\<beta> q k))"
5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	1433	"d_\<beta> (Eq (CN 0 c e)) = (\<lambda>k. c dvd k)"
5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	1434	"d_\<beta> (NEq (CN 0 c e)) = (\<lambda>k. c dvd k)"
5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	1435	"d_\<beta> (Lt (CN 0 c e)) = (\<lambda>k. c dvd k)"
5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	1436	"d_\<beta> (Le (CN 0 c e)) = (\<lambda>k. c dvd k)"
5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	1437	"d_\<beta> (Gt (CN 0 c e)) = (\<lambda>k. c dvd k)"
5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	1438	"d_\<beta> (Ge (CN 0 c e)) = (\<lambda>k. c dvd k)"
5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	1439	"d_\<beta> (Dvd i (CN 0 c e)) =(\<lambda>k. c dvd k)"
5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	1440	"d_\<beta> (NDvd i (CN 0 c e))=(\<lambda>k. c dvd k)"
5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	1441	"d_\<beta> p = (\<lambda>k. True)"
17378 105519771c67 The oracle for Presburger has been changer: It is automatically generated form a verified formaliztion of Cooper's Algorithm ex/Reflected_Presburger.thy chaieb parents: diff changeset	1442
50313 5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	1443	consts \<zeta> :: "fm \<Rightarrow> int" -- {* computes the lcm of all coefficients of x *}
23274 f997514ad8f4 New Reflected Presburger added to HOL/ex chaieb parents: 21404 diff changeset	1444	recdef \<zeta> "measure size"
50313 5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	1445	"\<zeta> (And p q) = lcm (\<zeta> p) (\<zeta> q)"
5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	1446	"\<zeta> (Or p q) = lcm (\<zeta> p) (\<zeta> q)"
23995 c34490f1e0ff Updated proofs; changed shadow syntax to improve (processing) time chaieb parents: 23984 diff changeset	1447	"\<zeta> (Eq (CN 0 c e)) = c"
c34490f1e0ff Updated proofs; changed shadow syntax to improve (processing) time chaieb parents: 23984 diff changeset	1448	"\<zeta> (NEq (CN 0 c e)) = c"
c34490f1e0ff Updated proofs; changed shadow syntax to improve (processing) time chaieb parents: 23984 diff changeset	1449	"\<zeta> (Lt (CN 0 c e)) = c"
c34490f1e0ff Updated proofs; changed shadow syntax to improve (processing) time chaieb parents: 23984 diff changeset	1450	"\<zeta> (Le (CN 0 c e)) = c"
c34490f1e0ff Updated proofs; changed shadow syntax to improve (processing) time chaieb parents: 23984 diff changeset	1451	"\<zeta> (Gt (CN 0 c e)) = c"
c34490f1e0ff Updated proofs; changed shadow syntax to improve (processing) time chaieb parents: 23984 diff changeset	1452	"\<zeta> (Ge (CN 0 c e)) = c"
c34490f1e0ff Updated proofs; changed shadow syntax to improve (processing) time chaieb parents: 23984 diff changeset	1453	"\<zeta> (Dvd i (CN 0 c e)) = c"
c34490f1e0ff Updated proofs; changed shadow syntax to improve (processing) time chaieb parents: 23984 diff changeset	1454	"\<zeta> (NDvd i (CN 0 c e))= c"
23274 f997514ad8f4 New Reflected Presburger added to HOL/ex chaieb parents: 21404 diff changeset	1455	"\<zeta> p = 1"
17378 105519771c67 The oracle for Presburger has been changer: It is automatically generated form a verified formaliztion of Cooper's Algorithm ex/Reflected_Presburger.thy chaieb parents: diff changeset	1456
50313 5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	1457	consts \<beta> :: "fm \<Rightarrow> num list"
23274 f997514ad8f4 New Reflected Presburger added to HOL/ex chaieb parents: 21404 diff changeset	1458	recdef \<beta> "measure size"
50313 5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	1459	"\<beta> (And p q) = (\<beta> p @ \<beta> q)"
5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	1460	"\<beta> (Or p q) = (\<beta> p @ \<beta> q)"
23995 c34490f1e0ff Updated proofs; changed shadow syntax to improve (processing) time chaieb parents: 23984 diff changeset	1461	"\<beta> (Eq (CN 0 c e)) = [Sub (C -1) e]"
c34490f1e0ff Updated proofs; changed shadow syntax to improve (processing) time chaieb parents: 23984 diff changeset	1462	"\<beta> (NEq (CN 0 c e)) = [Neg e]"
c34490f1e0ff Updated proofs; changed shadow syntax to improve (processing) time chaieb parents: 23984 diff changeset	1463	"\<beta> (Lt (CN 0 c e)) = []"
c34490f1e0ff Updated proofs; changed shadow syntax to improve (processing) time chaieb parents: 23984 diff changeset	1464	"\<beta> (Le (CN 0 c e)) = []"
c34490f1e0ff Updated proofs; changed shadow syntax to improve (processing) time chaieb parents: 23984 diff changeset	1465	"\<beta> (Gt (CN 0 c e)) = [Neg e]"
c34490f1e0ff Updated proofs; changed shadow syntax to improve (processing) time chaieb parents: 23984 diff changeset	1466	"\<beta> (Ge (CN 0 c e)) = [Sub (C -1) e]"
23274 f997514ad8f4 New Reflected Presburger added to HOL/ex chaieb parents: 21404 diff changeset	1467	"\<beta> p = []"
19736 d8d0f8f51d69 tuned; wenzelm parents: 19623 diff changeset	1468
50313 5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	1469	consts \<alpha> :: "fm \<Rightarrow> num list"
23274 f997514ad8f4 New Reflected Presburger added to HOL/ex chaieb parents: 21404 diff changeset	1470	recdef \<alpha> "measure size"
55999 6477fc70cfa0 tuned proofs; wenzelm parents: 55981 diff changeset	1471	"\<alpha> (And p q) = \<alpha> p @ \<alpha> q"
6477fc70cfa0 tuned proofs; wenzelm parents: 55981 diff changeset	1472	"\<alpha> (Or p q) = \<alpha> p @ \<alpha> q"
23995 c34490f1e0ff Updated proofs; changed shadow syntax to improve (processing) time chaieb parents: 23984 diff changeset	1473	"\<alpha> (Eq (CN 0 c e)) = [Add (C -1) e]"
c34490f1e0ff Updated proofs; changed shadow syntax to improve (processing) time chaieb parents: 23984 diff changeset	1474	"\<alpha> (NEq (CN 0 c e)) = [e]"
c34490f1e0ff Updated proofs; changed shadow syntax to improve (processing) time chaieb parents: 23984 diff changeset	1475	"\<alpha> (Lt (CN 0 c e)) = [e]"
c34490f1e0ff Updated proofs; changed shadow syntax to improve (processing) time chaieb parents: 23984 diff changeset	1476	"\<alpha> (Le (CN 0 c e)) = [Add (C -1) e]"
c34490f1e0ff Updated proofs; changed shadow syntax to improve (processing) time chaieb parents: 23984 diff changeset	1477	"\<alpha> (Gt (CN 0 c e)) = []"
c34490f1e0ff Updated proofs; changed shadow syntax to improve (processing) time chaieb parents: 23984 diff changeset	1478	"\<alpha> (Ge (CN 0 c e)) = []"
23274 f997514ad8f4 New Reflected Presburger added to HOL/ex chaieb parents: 21404 diff changeset	1479	"\<alpha> p = []"
50313 5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	1480
23274 f997514ad8f4 New Reflected Presburger added to HOL/ex chaieb parents: 21404 diff changeset	1481	consts mirror :: "fm \<Rightarrow> fm"
f997514ad8f4 New Reflected Presburger added to HOL/ex chaieb parents: 21404 diff changeset	1482	recdef mirror "measure size"
50313 5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	1483	"mirror (And p q) = And (mirror p) (mirror q)"
5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	1484	"mirror (Or p q) = Or (mirror p) (mirror q)"
23995 c34490f1e0ff Updated proofs; changed shadow syntax to improve (processing) time chaieb parents: 23984 diff changeset	1485	"mirror (Eq (CN 0 c e)) = Eq (CN 0 c (Neg e))"
c34490f1e0ff Updated proofs; changed shadow syntax to improve (processing) time chaieb parents: 23984 diff changeset	1486	"mirror (NEq (CN 0 c e)) = NEq (CN 0 c (Neg e))"
c34490f1e0ff Updated proofs; changed shadow syntax to improve (processing) time chaieb parents: 23984 diff changeset	1487	"mirror (Lt (CN 0 c e)) = Gt (CN 0 c (Neg e))"
c34490f1e0ff Updated proofs; changed shadow syntax to improve (processing) time chaieb parents: 23984 diff changeset	1488	"mirror (Le (CN 0 c e)) = Ge (CN 0 c (Neg e))"
c34490f1e0ff Updated proofs; changed shadow syntax to improve (processing) time chaieb parents: 23984 diff changeset	1489	"mirror (Gt (CN 0 c e)) = Lt (CN 0 c (Neg e))"
c34490f1e0ff Updated proofs; changed shadow syntax to improve (processing) time chaieb parents: 23984 diff changeset	1490	"mirror (Ge (CN 0 c e)) = Le (CN 0 c (Neg e))"
c34490f1e0ff Updated proofs; changed shadow syntax to improve (processing) time chaieb parents: 23984 diff changeset	1491	"mirror (Dvd i (CN 0 c e)) = Dvd i (CN 0 c (Neg e))"
c34490f1e0ff Updated proofs; changed shadow syntax to improve (processing) time chaieb parents: 23984 diff changeset	1492	"mirror (NDvd i (CN 0 c e)) = NDvd i (CN 0 c (Neg e))"
23274 f997514ad8f4 New Reflected Presburger added to HOL/ex chaieb parents: 21404 diff changeset	1493	"mirror p = p"
50313 5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	1494
5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	1495	text {* Lemmas for the correctness of @{text "\<sigma>_\<rho>"} *}
5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	1496
55844 fc04c24ad9ee tuned proofs; wenzelm parents: 55814 diff changeset	1497	lemma dvd1_eq1:
fc04c24ad9ee tuned proofs; wenzelm parents: 55814 diff changeset	1498	fixes x :: int
fc04c24ad9ee tuned proofs; wenzelm parents: 55814 diff changeset	1499	shows "x > 0 \<Longrightarrow> x dvd 1 \<longleftrightarrow> x = 1"
41807 ab5d2d81f9fb tuned proofs -- eliminated prems; wenzelm parents: 41413 diff changeset	1500	by simp
17378 105519771c67 The oracle for Presburger has been changer: It is automatically generated form a verified formaliztion of Cooper's Algorithm ex/Reflected_Presburger.thy chaieb parents: diff changeset	1501
23274 f997514ad8f4 New Reflected Presburger added to HOL/ex chaieb parents: 21404 diff changeset	1502	lemma minusinf_inf:
f997514ad8f4 New Reflected Presburger added to HOL/ex chaieb parents: 21404 diff changeset	1503	assumes linp: "iszlfm p"
50313 5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	1504	and u: "d_\<beta> p 1"
55964 acdde1a5faa0 tuned proofs; wenzelm parents: 55925 diff changeset	1505	shows "\<exists>z::int. \<forall>x < z. Ifm bbs (x # bs) (minusinf p) = Ifm bbs (x # bs) p"
50313 5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	1506	(is "?P p" is "\<exists>(z::int). \<forall>x < z. ?I x (?M p) = ?I x p")
5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	1507	using linp u
23274 f997514ad8f4 New Reflected Presburger added to HOL/ex chaieb parents: 21404 diff changeset	1508	proof (induct p rule: minusinf.induct)
55844 fc04c24ad9ee tuned proofs; wenzelm parents: 55814 diff changeset	1509	case (1 p q)
fc04c24ad9ee tuned proofs; wenzelm parents: 55814 diff changeset	1510	then show ?case
55964 acdde1a5faa0 tuned proofs; wenzelm parents: 55925 diff changeset	1511	by auto (rule_tac x = "min z za" in exI, simp)
23274 f997514ad8f4 New Reflected Presburger added to HOL/ex chaieb parents: 21404 diff changeset	1512	next
55844 fc04c24ad9ee tuned proofs; wenzelm parents: 55814 diff changeset	1513	case (2 p q)
fc04c24ad9ee tuned proofs; wenzelm parents: 55814 diff changeset	1514	then show ?case
55964 acdde1a5faa0 tuned proofs; wenzelm parents: 55925 diff changeset	1515	by auto (rule_tac x = "min z za" in exI, simp)
17378 105519771c67 The oracle for Presburger has been changer: It is automatically generated form a verified formaliztion of Cooper's Algorithm ex/Reflected_Presburger.thy chaieb parents: diff changeset	1516	next
55844 fc04c24ad9ee tuned proofs; wenzelm parents: 55814 diff changeset	1517	case (3 c e)
fc04c24ad9ee tuned proofs; wenzelm parents: 55814 diff changeset	1518	then have c1: "c = 1" and nb: "numbound0 e"
fc04c24ad9ee tuned proofs; wenzelm parents: 55814 diff changeset	1519	by simp_all
26934 c1ae80a58341 avoid undeclared variables within proofs; wenzelm parents: 25592 diff changeset	1520	fix a
55999 6477fc70cfa0 tuned proofs; wenzelm parents: 55981 diff changeset	1521	from 3 have "\<forall>x<(- Inum (a # bs) e). c * x + Inum (x # bs) e \<noteq> 0"
55844 fc04c24ad9ee tuned proofs; wenzelm parents: 55814 diff changeset	1522	proof clarsimp
fc04c24ad9ee tuned proofs; wenzelm parents: 55814 diff changeset	1523	fix x
55999 6477fc70cfa0 tuned proofs; wenzelm parents: 55981 diff changeset	1524	assume "x < (- Inum (a # bs) e)" and "x + Inum (x # bs) e = 0"
23274 f997514ad8f4 New Reflected Presburger added to HOL/ex chaieb parents: 21404 diff changeset	1525	with numbound0_I[OF nb, where bs="bs" and b="a" and b'="x"]
55844 fc04c24ad9ee tuned proofs; wenzelm parents: 55814 diff changeset	1526	show False by simp
23274 f997514ad8f4 New Reflected Presburger added to HOL/ex chaieb parents: 21404 diff changeset	1527	qed
55844 fc04c24ad9ee tuned proofs; wenzelm parents: 55814 diff changeset	1528	then show ?case by auto
17378 105519771c67 The oracle for Presburger has been changer: It is automatically generated form a verified formaliztion of Cooper's Algorithm ex/Reflected_Presburger.thy chaieb parents: diff changeset	1529	next
55844 fc04c24ad9ee tuned proofs; wenzelm parents: 55814 diff changeset	1530	case (4 c e)
fc04c24ad9ee tuned proofs; wenzelm parents: 55814 diff changeset	1531	then have c1: "c = 1" and nb: "numbound0 e"
fc04c24ad9ee tuned proofs; wenzelm parents: 55814 diff changeset	1532	by simp_all
26934 c1ae80a58341 avoid undeclared variables within proofs; wenzelm parents: 25592 diff changeset	1533	fix a
55964 acdde1a5faa0 tuned proofs; wenzelm parents: 55925 diff changeset	1534	from 4 have "\<forall>x < (- Inum (a # bs) e). c * x + Inum (x # bs) e \<noteq> 0"
55921 22e9fc998d65 tuned proofs; wenzelm parents: 55885 diff changeset	1535	proof clarsimp
22e9fc998d65 tuned proofs; wenzelm parents: 55885 diff changeset	1536	fix x
55964 acdde1a5faa0 tuned proofs; wenzelm parents: 55925 diff changeset	1537	assume "x < (- Inum (a # bs) e)" and "x + Inum (x # bs) e = 0"
23274 f997514ad8f4 New Reflected Presburger added to HOL/ex chaieb parents: 21404 diff changeset	1538	with numbound0_I[OF nb, where bs="bs" and b="a" and b'="x"]
f997514ad8f4 New Reflected Presburger added to HOL/ex chaieb parents: 21404 diff changeset	1539	show "False" by simp
f997514ad8f4 New Reflected Presburger added to HOL/ex chaieb parents: 21404 diff changeset	1540	qed
55885 c871a2e751ec tuned proofs; wenzelm parents: 55844 diff changeset	1541	then show ?case by auto
17378 105519771c67 The oracle for Presburger has been changer: It is automatically generated form a verified formaliztion of Cooper's Algorithm ex/Reflected_Presburger.thy chaieb parents: diff changeset	1542	next
55921 22e9fc998d65 tuned proofs; wenzelm parents: 55885 diff changeset	1543	case (5 c e)
22e9fc998d65 tuned proofs; wenzelm parents: 55885 diff changeset	1544	then have c1: "c = 1" and nb: "numbound0 e"
22e9fc998d65 tuned proofs; wenzelm parents: 55885 diff changeset	1545	by simp_all
26934 c1ae80a58341 avoid undeclared variables within proofs; wenzelm parents: 25592 diff changeset	1546	fix a
55999 6477fc70cfa0 tuned proofs; wenzelm parents: 55981 diff changeset	1547	from 5 have "\<forall>x<(- Inum (a # bs) e). c * x + Inum (x # bs) e < 0"
55921 22e9fc998d65 tuned proofs; wenzelm parents: 55885 diff changeset	1548	proof clarsimp
22e9fc998d65 tuned proofs; wenzelm parents: 55885 diff changeset	1549	fix x
55964 acdde1a5faa0 tuned proofs; wenzelm parents: 55925 diff changeset	1550	assume "x < (- Inum (a # bs) e)"
23274 f997514ad8f4 New Reflected Presburger added to HOL/ex chaieb parents: 21404 diff changeset	1551	with numbound0_I[OF nb, where bs="bs" and b="a" and b'="x"]
55921 22e9fc998d65 tuned proofs; wenzelm parents: 55885 diff changeset	1552	show "x + Inum (x # bs) e < 0"
22e9fc998d65 tuned proofs; wenzelm parents: 55885 diff changeset	1553	by simp
23274 f997514ad8f4 New Reflected Presburger added to HOL/ex chaieb parents: 21404 diff changeset	1554	qed
55885 c871a2e751ec tuned proofs; wenzelm parents: 55844 diff changeset	1555	then show ?case by auto
23274 f997514ad8f4 New Reflected Presburger added to HOL/ex chaieb parents: 21404 diff changeset	1556	next
55921 22e9fc998d65 tuned proofs; wenzelm parents: 55885 diff changeset	1557	case (6 c e)
22e9fc998d65 tuned proofs; wenzelm parents: 55885 diff changeset	1558	then have c1: "c = 1" and nb: "numbound0 e"
22e9fc998d65 tuned proofs; wenzelm parents: 55885 diff changeset	1559	by simp_all
26934 c1ae80a58341 avoid undeclared variables within proofs; wenzelm parents: 25592 diff changeset	1560	fix a
55964 acdde1a5faa0 tuned proofs; wenzelm parents: 55925 diff changeset	1561	from 6 have "\<forall>x<(- Inum (a # bs) e). c * x + Inum (x # bs) e \<le> 0"
55921 22e9fc998d65 tuned proofs; wenzelm parents: 55885 diff changeset	1562	proof clarsimp
22e9fc998d65 tuned proofs; wenzelm parents: 55885 diff changeset	1563	fix x
55964 acdde1a5faa0 tuned proofs; wenzelm parents: 55925 diff changeset	1564	assume "x < (- Inum (a # bs) e)"
23274 f997514ad8f4 New Reflected Presburger added to HOL/ex chaieb parents: 21404 diff changeset	1565	with numbound0_I[OF nb, where bs="bs" and b="a" and b'="x"]
55964 acdde1a5faa0 tuned proofs; wenzelm parents: 55925 diff changeset	1566	show "x + Inum (x # bs) e \<le> 0" by simp
23274 f997514ad8f4 New Reflected Presburger added to HOL/ex chaieb parents: 21404 diff changeset	1567	qed
55885 c871a2e751ec tuned proofs; wenzelm parents: 55844 diff changeset	1568	then show ?case by auto
23274 f997514ad8f4 New Reflected Presburger added to HOL/ex chaieb parents: 21404 diff changeset	1569	next
55921 22e9fc998d65 tuned proofs; wenzelm parents: 55885 diff changeset	1570	case (7 c e)
22e9fc998d65 tuned proofs; wenzelm parents: 55885 diff changeset	1571	then have c1: "c = 1" and nb: "numbound0 e"
22e9fc998d65 tuned proofs; wenzelm parents: 55885 diff changeset	1572	by simp_all
26934 c1ae80a58341 avoid undeclared variables within proofs; wenzelm parents: 25592 diff changeset	1573	fix a
55964 acdde1a5faa0 tuned proofs; wenzelm parents: 55925 diff changeset	1574	from 7 have "\<forall>x<(- Inum (a # bs) e). \<not> (c * x + Inum (x # bs) e > 0)"
55921 22e9fc998d65 tuned proofs; wenzelm parents: 55885 diff changeset	1575	proof clarsimp
22e9fc998d65 tuned proofs; wenzelm parents: 55885 diff changeset	1576	fix x
55964 acdde1a5faa0 tuned proofs; wenzelm parents: 55925 diff changeset	1577	assume "x < - Inum (a # bs) e" and "x + Inum (x # bs) e > 0"
23274 f997514ad8f4 New Reflected Presburger added to HOL/ex chaieb parents: 21404 diff changeset	1578	with numbound0_I[OF nb, where bs="bs" and b="a" and b'="x"]
55921 22e9fc998d65 tuned proofs; wenzelm parents: 55885 diff changeset	1579	show False by simp
23274 f997514ad8f4 New Reflected Presburger added to HOL/ex chaieb parents: 21404 diff changeset	1580	qed
55885 c871a2e751ec tuned proofs; wenzelm parents: 55844 diff changeset	1581	then show ?case by auto
23274 f997514ad8f4 New Reflected Presburger added to HOL/ex chaieb parents: 21404 diff changeset	1582	next
55921 22e9fc998d65 tuned proofs; wenzelm parents: 55885 diff changeset	1583	case (8 c e)
22e9fc998d65 tuned proofs; wenzelm parents: 55885 diff changeset	1584	then have c1: "c = 1" and nb: "numbound0 e"
22e9fc998d65 tuned proofs; wenzelm parents: 55885 diff changeset	1585	by simp_all
26934 c1ae80a58341 avoid undeclared variables within proofs; wenzelm parents: 25592 diff changeset	1586	fix a
55999 6477fc70cfa0 tuned proofs; wenzelm parents: 55981 diff changeset	1587	from 8 have "\<forall>x<(- Inum (a # bs) e). \<not> c * x + Inum (x # bs) e \<ge> 0"
55921 22e9fc998d65 tuned proofs; wenzelm parents: 55885 diff changeset	1588	proof clarsimp
22e9fc998d65 tuned proofs; wenzelm parents: 55885 diff changeset	1589	fix x
55999 6477fc70cfa0 tuned proofs; wenzelm parents: 55981 diff changeset	1590	assume "x < (- Inum (a # bs) e)" and "x + Inum (x # bs) e \<ge> 0"
23274 f997514ad8f4 New Reflected Presburger added to HOL/ex chaieb parents: 21404 diff changeset	1591	with numbound0_I[OF nb, where bs="bs" and b="a" and b'="x"]
55921 22e9fc998d65 tuned proofs; wenzelm parents: 55885 diff changeset	1592	show False by simp
23274 f997514ad8f4 New Reflected Presburger added to HOL/ex chaieb parents: 21404 diff changeset	1593	qed
55885 c871a2e751ec tuned proofs; wenzelm parents: 55844 diff changeset	1594	then show ?case by auto
23274 f997514ad8f4 New Reflected Presburger added to HOL/ex chaieb parents: 21404 diff changeset	1595	qed auto
17378 105519771c67 The oracle for Presburger has been changer: It is automatically generated form a verified formaliztion of Cooper's Algorithm ex/Reflected_Presburger.thy chaieb parents: diff changeset	1596
23274 f997514ad8f4 New Reflected Presburger added to HOL/ex chaieb parents: 21404 diff changeset	1597	lemma minusinf_repeats:
55921 22e9fc998d65 tuned proofs; wenzelm parents: 55885 diff changeset	1598	assumes d: "d_\<delta> p d"
22e9fc998d65 tuned proofs; wenzelm parents: 55885 diff changeset	1599	and linp: "iszlfm p"
22e9fc998d65 tuned proofs; wenzelm parents: 55885 diff changeset	1600	shows "Ifm bbs ((x - k * d) # bs) (minusinf p) = Ifm bbs (x # bs) (minusinf p)"
50313 5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	1601	using linp d
5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	1602	proof (induct p rule: iszlfm.induct)
5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	1603	case (9 i c e)
55921 22e9fc998d65 tuned proofs; wenzelm parents: 55885 diff changeset	1604	then have nbe: "numbound0 e" and id: "i dvd d"
22e9fc998d65 tuned proofs; wenzelm parents: 55885 diff changeset	1605	by simp_all
22e9fc998d65 tuned proofs; wenzelm parents: 55885 diff changeset	1606	then have "\<exists>k. d = i * k"
22e9fc998d65 tuned proofs; wenzelm parents: 55885 diff changeset	1607	by (simp add: dvd_def)
22e9fc998d65 tuned proofs; wenzelm parents: 55885 diff changeset	1608	then obtain "di" where di_def: "d = i * di"
22e9fc998d65 tuned proofs; wenzelm parents: 55885 diff changeset	1609	by blast
50313 5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	1610	show ?case
5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	1611	proof (simp add: numbound0_I[OF nbe,where bs="bs" and b="x - k * d" and b'="x"] right_diff_distrib,
5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	1612	rule iffI)
55921 22e9fc998d65 tuned proofs; wenzelm parents: 55885 diff changeset	1613	assume "i dvd c * x - c * (k * d) + Inum (x # bs) e"
55999 6477fc70cfa0 tuned proofs; wenzelm parents: 55981 diff changeset	1614	(is "?ri dvd ?rc * ?rx - ?rc * (?rk * ?rd) + ?I x e" is "?ri dvd ?rt")
55921 22e9fc998d65 tuned proofs; wenzelm parents: 55885 diff changeset	1615	then have "\<exists>l::int. ?rt = i * l"
22e9fc998d65 tuned proofs; wenzelm parents: 55885 diff changeset	1616	by (simp add: dvd_def)
55964 acdde1a5faa0 tuned proofs; wenzelm parents: 55925 diff changeset	1617	then have "\<exists>l::int. c * x + ?I x e = i * l + c * (k * i * di)"
50313 5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	1618	by (simp add: algebra_simps di_def)
55964 acdde1a5faa0 tuned proofs; wenzelm parents: 55925 diff changeset	1619	then have "\<exists>l::int. c * x + ?I x e = i* (l + c * k * di)"
50313 5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	1620	by (simp add: algebra_simps)
55921 22e9fc998d65 tuned proofs; wenzelm parents: 55885 diff changeset	1621	then have "\<exists>l::int. c * x + ?I x e = i * l"
22e9fc998d65 tuned proofs; wenzelm parents: 55885 diff changeset	1622	by blast
22e9fc998d65 tuned proofs; wenzelm parents: 55885 diff changeset	1623	then show "i dvd c * x + Inum (x # bs) e"
22e9fc998d65 tuned proofs; wenzelm parents: 55885 diff changeset	1624	by (simp add: dvd_def)
50313 5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	1625	next
55964 acdde1a5faa0 tuned proofs; wenzelm parents: 55925 diff changeset	1626	assume "i dvd c * x + Inum (x # bs) e" (is "?ri dvd ?rc * ?rx + ?e")
55921 22e9fc998d65 tuned proofs; wenzelm parents: 55885 diff changeset	1627	then have "\<exists>l::int. c * x + ?e = i * l"
22e9fc998d65 tuned proofs; wenzelm parents: 55885 diff changeset	1628	by (simp add: dvd_def)
22e9fc998d65 tuned proofs; wenzelm parents: 55885 diff changeset	1629	then have "\<exists>l::int. c * x - c * (k * d) + ?e = i * l - c * (k * d)"
22e9fc998d65 tuned proofs; wenzelm parents: 55885 diff changeset	1630	by simp
22e9fc998d65 tuned proofs; wenzelm parents: 55885 diff changeset	1631	then have "\<exists>l::int. c * x - c * (k * d) + ?e = i * l - c * (k * i * di)"
22e9fc998d65 tuned proofs; wenzelm parents: 55885 diff changeset	1632	by (simp add: di_def)
55964 acdde1a5faa0 tuned proofs; wenzelm parents: 55925 diff changeset	1633	then have "\<exists>l::int. c * x - c * (k * d) + ?e = i * (l - c * k * di)"
55921 22e9fc998d65 tuned proofs; wenzelm parents: 55885 diff changeset	1634	by (simp add: algebra_simps)
22e9fc998d65 tuned proofs; wenzelm parents: 55885 diff changeset	1635	then have "\<exists>l::int. c * x - c * (k * d) + ?e = i * l"
22e9fc998d65 tuned proofs; wenzelm parents: 55885 diff changeset	1636	by blast
22e9fc998d65 tuned proofs; wenzelm parents: 55885 diff changeset	1637	then show "i dvd c * x - c * (k * d) + Inum (x # bs) e"
22e9fc998d65 tuned proofs; wenzelm parents: 55885 diff changeset	1638	by (simp add: dvd_def)
50313 5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	1639	qed
23274 f997514ad8f4 New Reflected Presburger added to HOL/ex chaieb parents: 21404 diff changeset	1640	next
50313 5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	1641	case (10 i c e)
55921 22e9fc998d65 tuned proofs; wenzelm parents: 55885 diff changeset	1642	then have nbe: "numbound0 e" and id: "i dvd d"
22e9fc998d65 tuned proofs; wenzelm parents: 55885 diff changeset	1643	by simp_all
22e9fc998d65 tuned proofs; wenzelm parents: 55885 diff changeset	1644	then have "\<exists>k. d = i * k"
22e9fc998d65 tuned proofs; wenzelm parents: 55885 diff changeset	1645	by (simp add: dvd_def)
22e9fc998d65 tuned proofs; wenzelm parents: 55885 diff changeset	1646	then obtain di where di_def: "d = i * di"
22e9fc998d65 tuned proofs; wenzelm parents: 55885 diff changeset	1647	by blast
50313 5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	1648	show ?case
55999 6477fc70cfa0 tuned proofs; wenzelm parents: 55981 diff changeset	1649	proof (simp add: numbound0_I[OF nbe,where bs="bs" and b="x - k * d" and b'="x"] right_diff_distrib,
6477fc70cfa0 tuned proofs; wenzelm parents: 55981 diff changeset	1650	rule iffI)
55921 22e9fc998d65 tuned proofs; wenzelm parents: 55885 diff changeset	1651	assume "i dvd c * x - c * (k * d) + Inum (x # bs) e"
55999 6477fc70cfa0 tuned proofs; wenzelm parents: 55981 diff changeset	1652	(is "?ri dvd ?rc * ?rx - ?rc * (?rk * ?rd) + ?I x e" is "?ri dvd ?rt")
55921 22e9fc998d65 tuned proofs; wenzelm parents: 55885 diff changeset	1653	then have "\<exists>l::int. ?rt = i * l"
22e9fc998d65 tuned proofs; wenzelm parents: 55885 diff changeset	1654	by (simp add: dvd_def)
22e9fc998d65 tuned proofs; wenzelm parents: 55885 diff changeset	1655	then have "\<exists>l::int. c * x + ?I x e = i * l + c * (k * i * di)"
50313 5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	1656	by (simp add: algebra_simps di_def)
55921 22e9fc998d65 tuned proofs; wenzelm parents: 55885 diff changeset	1657	then have "\<exists>l::int. c * x+ ?I x e = i * (l + c * k * di)"
50313 5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	1658	by (simp add: algebra_simps)
55921 22e9fc998d65 tuned proofs; wenzelm parents: 55885 diff changeset	1659	then have "\<exists>l::int. c * x + ?I x e = i * l"
22e9fc998d65 tuned proofs; wenzelm parents: 55885 diff changeset	1660	by blast
22e9fc998d65 tuned proofs; wenzelm parents: 55885 diff changeset	1661	then show "i dvd c * x + Inum (x # bs) e"
22e9fc998d65 tuned proofs; wenzelm parents: 55885 diff changeset	1662	by (simp add: dvd_def)
50313 5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	1663	next
55921 22e9fc998d65 tuned proofs; wenzelm parents: 55885 diff changeset	1664	assume "i dvd c * x + Inum (x # bs) e" (is "?ri dvd ?rc * ?rx + ?e")
22e9fc998d65 tuned proofs; wenzelm parents: 55885 diff changeset	1665	then have "\<exists>l::int. c * x + ?e = i * l"
22e9fc998d65 tuned proofs; wenzelm parents: 55885 diff changeset	1666	by (simp add: dvd_def)
22e9fc998d65 tuned proofs; wenzelm parents: 55885 diff changeset	1667	then have "\<exists>l::int. c * x - c * (k * d) + ?e = i * l - c * (k * d)"
22e9fc998d65 tuned proofs; wenzelm parents: 55885 diff changeset	1668	by simp
22e9fc998d65 tuned proofs; wenzelm parents: 55885 diff changeset	1669	then have "\<exists>l::int. c * x - c * (k * d) + ?e = i * l - c * (k * i * di)"
22e9fc998d65 tuned proofs; wenzelm parents: 55885 diff changeset	1670	by (simp add: di_def)
55999 6477fc70cfa0 tuned proofs; wenzelm parents: 55981 diff changeset	1671	then have "\<exists>l::int. c * x - c * (k * d) + ?e = i * (l - c * k * di)"
55921 22e9fc998d65 tuned proofs; wenzelm parents: 55885 diff changeset	1672	by (simp add: algebra_simps)
22e9fc998d65 tuned proofs; wenzelm parents: 55885 diff changeset	1673	then have "\<exists>l::int. c * x - c * (k * d) + ?e = i * l"
50313 5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	1674	by blast
55921 22e9fc998d65 tuned proofs; wenzelm parents: 55885 diff changeset	1675	then show "i dvd c * x - c * (k * d) + Inum (x # bs) e"
22e9fc998d65 tuned proofs; wenzelm parents: 55885 diff changeset	1676	by (simp add: dvd_def)
50313 5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	1677	qed
23689 0410269099dc replaced code generator framework for reflected cooper haftmann parents: 23515 diff changeset	1678	qed (auto simp add: gr0_conv_Suc numbound0_I[where bs="bs" and b="x - k*d" and b'="x"])
17378 105519771c67 The oracle for Presburger has been changer: It is automatically generated form a verified formaliztion of Cooper's Algorithm ex/Reflected_Presburger.thy chaieb parents: diff changeset	1679
50252 4aa34bd43228 eliminated slightly odd identifiers; wenzelm parents: 49962 diff changeset	1680	lemma mirror_\<alpha>_\<beta>:
23274 f997514ad8f4 New Reflected Presburger added to HOL/ex chaieb parents: 21404 diff changeset	1681	assumes lp: "iszlfm p"
55964 acdde1a5faa0 tuned proofs; wenzelm parents: 55925 diff changeset	1682	shows "Inum (i # bs) ` set (\<alpha> p) = Inum (i # bs) ` set (\<beta> (mirror p))"
50313 5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	1683	using lp by (induct p rule: mirror.induct) auto
17378 105519771c67 The oracle for Presburger has been changer: It is automatically generated form a verified formaliztion of Cooper's Algorithm ex/Reflected_Presburger.thy chaieb parents: diff changeset	1684
50313 5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	1685	lemma mirror:
23274 f997514ad8f4 New Reflected Presburger added to HOL/ex chaieb parents: 21404 diff changeset	1686	assumes lp: "iszlfm p"
55921 22e9fc998d65 tuned proofs; wenzelm parents: 55885 diff changeset	1687	shows "Ifm bbs (x # bs) (mirror p) = Ifm bbs ((- x) # bs) p"
50313 5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	1688	using lp
5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	1689	proof (induct p rule: iszlfm.induct)
5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	1690	case (9 j c e)
55964 acdde1a5faa0 tuned proofs; wenzelm parents: 55925 diff changeset	1691	then have nb: "numbound0 e"
acdde1a5faa0 tuned proofs; wenzelm parents: 55925 diff changeset	1692	by simp
acdde1a5faa0 tuned proofs; wenzelm parents: 55925 diff changeset	1693	have "Ifm bbs (x # bs) (mirror (Dvd j (CN 0 c e))) \<longleftrightarrow> j dvd c * x - Inum (x # bs) e"
50313 5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	1694	(is "_ = (j dvd c*x - ?e)") by simp
55964 acdde1a5faa0 tuned proofs; wenzelm parents: 55925 diff changeset	1695	also have "\<dots> \<longleftrightarrow> j dvd (- (c * x - ?e))"
30042 31039ee583fa Removed subsumed lemmas nipkow parents: 29823 diff changeset	1696	by (simp only: dvd_minus_iff)
55964 acdde1a5faa0 tuned proofs; wenzelm parents: 55925 diff changeset	1697	also have "\<dots> \<longleftrightarrow> j dvd (c * (- x)) + ?e"
57514 bdc2c6b40bf2 prefer ac_simps collections over separate name bindings for add and mult haftmann parents: 55999 diff changeset	1698	by (simp only: minus_mult_right[symmetric] minus_mult_left[symmetric] ac_simps minus_add_distrib)
54230 b1d955791529 more simplification rules on unary and binary minus haftmann parents: 53168 diff changeset	1699	(simp add: algebra_simps)
55964 acdde1a5faa0 tuned proofs; wenzelm parents: 55925 diff changeset	1700	also have "\<dots> = Ifm bbs ((- x) # bs) (Dvd j (CN 0 c e))"
50313 5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	1701	using numbound0_I[OF nb, where bs="bs" and b="x" and b'="- x"] by simp
23274 f997514ad8f4 New Reflected Presburger added to HOL/ex chaieb parents: 21404 diff changeset	1702	finally show ?case .
f997514ad8f4 New Reflected Presburger added to HOL/ex chaieb parents: 21404 diff changeset	1703	next
55964 acdde1a5faa0 tuned proofs; wenzelm parents: 55925 diff changeset	1704	case (10 j c e)
acdde1a5faa0 tuned proofs; wenzelm parents: 55925 diff changeset	1705	then have nb: "numbound0 e"
acdde1a5faa0 tuned proofs; wenzelm parents: 55925 diff changeset	1706	by simp
acdde1a5faa0 tuned proofs; wenzelm parents: 55925 diff changeset	1707	have "Ifm bbs (x # bs) (mirror (Dvd j (CN 0 c e))) \<longleftrightarrow> j dvd c * x - Inum (x # bs) e"
acdde1a5faa0 tuned proofs; wenzelm parents: 55925 diff changeset	1708	(is "_ = (j dvd c * x - ?e)") by simp
acdde1a5faa0 tuned proofs; wenzelm parents: 55925 diff changeset	1709	also have "\<dots> \<longleftrightarrow> j dvd (- (c * x - ?e))"
30042 31039ee583fa Removed subsumed lemmas nipkow parents: 29823 diff changeset	1710	by (simp only: dvd_minus_iff)
55964 acdde1a5faa0 tuned proofs; wenzelm parents: 55925 diff changeset	1711	also have "\<dots> \<longleftrightarrow> j dvd (c * (- x)) + ?e"
57514 bdc2c6b40bf2 prefer ac_simps collections over separate name bindings for add and mult haftmann parents: 55999 diff changeset	1712	by (simp only: minus_mult_right[symmetric] minus_mult_left[symmetric] ac_simps minus_add_distrib)
54230 b1d955791529 more simplification rules on unary and binary minus haftmann parents: 53168 diff changeset	1713	(simp add: algebra_simps)
55964 acdde1a5faa0 tuned proofs; wenzelm parents: 55925 diff changeset	1714	also have "\<dots> \<longleftrightarrow> Ifm bbs ((- x) # bs) (Dvd j (CN 0 c e))"
50313 5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	1715	using numbound0_I[OF nb, where bs="bs" and b="x" and b'="- x"] by simp
23274 f997514ad8f4 New Reflected Presburger added to HOL/ex chaieb parents: 21404 diff changeset	1716	finally show ?case by simp
23689 0410269099dc replaced code generator framework for reflected cooper haftmann parents: 23515 diff changeset	1717	qed (auto simp add: numbound0_I[where bs="bs" and b="x" and b'="- x"] gr0_conv_Suc)
17378 105519771c67 The oracle for Presburger has been changer: It is automatically generated form a verified formaliztion of Cooper's Algorithm ex/Reflected_Presburger.thy chaieb parents: diff changeset	1718
50313 5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	1719	lemma mirror_l: "iszlfm p \<and> d_\<beta> p 1 \<Longrightarrow> iszlfm (mirror p) \<and> d_\<beta> (mirror p) 1"
41807 ab5d2d81f9fb tuned proofs -- eliminated prems; wenzelm parents: 41413 diff changeset	1720	by (induct p rule: mirror.induct) auto
17378 105519771c67 The oracle for Presburger has been changer: It is automatically generated form a verified formaliztion of Cooper's Algorithm ex/Reflected_Presburger.thy chaieb parents: diff changeset	1721
23274 f997514ad8f4 New Reflected Presburger added to HOL/ex chaieb parents: 21404 diff changeset	1722	lemma mirror_\<delta>: "iszlfm p \<Longrightarrow> \<delta> (mirror p) = \<delta> p"
41807 ab5d2d81f9fb tuned proofs -- eliminated prems; wenzelm parents: 41413 diff changeset	1723	by (induct p rule: mirror.induct) auto
23274 f997514ad8f4 New Reflected Presburger added to HOL/ex chaieb parents: 21404 diff changeset	1724
50313 5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	1725	lemma \<beta>_numbound0:
5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	1726	assumes lp: "iszlfm p"
55964 acdde1a5faa0 tuned proofs; wenzelm parents: 55925 diff changeset	1727	shows "\<forall>b \<in> set (\<beta> p). numbound0 b"
41807 ab5d2d81f9fb tuned proofs -- eliminated prems; wenzelm parents: 41413 diff changeset	1728	using lp by (induct p rule: \<beta>.induct) auto
17378 105519771c67 The oracle for Presburger has been changer: It is automatically generated form a verified formaliztion of Cooper's Algorithm ex/Reflected_Presburger.thy chaieb parents: diff changeset	1729
50313 5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	1730	lemma d_\<beta>_mono:
23274 f997514ad8f4 New Reflected Presburger added to HOL/ex chaieb parents: 21404 diff changeset	1731	assumes linp: "iszlfm p"
50313 5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	1732	and dr: "d_\<beta> p l"
5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	1733	and d: "l dvd l'"
50252 4aa34bd43228 eliminated slightly odd identifiers; wenzelm parents: 49962 diff changeset	1734	shows "d_\<beta> p l'"
50313 5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	1735	using dr linp dvd_trans[of _ "l" "l'", simplified d]
41807 ab5d2d81f9fb tuned proofs -- eliminated prems; wenzelm parents: 41413 diff changeset	1736	by (induct p rule: iszlfm.induct) simp_all
23274 f997514ad8f4 New Reflected Presburger added to HOL/ex chaieb parents: 21404 diff changeset	1737
50313 5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	1738	lemma \<alpha>_l:
55999 6477fc70cfa0 tuned proofs; wenzelm parents: 55981 diff changeset	1739	assumes "iszlfm p"
50313 5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	1740	shows "\<forall>b \<in> set (\<alpha> p). numbound0 b"
55999 6477fc70cfa0 tuned proofs; wenzelm parents: 55981 diff changeset	1741	using assms by (induct p rule: \<alpha>.induct) auto
17378 105519771c67 The oracle for Presburger has been changer: It is automatically generated form a verified formaliztion of Cooper's Algorithm ex/Reflected_Presburger.thy chaieb parents: diff changeset	1742
50313 5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	1743	lemma \<zeta>:
55999 6477fc70cfa0 tuned proofs; wenzelm parents: 55981 diff changeset	1744	assumes "iszlfm p"
50252 4aa34bd43228 eliminated slightly odd identifiers; wenzelm parents: 49962 diff changeset	1745	shows "\<zeta> p > 0 \<and> d_\<beta> p (\<zeta> p)"
55999 6477fc70cfa0 tuned proofs; wenzelm parents: 55981 diff changeset	1746	using assms
50313 5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	1747	proof (induct p rule: iszlfm.induct)
23274 f997514ad8f4 New Reflected Presburger added to HOL/ex chaieb parents: 21404 diff changeset	1748	case (1 p q)
55964 acdde1a5faa0 tuned proofs; wenzelm parents: 55925 diff changeset	1749	from 1 have dl1: "\<zeta> p dvd lcm (\<zeta> p) (\<zeta> q)"
acdde1a5faa0 tuned proofs; wenzelm parents: 55925 diff changeset	1750	by simp
acdde1a5faa0 tuned proofs; wenzelm parents: 55925 diff changeset	1751	from 1 have dl2: "\<zeta> q dvd lcm (\<zeta> p) (\<zeta> q)"
acdde1a5faa0 tuned proofs; wenzelm parents: 55925 diff changeset	1752	by simp
50313 5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	1753	from 1 d_\<beta>_mono[where p = "p" and l="\<zeta> p" and l'="lcm (\<zeta> p) (\<zeta> q)"]
55964 acdde1a5faa0 tuned proofs; wenzelm parents: 55925 diff changeset	1754	d_\<beta>_mono[where p = "q" and l="\<zeta> q" and l'="lcm (\<zeta> p) (\<zeta> q)"]
acdde1a5faa0 tuned proofs; wenzelm parents: 55925 diff changeset	1755	dl1 dl2
acdde1a5faa0 tuned proofs; wenzelm parents: 55925 diff changeset	1756	show ?case
acdde1a5faa0 tuned proofs; wenzelm parents: 55925 diff changeset	1757	by (auto simp add: lcm_pos_int)
17378 105519771c67 The oracle for Presburger has been changer: It is automatically generated form a verified formaliztion of Cooper's Algorithm ex/Reflected_Presburger.thy chaieb parents: diff changeset	1758	next
23274 f997514ad8f4 New Reflected Presburger added to HOL/ex chaieb parents: 21404 diff changeset	1759	case (2 p q)
55964 acdde1a5faa0 tuned proofs; wenzelm parents: 55925 diff changeset	1760	from 2 have dl1: "\<zeta> p dvd lcm (\<zeta> p) (\<zeta> q)"
acdde1a5faa0 tuned proofs; wenzelm parents: 55925 diff changeset	1761	by simp
acdde1a5faa0 tuned proofs; wenzelm parents: 55925 diff changeset	1762	from 2 have dl2: "\<zeta> q dvd lcm (\<zeta> p) (\<zeta> q)"
acdde1a5faa0 tuned proofs; wenzelm parents: 55925 diff changeset	1763	by simp
50313 5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	1764	from 2 d_\<beta>_mono[where p = "p" and l="\<zeta> p" and l'="lcm (\<zeta> p) (\<zeta> q)"]
55964 acdde1a5faa0 tuned proofs; wenzelm parents: 55925 diff changeset	1765	d_\<beta>_mono[where p = "q" and l="\<zeta> q" and l'="lcm (\<zeta> p) (\<zeta> q)"]
acdde1a5faa0 tuned proofs; wenzelm parents: 55925 diff changeset	1766	dl1 dl2
acdde1a5faa0 tuned proofs; wenzelm parents: 55925 diff changeset	1767	show ?case
acdde1a5faa0 tuned proofs; wenzelm parents: 55925 diff changeset	1768	by (auto simp add: lcm_pos_int)
31952 40501bb2d57c renamed lemmas: nat_xyz/int_xyz -> xyz_nat/xyz_int nipkow parents: 31730 diff changeset	1769	qed (auto simp add: lcm_pos_int)
17378 105519771c67 The oracle for Presburger has been changer: It is automatically generated form a verified formaliztion of Cooper's Algorithm ex/Reflected_Presburger.thy chaieb parents: diff changeset	1770
50313 5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	1771	lemma a_\<beta>:
55921 22e9fc998d65 tuned proofs; wenzelm parents: 55885 diff changeset	1772	assumes linp: "iszlfm p"
22e9fc998d65 tuned proofs; wenzelm parents: 55885 diff changeset	1773	and d: "d_\<beta> p l"
22e9fc998d65 tuned proofs; wenzelm parents: 55885 diff changeset	1774	and lp: "l > 0"
55964 acdde1a5faa0 tuned proofs; wenzelm parents: 55925 diff changeset	1775	shows "iszlfm (a_\<beta> p l) \<and> d_\<beta> (a_\<beta> p l) 1 \<and> Ifm bbs (l * x # bs) (a_\<beta> p l) = Ifm bbs (x # bs) p"
50313 5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	1776	using linp d
23274 f997514ad8f4 New Reflected Presburger added to HOL/ex chaieb parents: 21404 diff changeset	1777	proof (induct p rule: iszlfm.induct)
50313 5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	1778	case (5 c e)
55964 acdde1a5faa0 tuned proofs; wenzelm parents: 55925 diff changeset	1779	then have cp: "c > 0" and be: "numbound0 e" and d': "c dvd l"
55921 22e9fc998d65 tuned proofs; wenzelm parents: 55885 diff changeset	1780	by simp_all
22e9fc998d65 tuned proofs; wenzelm parents: 55885 diff changeset	1781	from lp cp have clel: "c \<le> l"
22e9fc998d65 tuned proofs; wenzelm parents: 55885 diff changeset	1782	by (simp add: zdvd_imp_le [OF d' lp])
22e9fc998d65 tuned proofs; wenzelm parents: 55885 diff changeset	1783	from cp have cnz: "c \<noteq> 0"
22e9fc998d65 tuned proofs; wenzelm parents: 55885 diff changeset	1784	by simp
22e9fc998d65 tuned proofs; wenzelm parents: 55885 diff changeset	1785	have "c div c \<le> l div c"
50313 5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	1786	by (simp add: zdiv_mono1[OF clel cp])
55999 6477fc70cfa0 tuned proofs; wenzelm parents: 55981 diff changeset	1787	then have ldcp: "0 < l div c"
50313 5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	1788	by (simp add: div_self[OF cnz])
55921 22e9fc998d65 tuned proofs; wenzelm parents: 55885 diff changeset	1789	have "c * (l div c) = c * (l div c) + l mod c"
22e9fc998d65 tuned proofs; wenzelm parents: 55885 diff changeset	1790	using d' dvd_eq_mod_eq_0[of "c" "l"] by simp
22e9fc998d65 tuned proofs; wenzelm parents: 55885 diff changeset	1791	then have cl: "c * (l div c) =l"
22e9fc998d65 tuned proofs; wenzelm parents: 55885 diff changeset	1792	using zmod_zdiv_equality[where a="l" and b="c", symmetric] by simp
55964 acdde1a5faa0 tuned proofs; wenzelm parents: 55925 diff changeset	1793	then have "(l * x + (l div c) * Inum (x # bs) e < 0) \<longleftrightarrow>
50313 5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	1794	((c * (l div c)) * x + (l div c) * Inum (x # bs) e < 0)"
5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	1795	by simp
55999 6477fc70cfa0 tuned proofs; wenzelm parents: 55981 diff changeset	1796	also have "\<dots> \<longleftrightarrow> (l div c) * (c * x + Inum (x # bs) e) < (l div c) * 0"
50313 5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	1797	by (simp add: algebra_simps)
55964 acdde1a5faa0 tuned proofs; wenzelm parents: 55925 diff changeset	1798	also have "\<dots> \<longleftrightarrow> c * x + Inum (x # bs) e < 0"
acdde1a5faa0 tuned proofs; wenzelm parents: 55925 diff changeset	1799	using mult_less_0_iff [where a="(l div c)" and b="c*x + Inum (x # bs) e"] ldcp
acdde1a5faa0 tuned proofs; wenzelm parents: 55925 diff changeset	1800	by simp
50313 5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	1801	finally show ?case
55964 acdde1a5faa0 tuned proofs; wenzelm parents: 55925 diff changeset	1802	using numbound0_I[OF be,where b="l*x" and b'="x" and bs="bs"] be
acdde1a5faa0 tuned proofs; wenzelm parents: 55925 diff changeset	1803	by simp
17378 105519771c67 The oracle for Presburger has been changer: It is automatically generated form a verified formaliztion of Cooper's Algorithm ex/Reflected_Presburger.thy chaieb parents: diff changeset	1804	next
50313 5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	1805	case (6 c e)
55921 22e9fc998d65 tuned proofs; wenzelm parents: 55885 diff changeset	1806	then have cp: "c > 0" and be: "numbound0 e" and d': "c dvd l"
22e9fc998d65 tuned proofs; wenzelm parents: 55885 diff changeset	1807	by simp_all
22e9fc998d65 tuned proofs; wenzelm parents: 55885 diff changeset	1808	from lp cp have clel: "c \<le> l"
22e9fc998d65 tuned proofs; wenzelm parents: 55885 diff changeset	1809	by (simp add: zdvd_imp_le [OF d' lp])
22e9fc998d65 tuned proofs; wenzelm parents: 55885 diff changeset	1810	from cp have cnz: "c \<noteq> 0"
22e9fc998d65 tuned proofs; wenzelm parents: 55885 diff changeset	1811	by simp
55964 acdde1a5faa0 tuned proofs; wenzelm parents: 55925 diff changeset	1812	have "c div c \<le> l div c"
50313 5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	1813	by (simp add: zdiv_mono1[OF clel cp])
5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	1814	then have ldcp:"0 < l div c"
5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	1815	by (simp add: div_self[OF cnz])
55964 acdde1a5faa0 tuned proofs; wenzelm parents: 55925 diff changeset	1816	have "c * (l div c) = c * (l div c) + l mod c"
55921 22e9fc998d65 tuned proofs; wenzelm parents: 55885 diff changeset	1817	using d' dvd_eq_mod_eq_0[of "c" "l"] by simp
22e9fc998d65 tuned proofs; wenzelm parents: 55885 diff changeset	1818	then have cl: "c * (l div c) = l"
22e9fc998d65 tuned proofs; wenzelm parents: 55885 diff changeset	1819	using zmod_zdiv_equality[where a="l" and b="c", symmetric] by simp
55964 acdde1a5faa0 tuned proofs; wenzelm parents: 55925 diff changeset	1820	then have "l * x + (l div c) * Inum (x # bs) e \<le> 0 \<longleftrightarrow>
acdde1a5faa0 tuned proofs; wenzelm parents: 55925 diff changeset	1821	(c * (l div c)) * x + (l div c) * Inum (x # bs) e \<le> 0"
50313 5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	1822	by simp
55964 acdde1a5faa0 tuned proofs; wenzelm parents: 55925 diff changeset	1823	also have "\<dots> \<longleftrightarrow> (l div c) * (c * x + Inum (x # bs) e) \<le> (l div c) * 0"
50313 5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	1824	by (simp add: algebra_simps)
55964 acdde1a5faa0 tuned proofs; wenzelm parents: 55925 diff changeset	1825	also have "\<dots> \<longleftrightarrow> c * x + Inum (x # bs) e \<le> 0"
23274 f997514ad8f4 New Reflected Presburger added to HOL/ex chaieb parents: 21404 diff changeset	1826	using mult_le_0_iff [where a="(l div c)" and b="c*x + Inum (x # bs) e"] ldcp by simp
50313 5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	1827	finally show ?case
5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	1828	using numbound0_I[OF be,where b="l*x" and b'="x" and bs="bs"] be by simp
17378 105519771c67 The oracle for Presburger has been changer: It is automatically generated form a verified formaliztion of Cooper's Algorithm ex/Reflected_Presburger.thy chaieb parents: diff changeset	1829	next
50313 5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	1830	case (7 c e)
55921 22e9fc998d65 tuned proofs; wenzelm parents: 55885 diff changeset	1831	then have cp: "c > 0" and be: "numbound0 e" and d': "c dvd l"
22e9fc998d65 tuned proofs; wenzelm parents: 55885 diff changeset	1832	by simp_all
22e9fc998d65 tuned proofs; wenzelm parents: 55885 diff changeset	1833	from lp cp have clel: "c \<le> l"
22e9fc998d65 tuned proofs; wenzelm parents: 55885 diff changeset	1834	by (simp add: zdvd_imp_le [OF d' lp])
22e9fc998d65 tuned proofs; wenzelm parents: 55885 diff changeset	1835	from cp have cnz: "c \<noteq> 0"
22e9fc998d65 tuned proofs; wenzelm parents: 55885 diff changeset	1836	by simp
22e9fc998d65 tuned proofs; wenzelm parents: 55885 diff changeset	1837	have "c div c \<le> l div c"
22e9fc998d65 tuned proofs; wenzelm parents: 55885 diff changeset	1838	by (simp add: zdiv_mono1[OF clel cp])
55964 acdde1a5faa0 tuned proofs; wenzelm parents: 55925 diff changeset	1839	then have ldcp: "0 < l div c"
55921 22e9fc998d65 tuned proofs; wenzelm parents: 55885 diff changeset	1840	by (simp add: div_self[OF cnz])
55964 acdde1a5faa0 tuned proofs; wenzelm parents: 55925 diff changeset	1841	have "c * (l div c) = c * (l div c) + l mod c"
55921 22e9fc998d65 tuned proofs; wenzelm parents: 55885 diff changeset	1842	using d' dvd_eq_mod_eq_0[of "c" "l"] by simp
55964 acdde1a5faa0 tuned proofs; wenzelm parents: 55925 diff changeset	1843	then have cl: "c * (l div c) = l"
55921 22e9fc998d65 tuned proofs; wenzelm parents: 55885 diff changeset	1844	using zmod_zdiv_equality[where a="l" and b="c", symmetric] by simp
55964 acdde1a5faa0 tuned proofs; wenzelm parents: 55925 diff changeset	1845	then have "l * x + (l div c) * Inum (x # bs) e > 0 \<longleftrightarrow>
acdde1a5faa0 tuned proofs; wenzelm parents: 55925 diff changeset	1846	(c * (l div c)) * x + (l div c) * Inum (x # bs) e > 0"
55921 22e9fc998d65 tuned proofs; wenzelm parents: 55885 diff changeset	1847	by simp
55964 acdde1a5faa0 tuned proofs; wenzelm parents: 55925 diff changeset	1848	also have "\<dots> \<longleftrightarrow> (l div c) * (c * x + Inum (x # bs) e) > (l div c) * 0"
55921 22e9fc998d65 tuned proofs; wenzelm parents: 55885 diff changeset	1849	by (simp add: algebra_simps)
55964 acdde1a5faa0 tuned proofs; wenzelm parents: 55925 diff changeset	1850	also have "\<dots> \<longleftrightarrow> c * x + Inum (x # bs) e > 0"
55921 22e9fc998d65 tuned proofs; wenzelm parents: 55885 diff changeset	1851	using zero_less_mult_iff [where a="(l div c)" and b="c * x + Inum (x # bs) e"] ldcp
22e9fc998d65 tuned proofs; wenzelm parents: 55885 diff changeset	1852	by simp
22e9fc998d65 tuned proofs; wenzelm parents: 55885 diff changeset	1853	finally show ?case
22e9fc998d65 tuned proofs; wenzelm parents: 55885 diff changeset	1854	using numbound0_I[OF be,where b="(l * x)" and b'="x" and bs="bs"] be
22e9fc998d65 tuned proofs; wenzelm parents: 55885 diff changeset	1855	by simp
22e9fc998d65 tuned proofs; wenzelm parents: 55885 diff changeset	1856	next
22e9fc998d65 tuned proofs; wenzelm parents: 55885 diff changeset	1857	case (8 c e)
22e9fc998d65 tuned proofs; wenzelm parents: 55885 diff changeset	1858	then have cp: "c > 0" and be: "numbound0 e" and d': "c dvd l"
22e9fc998d65 tuned proofs; wenzelm parents: 55885 diff changeset	1859	by simp_all
22e9fc998d65 tuned proofs; wenzelm parents: 55885 diff changeset	1860	from lp cp have clel: "c \<le> l"
22e9fc998d65 tuned proofs; wenzelm parents: 55885 diff changeset	1861	by (simp add: zdvd_imp_le [OF d' lp])
22e9fc998d65 tuned proofs; wenzelm parents: 55885 diff changeset	1862	from cp have cnz: "c \<noteq> 0"
22e9fc998d65 tuned proofs; wenzelm parents: 55885 diff changeset	1863	by simp
22e9fc998d65 tuned proofs; wenzelm parents: 55885 diff changeset	1864	have "c div c \<le> l div c"
22e9fc998d65 tuned proofs; wenzelm parents: 55885 diff changeset	1865	by (simp add: zdiv_mono1[OF clel cp])
22e9fc998d65 tuned proofs; wenzelm parents: 55885 diff changeset	1866	then have ldcp: "0 < l div c"
22e9fc998d65 tuned proofs; wenzelm parents: 55885 diff changeset	1867	by (simp add: div_self[OF cnz])
55964 acdde1a5faa0 tuned proofs; wenzelm parents: 55925 diff changeset	1868	have "c * (l div c) = c * (l div c) + l mod c"
55921 22e9fc998d65 tuned proofs; wenzelm parents: 55885 diff changeset	1869	using d' dvd_eq_mod_eq_0[of "c" "l"] by simp
22e9fc998d65 tuned proofs; wenzelm parents: 55885 diff changeset	1870	then have cl: "c * (l div c) =l"
22e9fc998d65 tuned proofs; wenzelm parents: 55885 diff changeset	1871	using zmod_zdiv_equality[where a="l" and b="c", symmetric]
22e9fc998d65 tuned proofs; wenzelm parents: 55885 diff changeset	1872	by simp
55964 acdde1a5faa0 tuned proofs; wenzelm parents: 55925 diff changeset	1873	then have "l * x + (l div c) * Inum (x # bs) e \<ge> 0 \<longleftrightarrow>
acdde1a5faa0 tuned proofs; wenzelm parents: 55925 diff changeset	1874	(c * (l div c)) * x + (l div c) * Inum (x # bs) e \<ge> 0"
55921 22e9fc998d65 tuned proofs; wenzelm parents: 55885 diff changeset	1875	by simp
55964 acdde1a5faa0 tuned proofs; wenzelm parents: 55925 diff changeset	1876	also have "\<dots> \<longleftrightarrow> (l div c) * (c * x + Inum (x # bs) e) \<ge> (l div c) * 0"
55921 22e9fc998d65 tuned proofs; wenzelm parents: 55885 diff changeset	1877	by (simp add: algebra_simps)
55964 acdde1a5faa0 tuned proofs; wenzelm parents: 55925 diff changeset	1878	also have "\<dots> \<longleftrightarrow> c * x + Inum (x # bs) e \<ge> 0"
55921 22e9fc998d65 tuned proofs; wenzelm parents: 55885 diff changeset	1879	using ldcp zero_le_mult_iff [where a="l div c" and b="c*x + Inum (x # bs) e"]
22e9fc998d65 tuned proofs; wenzelm parents: 55885 diff changeset	1880	by simp
22e9fc998d65 tuned proofs; wenzelm parents: 55885 diff changeset	1881	finally show ?case
22e9fc998d65 tuned proofs; wenzelm parents: 55885 diff changeset	1882	using be numbound0_I[OF be,where b="l*x" and b'="x" and bs="bs"]
22e9fc998d65 tuned proofs; wenzelm parents: 55885 diff changeset	1883	by simp
22e9fc998d65 tuned proofs; wenzelm parents: 55885 diff changeset	1884	next
22e9fc998d65 tuned proofs; wenzelm parents: 55885 diff changeset	1885	case (3 c e)
22e9fc998d65 tuned proofs; wenzelm parents: 55885 diff changeset	1886	then have cp: "c > 0" and be: "numbound0 e" and d': "c dvd l"
22e9fc998d65 tuned proofs; wenzelm parents: 55885 diff changeset	1887	by simp_all
22e9fc998d65 tuned proofs; wenzelm parents: 55885 diff changeset	1888	from lp cp have clel: "c \<le> l"
22e9fc998d65 tuned proofs; wenzelm parents: 55885 diff changeset	1889	by (simp add: zdvd_imp_le [OF d' lp])
22e9fc998d65 tuned proofs; wenzelm parents: 55885 diff changeset	1890	from cp have cnz: "c \<noteq> 0"
22e9fc998d65 tuned proofs; wenzelm parents: 55885 diff changeset	1891	by simp
22e9fc998d65 tuned proofs; wenzelm parents: 55885 diff changeset	1892	have "c div c \<le> l div c"
50313 5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	1893	by (simp add: zdiv_mono1[OF clel cp])
5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	1894	then have ldcp:"0 < l div c"
5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	1895	by (simp add: div_self[OF cnz])
55964 acdde1a5faa0 tuned proofs; wenzelm parents: 55925 diff changeset	1896	have "c * (l div c) = c * (l div c) + l mod c"
50313 5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	1897	using d' dvd_eq_mod_eq_0[of "c" "l"] by simp
55885 c871a2e751ec tuned proofs; wenzelm parents: 55844 diff changeset	1898	then have cl:"c * (l div c) =l" using zmod_zdiv_equality[where a="l" and b="c", symmetric]
50313 5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	1899	by simp
55964 acdde1a5faa0 tuned proofs; wenzelm parents: 55925 diff changeset	1900	then have "l * x + (l div c) * Inum (x # bs) e = 0 \<longleftrightarrow>
acdde1a5faa0 tuned proofs; wenzelm parents: 55925 diff changeset	1901	(c * (l div c)) * x + (l div c) * Inum (x # bs) e = 0"
23274 f997514ad8f4 New Reflected Presburger added to HOL/ex chaieb parents: 21404 diff changeset	1902	by simp
55964 acdde1a5faa0 tuned proofs; wenzelm parents: 55925 diff changeset	1903	also have "\<dots> \<longleftrightarrow> (l div c) * (c * x + Inum (x # bs) e) = ((l div c)) * 0"
50313 5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	1904	by (simp add: algebra_simps)
55964 acdde1a5faa0 tuned proofs; wenzelm parents: 55925 diff changeset	1905	also have "\<dots> \<longleftrightarrow> c * x + Inum (x # bs) e = 0"
55921 22e9fc998d65 tuned proofs; wenzelm parents: 55885 diff changeset	1906	using mult_eq_0_iff [where a="(l div c)" and b="c * x + Inum (x # bs) e"] ldcp
22e9fc998d65 tuned proofs; wenzelm parents: 55885 diff changeset	1907	by simp
50313 5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	1908	finally show ?case
55921 22e9fc998d65 tuned proofs; wenzelm parents: 55885 diff changeset	1909	using numbound0_I[OF be,where b="(l * x)" and b'="x" and bs="bs"] be
22e9fc998d65 tuned proofs; wenzelm parents: 55885 diff changeset	1910	by simp
17378 105519771c67 The oracle for Presburger has been changer: It is automatically generated form a verified formaliztion of Cooper's Algorithm ex/Reflected_Presburger.thy chaieb parents: diff changeset	1911	next
50313 5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	1912	case (4 c e)
55921 22e9fc998d65 tuned proofs; wenzelm parents: 55885 diff changeset	1913	then have cp: "c > 0" and be: "numbound0 e" and d': "c dvd l"
22e9fc998d65 tuned proofs; wenzelm parents: 55885 diff changeset	1914	by simp_all
22e9fc998d65 tuned proofs; wenzelm parents: 55885 diff changeset	1915	from lp cp have clel: "c \<le> l"
22e9fc998d65 tuned proofs; wenzelm parents: 55885 diff changeset	1916	by (simp add: zdvd_imp_le [OF d' lp])
22e9fc998d65 tuned proofs; wenzelm parents: 55885 diff changeset	1917	from cp have cnz: "c \<noteq> 0"
22e9fc998d65 tuned proofs; wenzelm parents: 55885 diff changeset	1918	by simp
22e9fc998d65 tuned proofs; wenzelm parents: 55885 diff changeset	1919	have "c div c \<le> l div c"
50313 5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	1920	by (simp add: zdiv_mono1[OF clel cp])
5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	1921	then have ldcp:"0 < l div c"
5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	1922	by (simp add: div_self[OF cnz])
55964 acdde1a5faa0 tuned proofs; wenzelm parents: 55925 diff changeset	1923	have "c * (l div c) = c * (l div c) + l mod c"
55921 22e9fc998d65 tuned proofs; wenzelm parents: 55885 diff changeset	1924	using d' dvd_eq_mod_eq_0[of "c" "l"] by simp
22e9fc998d65 tuned proofs; wenzelm parents: 55885 diff changeset	1925	then have cl: "c * (l div c) = l"
22e9fc998d65 tuned proofs; wenzelm parents: 55885 diff changeset	1926	using zmod_zdiv_equality[where a="l" and b="c", symmetric] by simp
55964 acdde1a5faa0 tuned proofs; wenzelm parents: 55925 diff changeset	1927	then have "l * x + (l div c) * Inum (x # bs) e \<noteq> 0 \<longleftrightarrow>
55921 22e9fc998d65 tuned proofs; wenzelm parents: 55885 diff changeset	1928	(c * (l div c)) * x + (l div c) * Inum (x # bs) e \<noteq> 0"
50313 5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	1929	by simp
55921 22e9fc998d65 tuned proofs; wenzelm parents: 55885 diff changeset	1930	also have "\<dots> \<longleftrightarrow> (l div c) * (c * x + Inum (x # bs) e) \<noteq> (l div c) * 0"
50313 5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	1931	by (simp add: algebra_simps)
55921 22e9fc998d65 tuned proofs; wenzelm parents: 55885 diff changeset	1932	also have "\<dots> \<longleftrightarrow> c * x + Inum (x # bs) e \<noteq> 0"
22e9fc998d65 tuned proofs; wenzelm parents: 55885 diff changeset	1933	using zero_le_mult_iff [where a="(l div c)" and b="c * x + Inum (x # bs) e"] ldcp
22e9fc998d65 tuned proofs; wenzelm parents: 55885 diff changeset	1934	by simp
50313 5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	1935	finally show ?case
55921 22e9fc998d65 tuned proofs; wenzelm parents: 55885 diff changeset	1936	using numbound0_I[OF be,where b="(l * x)" and b'="x" and bs="bs"] be
22e9fc998d65 tuned proofs; wenzelm parents: 55885 diff changeset	1937	by simp
17378 105519771c67 The oracle for Presburger has been changer: It is automatically generated form a verified formaliztion of Cooper's Algorithm ex/Reflected_Presburger.thy chaieb parents: diff changeset	1938	next
50313 5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	1939	case (9 j c e)
55921 22e9fc998d65 tuned proofs; wenzelm parents: 55885 diff changeset	1940	then have cp: "c > 0" and be: "numbound0 e" and jp: "j > 0" and d': "c dvd l"
22e9fc998d65 tuned proofs; wenzelm parents: 55885 diff changeset	1941	by simp_all
22e9fc998d65 tuned proofs; wenzelm parents: 55885 diff changeset	1942	from lp cp have clel: "c \<le> l"
22e9fc998d65 tuned proofs; wenzelm parents: 55885 diff changeset	1943	by (simp add: zdvd_imp_le [OF d' lp])
50313 5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	1944	from cp have cnz: "c \<noteq> 0" by simp
5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	1945	have "c div c\<le> l div c"
5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	1946	by (simp add: zdiv_mono1[OF clel cp])
5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	1947	then have ldcp:"0 < l div c"
5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	1948	by (simp add: div_self[OF cnz])
55964 acdde1a5faa0 tuned proofs; wenzelm parents: 55925 diff changeset	1949	have "c * (l div c) = c * (l div c) + l mod c"
55885 c871a2e751ec tuned proofs; wenzelm parents: 55844 diff changeset	1950	using d' dvd_eq_mod_eq_0[of "c" "l"] by simp
55921 22e9fc998d65 tuned proofs; wenzelm parents: 55885 diff changeset	1951	then have cl: "c * (l div c) = l"
55885 c871a2e751ec tuned proofs; wenzelm parents: 55844 diff changeset	1952	using zmod_zdiv_equality[where a="l" and b="c", symmetric] by simp
55921 22e9fc998d65 tuned proofs; wenzelm parents: 55885 diff changeset	1953	then have "(\<exists>k::int. l * x + (l div c) * Inum (x # bs) e = ((l div c) * j) * k) \<longleftrightarrow>
55964 acdde1a5faa0 tuned proofs; wenzelm parents: 55925 diff changeset	1954	(\<exists>k::int. (c * (l div c)) * x + (l div c) * Inum (x # bs) e = ((l div c) * j) * k)"
55921 22e9fc998d65 tuned proofs; wenzelm parents: 55885 diff changeset	1955	by simp
55964 acdde1a5faa0 tuned proofs; wenzelm parents: 55925 diff changeset	1956	also have "\<dots> \<longleftrightarrow> (\<exists>k::int. (l div c) * (c * x + Inum (x # bs) e - j * k) = (l div c) * 0)"
55921 22e9fc998d65 tuned proofs; wenzelm parents: 55885 diff changeset	1957	by (simp add: algebra_simps)
22e9fc998d65 tuned proofs; wenzelm parents: 55885 diff changeset	1958	also
22e9fc998d65 tuned proofs; wenzelm parents: 55885 diff changeset	1959	fix k
22e9fc998d65 tuned proofs; wenzelm parents: 55885 diff changeset	1960	have "\<dots> \<longleftrightarrow> (\<exists>k::int. c * x + Inum (x # bs) e - j * k = 0)"
22e9fc998d65 tuned proofs; wenzelm parents: 55885 diff changeset	1961	using zero_le_mult_iff [where a="(l div c)" and b="c * x + Inum (x # bs) e - j * k"] ldcp
22e9fc998d65 tuned proofs; wenzelm parents: 55885 diff changeset	1962	by simp
22e9fc998d65 tuned proofs; wenzelm parents: 55885 diff changeset	1963	also have "\<dots> \<longleftrightarrow> (\<exists>k::int. c * x + Inum (x # bs) e = j * k)"
22e9fc998d65 tuned proofs; wenzelm parents: 55885 diff changeset	1964	by simp
22e9fc998d65 tuned proofs; wenzelm parents: 55885 diff changeset	1965	finally show ?case
22e9fc998d65 tuned proofs; wenzelm parents: 55885 diff changeset	1966	using numbound0_I[OF be,where b="(l * x)" and b'="x" and bs="bs"]
22e9fc998d65 tuned proofs; wenzelm parents: 55885 diff changeset	1967	be mult_strict_mono[OF ldcp jp ldcp ]
22e9fc998d65 tuned proofs; wenzelm parents: 55885 diff changeset	1968	by (simp add: dvd_def)
22e9fc998d65 tuned proofs; wenzelm parents: 55885 diff changeset	1969	next
22e9fc998d65 tuned proofs; wenzelm parents: 55885 diff changeset	1970	case (10 j c e)
22e9fc998d65 tuned proofs; wenzelm parents: 55885 diff changeset	1971	then have cp: "c > 0" and be: "numbound0 e" and jp: "j > 0" and d': "c dvd l"
22e9fc998d65 tuned proofs; wenzelm parents: 55885 diff changeset	1972	by simp_all
22e9fc998d65 tuned proofs; wenzelm parents: 55885 diff changeset	1973	from lp cp have clel: "c \<le> l"
22e9fc998d65 tuned proofs; wenzelm parents: 55885 diff changeset	1974	by (simp add: zdvd_imp_le [OF d' lp])
22e9fc998d65 tuned proofs; wenzelm parents: 55885 diff changeset	1975	from cp have cnz: "c \<noteq> 0"
50313 5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	1976	by simp
55921 22e9fc998d65 tuned proofs; wenzelm parents: 55885 diff changeset	1977	have "c div c \<le> l div c"
22e9fc998d65 tuned proofs; wenzelm parents: 55885 diff changeset	1978	by (simp add: zdiv_mono1[OF clel cp])
22e9fc998d65 tuned proofs; wenzelm parents: 55885 diff changeset	1979	then have ldcp: "0 < l div c"
22e9fc998d65 tuned proofs; wenzelm parents: 55885 diff changeset	1980	by (simp add: div_self[OF cnz])
22e9fc998d65 tuned proofs; wenzelm parents: 55885 diff changeset	1981	have "c * (l div c) = c* (l div c) + l mod c"
22e9fc998d65 tuned proofs; wenzelm parents: 55885 diff changeset	1982	using d' dvd_eq_mod_eq_0[of "c" "l"] by simp
22e9fc998d65 tuned proofs; wenzelm parents: 55885 diff changeset	1983	then have cl:"c * (l div c) =l"
22e9fc998d65 tuned proofs; wenzelm parents: 55885 diff changeset	1984	using zmod_zdiv_equality[where a="l" and b="c", symmetric]
22e9fc998d65 tuned proofs; wenzelm parents: 55885 diff changeset	1985	by simp
22e9fc998d65 tuned proofs; wenzelm parents: 55885 diff changeset	1986	then have "(\<exists>k::int. l * x + (l div c) * Inum (x # bs) e = ((l div c) * j) * k) \<longleftrightarrow>
22e9fc998d65 tuned proofs; wenzelm parents: 55885 diff changeset	1987	(\<exists>k::int. (c * (l div c)) * x + (l div c) * Inum (x # bs) e = ((l div c) * j) * k)"
22e9fc998d65 tuned proofs; wenzelm parents: 55885 diff changeset	1988	by simp
22e9fc998d65 tuned proofs; wenzelm parents: 55885 diff changeset	1989	also have "\<dots> \<longleftrightarrow> (\<exists>k::int. (l div c) * (c * x + Inum (x # bs) e - j * k) = (l div c) * 0)"
22e9fc998d65 tuned proofs; wenzelm parents: 55885 diff changeset	1990	by (simp add: algebra_simps)
22e9fc998d65 tuned proofs; wenzelm parents: 55885 diff changeset	1991	also
22e9fc998d65 tuned proofs; wenzelm parents: 55885 diff changeset	1992	fix k
55964 acdde1a5faa0 tuned proofs; wenzelm parents: 55925 diff changeset	1993	have "\<dots> \<longleftrightarrow> (\<exists>k::int. c * x + Inum (x # bs) e - j * k = 0)"
55921 22e9fc998d65 tuned proofs; wenzelm parents: 55885 diff changeset	1994	using zero_le_mult_iff [where a="(l div c)" and b="c * x + Inum (x # bs) e - j * k"] ldcp
22e9fc998d65 tuned proofs; wenzelm parents: 55885 diff changeset	1995	by simp
55964 acdde1a5faa0 tuned proofs; wenzelm parents: 55925 diff changeset	1996	also have "\<dots> \<longleftrightarrow> (\<exists>k::int. c * x + Inum (x # bs) e = j * k)"
55921 22e9fc998d65 tuned proofs; wenzelm parents: 55885 diff changeset	1997	by simp
22e9fc998d65 tuned proofs; wenzelm parents: 55885 diff changeset	1998	finally show ?case
22e9fc998d65 tuned proofs; wenzelm parents: 55885 diff changeset	1999	using numbound0_I[OF be,where b="(l * x)" and b'="x" and bs="bs"] be
22e9fc998d65 tuned proofs; wenzelm parents: 55885 diff changeset	2000	mult_strict_mono[OF ldcp jp ldcp ]
22e9fc998d65 tuned proofs; wenzelm parents: 55885 diff changeset	2001	by (simp add: dvd_def)
23689 0410269099dc replaced code generator framework for reflected cooper haftmann parents: 23515 diff changeset	2002	qed (auto simp add: gr0_conv_Suc numbound0_I[where bs="bs" and b="(l * x)" and b'="x"])
17378 105519771c67 The oracle for Presburger has been changer: It is automatically generated form a verified formaliztion of Cooper's Algorithm ex/Reflected_Presburger.thy chaieb parents: diff changeset	2003
55921 22e9fc998d65 tuned proofs; wenzelm parents: 55885 diff changeset	2004	lemma a_\<beta>_ex:
22e9fc998d65 tuned proofs; wenzelm parents: 55885 diff changeset	2005	assumes linp: "iszlfm p"
22e9fc998d65 tuned proofs; wenzelm parents: 55885 diff changeset	2006	and d: "d_\<beta> p l"
22e9fc998d65 tuned proofs; wenzelm parents: 55885 diff changeset	2007	and lp: "l > 0"
22e9fc998d65 tuned proofs; wenzelm parents: 55885 diff changeset	2008	shows "(\<exists>x. l dvd x \<and> Ifm bbs (x #bs) (a_\<beta> p l)) \<longleftrightarrow> (\<exists>x::int. Ifm bbs (x#bs) p)"
22e9fc998d65 tuned proofs; wenzelm parents: 55885 diff changeset	2009	(is "(\<exists>x. l dvd x \<and> ?P x) \<longleftrightarrow> (\<exists>x. ?P' x)")
23274 f997514ad8f4 New Reflected Presburger added to HOL/ex chaieb parents: 21404 diff changeset	2010	proof-
55999 6477fc70cfa0 tuned proofs; wenzelm parents: 55981 diff changeset	2011	have "(\<exists>x. l dvd x \<and> ?P x) \<longleftrightarrow> (\<exists>x::int. ?P (l * x))"
23274 f997514ad8f4 New Reflected Presburger added to HOL/ex chaieb parents: 21404 diff changeset	2012	using unity_coeff_ex[where l="l" and P="?P", simplified] by simp
55921 22e9fc998d65 tuned proofs; wenzelm parents: 55885 diff changeset	2013	also have "\<dots> = (\<exists>x::int. ?P' x)"
22e9fc998d65 tuned proofs; wenzelm parents: 55885 diff changeset	2014	using a_\<beta>[OF linp d lp] by simp
50313 5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	2015	finally show ?thesis .
17378 105519771c67 The oracle for Presburger has been changer: It is automatically generated form a verified formaliztion of Cooper's Algorithm ex/Reflected_Presburger.thy chaieb parents: diff changeset	2016	qed
105519771c67 The oracle for Presburger has been changer: It is automatically generated form a verified formaliztion of Cooper's Algorithm ex/Reflected_Presburger.thy chaieb parents: diff changeset	2017
23274 f997514ad8f4 New Reflected Presburger added to HOL/ex chaieb parents: 21404 diff changeset	2018	lemma \<beta>:
55999 6477fc70cfa0 tuned proofs; wenzelm parents: 55981 diff changeset	2019	assumes "iszlfm p"
6477fc70cfa0 tuned proofs; wenzelm parents: 55981 diff changeset	2020	and "d_\<beta> p 1"
6477fc70cfa0 tuned proofs; wenzelm parents: 55981 diff changeset	2021	and "d_\<delta> p d"
55885 c871a2e751ec tuned proofs; wenzelm parents: 55844 diff changeset	2022	and dp: "d > 0"
55999 6477fc70cfa0 tuned proofs; wenzelm parents: 55981 diff changeset	2023	and "\<not> (\<exists>j::int \<in> {1 .. d}. \<exists>b \<in> Inum (a # bs) ` set (\<beta> p). x = b + j)"
55964 acdde1a5faa0 tuned proofs; wenzelm parents: 55925 diff changeset	2024	and p: "Ifm bbs (x # bs) p" (is "?P x")
23274 f997514ad8f4 New Reflected Presburger added to HOL/ex chaieb parents: 21404 diff changeset	2025	shows "?P (x - d)"
55999 6477fc70cfa0 tuned proofs; wenzelm parents: 55981 diff changeset	2026	using assms
55885 c871a2e751ec tuned proofs; wenzelm parents: 55844 diff changeset	2027	proof (induct p rule: iszlfm.induct)
c871a2e751ec tuned proofs; wenzelm parents: 55844 diff changeset	2028	case (5 c e)
c871a2e751ec tuned proofs; wenzelm parents: 55844 diff changeset	2029	then have c1: "c = 1" and bn: "numbound0 e"
c871a2e751ec tuned proofs; wenzelm parents: 55844 diff changeset	2030	by simp_all
55964 acdde1a5faa0 tuned proofs; wenzelm parents: 55925 diff changeset	2031	with dp p c1 numbound0_I[OF bn,where b = "(x - d)" and b' = "x" and bs = "bs"] 5
41807 ab5d2d81f9fb tuned proofs -- eliminated prems; wenzelm parents: 41413 diff changeset	2032	show ?case by simp
23274 f997514ad8f4 New Reflected Presburger added to HOL/ex chaieb parents: 21404 diff changeset	2033	next
55885 c871a2e751ec tuned proofs; wenzelm parents: 55844 diff changeset	2034	case (6 c e)
c871a2e751ec tuned proofs; wenzelm parents: 55844 diff changeset	2035	then have c1: "c = 1" and bn: "numbound0 e"
c871a2e751ec tuned proofs; wenzelm parents: 55844 diff changeset	2036	by simp_all
41807 ab5d2d81f9fb tuned proofs -- eliminated prems; wenzelm parents: 41413 diff changeset	2037	with dp p c1 numbound0_I[OF bn,where b="(x-d)" and b'="x" and bs="bs"] 6
ab5d2d81f9fb tuned proofs -- eliminated prems; wenzelm parents: 41413 diff changeset	2038	show ?case by simp
23274 f997514ad8f4 New Reflected Presburger added to HOL/ex chaieb parents: 21404 diff changeset	2039	next
55885 c871a2e751ec tuned proofs; wenzelm parents: 55844 diff changeset	2040	case (7 c e)
55964 acdde1a5faa0 tuned proofs; wenzelm parents: 55925 diff changeset	2041	then have p: "Ifm bbs (x # bs) (Gt (CN 0 c e))" and c1: "c=1" and bn: "numbound0 e"
55885 c871a2e751ec tuned proofs; wenzelm parents: 55844 diff changeset	2042	by simp_all
41807 ab5d2d81f9fb tuned proofs -- eliminated prems; wenzelm parents: 41413 diff changeset	2043	let ?e = "Inum (x # bs) e"
55885 c871a2e751ec tuned proofs; wenzelm parents: 55844 diff changeset	2044	{
55964 acdde1a5faa0 tuned proofs; wenzelm parents: 55925 diff changeset	2045	assume "(x - d) + ?e > 0"
55885 c871a2e751ec tuned proofs; wenzelm parents: 55844 diff changeset	2046	then have ?case
c871a2e751ec tuned proofs; wenzelm parents: 55844 diff changeset	2047	using c1 numbound0_I[OF bn,where b="(x-d)" and b'="x" and bs="bs"] by simp
c871a2e751ec tuned proofs; wenzelm parents: 55844 diff changeset	2048	}
41807 ab5d2d81f9fb tuned proofs -- eliminated prems; wenzelm parents: 41413 diff changeset	2049	moreover
55885 c871a2e751ec tuned proofs; wenzelm parents: 55844 diff changeset	2050	{
55964 acdde1a5faa0 tuned proofs; wenzelm parents: 55925 diff changeset	2051	assume H: "\<not> (x - d) + ?e > 0"
acdde1a5faa0 tuned proofs; wenzelm parents: 55925 diff changeset	2052	let ?v = "Neg e"
acdde1a5faa0 tuned proofs; wenzelm parents: 55925 diff changeset	2053	have vb: "?v \<in> set (\<beta> (Gt (CN 0 c e)))"
acdde1a5faa0 tuned proofs; wenzelm parents: 55925 diff changeset	2054	by simp
57816 d8bbb97689d3 no need for 'set_simps' now that 'datatype_new' generates the desired 'set' property blanchet parents: 57514 diff changeset	2055	from 7(5)[simplified simp_thms Inum.simps \<beta>.simps list.set bex_simps numbound0_I[OF bn,where b="a" and b'="x" and bs="bs"]]
55964 acdde1a5faa0 tuned proofs; wenzelm parents: 55925 diff changeset	2056	have nob: "\<not> (\<exists>j\<in> {1 ..d}. x = - ?e + j)"
55885 c871a2e751ec tuned proofs; wenzelm parents: 55844 diff changeset	2057	by auto
c871a2e751ec tuned proofs; wenzelm parents: 55844 diff changeset	2058	from H p have "x + ?e > 0 \<and> x + ?e \<le> d"
c871a2e751ec tuned proofs; wenzelm parents: 55844 diff changeset	2059	by (simp add: c1)
c871a2e751ec tuned proofs; wenzelm parents: 55844 diff changeset	2060	then have "x + ?e \<ge> 1 \<and> x + ?e \<le> d"
c871a2e751ec tuned proofs; wenzelm parents: 55844 diff changeset	2061	by simp
55964 acdde1a5faa0 tuned proofs; wenzelm parents: 55925 diff changeset	2062	then have "\<exists>j::int \<in> {1 .. d}. j = x + ?e"
55885 c871a2e751ec tuned proofs; wenzelm parents: 55844 diff changeset	2063	by simp
55964 acdde1a5faa0 tuned proofs; wenzelm parents: 55925 diff changeset	2064	then have "\<exists>j::int \<in> {1 .. d}. x = (- ?e + j)"
41807 ab5d2d81f9fb tuned proofs -- eliminated prems; wenzelm parents: 41413 diff changeset	2065	by (simp add: algebra_simps)
55885 c871a2e751ec tuned proofs; wenzelm parents: 55844 diff changeset	2066	with nob have ?case
c871a2e751ec tuned proofs; wenzelm parents: 55844 diff changeset	2067	by auto
c871a2e751ec tuned proofs; wenzelm parents: 55844 diff changeset	2068	}
c871a2e751ec tuned proofs; wenzelm parents: 55844 diff changeset	2069	ultimately show ?case
c871a2e751ec tuned proofs; wenzelm parents: 55844 diff changeset	2070	by blast
23274 f997514ad8f4 New Reflected Presburger added to HOL/ex chaieb parents: 21404 diff changeset	2071	next
55885 c871a2e751ec tuned proofs; wenzelm parents: 55844 diff changeset	2072	case (8 c e)
c871a2e751ec tuned proofs; wenzelm parents: 55844 diff changeset	2073	then have p: "Ifm bbs (x # bs) (Ge (CN 0 c e))" and c1: "c = 1" and bn: "numbound0 e"
50313 5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	2074	by simp_all
55885 c871a2e751ec tuned proofs; wenzelm parents: 55844 diff changeset	2075	let ?e = "Inum (x # bs) e"
c871a2e751ec tuned proofs; wenzelm parents: 55844 diff changeset	2076	{
c871a2e751ec tuned proofs; wenzelm parents: 55844 diff changeset	2077	assume "(x - d) + ?e \<ge> 0"
c871a2e751ec tuned proofs; wenzelm parents: 55844 diff changeset	2078	then have ?case
c871a2e751ec tuned proofs; wenzelm parents: 55844 diff changeset	2079	using c1 numbound0_I[OF bn,where b="(x-d)" and b'="x" and bs="bs"]
c871a2e751ec tuned proofs; wenzelm parents: 55844 diff changeset	2080	by simp
c871a2e751ec tuned proofs; wenzelm parents: 55844 diff changeset	2081	}
c871a2e751ec tuned proofs; wenzelm parents: 55844 diff changeset	2082	moreover
c871a2e751ec tuned proofs; wenzelm parents: 55844 diff changeset	2083	{
c871a2e751ec tuned proofs; wenzelm parents: 55844 diff changeset	2084	assume H: "\<not> (x - d) + ?e \<ge> 0"
c871a2e751ec tuned proofs; wenzelm parents: 55844 diff changeset	2085	let ?v = "Sub (C -1) e"
c871a2e751ec tuned proofs; wenzelm parents: 55844 diff changeset	2086	have vb: "?v \<in> set (\<beta> (Ge (CN 0 c e)))"
c871a2e751ec tuned proofs; wenzelm parents: 55844 diff changeset	2087	by simp
57816 d8bbb97689d3 no need for 'set_simps' now that 'datatype_new' generates the desired 'set' property blanchet parents: 57514 diff changeset	2088	from 8(5)[simplified simp_thms Inum.simps \<beta>.simps list.set bex_simps numbound0_I[OF bn,where b="a" and b'="x" and bs="bs"]]
55885 c871a2e751ec tuned proofs; wenzelm parents: 55844 diff changeset	2089	have nob: "\<not> (\<exists>j\<in> {1 ..d}. x = - ?e - 1 + j)"
c871a2e751ec tuned proofs; wenzelm parents: 55844 diff changeset	2090	by auto
c871a2e751ec tuned proofs; wenzelm parents: 55844 diff changeset	2091	from H p have "x + ?e \<ge> 0 \<and> x + ?e < d"
c871a2e751ec tuned proofs; wenzelm parents: 55844 diff changeset	2092	by (simp add: c1)
c871a2e751ec tuned proofs; wenzelm parents: 55844 diff changeset	2093	then have "x + ?e +1 \<ge> 1 \<and> x + ?e + 1 \<le> d"
c871a2e751ec tuned proofs; wenzelm parents: 55844 diff changeset	2094	by simp
55964 acdde1a5faa0 tuned proofs; wenzelm parents: 55925 diff changeset	2095	then have "\<exists>j::int \<in> {1 .. d}. j = x + ?e + 1"
55885 c871a2e751ec tuned proofs; wenzelm parents: 55844 diff changeset	2096	by simp
55964 acdde1a5faa0 tuned proofs; wenzelm parents: 55925 diff changeset	2097	then have "\<exists>j::int \<in> {1 .. d}. x= - ?e - 1 + j"
55885 c871a2e751ec tuned proofs; wenzelm parents: 55844 diff changeset	2098	by (simp add: algebra_simps)
c871a2e751ec tuned proofs; wenzelm parents: 55844 diff changeset	2099	with nob have ?case
c871a2e751ec tuned proofs; wenzelm parents: 55844 diff changeset	2100	by simp
c871a2e751ec tuned proofs; wenzelm parents: 55844 diff changeset	2101	}
c871a2e751ec tuned proofs; wenzelm parents: 55844 diff changeset	2102	ultimately show ?case
c871a2e751ec tuned proofs; wenzelm parents: 55844 diff changeset	2103	by blast
23274 f997514ad8f4 New Reflected Presburger added to HOL/ex chaieb parents: 21404 diff changeset	2104	next
55885 c871a2e751ec tuned proofs; wenzelm parents: 55844 diff changeset	2105	case (3 c e)
c871a2e751ec tuned proofs; wenzelm parents: 55844 diff changeset	2106	then
c871a2e751ec tuned proofs; wenzelm parents: 55844 diff changeset	2107	have p: "Ifm bbs (x #bs) (Eq (CN 0 c e))" (is "?p x")
55964 acdde1a5faa0 tuned proofs; wenzelm parents: 55925 diff changeset	2108	and c1: "c = 1"
55885 c871a2e751ec tuned proofs; wenzelm parents: 55844 diff changeset	2109	and bn: "numbound0 e"
c871a2e751ec tuned proofs; wenzelm parents: 55844 diff changeset	2110	by simp_all
c871a2e751ec tuned proofs; wenzelm parents: 55844 diff changeset	2111	let ?e = "Inum (x # bs) e"
c871a2e751ec tuned proofs; wenzelm parents: 55844 diff changeset	2112	let ?v="(Sub (C -1) e)"
c871a2e751ec tuned proofs; wenzelm parents: 55844 diff changeset	2113	have vb: "?v \<in> set (\<beta> (Eq (CN 0 c e)))"
c871a2e751ec tuned proofs; wenzelm parents: 55844 diff changeset	2114	by simp
55964 acdde1a5faa0 tuned proofs; wenzelm parents: 55925 diff changeset	2115	from p have "x= - ?e"
acdde1a5faa0 tuned proofs; wenzelm parents: 55925 diff changeset	2116	by (simp add: c1) with 3(5)
acdde1a5faa0 tuned proofs; wenzelm parents: 55925 diff changeset	2117	show ?case
55885 c871a2e751ec tuned proofs; wenzelm parents: 55844 diff changeset	2118	using dp
c871a2e751ec tuned proofs; wenzelm parents: 55844 diff changeset	2119	by simp (erule ballE[where x="1"],
c871a2e751ec tuned proofs; wenzelm parents: 55844 diff changeset	2120	simp_all add:algebra_simps numbound0_I[OF bn,where b="x"and b'="a"and bs="bs"])
23274 f997514ad8f4 New Reflected Presburger added to HOL/ex chaieb parents: 21404 diff changeset	2121	next
55885 c871a2e751ec tuned proofs; wenzelm parents: 55844 diff changeset	2122	case (4 c e)
c871a2e751ec tuned proofs; wenzelm parents: 55844 diff changeset	2123	then
55964 acdde1a5faa0 tuned proofs; wenzelm parents: 55925 diff changeset	2124	have p: "Ifm bbs (x # bs) (NEq (CN 0 c e))" (is "?p x")
55885 c871a2e751ec tuned proofs; wenzelm parents: 55844 diff changeset	2125	and c1: "c = 1"
c871a2e751ec tuned proofs; wenzelm parents: 55844 diff changeset	2126	and bn: "numbound0 e"
c871a2e751ec tuned proofs; wenzelm parents: 55844 diff changeset	2127	by simp_all
c871a2e751ec tuned proofs; wenzelm parents: 55844 diff changeset	2128	let ?e = "Inum (x # bs) e"
c871a2e751ec tuned proofs; wenzelm parents: 55844 diff changeset	2129	let ?v="Neg e"
55964 acdde1a5faa0 tuned proofs; wenzelm parents: 55925 diff changeset	2130	have vb: "?v \<in> set (\<beta> (NEq (CN 0 c e)))"
acdde1a5faa0 tuned proofs; wenzelm parents: 55925 diff changeset	2131	by simp
55885 c871a2e751ec tuned proofs; wenzelm parents: 55844 diff changeset	2132	{
c871a2e751ec tuned proofs; wenzelm parents: 55844 diff changeset	2133	assume "x - d + Inum (((x -d)) # bs) e \<noteq> 0"
c871a2e751ec tuned proofs; wenzelm parents: 55844 diff changeset	2134	then have ?case by (simp add: c1)
c871a2e751ec tuned proofs; wenzelm parents: 55844 diff changeset	2135	}
c871a2e751ec tuned proofs; wenzelm parents: 55844 diff changeset	2136	moreover
c871a2e751ec tuned proofs; wenzelm parents: 55844 diff changeset	2137	{
55964 acdde1a5faa0 tuned proofs; wenzelm parents: 55925 diff changeset	2138	assume H: "x - d + Inum ((x - d) # bs) e = 0"
acdde1a5faa0 tuned proofs; wenzelm parents: 55925 diff changeset	2139	then have "x = - Inum ((x - d) # bs) e + d"
55885 c871a2e751ec tuned proofs; wenzelm parents: 55844 diff changeset	2140	by simp
c871a2e751ec tuned proofs; wenzelm parents: 55844 diff changeset	2141	then have "x = - Inum (a # bs) e + d"
c871a2e751ec tuned proofs; wenzelm parents: 55844 diff changeset	2142	by (simp add: numbound0_I[OF bn,where b="x - d"and b'="a"and bs="bs"])
c871a2e751ec tuned proofs; wenzelm parents: 55844 diff changeset	2143	with 4(5) have ?case
c871a2e751ec tuned proofs; wenzelm parents: 55844 diff changeset	2144	using dp by simp
c871a2e751ec tuned proofs; wenzelm parents: 55844 diff changeset	2145	}
c871a2e751ec tuned proofs; wenzelm parents: 55844 diff changeset	2146	ultimately show ?case
c871a2e751ec tuned proofs; wenzelm parents: 55844 diff changeset	2147	by blast
50313 5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	2148	next
55885 c871a2e751ec tuned proofs; wenzelm parents: 55844 diff changeset	2149	case (9 j c e)
c871a2e751ec tuned proofs; wenzelm parents: 55844 diff changeset	2150	then
c871a2e751ec tuned proofs; wenzelm parents: 55844 diff changeset	2151	have p: "Ifm bbs (x # bs) (Dvd j (CN 0 c e))" (is "?p x")
c871a2e751ec tuned proofs; wenzelm parents: 55844 diff changeset	2152	and c1: "c = 1"
c871a2e751ec tuned proofs; wenzelm parents: 55844 diff changeset	2153	and bn: "numbound0 e"
c871a2e751ec tuned proofs; wenzelm parents: 55844 diff changeset	2154	by simp_all
c871a2e751ec tuned proofs; wenzelm parents: 55844 diff changeset	2155	let ?e = "Inum (x # bs) e"
c871a2e751ec tuned proofs; wenzelm parents: 55844 diff changeset	2156	from 9 have id: "j dvd d"
c871a2e751ec tuned proofs; wenzelm parents: 55844 diff changeset	2157	by simp
55964 acdde1a5faa0 tuned proofs; wenzelm parents: 55925 diff changeset	2158	from c1 have "?p x \<longleftrightarrow> j dvd (x + ?e)"
55885 c871a2e751ec tuned proofs; wenzelm parents: 55844 diff changeset	2159	by simp
55964 acdde1a5faa0 tuned proofs; wenzelm parents: 55925 diff changeset	2160	also have "\<dots> \<longleftrightarrow> j dvd x - d + ?e"
55885 c871a2e751ec tuned proofs; wenzelm parents: 55844 diff changeset	2161	using zdvd_period[OF id, where x="x" and c="-1" and t="?e"]
c871a2e751ec tuned proofs; wenzelm parents: 55844 diff changeset	2162	by simp
c871a2e751ec tuned proofs; wenzelm parents: 55844 diff changeset	2163	finally show ?case
c871a2e751ec tuned proofs; wenzelm parents: 55844 diff changeset	2164	using numbound0_I[OF bn,where b="(x-d)" and b'="x" and bs="bs"] c1 p
c871a2e751ec tuned proofs; wenzelm parents: 55844 diff changeset	2165	by simp
23274 f997514ad8f4 New Reflected Presburger added to HOL/ex chaieb parents: 21404 diff changeset	2166	next
55885 c871a2e751ec tuned proofs; wenzelm parents: 55844 diff changeset	2167	case (10 j c e)
c871a2e751ec tuned proofs; wenzelm parents: 55844 diff changeset	2168	then
55964 acdde1a5faa0 tuned proofs; wenzelm parents: 55925 diff changeset	2169	have p: "Ifm bbs (x # bs) (NDvd j (CN 0 c e))" (is "?p x")
55885 c871a2e751ec tuned proofs; wenzelm parents: 55844 diff changeset	2170	and c1: "c = 1"
c871a2e751ec tuned proofs; wenzelm parents: 55844 diff changeset	2171	and bn: "numbound0 e"
c871a2e751ec tuned proofs; wenzelm parents: 55844 diff changeset	2172	by simp_all
c871a2e751ec tuned proofs; wenzelm parents: 55844 diff changeset	2173	let ?e = "Inum (x # bs) e"
c871a2e751ec tuned proofs; wenzelm parents: 55844 diff changeset	2174	from 10 have id: "j dvd d"
c871a2e751ec tuned proofs; wenzelm parents: 55844 diff changeset	2175	by simp
55964 acdde1a5faa0 tuned proofs; wenzelm parents: 55925 diff changeset	2176	from c1 have "?p x \<longleftrightarrow> \<not> j dvd (x + ?e)"
55885 c871a2e751ec tuned proofs; wenzelm parents: 55844 diff changeset	2177	by simp
55964 acdde1a5faa0 tuned proofs; wenzelm parents: 55925 diff changeset	2178	also have "\<dots> \<longleftrightarrow> \<not> j dvd x - d + ?e"
55885 c871a2e751ec tuned proofs; wenzelm parents: 55844 diff changeset	2179	using zdvd_period[OF id, where x="x" and c="-1" and t="?e"]
c871a2e751ec tuned proofs; wenzelm parents: 55844 diff changeset	2180	by simp
c871a2e751ec tuned proofs; wenzelm parents: 55844 diff changeset	2181	finally show ?case
c871a2e751ec tuned proofs; wenzelm parents: 55844 diff changeset	2182	using numbound0_I[OF bn,where b="(x-d)" and b'="x" and bs="bs"] c1 p
c871a2e751ec tuned proofs; wenzelm parents: 55844 diff changeset	2183	by simp
23689 0410269099dc replaced code generator framework for reflected cooper haftmann parents: 23515 diff changeset	2184	qed (auto simp add: numbound0_I[where bs="bs" and b="(x - d)" and b'="x"] gr0_conv_Suc)
17378 105519771c67 The oracle for Presburger has been changer: It is automatically generated form a verified formaliztion of Cooper's Algorithm ex/Reflected_Presburger.thy chaieb parents: diff changeset	2185
50313 5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	2186	lemma \<beta>':
23274 f997514ad8f4 New Reflected Presburger added to HOL/ex chaieb parents: 21404 diff changeset	2187	assumes lp: "iszlfm p"
50252 4aa34bd43228 eliminated slightly odd identifiers; wenzelm parents: 49962 diff changeset	2188	and u: "d_\<beta> p 1"
4aa34bd43228 eliminated slightly odd identifiers; wenzelm parents: 49962 diff changeset	2189	and d: "d_\<delta> p d"
23274 f997514ad8f4 New Reflected Presburger added to HOL/ex chaieb parents: 21404 diff changeset	2190	and dp: "d > 0"
55964 acdde1a5faa0 tuned proofs; wenzelm parents: 55925 diff changeset	2191	shows "\<forall>x. \<not> (\<exists>j::int \<in> {1 .. d}. \<exists>b \<in> set(\<beta> p). Ifm bbs ((Inum (a#bs) b + j) #bs) p) \<longrightarrow>
acdde1a5faa0 tuned proofs; wenzelm parents: 55925 diff changeset	2192	Ifm bbs (x # bs) p \<longrightarrow> Ifm bbs ((x - d) # bs) p" (is "\<forall>x. ?b \<longrightarrow> ?P x \<longrightarrow> ?P (x - d)")
55885 c871a2e751ec tuned proofs; wenzelm parents: 55844 diff changeset	2193	proof clarify
50313 5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	2194	fix x
55885 c871a2e751ec tuned proofs; wenzelm parents: 55844 diff changeset	2195	assume nb: "?b"
c871a2e751ec tuned proofs; wenzelm parents: 55844 diff changeset	2196	and px: "?P x"
55964 acdde1a5faa0 tuned proofs; wenzelm parents: 55925 diff changeset	2197	then have nb2: "\<not> (\<exists>j::int \<in> {1 .. d}. \<exists>b \<in> Inum (a # bs) ` set (\<beta> p). x = b + j)"
23274 f997514ad8f4 New Reflected Presburger added to HOL/ex chaieb parents: 21404 diff changeset	2198	by auto
f997514ad8f4 New Reflected Presburger added to HOL/ex chaieb parents: 21404 diff changeset	2199	from \<beta>[OF lp u d dp nb2 px] show "?P (x -d )" .
17378 105519771c67 The oracle for Presburger has been changer: It is automatically generated form a verified formaliztion of Cooper's Algorithm ex/Reflected_Presburger.thy chaieb parents: diff changeset	2200	qed
55885 c871a2e751ec tuned proofs; wenzelm parents: 55844 diff changeset	2201
c871a2e751ec tuned proofs; wenzelm parents: 55844 diff changeset	2202	lemma cpmi_eq:
55999 6477fc70cfa0 tuned proofs; wenzelm parents: 55981 diff changeset	2203	fixes P P1 :: "int \<Rightarrow> bool"
6477fc70cfa0 tuned proofs; wenzelm parents: 55981 diff changeset	2204	assumes "0 < D"
6477fc70cfa0 tuned proofs; wenzelm parents: 55981 diff changeset	2205	and "\<exists>z. \<forall>x. x < z \<longrightarrow> P x = P1 x"
6477fc70cfa0 tuned proofs; wenzelm parents: 55981 diff changeset	2206	and "\<forall>x. \<not> (\<exists>j \<in> {1..D}. \<exists>b \<in> B. P (b + j)) \<longrightarrow> P x \<longrightarrow> P (x - D)"
6477fc70cfa0 tuned proofs; wenzelm parents: 55981 diff changeset	2207	and "\<forall>x k. P1 x = P1 (x - k * D)"
6477fc70cfa0 tuned proofs; wenzelm parents: 55981 diff changeset	2208	shows "(\<exists>x. P x) \<longleftrightarrow> (\<exists>j \<in> {1..D}. P1 j) \<or> (\<exists>j \<in> {1..D}. \<exists>b \<in> B. P (b + j))"
6477fc70cfa0 tuned proofs; wenzelm parents: 55981 diff changeset	2209	apply (insert assms)
6477fc70cfa0 tuned proofs; wenzelm parents: 55981 diff changeset	2210	apply (rule iffI)
55885 c871a2e751ec tuned proofs; wenzelm parents: 55844 diff changeset	2211	prefer 2
55981 66739f41d5b2 tuned proofs; wenzelm parents: 55964 diff changeset	2212	apply (drule minusinfinity)
55885 c871a2e751ec tuned proofs; wenzelm parents: 55844 diff changeset	2213	apply assumption+
55981 66739f41d5b2 tuned proofs; wenzelm parents: 55964 diff changeset	2214	apply fastforce
55885 c871a2e751ec tuned proofs; wenzelm parents: 55844 diff changeset	2215	apply clarsimp
55981 66739f41d5b2 tuned proofs; wenzelm parents: 55964 diff changeset	2216	apply (subgoal_tac "\<And>k. 0 \<le> k \<Longrightarrow> \<forall>x. P x \<longrightarrow> P (x - k * D)")
66739f41d5b2 tuned proofs; wenzelm parents: 55964 diff changeset	2217	apply (frule_tac x = x and z=z in decr_lemma)
66739f41d5b2 tuned proofs; wenzelm parents: 55964 diff changeset	2218	apply (subgoal_tac "P1 (x - (\<bar>x - z\<bar> + 1) * D)")
55885 c871a2e751ec tuned proofs; wenzelm parents: 55844 diff changeset	2219	prefer 2
55981 66739f41d5b2 tuned proofs; wenzelm parents: 55964 diff changeset	2220	apply (subgoal_tac "0 \<le> \<bar>x - z\<bar> + 1")
55885 c871a2e751ec tuned proofs; wenzelm parents: 55844 diff changeset	2221	prefer 2 apply arith
c871a2e751ec tuned proofs; wenzelm parents: 55844 diff changeset	2222	apply fastforce
55981 66739f41d5b2 tuned proofs; wenzelm parents: 55964 diff changeset	2223	apply (drule (1) periodic_finite_ex)
55885 c871a2e751ec tuned proofs; wenzelm parents: 55844 diff changeset	2224	apply blast
55981 66739f41d5b2 tuned proofs; wenzelm parents: 55964 diff changeset	2225	apply (blast dest: decr_mult_lemma)
55885 c871a2e751ec tuned proofs; wenzelm parents: 55844 diff changeset	2226	done
17378 105519771c67 The oracle for Presburger has been changer: It is automatically generated form a verified formaliztion of Cooper's Algorithm ex/Reflected_Presburger.thy chaieb parents: diff changeset	2227
23274 f997514ad8f4 New Reflected Presburger added to HOL/ex chaieb parents: 21404 diff changeset	2228	theorem cp_thm:
f997514ad8f4 New Reflected Presburger added to HOL/ex chaieb parents: 21404 diff changeset	2229	assumes lp: "iszlfm p"
55885 c871a2e751ec tuned proofs; wenzelm parents: 55844 diff changeset	2230	and u: "d_\<beta> p 1"
c871a2e751ec tuned proofs; wenzelm parents: 55844 diff changeset	2231	and d: "d_\<delta> p d"
c871a2e751ec tuned proofs; wenzelm parents: 55844 diff changeset	2232	and dp: "d > 0"
55999 6477fc70cfa0 tuned proofs; wenzelm parents: 55981 diff changeset	2233	shows "(\<exists>x. Ifm bbs (x # bs) p) \<longleftrightarrow>
55964 acdde1a5faa0 tuned proofs; wenzelm parents: 55925 diff changeset	2234	(\<exists>j \<in> {1.. d}. Ifm bbs (j # bs) (minusinf p) \<or>
acdde1a5faa0 tuned proofs; wenzelm parents: 55925 diff changeset	2235	(\<exists>b \<in> set (\<beta> p). Ifm bbs ((Inum (i # bs) b + j) # bs) p))"
55999 6477fc70cfa0 tuned proofs; wenzelm parents: 55981 diff changeset	2236	(is "(\<exists>x. ?P x) \<longleftrightarrow> (\<exists>j \<in> ?D. ?M j \<or> (\<exists>b \<in> ?B. ?P (?I b + j)))")
55885 c871a2e751ec tuned proofs; wenzelm parents: 55844 diff changeset	2237	proof -
50313 5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	2238	from minusinf_inf[OF lp u]
55999 6477fc70cfa0 tuned proofs; wenzelm parents: 55981 diff changeset	2239	have th: "\<exists>z. \<forall>x<z. ?P x = ?M x"
55885 c871a2e751ec tuned proofs; wenzelm parents: 55844 diff changeset	2240	by blast
55964 acdde1a5faa0 tuned proofs; wenzelm parents: 55925 diff changeset	2241	let ?B' = "{?I b \| b. b \<in> ?B}"
acdde1a5faa0 tuned proofs; wenzelm parents: 55925 diff changeset	2242	have BB': "(\<exists>j\<in>?D. \<exists>b \<in> ?B. ?P (?I b + j)) \<longleftrightarrow> (\<exists>j \<in> ?D. \<exists>b \<in> ?B'. ?P (b + j))"
55885 c871a2e751ec tuned proofs; wenzelm parents: 55844 diff changeset	2243	by auto
55964 acdde1a5faa0 tuned proofs; wenzelm parents: 55925 diff changeset	2244	then have th2: "\<forall>x. \<not> (\<exists>j \<in> ?D. \<exists>b \<in> ?B'. ?P (b + j)) \<longrightarrow> ?P x \<longrightarrow> ?P (x - d)"
23274 f997514ad8f4 New Reflected Presburger added to HOL/ex chaieb parents: 21404 diff changeset	2245	using \<beta>'[OF lp u d dp, where a="i" and bbs = "bbs"] by blast
f997514ad8f4 New Reflected Presburger added to HOL/ex chaieb parents: 21404 diff changeset	2246	from minusinf_repeats[OF d lp]
55885 c871a2e751ec tuned proofs; wenzelm parents: 55844 diff changeset	2247	have th3: "\<forall>x k. ?M x = ?M (x-k*d)"
c871a2e751ec tuned proofs; wenzelm parents: 55844 diff changeset	2248	by simp
c871a2e751ec tuned proofs; wenzelm parents: 55844 diff changeset	2249	from cpmi_eq[OF dp th th2 th3] BB' show ?thesis
c871a2e751ec tuned proofs; wenzelm parents: 55844 diff changeset	2250	by blast
17378 105519771c67 The oracle for Presburger has been changer: It is automatically generated form a verified formaliztion of Cooper's Algorithm ex/Reflected_Presburger.thy chaieb parents: diff changeset	2251	qed
105519771c67 The oracle for Presburger has been changer: It is automatically generated form a verified formaliztion of Cooper's Algorithm ex/Reflected_Presburger.thy chaieb parents: diff changeset	2252
55885 c871a2e751ec tuned proofs; wenzelm parents: 55844 diff changeset	2253	(* Implement the right hand sides of Cooper's theorem and Ferrante and Rackoff. *)
50313 5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	2254	lemma mirror_ex:
55999 6477fc70cfa0 tuned proofs; wenzelm parents: 55981 diff changeset	2255	assumes "iszlfm p"
6477fc70cfa0 tuned proofs; wenzelm parents: 55981 diff changeset	2256	shows "(\<exists>x. Ifm bbs (x#bs) (mirror p)) \<longleftrightarrow> (\<exists>x. Ifm bbs (x#bs) p)"
50313 5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	2257	(is "(\<exists>x. ?I x ?mp) = (\<exists>x. ?I x p)")
55964 acdde1a5faa0 tuned proofs; wenzelm parents: 55925 diff changeset	2258	proof auto
acdde1a5faa0 tuned proofs; wenzelm parents: 55925 diff changeset	2259	fix x
acdde1a5faa0 tuned proofs; wenzelm parents: 55925 diff changeset	2260	assume "?I x ?mp"
acdde1a5faa0 tuned proofs; wenzelm parents: 55925 diff changeset	2261	then have "?I (- x) p"
55999 6477fc70cfa0 tuned proofs; wenzelm parents: 55981 diff changeset	2262	using mirror[OF assms] by blast
55964 acdde1a5faa0 tuned proofs; wenzelm parents: 55925 diff changeset	2263	then show "\<exists>x. ?I x p"
acdde1a5faa0 tuned proofs; wenzelm parents: 55925 diff changeset	2264	by blast
23274 f997514ad8f4 New Reflected Presburger added to HOL/ex chaieb parents: 21404 diff changeset	2265	next
55964 acdde1a5faa0 tuned proofs; wenzelm parents: 55925 diff changeset	2266	fix x
acdde1a5faa0 tuned proofs; wenzelm parents: 55925 diff changeset	2267	assume "?I x p"
acdde1a5faa0 tuned proofs; wenzelm parents: 55925 diff changeset	2268	then have "?I (- x) ?mp"
55999 6477fc70cfa0 tuned proofs; wenzelm parents: 55981 diff changeset	2269	using mirror[OF assms, where x="- x", symmetric] by auto
55964 acdde1a5faa0 tuned proofs; wenzelm parents: 55925 diff changeset	2270	then show "\<exists>x. ?I x ?mp"
acdde1a5faa0 tuned proofs; wenzelm parents: 55925 diff changeset	2271	by blast
23274 f997514ad8f4 New Reflected Presburger added to HOL/ex chaieb parents: 21404 diff changeset	2272	qed
24349 0dd8782fb02d Final mods for list comprehension nipkow parents: 24348 diff changeset	2273
50313 5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	2274	lemma cp_thm':
55999 6477fc70cfa0 tuned proofs; wenzelm parents: 55981 diff changeset	2275	assumes "iszlfm p"
6477fc70cfa0 tuned proofs; wenzelm parents: 55981 diff changeset	2276	and "d_\<beta> p 1"
6477fc70cfa0 tuned proofs; wenzelm parents: 55981 diff changeset	2277	and "d_\<delta> p d"
6477fc70cfa0 tuned proofs; wenzelm parents: 55981 diff changeset	2278	and "d > 0"
55964 acdde1a5faa0 tuned proofs; wenzelm parents: 55925 diff changeset	2279	shows "(\<exists>x. Ifm bbs (x # bs) p) \<longleftrightarrow>
acdde1a5faa0 tuned proofs; wenzelm parents: 55925 diff changeset	2280	((\<exists>j\<in> {1 .. d}. Ifm bbs (j#bs) (minusinf p)) \<or>
acdde1a5faa0 tuned proofs; wenzelm parents: 55925 diff changeset	2281	(\<exists>j\<in> {1.. d}. \<exists>b\<in> (Inum (i#bs)) ` set (\<beta> p). Ifm bbs ((b + j) # bs) p))"
55999 6477fc70cfa0 tuned proofs; wenzelm parents: 55981 diff changeset	2282	using cp_thm[OF assms,where i="i"] by auto
17378 105519771c67 The oracle for Presburger has been changer: It is automatically generated form a verified formaliztion of Cooper's Algorithm ex/Reflected_Presburger.thy chaieb parents: diff changeset	2283
50313 5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	2284	definition unit :: "fm \<Rightarrow> fm \<times> num list \<times> int"
5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	2285	where
55964 acdde1a5faa0 tuned proofs; wenzelm parents: 55925 diff changeset	2286	"unit p =
acdde1a5faa0 tuned proofs; wenzelm parents: 55925 diff changeset	2287	(let
acdde1a5faa0 tuned proofs; wenzelm parents: 55925 diff changeset	2288	p' = zlfm p;
acdde1a5faa0 tuned proofs; wenzelm parents: 55925 diff changeset	2289	l = \<zeta> p';
acdde1a5faa0 tuned proofs; wenzelm parents: 55925 diff changeset	2290	q = And (Dvd l (CN 0 1 (C 0))) (a_\<beta> p' l);
acdde1a5faa0 tuned proofs; wenzelm parents: 55925 diff changeset	2291	d = \<delta> q;
acdde1a5faa0 tuned proofs; wenzelm parents: 55925 diff changeset	2292	B = remdups (map simpnum (\<beta> q));
acdde1a5faa0 tuned proofs; wenzelm parents: 55925 diff changeset	2293	a = remdups (map simpnum (\<alpha> q))
acdde1a5faa0 tuned proofs; wenzelm parents: 55925 diff changeset	2294	in if length B \<le> length a then (q, B, d) else (mirror q, a, d))"
17378 105519771c67 The oracle for Presburger has been changer: It is automatically generated form a verified formaliztion of Cooper's Algorithm ex/Reflected_Presburger.thy chaieb parents: diff changeset	2295
50313 5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	2296	lemma unit:
5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	2297	assumes qf: "qfree p"
55964 acdde1a5faa0 tuned proofs; wenzelm parents: 55925 diff changeset	2298	shows "\<And>q B d. unit p = (q, B, d) \<Longrightarrow>
acdde1a5faa0 tuned proofs; wenzelm parents: 55925 diff changeset	2299	((\<exists>x. Ifm bbs (x # bs) p) \<longleftrightarrow> (\<exists>x. Ifm bbs (x # bs) q)) \<and>
acdde1a5faa0 tuned proofs; wenzelm parents: 55925 diff changeset	2300	(Inum (i # bs)) ` set B = (Inum (i # bs)) ` set (\<beta> q) \<and> d_\<beta> q 1 \<and> d_\<delta> q d \<and> d > 0 \<and>
acdde1a5faa0 tuned proofs; wenzelm parents: 55925 diff changeset	2301	iszlfm q \<and> (\<forall>b\<in> set B. numbound0 b)"
50313 5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	2302	proof -
5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	2303	fix q B d
23274 f997514ad8f4 New Reflected Presburger added to HOL/ex chaieb parents: 21404 diff changeset	2304	assume qBd: "unit p = (q,B,d)"
55981 66739f41d5b2 tuned proofs; wenzelm parents: 55964 diff changeset	2305	let ?thes = "((\<exists>x. Ifm bbs (x#bs) p) \<longleftrightarrow> (\<exists>x. Ifm bbs (x#bs) q)) \<and>
23274 f997514ad8f4 New Reflected Presburger added to HOL/ex chaieb parents: 21404 diff changeset	2306	Inum (i#bs) ` set B = Inum (i#bs) ` set (\<beta> q) \<and>
50313 5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	2307	d_\<beta> q 1 \<and> d_\<delta> q d \<and> 0 < d \<and> iszlfm q \<and> (\<forall>b\<in> set B. numbound0 b)"
5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	2308	let ?I = "\<lambda>x p. Ifm bbs (x#bs) p"
23274 f997514ad8f4 New Reflected Presburger added to HOL/ex chaieb parents: 21404 diff changeset	2309	let ?p' = "zlfm p"
f997514ad8f4 New Reflected Presburger added to HOL/ex chaieb parents: 21404 diff changeset	2310	let ?l = "\<zeta> ?p'"
50252 4aa34bd43228 eliminated slightly odd identifiers; wenzelm parents: 49962 diff changeset	2311	let ?q = "And (Dvd ?l (CN 0 1 (C 0))) (a_\<beta> ?p' ?l)"
23274 f997514ad8f4 New Reflected Presburger added to HOL/ex chaieb parents: 21404 diff changeset	2312	let ?d = "\<delta> ?q"
f997514ad8f4 New Reflected Presburger added to HOL/ex chaieb parents: 21404 diff changeset	2313	let ?B = "set (\<beta> ?q)"
f997514ad8f4 New Reflected Presburger added to HOL/ex chaieb parents: 21404 diff changeset	2314	let ?B'= "remdups (map simpnum (\<beta> ?q))"
f997514ad8f4 New Reflected Presburger added to HOL/ex chaieb parents: 21404 diff changeset	2315	let ?A = "set (\<alpha> ?q)"
f997514ad8f4 New Reflected Presburger added to HOL/ex chaieb parents: 21404 diff changeset	2316	let ?A'= "remdups (map simpnum (\<alpha> ?q))"
50313 5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	2317	from conjunct1[OF zlfm_I[OF qf, where bs="bs"]]
5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	2318	have pp': "\<forall>i. ?I i ?p' = ?I i p" by auto
23274 f997514ad8f4 New Reflected Presburger added to HOL/ex chaieb parents: 21404 diff changeset	2319	from conjunct2[OF zlfm_I[OF qf, where bs="bs" and i="i"]]
50313 5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	2320	have lp': "iszlfm ?p'" .
50252 4aa34bd43228 eliminated slightly odd identifiers; wenzelm parents: 49962 diff changeset	2321	from lp' \<zeta>[where p="?p'"] have lp: "?l >0" and dl: "d_\<beta> ?p' ?l" by auto
4aa34bd43228 eliminated slightly odd identifiers; wenzelm parents: 49962 diff changeset	2322	from a_\<beta>_ex[where p="?p'" and l="?l" and bs="bs", OF lp' dl lp] pp'
50313 5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	2323	have pq_ex:"(\<exists>(x::int). ?I x p) = (\<exists>x. ?I x ?q)" by simp
50252 4aa34bd43228 eliminated slightly odd identifiers; wenzelm parents: 49962 diff changeset	2324	from lp' lp a_\<beta>[OF lp' dl lp] have lq:"iszlfm ?q" and uq: "d_\<beta> ?q 1" by auto
4aa34bd43228 eliminated slightly odd identifiers; wenzelm parents: 49962 diff changeset	2325	from \<delta>[OF lq] have dp:"?d >0" and dd: "d_\<delta> ?q ?d" by blast+
50313 5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	2326	let ?N = "\<lambda>t. Inum (i#bs) t"
55981 66739f41d5b2 tuned proofs; wenzelm parents: 55964 diff changeset	2327	have "?N ` set ?B' = ((?N \<circ> simpnum) ` ?B)"
66739f41d5b2 tuned proofs; wenzelm parents: 55964 diff changeset	2328	by auto
66739f41d5b2 tuned proofs; wenzelm parents: 55964 diff changeset	2329	also have "\<dots> = ?N ` ?B"
66739f41d5b2 tuned proofs; wenzelm parents: 55964 diff changeset	2330	using simpnum_ci[where bs="i#bs"] by auto
23274 f997514ad8f4 New Reflected Presburger added to HOL/ex chaieb parents: 21404 diff changeset	2331	finally have BB': "?N ` set ?B' = ?N ` ?B" .
55981 66739f41d5b2 tuned proofs; wenzelm parents: 55964 diff changeset	2332	have "?N ` set ?A' = ((?N \<circ> simpnum) ` ?A)"
66739f41d5b2 tuned proofs; wenzelm parents: 55964 diff changeset	2333	by auto
66739f41d5b2 tuned proofs; wenzelm parents: 55964 diff changeset	2334	also have "\<dots> = ?N ` ?A"
66739f41d5b2 tuned proofs; wenzelm parents: 55964 diff changeset	2335	using simpnum_ci[where bs="i#bs"] by auto
23274 f997514ad8f4 New Reflected Presburger added to HOL/ex chaieb parents: 21404 diff changeset	2336	finally have AA': "?N ` set ?A' = ?N ` ?A" .
50313 5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	2337	from \<beta>_numbound0[OF lq] have B_nb:"\<forall>b\<in> set ?B'. numbound0 b"
23274 f997514ad8f4 New Reflected Presburger added to HOL/ex chaieb parents: 21404 diff changeset	2338	by (simp add: simpnum_numbound0)
50313 5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	2339	from \<alpha>_l[OF lq] have A_nb: "\<forall>b\<in> set ?A'. numbound0 b"
23274 f997514ad8f4 New Reflected Presburger added to HOL/ex chaieb parents: 21404 diff changeset	2340	by (simp add: simpnum_numbound0)
55981 66739f41d5b2 tuned proofs; wenzelm parents: 55964 diff changeset	2341	{
66739f41d5b2 tuned proofs; wenzelm parents: 55964 diff changeset	2342	assume "length ?B' \<le> length ?A'"
66739f41d5b2 tuned proofs; wenzelm parents: 55964 diff changeset	2343	then have q: "q = ?q" and "B = ?B'" and d: "d = ?d"
23274 f997514ad8f4 New Reflected Presburger added to HOL/ex chaieb parents: 21404 diff changeset	2344	using qBd by (auto simp add: Let_def unit_def)
55981 66739f41d5b2 tuned proofs; wenzelm parents: 55964 diff changeset	2345	with BB' B_nb
66739f41d5b2 tuned proofs; wenzelm parents: 55964 diff changeset	2346	have b: "?N ` (set B) = ?N ` set (\<beta> q)" and bn: "\<forall>b\<in> set B. numbound0 b"
66739f41d5b2 tuned proofs; wenzelm parents: 55964 diff changeset	2347	by simp_all
66739f41d5b2 tuned proofs; wenzelm parents: 55964 diff changeset	2348	with pq_ex dp uq dd lq q d have ?thes
66739f41d5b2 tuned proofs; wenzelm parents: 55964 diff changeset	2349	by simp
66739f41d5b2 tuned proofs; wenzelm parents: 55964 diff changeset	2350	}
50313 5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	2351	moreover
55981 66739f41d5b2 tuned proofs; wenzelm parents: 55964 diff changeset	2352	{
66739f41d5b2 tuned proofs; wenzelm parents: 55964 diff changeset	2353	assume "\<not> (length ?B' \<le> length ?A')"
55885 c871a2e751ec tuned proofs; wenzelm parents: 55844 diff changeset	2354	then have q:"q=mirror ?q" and "B = ?A'" and d:"d = ?d"
23274 f997514ad8f4 New Reflected Presburger added to HOL/ex chaieb parents: 21404 diff changeset	2355	using qBd by (auto simp add: Let_def unit_def)
50313 5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	2356	with AA' mirror_\<alpha>_\<beta>[OF lq] A_nb have b:"?N ` (set B) = ?N ` set (\<beta> q)"
5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	2357	and bn: "\<forall>b\<in> set B. numbound0 b" by simp_all
5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	2358	from mirror_ex[OF lq] pq_ex q
55981 66739f41d5b2 tuned proofs; wenzelm parents: 55964 diff changeset	2359	have pqm_eq:"(\<exists>(x::int). ?I x p) = (\<exists>(x::int). ?I x q)"
66739f41d5b2 tuned proofs; wenzelm parents: 55964 diff changeset	2360	by simp
23274 f997514ad8f4 New Reflected Presburger added to HOL/ex chaieb parents: 21404 diff changeset	2361	from lq uq q mirror_l[where p="?q"]
55981 66739f41d5b2 tuned proofs; wenzelm parents: 55964 diff changeset	2362	have lq': "iszlfm q" and uq: "d_\<beta> q 1"
66739f41d5b2 tuned proofs; wenzelm parents: 55964 diff changeset	2363	by auto
66739f41d5b2 tuned proofs; wenzelm parents: 55964 diff changeset	2364	from \<delta>[OF lq'] mirror_\<delta>[OF lq] q d have dq: "d_\<delta> q d"
66739f41d5b2 tuned proofs; wenzelm parents: 55964 diff changeset	2365	by auto
66739f41d5b2 tuned proofs; wenzelm parents: 55964 diff changeset	2366	from pqm_eq b bn uq lq' dp dq q dp d have ?thes
66739f41d5b2 tuned proofs; wenzelm parents: 55964 diff changeset	2367	by simp
23274 f997514ad8f4 New Reflected Presburger added to HOL/ex chaieb parents: 21404 diff changeset	2368	}
f997514ad8f4 New Reflected Presburger added to HOL/ex chaieb parents: 21404 diff changeset	2369	ultimately show ?thes by blast
f997514ad8f4 New Reflected Presburger added to HOL/ex chaieb parents: 21404 diff changeset	2370	qed
50313 5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	2371
5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	2372
5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	2373	text {* Cooper's Algorithm *}
17378 105519771c67 The oracle for Presburger has been changer: It is automatically generated form a verified formaliztion of Cooper's Algorithm ex/Reflected_Presburger.thy chaieb parents: diff changeset	2374
55981 66739f41d5b2 tuned proofs; wenzelm parents: 55964 diff changeset	2375	definition cooper :: "fm \<Rightarrow> fm"
66739f41d5b2 tuned proofs; wenzelm parents: 55964 diff changeset	2376	where
50313 5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	2377	"cooper p =
5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	2378	(let
5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	2379	(q, B, d) = unit p;
5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	2380	js = [1..d];
5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	2381	mq = simpfm (minusinf q);
5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	2382	md = evaldjf (\<lambda>j. simpfm (subst0 (C j) mq)) js
5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	2383	in
5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	2384	if md = T then T
5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	2385	else
5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	2386	(let
5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	2387	qd = evaldjf (\<lambda>(b, j). simpfm (subst0 (Add b (C j)) q)) [(b, j). b \<leftarrow> B, j \<leftarrow> js]
5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	2388	in decr (disj md qd)))"
5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	2389
5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	2390	lemma cooper:
5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	2391	assumes qf: "qfree p"
5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	2392	shows "((\<exists>x. Ifm bbs (x#bs) p) = (Ifm bbs bs (cooper p))) \<and> qfree (cooper p)"
23274 f997514ad8f4 New Reflected Presburger added to HOL/ex chaieb parents: 21404 diff changeset	2393	(is "(?lhs = ?rhs) \<and> _")
50313 5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	2394	proof -
5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	2395	let ?I = "\<lambda>x p. Ifm bbs (x#bs) p"
23274 f997514ad8f4 New Reflected Presburger added to HOL/ex chaieb parents: 21404 diff changeset	2396	let ?q = "fst (unit p)"
f997514ad8f4 New Reflected Presburger added to HOL/ex chaieb parents: 21404 diff changeset	2397	let ?B = "fst (snd(unit p))"
f997514ad8f4 New Reflected Presburger added to HOL/ex chaieb parents: 21404 diff changeset	2398	let ?d = "snd (snd (unit p))"
41836 c9d788ff7940 eliminated clones of List.upto krauss parents: 41807 diff changeset	2399	let ?js = "[1..?d]"
23274 f997514ad8f4 New Reflected Presburger added to HOL/ex chaieb parents: 21404 diff changeset	2400	let ?mq = "minusinf ?q"
f997514ad8f4 New Reflected Presburger added to HOL/ex chaieb parents: 21404 diff changeset	2401	let ?smq = "simpfm ?mq"
50313 5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	2402	let ?md = "evaldjf (\<lambda>j. simpfm (subst0 (C j) ?smq)) ?js"
26934 c1ae80a58341 avoid undeclared variables within proofs; wenzelm parents: 25592 diff changeset	2403	fix i
50313 5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	2404	let ?N = "\<lambda>t. Inum (i#bs) t"
24336 fff40259f336 removed allpairs nipkow parents: 24249 diff changeset	2405	let ?Bjs = "[(b,j). b\<leftarrow>?B,j\<leftarrow>?js]"
50313 5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	2406	let ?qd = "evaldjf (\<lambda>(b,j). simpfm (subst0 (Add b (C j)) ?q)) ?Bjs"
23274 f997514ad8f4 New Reflected Presburger added to HOL/ex chaieb parents: 21404 diff changeset	2407	have qbf:"unit p = (?q,?B,?d)" by simp
55981 66739f41d5b2 tuned proofs; wenzelm parents: 55964 diff changeset	2408	from unit[OF qf qbf]
66739f41d5b2 tuned proofs; wenzelm parents: 55964 diff changeset	2409	have pq_ex: "(\<exists>(x::int). ?I x p) \<longleftrightarrow> (\<exists>(x::int). ?I x ?q)"
66739f41d5b2 tuned proofs; wenzelm parents: 55964 diff changeset	2410	and B: "?N ` set ?B = ?N ` set (\<beta> ?q)"
66739f41d5b2 tuned proofs; wenzelm parents: 55964 diff changeset	2411	and uq: "d_\<beta> ?q 1"
66739f41d5b2 tuned proofs; wenzelm parents: 55964 diff changeset	2412	and dd: "d_\<delta> ?q ?d"
66739f41d5b2 tuned proofs; wenzelm parents: 55964 diff changeset	2413	and dp: "?d > 0"
66739f41d5b2 tuned proofs; wenzelm parents: 55964 diff changeset	2414	and lq: "iszlfm ?q"
66739f41d5b2 tuned proofs; wenzelm parents: 55964 diff changeset	2415	and Bn: "\<forall>b\<in> set ?B. numbound0 b"
66739f41d5b2 tuned proofs; wenzelm parents: 55964 diff changeset	2416	by auto
23274 f997514ad8f4 New Reflected Presburger added to HOL/ex chaieb parents: 21404 diff changeset	2417	from zlin_qfree[OF lq] have qfq: "qfree ?q" .
55921 22e9fc998d65 tuned proofs; wenzelm parents: 55885 diff changeset	2418	from simpfm_qf[OF minusinf_qfree[OF qfq]] have qfmq: "qfree ?smq" .
55981 66739f41d5b2 tuned proofs; wenzelm parents: 55964 diff changeset	2419	have jsnb: "\<forall>j \<in> set ?js. numbound0 (C j)"
66739f41d5b2 tuned proofs; wenzelm parents: 55964 diff changeset	2420	by simp
55885 c871a2e751ec tuned proofs; wenzelm parents: 55844 diff changeset	2421	then have "\<forall>j\<in> set ?js. bound0 (subst0 (C j) ?smq)"
23274 f997514ad8f4 New Reflected Presburger added to HOL/ex chaieb parents: 21404 diff changeset	2422	by (auto simp only: subst0_bound0[OF qfmq])
55885 c871a2e751ec tuned proofs; wenzelm parents: 55844 diff changeset	2423	then have th: "\<forall>j\<in> set ?js. bound0 (simpfm (subst0 (C j) ?smq))"
23274 f997514ad8f4 New Reflected Presburger added to HOL/ex chaieb parents: 21404 diff changeset	2424	by (auto simp add: simpfm_bound0)
55981 66739f41d5b2 tuned proofs; wenzelm parents: 55964 diff changeset	2425	from evaldjf_bound0[OF th] have mdb: "bound0 ?md"
66739f41d5b2 tuned proofs; wenzelm parents: 55964 diff changeset	2426	by simp
50313 5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	2427	from Bn jsnb have "\<forall>(b,j) \<in> set ?Bjs. numbound0 (Add b (C j))"
23689 0410269099dc replaced code generator framework for reflected cooper haftmann parents: 23515 diff changeset	2428	by simp
55885 c871a2e751ec tuned proofs; wenzelm parents: 55844 diff changeset	2429	then have "\<forall>(b,j) \<in> set ?Bjs. bound0 (subst0 (Add b (C j)) ?q)"
23274 f997514ad8f4 New Reflected Presburger added to HOL/ex chaieb parents: 21404 diff changeset	2430	using subst0_bound0[OF qfq] by blast
55885 c871a2e751ec tuned proofs; wenzelm parents: 55844 diff changeset	2431	then have "\<forall>(b,j) \<in> set ?Bjs. bound0 (simpfm (subst0 (Add b (C j)) ?q))"
55981 66739f41d5b2 tuned proofs; wenzelm parents: 55964 diff changeset	2432	using simpfm_bound0 by blast
55885 c871a2e751ec tuned proofs; wenzelm parents: 55844 diff changeset	2433	then have th': "\<forall>x \<in> set ?Bjs. bound0 ((\<lambda>(b,j). simpfm (subst0 (Add b (C j)) ?q)) x)"
50313 5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	2434	by auto
55981 66739f41d5b2 tuned proofs; wenzelm parents: 55964 diff changeset	2435	from evaldjf_bound0 [OF th'] have qdb: "bound0 ?qd"
66739f41d5b2 tuned proofs; wenzelm parents: 55964 diff changeset	2436	by simp
66739f41d5b2 tuned proofs; wenzelm parents: 55964 diff changeset	2437	from mdb qdb have mdqdb: "bound0 (disj ?md ?qd)"
66739f41d5b2 tuned proofs; wenzelm parents: 55964 diff changeset	2438	unfolding disj_def by (cases "?md = T \<or> ?qd = T") simp_all
23274 f997514ad8f4 New Reflected Presburger added to HOL/ex chaieb parents: 21404 diff changeset	2439	from trans [OF pq_ex cp_thm'[OF lq uq dd dp,where i="i"]] B
55981 66739f41d5b2 tuned proofs; wenzelm parents: 55964 diff changeset	2440	have "?lhs \<longleftrightarrow> (\<exists>j \<in> {1.. ?d}. ?I j ?mq \<or> (\<exists>b \<in> ?N ` set ?B. Ifm bbs ((b + j) # bs) ?q))"
55921 22e9fc998d65 tuned proofs; wenzelm parents: 55885 diff changeset	2441	by auto
55981 66739f41d5b2 tuned proofs; wenzelm parents: 55964 diff changeset	2442	also have "\<dots> \<longleftrightarrow> (\<exists>j \<in> {1.. ?d}. ?I j ?mq \<or> (\<exists>b \<in> set ?B. Ifm bbs ((?N b + j) # bs) ?q))"
55921 22e9fc998d65 tuned proofs; wenzelm parents: 55885 diff changeset	2443	by simp
55981 66739f41d5b2 tuned proofs; wenzelm parents: 55964 diff changeset	2444	also have "\<dots> \<longleftrightarrow> (\<exists>j \<in> {1.. ?d}. ?I j ?mq ) \<or>
66739f41d5b2 tuned proofs; wenzelm parents: 55964 diff changeset	2445	(\<exists>j\<in> {1.. ?d}. \<exists>b \<in> set ?B. Ifm bbs ((?N (Add b (C j))) # bs) ?q)"
50313 5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	2446	by (simp only: Inum.simps) blast
55981 66739f41d5b2 tuned proofs; wenzelm parents: 55964 diff changeset	2447	also have "\<dots> \<longleftrightarrow> (\<exists>j \<in> {1.. ?d}. ?I j ?smq) \<or>
66739f41d5b2 tuned proofs; wenzelm parents: 55964 diff changeset	2448	(\<exists>j \<in> {1.. ?d}. \<exists>b \<in> set ?B. Ifm bbs ((?N (Add b (C j))) # bs) ?q)"
50313 5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	2449	by (simp add: simpfm)
55981 66739f41d5b2 tuned proofs; wenzelm parents: 55964 diff changeset	2450	also have "\<dots> \<longleftrightarrow> (\<exists>j\<in> set ?js. (\<lambda>j. ?I i (simpfm (subst0 (C j) ?smq))) j) \<or>
66739f41d5b2 tuned proofs; wenzelm parents: 55964 diff changeset	2451	(\<exists>j\<in> set ?js. \<exists>b\<in> set ?B. Ifm bbs ((?N (Add b (C j)))#bs) ?q)"
41836 c9d788ff7940 eliminated clones of List.upto krauss parents: 41807 diff changeset	2452	by (simp only: simpfm subst0_I[OF qfmq] set_upto) auto
55981 66739f41d5b2 tuned proofs; wenzelm parents: 55964 diff changeset	2453	also have "\<dots> \<longleftrightarrow> ?I i (evaldjf (\<lambda>j. simpfm (subst0 (C j) ?smq)) ?js) \<or>
66739f41d5b2 tuned proofs; wenzelm parents: 55964 diff changeset	2454	(\<exists>j\<in> set ?js. \<exists>b\<in> set ?B. ?I i (subst0 (Add b (C j)) ?q))"
50313 5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	2455	by (simp only: evaldjf_ex subst0_I[OF qfq])
55981 66739f41d5b2 tuned proofs; wenzelm parents: 55964 diff changeset	2456	also have "\<dots> \<longleftrightarrow> ?I i ?md \<or>
66739f41d5b2 tuned proofs; wenzelm parents: 55964 diff changeset	2457	(\<exists>(b,j) \<in> set ?Bjs. (\<lambda>(b,j). ?I i (simpfm (subst0 (Add b (C j)) ?q))) (b,j))"
50313 5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	2458	by (simp only: simpfm set_concat set_map concat_map_singleton UN_simps) blast
55981 66739f41d5b2 tuned proofs; wenzelm parents: 55964 diff changeset	2459	also have "\<dots> \<longleftrightarrow> ?I i ?md \<or> ?I i (evaldjf (\<lambda>(b,j). simpfm (subst0 (Add b (C j)) ?q)) ?Bjs)"
50313 5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	2460	by (simp only: evaldjf_ex[where bs="i#bs" and f="\<lambda>(b,j). simpfm (subst0 (Add b (C j)) ?q)" and ps="?Bjs"])
5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	2461	(auto simp add: split_def)
55981 66739f41d5b2 tuned proofs; wenzelm parents: 55964 diff changeset	2462	finally have mdqd: "?lhs \<longleftrightarrow> ?I i ?md \<or> ?I i ?qd"
55921 22e9fc998d65 tuned proofs; wenzelm parents: 55885 diff changeset	2463	by simp
55981 66739f41d5b2 tuned proofs; wenzelm parents: 55964 diff changeset	2464	also have "\<dots> \<longleftrightarrow> ?I i (disj ?md ?qd)"
55921 22e9fc998d65 tuned proofs; wenzelm parents: 55885 diff changeset	2465	by (simp add: disj)
55981 66739f41d5b2 tuned proofs; wenzelm parents: 55964 diff changeset	2466	also have "\<dots> \<longleftrightarrow> Ifm bbs bs (decr (disj ?md ?qd))"
55921 22e9fc998d65 tuned proofs; wenzelm parents: 55885 diff changeset	2467	by (simp only: decr [OF mdqdb])
55981 66739f41d5b2 tuned proofs; wenzelm parents: 55964 diff changeset	2468	finally have mdqd2: "?lhs \<longleftrightarrow> Ifm bbs bs (decr (disj ?md ?qd))" .
55921 22e9fc998d65 tuned proofs; wenzelm parents: 55885 diff changeset	2469	{
22e9fc998d65 tuned proofs; wenzelm parents: 55885 diff changeset	2470	assume mdT: "?md = T"
22e9fc998d65 tuned proofs; wenzelm parents: 55885 diff changeset	2471	then have cT: "cooper p = T"
23274 f997514ad8f4 New Reflected Presburger added to HOL/ex chaieb parents: 21404 diff changeset	2472	by (simp only: cooper_def unit_def split_def Let_def if_True) simp
55921 22e9fc998d65 tuned proofs; wenzelm parents: 55885 diff changeset	2473	from mdT have lhs: "?lhs"
22e9fc998d65 tuned proofs; wenzelm parents: 55885 diff changeset	2474	using mdqd by simp
22e9fc998d65 tuned proofs; wenzelm parents: 55885 diff changeset	2475	from mdT have "?rhs"
22e9fc998d65 tuned proofs; wenzelm parents: 55885 diff changeset	2476	by (simp add: cooper_def unit_def split_def)
55981 66739f41d5b2 tuned proofs; wenzelm parents: 55964 diff changeset	2477	with lhs cT have ?thesis
66739f41d5b2 tuned proofs; wenzelm parents: 55964 diff changeset	2478	by simp
55921 22e9fc998d65 tuned proofs; wenzelm parents: 55885 diff changeset	2479	}
17378 105519771c67 The oracle for Presburger has been changer: It is automatically generated form a verified formaliztion of Cooper's Algorithm ex/Reflected_Presburger.thy chaieb parents: diff changeset	2480	moreover
55921 22e9fc998d65 tuned proofs; wenzelm parents: 55885 diff changeset	2481	{
22e9fc998d65 tuned proofs; wenzelm parents: 55885 diff changeset	2482	assume mdT: "?md \<noteq> T"
22e9fc998d65 tuned proofs; wenzelm parents: 55885 diff changeset	2483	then have "cooper p = decr (disj ?md ?qd)"
50313 5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	2484	by (simp only: cooper_def unit_def split_def Let_def if_False)
55921 22e9fc998d65 tuned proofs; wenzelm parents: 55885 diff changeset	2485	with mdqd2 decr_qf[OF mdqdb] have ?thesis
22e9fc998d65 tuned proofs; wenzelm parents: 55885 diff changeset	2486	by simp
22e9fc998d65 tuned proofs; wenzelm parents: 55885 diff changeset	2487	}
17378 105519771c67 The oracle for Presburger has been changer: It is automatically generated form a verified formaliztion of Cooper's Algorithm ex/Reflected_Presburger.thy chaieb parents: diff changeset	2488	ultimately show ?thesis by blast
105519771c67 The oracle for Presburger has been changer: It is automatically generated form a verified formaliztion of Cooper's Algorithm ex/Reflected_Presburger.thy chaieb parents: diff changeset	2489	qed
105519771c67 The oracle for Presburger has been changer: It is automatically generated form a verified formaliztion of Cooper's Algorithm ex/Reflected_Presburger.thy chaieb parents: diff changeset	2490
55921 22e9fc998d65 tuned proofs; wenzelm parents: 55885 diff changeset	2491	definition pa :: "fm \<Rightarrow> fm"
22e9fc998d65 tuned proofs; wenzelm parents: 55885 diff changeset	2492	where "pa p = qelim (prep p) cooper"
17378 105519771c67 The oracle for Presburger has been changer: It is automatically generated form a verified formaliztion of Cooper's Algorithm ex/Reflected_Presburger.thy chaieb parents: diff changeset	2493
55921 22e9fc998d65 tuned proofs; wenzelm parents: 55885 diff changeset	2494	theorem mirqe: "Ifm bbs bs (pa p) = Ifm bbs bs p \<and> qfree (pa p)"
23274 f997514ad8f4 New Reflected Presburger added to HOL/ex chaieb parents: 21404 diff changeset	2495	using qelim_ci cooper prep by (auto simp add: pa_def)
17378 105519771c67 The oracle for Presburger has been changer: It is automatically generated form a verified formaliztion of Cooper's Algorithm ex/Reflected_Presburger.thy chaieb parents: diff changeset	2496
50313 5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	2497	definition cooper_test :: "unit \<Rightarrow> fm"
5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	2498	where
5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	2499	"cooper_test u =
5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	2500	pa (E (A (Imp (Ge (Sub (Bound 0) (Bound 1)))
5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	2501	(E (E (Eq (Sub (Add (Mul 3 (Bound 1)) (Mul 5 (Bound 0))) (Bound 2))))))))"
17378 105519771c67 The oracle for Presburger has been changer: It is automatically generated form a verified formaliztion of Cooper's Algorithm ex/Reflected_Presburger.thy chaieb parents: diff changeset	2502
51272 9c8d63b4b6be prefer stateless 'ML_val' for tests; wenzelm parents: 51143 diff changeset	2503	ML_val {* @{code cooper_test} () *}
27456 52c7c42e7e27 code antiquotation roaring ahead haftmann parents: 26934 diff changeset	2504
51143 0a2371e7ced3 two target language numeral types: integer and natural, as replacement for code_numeral; haftmann parents: 50313 diff changeset	2505	(*code_reflect Cooper_Procedure
55685 3f8bdc5364a9 regenerated haftmann parents: 55584 diff changeset	2506	functions pa T Bound nat_of_integer integer_of_nat int_of_integer integer_of_int
51143 0a2371e7ced3 two target language numeral types: integer and natural, as replacement for code_numeral; haftmann parents: 50313 diff changeset	2507	file "~~/src/HOL/Tools/Qelim/cooper_procedure.ML"*)
27456 52c7c42e7e27 code antiquotation roaring ahead haftmann parents: 26934 diff changeset	2508
28290 4cc2b6046258 simplified oracle interface; wenzelm parents: 28264 diff changeset	2509	oracle linzqe_oracle = {*
27456 52c7c42e7e27 code antiquotation roaring ahead haftmann parents: 26934 diff changeset	2510	let
52c7c42e7e27 code antiquotation roaring ahead haftmann parents: 26934 diff changeset	2511
55814 aefa1db74d9d tuned whitespace; wenzelm parents: 55685 diff changeset	2512	fun num_of_term vs (t as Free (xn, xT)) =
aefa1db74d9d tuned whitespace; wenzelm parents: 55685 diff changeset	2513	(case AList.lookup (op =) vs t of
aefa1db74d9d tuned whitespace; wenzelm parents: 55685 diff changeset	2514	NONE => error "Variable not found in the list!"
51143 0a2371e7ced3 two target language numeral types: integer and natural, as replacement for code_numeral; haftmann parents: 50313 diff changeset	2515	\| SOME n => @{code Bound} (@{code nat_of_integer} n))
0a2371e7ced3 two target language numeral types: integer and natural, as replacement for code_numeral; haftmann parents: 50313 diff changeset	2516	\| num_of_term vs @{term "0::int"} = @{code C} (@{code int_of_integer} 0)
0a2371e7ced3 two target language numeral types: integer and natural, as replacement for code_numeral; haftmann parents: 50313 diff changeset	2517	\| num_of_term vs @{term "1::int"} = @{code C} (@{code int_of_integer} 1)
54489 03ff4d1e6784 eliminiated neg_numeral in favour of - (numeral _) haftmann parents: 54230 diff changeset	2518	\| num_of_term vs @{term "- 1::int"} = @{code C} (@{code int_of_integer} (~ 1))
51143 0a2371e7ced3 two target language numeral types: integer and natural, as replacement for code_numeral; haftmann parents: 50313 diff changeset	2519	\| num_of_term vs (@{term "numeral :: _ \<Rightarrow> int"} $ t) =
0a2371e7ced3 two target language numeral types: integer and natural, as replacement for code_numeral; haftmann parents: 50313 diff changeset	2520	@{code C} (@{code int_of_integer} (HOLogic.dest_num t))
54489 03ff4d1e6784 eliminiated neg_numeral in favour of - (numeral _) haftmann parents: 54230 diff changeset	2521	\| num_of_term vs (@{term "- numeral :: _ \<Rightarrow> int"} $ t) =
51143 0a2371e7ced3 two target language numeral types: integer and natural, as replacement for code_numeral; haftmann parents: 50313 diff changeset	2522	@{code C} (@{code int_of_integer} (~(HOLogic.dest_num t)))
0a2371e7ced3 two target language numeral types: integer and natural, as replacement for code_numeral; haftmann parents: 50313 diff changeset	2523	\| num_of_term vs (Bound i) = @{code Bound} (@{code nat_of_integer} i)
27456 52c7c42e7e27 code antiquotation roaring ahead haftmann parents: 26934 diff changeset	2524	\| num_of_term vs (@{term "uminus :: int \<Rightarrow> int"} $ t') = @{code Neg} (num_of_term vs t')
52c7c42e7e27 code antiquotation roaring ahead haftmann parents: 26934 diff changeset	2525	\| num_of_term vs (@{term "op + :: int \<Rightarrow> int \<Rightarrow> int"} $ t1 $ t2) =
52c7c42e7e27 code antiquotation roaring ahead haftmann parents: 26934 diff changeset	2526	@{code Add} (num_of_term vs t1, num_of_term vs t2)
52c7c42e7e27 code antiquotation roaring ahead haftmann parents: 26934 diff changeset	2527	\| num_of_term vs (@{term "op - :: int \<Rightarrow> int \<Rightarrow> int"} $ t1 $ t2) =
52c7c42e7e27 code antiquotation roaring ahead haftmann parents: 26934 diff changeset	2528	@{code Sub} (num_of_term vs t1, num_of_term vs t2)
52c7c42e7e27 code antiquotation roaring ahead haftmann parents: 26934 diff changeset	2529	\| num_of_term vs (@{term "op * :: int \<Rightarrow> int \<Rightarrow> int"} $ t1 $ t2) =
55814 aefa1db74d9d tuned whitespace; wenzelm parents: 55685 diff changeset	2530	(case try HOLogic.dest_number t1 of
aefa1db74d9d tuned whitespace; wenzelm parents: 55685 diff changeset	2531	SOME (_, i) => @{code Mul} (@{code int_of_integer} i, num_of_term vs t2)
aefa1db74d9d tuned whitespace; wenzelm parents: 55685 diff changeset	2532	\| NONE =>
aefa1db74d9d tuned whitespace; wenzelm parents: 55685 diff changeset	2533	(case try HOLogic.dest_number t2 of
aefa1db74d9d tuned whitespace; wenzelm parents: 55685 diff changeset	2534	SOME (_, i) => @{code Mul} (@{code int_of_integer} i, num_of_term vs t1)
aefa1db74d9d tuned whitespace; wenzelm parents: 55685 diff changeset	2535	\| NONE => error "num_of_term: unsupported multiplication"))
28264 e1dae766c108 local @{context}; wenzelm parents: 27556 diff changeset	2536	\| num_of_term vs t = error ("num_of_term: unknown term " ^ Syntax.string_of_term @{context} t);
27456 52c7c42e7e27 code antiquotation roaring ahead haftmann parents: 26934 diff changeset	2537
52c7c42e7e27 code antiquotation roaring ahead haftmann parents: 26934 diff changeset	2538	fun fm_of_term ps vs @{term True} = @{code T}
52c7c42e7e27 code antiquotation roaring ahead haftmann parents: 26934 diff changeset	2539	\| fm_of_term ps vs @{term False} = @{code F}
52c7c42e7e27 code antiquotation roaring ahead haftmann parents: 26934 diff changeset	2540	\| fm_of_term ps vs (@{term "op < :: int \<Rightarrow> int \<Rightarrow> bool"} $ t1 $ t2) =
52c7c42e7e27 code antiquotation roaring ahead haftmann parents: 26934 diff changeset	2541	@{code Lt} (@{code Sub} (num_of_term vs t1, num_of_term vs t2))
52c7c42e7e27 code antiquotation roaring ahead haftmann parents: 26934 diff changeset	2542	\| fm_of_term ps vs (@{term "op \<le> :: int \<Rightarrow> int \<Rightarrow> bool"} $ t1 $ t2) =
52c7c42e7e27 code antiquotation roaring ahead haftmann parents: 26934 diff changeset	2543	@{code Le} (@{code Sub} (num_of_term vs t1, num_of_term vs t2))
52c7c42e7e27 code antiquotation roaring ahead haftmann parents: 26934 diff changeset	2544	\| fm_of_term ps vs (@{term "op = :: int \<Rightarrow> int \<Rightarrow> bool"} $ t1 $ t2) =
50313 5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	2545	@{code Eq} (@{code Sub} (num_of_term vs t1, num_of_term vs t2))
27456 52c7c42e7e27 code antiquotation roaring ahead haftmann parents: 26934 diff changeset	2546	\| fm_of_term ps vs (@{term "op dvd :: int \<Rightarrow> int \<Rightarrow> bool"} $ t1 $ t2) =
55814 aefa1db74d9d tuned whitespace; wenzelm parents: 55685 diff changeset	2547	(case try HOLogic.dest_number t1 of
aefa1db74d9d tuned whitespace; wenzelm parents: 55685 diff changeset	2548	SOME (_, i) => @{code Dvd} (@{code int_of_integer} i, num_of_term vs t2)
aefa1db74d9d tuned whitespace; wenzelm parents: 55685 diff changeset	2549	\| NONE => error "num_of_term: unsupported dvd")
27456 52c7c42e7e27 code antiquotation roaring ahead haftmann parents: 26934 diff changeset	2550	\| fm_of_term ps vs (@{term "op = :: bool \<Rightarrow> bool \<Rightarrow> bool"} $ t1 $ t2) =
52c7c42e7e27 code antiquotation roaring ahead haftmann parents: 26934 diff changeset	2551	@{code Iff} (fm_of_term ps vs t1, fm_of_term ps vs t2)
38795 848be46708dc formerly unnamed infix conjunction and disjunction now named HOL.conj and HOL.disj haftmann parents: 38786 diff changeset	2552	\| fm_of_term ps vs (@{term HOL.conj} $ t1 $ t2) =
27456 52c7c42e7e27 code antiquotation roaring ahead haftmann parents: 26934 diff changeset	2553	@{code And} (fm_of_term ps vs t1, fm_of_term ps vs t2)
38795 848be46708dc formerly unnamed infix conjunction and disjunction now named HOL.conj and HOL.disj haftmann parents: 38786 diff changeset	2554	\| fm_of_term ps vs (@{term HOL.disj} $ t1 $ t2) =
27456 52c7c42e7e27 code antiquotation roaring ahead haftmann parents: 26934 diff changeset	2555	@{code Or} (fm_of_term ps vs t1, fm_of_term ps vs t2)
38786 e46e7a9cb622 formerly unnamed infix impliciation now named HOL.implies haftmann parents: 38558 diff changeset	2556	\| fm_of_term ps vs (@{term HOL.implies} $ t1 $ t2) =
27456 52c7c42e7e27 code antiquotation roaring ahead haftmann parents: 26934 diff changeset	2557	@{code Imp} (fm_of_term ps vs t1, fm_of_term ps vs t2)
52c7c42e7e27 code antiquotation roaring ahead haftmann parents: 26934 diff changeset	2558	\| fm_of_term ps vs (@{term "Not"} $ t') =
52c7c42e7e27 code antiquotation roaring ahead haftmann parents: 26934 diff changeset	2559	@{code NOT} (fm_of_term ps vs t')
38558 32ad17fe2b9c tuned quotes haftmann parents: 38549 diff changeset	2560	\| fm_of_term ps vs (Const (@{const_name Ex}, _) $ Abs (xn, xT, p)) =
27456 52c7c42e7e27 code antiquotation roaring ahead haftmann parents: 26934 diff changeset	2561	let
42284 326f57825e1a explicit structure Syntax_Trans; wenzelm parents: 41837 diff changeset	2562	val (xn', p') = Syntax_Trans.variant_abs (xn, xT, p); (* FIXME !? *)
27456 52c7c42e7e27 code antiquotation roaring ahead haftmann parents: 26934 diff changeset	2563	val vs' = (Free (xn', xT), 0) :: map (fn (v, n) => (v, n + 1)) vs;
52c7c42e7e27 code antiquotation roaring ahead haftmann parents: 26934 diff changeset	2564	in @{code E} (fm_of_term ps vs' p) end
38558 32ad17fe2b9c tuned quotes haftmann parents: 38549 diff changeset	2565	\| fm_of_term ps vs (Const (@{const_name All}, _) $ Abs (xn, xT, p)) =
27456 52c7c42e7e27 code antiquotation roaring ahead haftmann parents: 26934 diff changeset	2566	let
42284 326f57825e1a explicit structure Syntax_Trans; wenzelm parents: 41837 diff changeset	2567	val (xn', p') = Syntax_Trans.variant_abs (xn, xT, p); (* FIXME !? *)
27456 52c7c42e7e27 code antiquotation roaring ahead haftmann parents: 26934 diff changeset	2568	val vs' = (Free (xn', xT), 0) :: map (fn (v, n) => (v, n + 1)) vs;
52c7c42e7e27 code antiquotation roaring ahead haftmann parents: 26934 diff changeset	2569	in @{code A} (fm_of_term ps vs' p) end
28264 e1dae766c108 local @{context}; wenzelm parents: 27556 diff changeset	2570	\| fm_of_term ps vs t = error ("fm_of_term : unknown term " ^ Syntax.string_of_term @{context} t);
23515 3e7f62e68fe4 new code generator framework haftmann parents: 23477 diff changeset	2571
51143 0a2371e7ced3 two target language numeral types: integer and natural, as replacement for code_numeral; haftmann parents: 50313 diff changeset	2572	fun term_of_num vs (@{code C} i) = HOLogic.mk_number HOLogic.intT (@{code integer_of_int} i)
0a2371e7ced3 two target language numeral types: integer and natural, as replacement for code_numeral; haftmann parents: 50313 diff changeset	2573	\| term_of_num vs (@{code Bound} n) =
0a2371e7ced3 two target language numeral types: integer and natural, as replacement for code_numeral; haftmann parents: 50313 diff changeset	2574	let
0a2371e7ced3 two target language numeral types: integer and natural, as replacement for code_numeral; haftmann parents: 50313 diff changeset	2575	val q = @{code integer_of_nat} n
0a2371e7ced3 two target language numeral types: integer and natural, as replacement for code_numeral; haftmann parents: 50313 diff changeset	2576	in fst (the (find_first (fn (_, m) => q = m) vs)) end
27456 52c7c42e7e27 code antiquotation roaring ahead haftmann parents: 26934 diff changeset	2577	\| term_of_num vs (@{code Neg} t') = @{term "uminus :: int \<Rightarrow> int"} $ term_of_num vs t'
52c7c42e7e27 code antiquotation roaring ahead haftmann parents: 26934 diff changeset	2578	\| term_of_num vs (@{code Add} (t1, t2)) = @{term "op + :: int \<Rightarrow> int \<Rightarrow> int"} $
52c7c42e7e27 code antiquotation roaring ahead haftmann parents: 26934 diff changeset	2579	term_of_num vs t1 $ term_of_num vs t2
52c7c42e7e27 code antiquotation roaring ahead haftmann parents: 26934 diff changeset	2580	\| term_of_num vs (@{code Sub} (t1, t2)) = @{term "op - :: int \<Rightarrow> int \<Rightarrow> int"} $
52c7c42e7e27 code antiquotation roaring ahead haftmann parents: 26934 diff changeset	2581	term_of_num vs t1 $ term_of_num vs t2
52c7c42e7e27 code antiquotation roaring ahead haftmann parents: 26934 diff changeset	2582	\| term_of_num vs (@{code Mul} (i, t2)) = @{term "op * :: int \<Rightarrow> int \<Rightarrow> int"} $
52c7c42e7e27 code antiquotation roaring ahead haftmann parents: 26934 diff changeset	2583	term_of_num vs (@{code C} i) $ term_of_num vs t2
55814 aefa1db74d9d tuned whitespace; wenzelm parents: 55685 diff changeset	2584	\| term_of_num vs (@{code CN} (n, i, t)) =
aefa1db74d9d tuned whitespace; wenzelm parents: 55685 diff changeset	2585	term_of_num vs (@{code Add} (@{code Mul} (i, @{code Bound} n), t));
27456 52c7c42e7e27 code antiquotation roaring ahead haftmann parents: 26934 diff changeset	2586
50313 5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	2587	fun term_of_fm ps vs @{code T} = @{term True}
45740 132a3e1c0fe5 more antiquotations; wenzelm parents: 44931 diff changeset	2588	\| term_of_fm ps vs @{code F} = @{term False}
27456 52c7c42e7e27 code antiquotation roaring ahead haftmann parents: 26934 diff changeset	2589	\| term_of_fm ps vs (@{code Lt} t) =
52c7c42e7e27 code antiquotation roaring ahead haftmann parents: 26934 diff changeset	2590	@{term "op < :: int \<Rightarrow> int \<Rightarrow> bool"} $ term_of_num vs t $ @{term "0::int"}
52c7c42e7e27 code antiquotation roaring ahead haftmann parents: 26934 diff changeset	2591	\| term_of_fm ps vs (@{code Le} t) =
52c7c42e7e27 code antiquotation roaring ahead haftmann parents: 26934 diff changeset	2592	@{term "op \<le> :: int \<Rightarrow> int \<Rightarrow> bool"} $ term_of_num vs t $ @{term "0::int"}
52c7c42e7e27 code antiquotation roaring ahead haftmann parents: 26934 diff changeset	2593	\| term_of_fm ps vs (@{code Gt} t) =
52c7c42e7e27 code antiquotation roaring ahead haftmann parents: 26934 diff changeset	2594	@{term "op < :: int \<Rightarrow> int \<Rightarrow> bool"} $ @{term "0::int"} $ term_of_num vs t
52c7c42e7e27 code antiquotation roaring ahead haftmann parents: 26934 diff changeset	2595	\| term_of_fm ps vs (@{code Ge} t) =
52c7c42e7e27 code antiquotation roaring ahead haftmann parents: 26934 diff changeset	2596	@{term "op \<le> :: int \<Rightarrow> int \<Rightarrow> bool"} $ @{term "0::int"} $ term_of_num vs t
52c7c42e7e27 code antiquotation roaring ahead haftmann parents: 26934 diff changeset	2597	\| term_of_fm ps vs (@{code Eq} t) =
52c7c42e7e27 code antiquotation roaring ahead haftmann parents: 26934 diff changeset	2598	@{term "op = :: int \<Rightarrow> int \<Rightarrow> bool"} $ term_of_num vs t $ @{term "0::int"}
52c7c42e7e27 code antiquotation roaring ahead haftmann parents: 26934 diff changeset	2599	\| term_of_fm ps vs (@{code NEq} t) =
52c7c42e7e27 code antiquotation roaring ahead haftmann parents: 26934 diff changeset	2600	term_of_fm ps vs (@{code NOT} (@{code Eq} t))
52c7c42e7e27 code antiquotation roaring ahead haftmann parents: 26934 diff changeset	2601	\| term_of_fm ps vs (@{code Dvd} (i, t)) =
52c7c42e7e27 code antiquotation roaring ahead haftmann parents: 26934 diff changeset	2602	@{term "op dvd :: int \<Rightarrow> int \<Rightarrow> bool"} $ term_of_num vs (@{code C} i) $ term_of_num vs t
52c7c42e7e27 code antiquotation roaring ahead haftmann parents: 26934 diff changeset	2603	\| term_of_fm ps vs (@{code NDvd} (i, t)) =
52c7c42e7e27 code antiquotation roaring ahead haftmann parents: 26934 diff changeset	2604	term_of_fm ps vs (@{code NOT} (@{code Dvd} (i, t)))
52c7c42e7e27 code antiquotation roaring ahead haftmann parents: 26934 diff changeset	2605	\| term_of_fm ps vs (@{code NOT} t') =
52c7c42e7e27 code antiquotation roaring ahead haftmann parents: 26934 diff changeset	2606	HOLogic.Not $ term_of_fm ps vs t'
52c7c42e7e27 code antiquotation roaring ahead haftmann parents: 26934 diff changeset	2607	\| term_of_fm ps vs (@{code And} (t1, t2)) =
52c7c42e7e27 code antiquotation roaring ahead haftmann parents: 26934 diff changeset	2608	HOLogic.conj $ term_of_fm ps vs t1 $ term_of_fm ps vs t2
52c7c42e7e27 code antiquotation roaring ahead haftmann parents: 26934 diff changeset	2609	\| term_of_fm ps vs (@{code Or} (t1, t2)) =
52c7c42e7e27 code antiquotation roaring ahead haftmann parents: 26934 diff changeset	2610	HOLogic.disj $ term_of_fm ps vs t1 $ term_of_fm ps vs t2
52c7c42e7e27 code antiquotation roaring ahead haftmann parents: 26934 diff changeset	2611	\| term_of_fm ps vs (@{code Imp} (t1, t2)) =
52c7c42e7e27 code antiquotation roaring ahead haftmann parents: 26934 diff changeset	2612	HOLogic.imp $ term_of_fm ps vs t1 $ term_of_fm ps vs t2
52c7c42e7e27 code antiquotation roaring ahead haftmann parents: 26934 diff changeset	2613	\| term_of_fm ps vs (@{code Iff} (t1, t2)) =
52c7c42e7e27 code antiquotation roaring ahead haftmann parents: 26934 diff changeset	2614	@{term "op = :: bool \<Rightarrow> bool \<Rightarrow> bool"} $ term_of_fm ps vs t1 $ term_of_fm ps vs t2
51143 0a2371e7ced3 two target language numeral types: integer and natural, as replacement for code_numeral; haftmann parents: 50313 diff changeset	2615	\| term_of_fm ps vs (@{code Closed} n) =
0a2371e7ced3 two target language numeral types: integer and natural, as replacement for code_numeral; haftmann parents: 50313 diff changeset	2616	let
0a2371e7ced3 two target language numeral types: integer and natural, as replacement for code_numeral; haftmann parents: 50313 diff changeset	2617	val q = @{code integer_of_nat} n
0a2371e7ced3 two target language numeral types: integer and natural, as replacement for code_numeral; haftmann parents: 50313 diff changeset	2618	in (fst o the) (find_first (fn (_, m) => m = q) ps) end
29788 1b80ebe713a4 established session HOL-Reflection haftmann parents: 29700 diff changeset	2619	\| term_of_fm ps vs (@{code NClosed} n) = term_of_fm ps vs (@{code NOT} (@{code Closed} n));
27456 52c7c42e7e27 code antiquotation roaring ahead haftmann parents: 26934 diff changeset	2620
52c7c42e7e27 code antiquotation roaring ahead haftmann parents: 26934 diff changeset	2621	fun term_bools acc t =
52c7c42e7e27 code antiquotation roaring ahead haftmann parents: 26934 diff changeset	2622	let
55814 aefa1db74d9d tuned whitespace; wenzelm parents: 55685 diff changeset	2623	val is_op =
aefa1db74d9d tuned whitespace; wenzelm parents: 55685 diff changeset	2624	member (op =) [@{term HOL.conj}, @{term HOL.disj}, @{term HOL.implies},
aefa1db74d9d tuned whitespace; wenzelm parents: 55685 diff changeset	2625	@{term "op = :: bool => _"},
27456 52c7c42e7e27 code antiquotation roaring ahead haftmann parents: 26934 diff changeset	2626	@{term "op = :: int => _"}, @{term "op < :: int => _"},
52c7c42e7e27 code antiquotation roaring ahead haftmann parents: 26934 diff changeset	2627	@{term "op <= :: int => _"}, @{term "Not"}, @{term "All :: (int => _) => _"},
52c7c42e7e27 code antiquotation roaring ahead haftmann parents: 26934 diff changeset	2628	@{term "Ex :: (int => _) => _"}, @{term "True"}, @{term "False"}]
50313 5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	2629	fun is_ty t = not (fastype_of t = HOLogic.boolT)
55814 aefa1db74d9d tuned whitespace; wenzelm parents: 55685 diff changeset	2630	in
aefa1db74d9d tuned whitespace; wenzelm parents: 55685 diff changeset	2631	(case t of
aefa1db74d9d tuned whitespace; wenzelm parents: 55685 diff changeset	2632	(l as f $ a) $ b =>
aefa1db74d9d tuned whitespace; wenzelm parents: 55685 diff changeset	2633	if is_ty t orelse is_op t then term_bools (term_bools acc l) b
27456 52c7c42e7e27 code antiquotation roaring ahead haftmann parents: 26934 diff changeset	2634	else insert (op aconv) t acc
55814 aefa1db74d9d tuned whitespace; wenzelm parents: 55685 diff changeset	2635	\| f $ a =>
aefa1db74d9d tuned whitespace; wenzelm parents: 55685 diff changeset	2636	if is_ty t orelse is_op t then term_bools (term_bools acc f) a
27456 52c7c42e7e27 code antiquotation roaring ahead haftmann parents: 26934 diff changeset	2637	else insert (op aconv) t acc
42284 326f57825e1a explicit structure Syntax_Trans; wenzelm parents: 41837 diff changeset	2638	\| Abs p => term_bools acc (snd (Syntax_Trans.variant_abs p)) (* FIXME !? *)
55814 aefa1db74d9d tuned whitespace; wenzelm parents: 55685 diff changeset	2639	\| _ => if is_ty t orelse is_op t then acc else insert (op aconv) t acc)
27456 52c7c42e7e27 code antiquotation roaring ahead haftmann parents: 26934 diff changeset	2640	end;
52c7c42e7e27 code antiquotation roaring ahead haftmann parents: 26934 diff changeset	2641
55814 aefa1db74d9d tuned whitespace; wenzelm parents: 55685 diff changeset	2642	in
aefa1db74d9d tuned whitespace; wenzelm parents: 55685 diff changeset	2643	fn ct =>
aefa1db74d9d tuned whitespace; wenzelm parents: 55685 diff changeset	2644	let
aefa1db74d9d tuned whitespace; wenzelm parents: 55685 diff changeset	2645	val thy = Thm.theory_of_cterm ct;
aefa1db74d9d tuned whitespace; wenzelm parents: 55685 diff changeset	2646	val t = Thm.term_of ct;
aefa1db74d9d tuned whitespace; wenzelm parents: 55685 diff changeset	2647	val fs = Misc_Legacy.term_frees t;
aefa1db74d9d tuned whitespace; wenzelm parents: 55685 diff changeset	2648	val bs = term_bools [] t;
aefa1db74d9d tuned whitespace; wenzelm parents: 55685 diff changeset	2649	val vs = map_index swap fs;
aefa1db74d9d tuned whitespace; wenzelm parents: 55685 diff changeset	2650	val ps = map_index swap bs;
aefa1db74d9d tuned whitespace; wenzelm parents: 55685 diff changeset	2651	val t' = (term_of_fm ps vs o @{code pa} o fm_of_term ps vs) t;
aefa1db74d9d tuned whitespace; wenzelm parents: 55685 diff changeset	2652	in Thm.cterm_of thy (HOLogic.mk_Trueprop (HOLogic.mk_eq (t, t'))) end
27456 52c7c42e7e27 code antiquotation roaring ahead haftmann parents: 26934 diff changeset	2653	end;
52c7c42e7e27 code antiquotation roaring ahead haftmann parents: 26934 diff changeset	2654	*}
52c7c42e7e27 code antiquotation roaring ahead haftmann parents: 26934 diff changeset	2655
48891 c0eafbd55de3 prefer ML_file over old uses; wenzelm parents: 47432 diff changeset	2656	ML_file "cooper_tac.ML"
47432 e1576d13e933 more standard method setup; wenzelm parents: 47142 diff changeset	2657
e1576d13e933 more standard method setup; wenzelm parents: 47142 diff changeset	2658	method_setup cooper = {*
53168 d998de7f0efc tuned signature; wenzelm parents: 53015 diff changeset	2659	Scan.lift (Args.mode "no_quantify") >>
47432 e1576d13e933 more standard method setup; wenzelm parents: 47142 diff changeset	2660	(fn q => fn ctxt => SIMPLE_METHOD' (Cooper_Tac.linz_tac ctxt (not q)))
e1576d13e933 more standard method setup; wenzelm parents: 47142 diff changeset	2661	*} "decision procedure for linear integer arithmetic"
e1576d13e933 more standard method setup; wenzelm parents: 47142 diff changeset	2662
17378 105519771c67 The oracle for Presburger has been changer: It is automatically generated form a verified formaliztion of Cooper's Algorithm ex/Reflected_Presburger.thy chaieb parents: diff changeset	2663
27456 52c7c42e7e27 code antiquotation roaring ahead haftmann parents: 26934 diff changeset	2664	text {* Tests *}
52c7c42e7e27 code antiquotation roaring ahead haftmann parents: 26934 diff changeset	2665
55814 aefa1db74d9d tuned whitespace; wenzelm parents: 55685 diff changeset	2666	lemma "\<exists>(j::int). \<forall>x\<ge>j. \<exists>a b. x = 3a+5b"
27456 52c7c42e7e27 code antiquotation roaring ahead haftmann parents: 26934 diff changeset	2667	by cooper
17378 105519771c67 The oracle for Presburger has been changer: It is automatically generated form a verified formaliztion of Cooper's Algorithm ex/Reflected_Presburger.thy chaieb parents: diff changeset	2668
55814 aefa1db74d9d tuned whitespace; wenzelm parents: 55685 diff changeset	2669	lemma "\<forall>(x::int) \<ge> 8. \<exists>i j. 5i + 3j = x"
27456 52c7c42e7e27 code antiquotation roaring ahead haftmann parents: 26934 diff changeset	2670	by cooper
52c7c42e7e27 code antiquotation roaring ahead haftmann parents: 26934 diff changeset	2671
55814 aefa1db74d9d tuned whitespace; wenzelm parents: 55685 diff changeset	2672	theorem "(\<forall>(y::int). 3 dvd y) \<Longrightarrow> \<forall>(x::int). b < x \<longrightarrow> a \<le> x"
23274 f997514ad8f4 New Reflected Presburger added to HOL/ex chaieb parents: 21404 diff changeset	2673	by cooper
17378 105519771c67 The oracle for Presburger has been changer: It is automatically generated form a verified formaliztion of Cooper's Algorithm ex/Reflected_Presburger.thy chaieb parents: diff changeset	2674
55814 aefa1db74d9d tuned whitespace; wenzelm parents: 55685 diff changeset	2675	theorem "\<And>(y::int) (z::int) (n::int). 3 dvd z \<Longrightarrow> 2 dvd (y::int) \<Longrightarrow>
aefa1db74d9d tuned whitespace; wenzelm parents: 55685 diff changeset	2676	(\<exists>(x::int). 2x = y) \<and> (\<exists>(k::int). 3k = z)"
23274 f997514ad8f4 New Reflected Presburger added to HOL/ex chaieb parents: 21404 diff changeset	2677	by cooper
f997514ad8f4 New Reflected Presburger added to HOL/ex chaieb parents: 21404 diff changeset	2678
55814 aefa1db74d9d tuned whitespace; wenzelm parents: 55685 diff changeset	2679	theorem "\<And>(y::int) (z::int) n. Suc n < 6 \<Longrightarrow> 3 dvd z \<Longrightarrow>
aefa1db74d9d tuned whitespace; wenzelm parents: 55685 diff changeset	2680	2 dvd (y::int) \<Longrightarrow> (\<exists>(x::int). 2x = y) \<and> (\<exists>(k::int). 3k = z)"
23274 f997514ad8f4 New Reflected Presburger added to HOL/ex chaieb parents: 21404 diff changeset	2681	by cooper
f997514ad8f4 New Reflected Presburger added to HOL/ex chaieb parents: 21404 diff changeset	2682
55814 aefa1db74d9d tuned whitespace; wenzelm parents: 55685 diff changeset	2683	theorem "\<forall>(x::nat). \<exists>(y::nat). (0::nat) \<le> 5 \<longrightarrow> y = 5 + x"
23274 f997514ad8f4 New Reflected Presburger added to HOL/ex chaieb parents: 21404 diff changeset	2684	by cooper
17378 105519771c67 The oracle for Presburger has been changer: It is automatically generated form a verified formaliztion of Cooper's Algorithm ex/Reflected_Presburger.thy chaieb parents: diff changeset	2685
55814 aefa1db74d9d tuned whitespace; wenzelm parents: 55685 diff changeset	2686	lemma "\<forall>(x::int) \<ge> 8. \<exists>i j. 5i + 3j = x"
50313 5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	2687	by cooper
27456 52c7c42e7e27 code antiquotation roaring ahead haftmann parents: 26934 diff changeset	2688
55814 aefa1db74d9d tuned whitespace; wenzelm parents: 55685 diff changeset	2689	lemma "\<forall>(y::int) (z::int) (n::int).
aefa1db74d9d tuned whitespace; wenzelm parents: 55685 diff changeset	2690	3 dvd z \<longrightarrow> 2 dvd (y::int) \<longrightarrow> (\<exists>(x::int). 2x = y) \<and> (\<exists>(k::int). 3k = z)"
27456 52c7c42e7e27 code antiquotation roaring ahead haftmann parents: 26934 diff changeset	2691	by cooper
52c7c42e7e27 code antiquotation roaring ahead haftmann parents: 26934 diff changeset	2692
55814 aefa1db74d9d tuned whitespace; wenzelm parents: 55685 diff changeset	2693	lemma "\<forall>(x::int) y. x < y \<longrightarrow> 2 * x + 1 < 2 * y"
27456 52c7c42e7e27 code antiquotation roaring ahead haftmann parents: 26934 diff changeset	2694	by cooper
52c7c42e7e27 code antiquotation roaring ahead haftmann parents: 26934 diff changeset	2695
55814 aefa1db74d9d tuned whitespace; wenzelm parents: 55685 diff changeset	2696	lemma "\<forall>(x::int) y. 2 * x + 1 \<noteq> 2 * y"
27456 52c7c42e7e27 code antiquotation roaring ahead haftmann parents: 26934 diff changeset	2697	by cooper
52c7c42e7e27 code antiquotation roaring ahead haftmann parents: 26934 diff changeset	2698
55814 aefa1db74d9d tuned whitespace; wenzelm parents: 55685 diff changeset	2699	lemma "\<exists>(x::int) y. 0 < x \<and> 0 \<le> y \<and> 3 * x - 5 * y = 1"
27456 52c7c42e7e27 code antiquotation roaring ahead haftmann parents: 26934 diff changeset	2700	by cooper
52c7c42e7e27 code antiquotation roaring ahead haftmann parents: 26934 diff changeset	2701
55814 aefa1db74d9d tuned whitespace; wenzelm parents: 55685 diff changeset	2702	lemma "\<not> (\<exists>(x::int) (y::int) (z::int). 4x + (-6::int)y = 1)"
27456 52c7c42e7e27 code antiquotation roaring ahead haftmann parents: 26934 diff changeset	2703	by cooper
52c7c42e7e27 code antiquotation roaring ahead haftmann parents: 26934 diff changeset	2704
55814 aefa1db74d9d tuned whitespace; wenzelm parents: 55685 diff changeset	2705	lemma "\<forall>(x::int). 2 dvd x \<longrightarrow> (\<exists>(y::int). x = 2*y)"
27456 52c7c42e7e27 code antiquotation roaring ahead haftmann parents: 26934 diff changeset	2706	by cooper
52c7c42e7e27 code antiquotation roaring ahead haftmann parents: 26934 diff changeset	2707
55814 aefa1db74d9d tuned whitespace; wenzelm parents: 55685 diff changeset	2708	lemma "\<forall>(x::int). 2 dvd x \<longleftrightarrow> (\<exists>(y::int). x = 2*y)"
27456 52c7c42e7e27 code antiquotation roaring ahead haftmann parents: 26934 diff changeset	2709	by cooper
52c7c42e7e27 code antiquotation roaring ahead haftmann parents: 26934 diff changeset	2710
55814 aefa1db74d9d tuned whitespace; wenzelm parents: 55685 diff changeset	2711	lemma "\<forall>(x::int). 2 dvd x \<longleftrightarrow> (\<forall>(y::int). x \<noteq> 2*y + 1)"
27456 52c7c42e7e27 code antiquotation roaring ahead haftmann parents: 26934 diff changeset	2712	by cooper
52c7c42e7e27 code antiquotation roaring ahead haftmann parents: 26934 diff changeset	2713
55814 aefa1db74d9d tuned whitespace; wenzelm parents: 55685 diff changeset	2714	lemma "\<not> (\<forall>(x::int).
55921 22e9fc998d65 tuned proofs; wenzelm parents: 55885 diff changeset	2715	(2 dvd x \<longleftrightarrow> (\<forall>(y::int). x \<noteq> 2*y+1) \<or>
55814 aefa1db74d9d tuned whitespace; wenzelm parents: 55685 diff changeset	2716	(\<exists>(q::int) (u::int) i. 3i + 2q - u < 17) \<longrightarrow> 0 < x \<or> (\<not> 3 dvd x \<and> x + 8 = 0)))"
23274 f997514ad8f4 New Reflected Presburger added to HOL/ex chaieb parents: 21404 diff changeset	2717	by cooper
27456 52c7c42e7e27 code antiquotation roaring ahead haftmann parents: 26934 diff changeset	2718
55814 aefa1db74d9d tuned whitespace; wenzelm parents: 55685 diff changeset	2719	lemma "\<not> (\<forall>(i::int). 4 \<le> i \<longrightarrow> (\<exists>x y. 0 \<le> x \<and> 0 \<le> y \<and> 3 * x + 5 * y = i))"
27456 52c7c42e7e27 code antiquotation roaring ahead haftmann parents: 26934 diff changeset	2720	by cooper
17378 105519771c67 The oracle for Presburger has been changer: It is automatically generated form a verified formaliztion of Cooper's Algorithm ex/Reflected_Presburger.thy chaieb parents: diff changeset	2721
55814 aefa1db74d9d tuned whitespace; wenzelm parents: 55685 diff changeset	2722	lemma "\<exists>j. \<forall>(x::int) \<ge> j. \<exists>i j. 5i + 3j = x"
aefa1db74d9d tuned whitespace; wenzelm parents: 55685 diff changeset	2723	by cooper
aefa1db74d9d tuned whitespace; wenzelm parents: 55685 diff changeset	2724
aefa1db74d9d tuned whitespace; wenzelm parents: 55685 diff changeset	2725	theorem "(\<forall>(y::int). 3 dvd y) \<Longrightarrow> \<forall>(x::int). b < x \<longrightarrow> a \<le> x"
23274 f997514ad8f4 New Reflected Presburger added to HOL/ex chaieb parents: 21404 diff changeset	2726	by cooper
17378 105519771c67 The oracle for Presburger has been changer: It is automatically generated form a verified formaliztion of Cooper's Algorithm ex/Reflected_Presburger.thy chaieb parents: diff changeset	2727
55814 aefa1db74d9d tuned whitespace; wenzelm parents: 55685 diff changeset	2728	theorem "\<And>(y::int) (z::int) (n::int). 3 dvd z \<Longrightarrow> 2 dvd (y::int) \<Longrightarrow>
aefa1db74d9d tuned whitespace; wenzelm parents: 55685 diff changeset	2729	(\<exists>(x::int). 2x = y) \<and> (\<exists>(k::int). 3k = z)"
23274 f997514ad8f4 New Reflected Presburger added to HOL/ex chaieb parents: 21404 diff changeset	2730	by cooper
17378 105519771c67 The oracle for Presburger has been changer: It is automatically generated form a verified formaliztion of Cooper's Algorithm ex/Reflected_Presburger.thy chaieb parents: diff changeset	2731
55814 aefa1db74d9d tuned whitespace; wenzelm parents: 55685 diff changeset	2732	theorem "\<And>(y::int) (z::int) n. Suc n < 6 \<Longrightarrow> 3 dvd z \<Longrightarrow>
aefa1db74d9d tuned whitespace; wenzelm parents: 55685 diff changeset	2733	2 dvd (y::int) \<Longrightarrow> (\<exists>(x::int). 2x = y) \<and> (\<exists>(k::int). 3k = z)"
23274 f997514ad8f4 New Reflected Presburger added to HOL/ex chaieb parents: 21404 diff changeset	2734	by cooper
17378 105519771c67 The oracle for Presburger has been changer: It is automatically generated form a verified formaliztion of Cooper's Algorithm ex/Reflected_Presburger.thy chaieb parents: diff changeset	2735
55814 aefa1db74d9d tuned whitespace; wenzelm parents: 55685 diff changeset	2736	theorem "\<forall>(x::nat). \<exists>(y::nat). (0::nat) \<le> 5 \<longrightarrow> y = 5 + x"
23274 f997514ad8f4 New Reflected Presburger added to HOL/ex chaieb parents: 21404 diff changeset	2737	by cooper
17378 105519771c67 The oracle for Presburger has been changer: It is automatically generated form a verified formaliztion of Cooper's Algorithm ex/Reflected_Presburger.thy chaieb parents: diff changeset	2738
55814 aefa1db74d9d tuned whitespace; wenzelm parents: 55685 diff changeset	2739	theorem "\<forall>(x::nat). \<exists>(y::nat). y = 5 + x \<or> x div 6 + 1 = 2"
23274 f997514ad8f4 New Reflected Presburger added to HOL/ex chaieb parents: 21404 diff changeset	2740	by cooper
17378 105519771c67 The oracle for Presburger has been changer: It is automatically generated form a verified formaliztion of Cooper's Algorithm ex/Reflected_Presburger.thy chaieb parents: diff changeset	2741
23274 f997514ad8f4 New Reflected Presburger added to HOL/ex chaieb parents: 21404 diff changeset	2742	theorem "\<exists>(x::int). 0 < x"
f997514ad8f4 New Reflected Presburger added to HOL/ex chaieb parents: 21404 diff changeset	2743	by cooper
17378 105519771c67 The oracle for Presburger has been changer: It is automatically generated form a verified formaliztion of Cooper's Algorithm ex/Reflected_Presburger.thy chaieb parents: diff changeset	2744
55814 aefa1db74d9d tuned whitespace; wenzelm parents: 55685 diff changeset	2745	theorem "\<forall>(x::int) y. x < y \<longrightarrow> 2 * x + 1 < 2 * y"
23274 f997514ad8f4 New Reflected Presburger added to HOL/ex chaieb parents: 21404 diff changeset	2746	by cooper
50313 5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	2747
23274 f997514ad8f4 New Reflected Presburger added to HOL/ex chaieb parents: 21404 diff changeset	2748	theorem "\<forall>(x::int) y. 2 * x + 1 \<noteq> 2 * y"
f997514ad8f4 New Reflected Presburger added to HOL/ex chaieb parents: 21404 diff changeset	2749	by cooper
50313 5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	2750
23274 f997514ad8f4 New Reflected Presburger added to HOL/ex chaieb parents: 21404 diff changeset	2751	theorem "\<exists>(x::int) y. 0 < x & 0 \<le> y & 3 * x - 5 * y = 1"
f997514ad8f4 New Reflected Presburger added to HOL/ex chaieb parents: 21404 diff changeset	2752	by cooper
17378 105519771c67 The oracle for Presburger has been changer: It is automatically generated form a verified formaliztion of Cooper's Algorithm ex/Reflected_Presburger.thy chaieb parents: diff changeset	2753
55814 aefa1db74d9d tuned whitespace; wenzelm parents: 55685 diff changeset	2754	theorem "\<not> (\<exists>(x::int) (y::int) (z::int). 4x + (-6::int)y = 1)"
23274 f997514ad8f4 New Reflected Presburger added to HOL/ex chaieb parents: 21404 diff changeset	2755	by cooper
17378 105519771c67 The oracle for Presburger has been changer: It is automatically generated form a verified formaliztion of Cooper's Algorithm ex/Reflected_Presburger.thy chaieb parents: diff changeset	2756
55814 aefa1db74d9d tuned whitespace; wenzelm parents: 55685 diff changeset	2757	theorem "\<not> (\<exists>(x::int). False)"
23274 f997514ad8f4 New Reflected Presburger added to HOL/ex chaieb parents: 21404 diff changeset	2758	by cooper
17378 105519771c67 The oracle for Presburger has been changer: It is automatically generated form a verified formaliztion of Cooper's Algorithm ex/Reflected_Presburger.thy chaieb parents: diff changeset	2759
55814 aefa1db74d9d tuned whitespace; wenzelm parents: 55685 diff changeset	2760	theorem "\<forall>(x::int). 2 dvd x \<longrightarrow> (\<exists>(y::int). x = 2*y)"
50313 5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	2761	by cooper
23274 f997514ad8f4 New Reflected Presburger added to HOL/ex chaieb parents: 21404 diff changeset	2762
55814 aefa1db74d9d tuned whitespace; wenzelm parents: 55685 diff changeset	2763	theorem "\<forall>(x::int). 2 dvd x \<longrightarrow> (\<exists>(y::int). x = 2*y)"
50313 5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	2764	by cooper
17378 105519771c67 The oracle for Presburger has been changer: It is automatically generated form a verified formaliztion of Cooper's Algorithm ex/Reflected_Presburger.thy chaieb parents: diff changeset	2765
55814 aefa1db74d9d tuned whitespace; wenzelm parents: 55685 diff changeset	2766	theorem "\<forall>(x::int). 2 dvd x \<longleftrightarrow> (\<exists>(y::int). x = 2*y)"
50313 5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	2767	by cooper
17378 105519771c67 The oracle for Presburger has been changer: It is automatically generated form a verified formaliztion of Cooper's Algorithm ex/Reflected_Presburger.thy chaieb parents: diff changeset	2768
55814 aefa1db74d9d tuned whitespace; wenzelm parents: 55685 diff changeset	2769	theorem "\<forall>(x::int). 2 dvd x \<longleftrightarrow> (\<forall>(y::int). x \<noteq> 2*y + 1)"
50313 5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	2770	by cooper
17378 105519771c67 The oracle for Presburger has been changer: It is automatically generated form a verified formaliztion of Cooper's Algorithm ex/Reflected_Presburger.thy chaieb parents: diff changeset	2771
55814 aefa1db74d9d tuned whitespace; wenzelm parents: 55685 diff changeset	2772	theorem
aefa1db74d9d tuned whitespace; wenzelm parents: 55685 diff changeset	2773	"\<not> (\<forall>(x::int).
aefa1db74d9d tuned whitespace; wenzelm parents: 55685 diff changeset	2774	(2 dvd x \<longleftrightarrow>
aefa1db74d9d tuned whitespace; wenzelm parents: 55685 diff changeset	2775	(\<forall>(y::int). x \<noteq> 2*y+1) \<or>
aefa1db74d9d tuned whitespace; wenzelm parents: 55685 diff changeset	2776	(\<exists>(q::int) (u::int) i. 3i + 2q - u < 17)
aefa1db74d9d tuned whitespace; wenzelm parents: 55685 diff changeset	2777	\<longrightarrow> 0 < x \<or> (\<not> 3 dvd x \<and> x + 8 = 0)))"
23274 f997514ad8f4 New Reflected Presburger added to HOL/ex chaieb parents: 21404 diff changeset	2778	by cooper
50313 5b49cfd43a37 misc tuning; wenzelm parents: 50252 diff changeset	2779
55814 aefa1db74d9d tuned whitespace; wenzelm parents: 55685 diff changeset	2780	theorem "\<not> (\<forall>(i::int). 4 \<le> i \<longrightarrow> (\<exists>x y. 0 \<le> x \<and> 0 \<le> y \<and> 3 * x + 5 * y = i))"
23274 f997514ad8f4 New Reflected Presburger added to HOL/ex chaieb parents: 21404 diff changeset	2781	by cooper
17378 105519771c67 The oracle for Presburger has been changer: It is automatically generated form a verified formaliztion of Cooper's Algorithm ex/Reflected_Presburger.thy chaieb parents: diff changeset	2782
55814 aefa1db74d9d tuned whitespace; wenzelm parents: 55685 diff changeset	2783	theorem "\<forall>(i::int). 8 \<le> i \<longrightarrow> (\<exists>x y. 0 \<le> x \<and> 0 \<le> y \<and> 3 * x + 5 * y = i)"
23274 f997514ad8f4 New Reflected Presburger added to HOL/ex chaieb parents: 21404 diff changeset	2784	by cooper
17378 105519771c67 The oracle for Presburger has been changer: It is automatically generated form a verified formaliztion of Cooper's Algorithm ex/Reflected_Presburger.thy chaieb parents: diff changeset	2785
55814 aefa1db74d9d tuned whitespace; wenzelm parents: 55685 diff changeset	2786	theorem "\<exists>(j::int). \<forall>i. j \<le> i \<longrightarrow> (\<exists>x y. 0 \<le> x \<and> 0 \<le> y \<and> 3 * x + 5 * y = i)"
23274 f997514ad8f4 New Reflected Presburger added to HOL/ex chaieb parents: 21404 diff changeset	2787	by cooper
17378 105519771c67 The oracle for Presburger has been changer: It is automatically generated form a verified formaliztion of Cooper's Algorithm ex/Reflected_Presburger.thy chaieb parents: diff changeset	2788
55814 aefa1db74d9d tuned whitespace; wenzelm parents: 55685 diff changeset	2789	theorem "\<not> (\<forall>j (i::int). j \<le> i \<longrightarrow> (\<exists>x y. 0 \<le> x \<and> 0 \<le> y \<and> 3 * x + 5 * y = i))"
23274 f997514ad8f4 New Reflected Presburger added to HOL/ex chaieb parents: 21404 diff changeset	2790	by cooper
17378 105519771c67 The oracle for Presburger has been changer: It is automatically generated form a verified formaliztion of Cooper's Algorithm ex/Reflected_Presburger.thy chaieb parents: diff changeset	2791
55814 aefa1db74d9d tuned whitespace; wenzelm parents: 55685 diff changeset	2792	theorem "(\<exists>m::nat. n = 2 * m) \<longrightarrow> (n + 1) div 2 = n div 2"
23274 f997514ad8f4 New Reflected Presburger added to HOL/ex chaieb parents: 21404 diff changeset	2793	by cooper
17388 495c799df31d tuned headers etc.; wenzelm parents: 17381 diff changeset	2794
17378 105519771c67 The oracle for Presburger has been changer: It is automatically generated form a verified formaliztion of Cooper's Algorithm ex/Reflected_Presburger.thy chaieb parents: diff changeset	2795	end

author	blanchet
	Thu, 07 Aug 2014 12:17:41 +0200
changeset 57816	d8bbb97689d3
parent 57514	bdc2c6b40bf2
child 58249	180f1b3508ed
permissions	-rw-r--r--