isabelle: src/Sequents/LK0.thy@0a6a719d24d5 (annotated)

17481 75166ebb619b converted to Isar theory format; wenzelm parents: 16019 diff changeset	1	(* Title: LK/LK0.thy
7093 b2ee0e5d1a7f renamed theory LK to LK0 paulson parents: diff changeset	2	ID: $Id$
b2ee0e5d1a7f renamed theory LK to LK0 paulson parents: diff changeset	3	Author: Lawrence C Paulson, Cambridge University Computer Laboratory
b2ee0e5d1a7f renamed theory LK to LK0 paulson parents: diff changeset	4	Copyright 1993 University of Cambridge
b2ee0e5d1a7f renamed theory LK to LK0 paulson parents: diff changeset	5
b2ee0e5d1a7f renamed theory LK to LK0 paulson parents: diff changeset	6	There may be printing problems if a seqent is in expanded normal form
17481 75166ebb619b converted to Isar theory format; wenzelm parents: 16019 diff changeset	7	(eta-expanded, beta-contracted)
7093 b2ee0e5d1a7f renamed theory LK to LK0 paulson parents: diff changeset	8	*)
b2ee0e5d1a7f renamed theory LK to LK0 paulson parents: diff changeset	9
17481 75166ebb619b converted to Isar theory format; wenzelm parents: 16019 diff changeset	10	header {* Classical First-Order Sequent Calculus *}
75166ebb619b converted to Isar theory format; wenzelm parents: 16019 diff changeset	11
75166ebb619b converted to Isar theory format; wenzelm parents: 16019 diff changeset	12	theory LK0
75166ebb619b converted to Isar theory format; wenzelm parents: 16019 diff changeset	13	imports Sequents
75166ebb619b converted to Isar theory format; wenzelm parents: 16019 diff changeset	14	begin
7093 b2ee0e5d1a7f renamed theory LK to LK0 paulson parents: diff changeset	15
b2ee0e5d1a7f renamed theory LK to LK0 paulson parents: diff changeset	16	global
b2ee0e5d1a7f renamed theory LK to LK0 paulson parents: diff changeset	17
17481 75166ebb619b converted to Isar theory format; wenzelm parents: 16019 diff changeset	18	classes "term"
75166ebb619b converted to Isar theory format; wenzelm parents: 16019 diff changeset	19	defaultsort "term"
7093 b2ee0e5d1a7f renamed theory LK to LK0 paulson parents: diff changeset	20
b2ee0e5d1a7f renamed theory LK to LK0 paulson parents: diff changeset	21	consts
b2ee0e5d1a7f renamed theory LK to LK0 paulson parents: diff changeset	22
21524 7843e2fd14a9 updated (binder) syntax/notation; wenzelm parents: 21428 diff changeset	23	Trueprop :: "two_seqi"
7093 b2ee0e5d1a7f renamed theory LK to LK0 paulson parents: diff changeset	24
17481 75166ebb619b converted to Isar theory format; wenzelm parents: 16019 diff changeset	25	True :: o
75166ebb619b converted to Isar theory format; wenzelm parents: 16019 diff changeset	26	False :: o
22894 619b270607ac eliminated unnamed infixes; wenzelm parents: 21588 diff changeset	27	equal :: "['a,'a] => o" (infixl "=" 50)
17481 75166ebb619b converted to Isar theory format; wenzelm parents: 16019 diff changeset	28	Not :: "o => o" ("~ _" [40] 40)
22894 619b270607ac eliminated unnamed infixes; wenzelm parents: 21588 diff changeset	29	conj :: "[o,o] => o" (infixr "&" 35)
619b270607ac eliminated unnamed infixes; wenzelm parents: 21588 diff changeset	30	disj :: "[o,o] => o" (infixr "\|" 30)
619b270607ac eliminated unnamed infixes; wenzelm parents: 21588 diff changeset	31	imp :: "[o,o] => o" (infixr "-->" 25)
619b270607ac eliminated unnamed infixes; wenzelm parents: 21588 diff changeset	32	iff :: "[o,o] => o" (infixr "<->" 25)
17481 75166ebb619b converted to Isar theory format; wenzelm parents: 16019 diff changeset	33	The :: "('a => o) => 'a" (binder "THE " 10)
75166ebb619b converted to Isar theory format; wenzelm parents: 16019 diff changeset	34	All :: "('a => o) => o" (binder "ALL " 10)
75166ebb619b converted to Isar theory format; wenzelm parents: 16019 diff changeset	35	Ex :: "('a => o) => o" (binder "EX " 10)
7093 b2ee0e5d1a7f renamed theory LK to LK0 paulson parents: diff changeset	36
b2ee0e5d1a7f renamed theory LK to LK0 paulson parents: diff changeset	37	syntax
17481 75166ebb619b converted to Isar theory format; wenzelm parents: 16019 diff changeset	38	"@Trueprop" :: "two_seqe" ("((_)/ \|- (_))" [6,6] 5)
75166ebb619b converted to Isar theory format; wenzelm parents: 16019 diff changeset	39
75166ebb619b converted to Isar theory format; wenzelm parents: 16019 diff changeset	40	parse_translation {* [("@Trueprop", two_seq_tr "Trueprop")] *}
75166ebb619b converted to Isar theory format; wenzelm parents: 16019 diff changeset	41	print_translation {* [("Trueprop", two_seq_tr' "@Trueprop")] *}
7093 b2ee0e5d1a7f renamed theory LK to LK0 paulson parents: diff changeset	42
22894 619b270607ac eliminated unnamed infixes; wenzelm parents: 21588 diff changeset	43	abbreviation
619b270607ac eliminated unnamed infixes; wenzelm parents: 21588 diff changeset	44	not_equal (infixl "~=" 50) where
619b270607ac eliminated unnamed infixes; wenzelm parents: 21588 diff changeset	45	"x ~= y == ~ (x = y)"
7093 b2ee0e5d1a7f renamed theory LK to LK0 paulson parents: diff changeset	46
12116 4027b15377a5 got rid of obsolete input filtering; wenzelm parents: 7166 diff changeset	47	syntax (xsymbols)
17481 75166ebb619b converted to Isar theory format; wenzelm parents: 16019 diff changeset	48	Not :: "o => o" ("\<not> _" [40] 40)
22894 619b270607ac eliminated unnamed infixes; wenzelm parents: 21588 diff changeset	49	conj :: "[o, o] => o" (infixr "\<and>" 35)
619b270607ac eliminated unnamed infixes; wenzelm parents: 21588 diff changeset	50	disj :: "[o, o] => o" (infixr "\<or>" 30)
619b270607ac eliminated unnamed infixes; wenzelm parents: 21588 diff changeset	51	imp :: "[o, o] => o" (infixr "\<longrightarrow>" 25)
619b270607ac eliminated unnamed infixes; wenzelm parents: 21588 diff changeset	52	iff :: "[o, o] => o" (infixr "\<longleftrightarrow>" 25)
21524 7843e2fd14a9 updated (binder) syntax/notation; wenzelm parents: 21428 diff changeset	53	All_binder :: "[idts, o] => o" ("(3\<forall>_./ _)" [0, 10] 10)
7843e2fd14a9 updated (binder) syntax/notation; wenzelm parents: 21428 diff changeset	54	Ex_binder :: "[idts, o] => o" ("(3\<exists>_./ _)" [0, 10] 10)
22894 619b270607ac eliminated unnamed infixes; wenzelm parents: 21588 diff changeset	55	not_equal :: "['a, 'a] => o" (infixl "\<noteq>" 50)
7093 b2ee0e5d1a7f renamed theory LK to LK0 paulson parents: diff changeset	56
b2ee0e5d1a7f renamed theory LK to LK0 paulson parents: diff changeset	57	syntax (HTML output)
17481 75166ebb619b converted to Isar theory format; wenzelm parents: 16019 diff changeset	58	Not :: "o => o" ("\<not> _" [40] 40)
22894 619b270607ac eliminated unnamed infixes; wenzelm parents: 21588 diff changeset	59	conj :: "[o, o] => o" (infixr "\<and>" 35)
619b270607ac eliminated unnamed infixes; wenzelm parents: 21588 diff changeset	60	disj :: "[o, o] => o" (infixr "\<or>" 30)
21524 7843e2fd14a9 updated (binder) syntax/notation; wenzelm parents: 21428 diff changeset	61	All_binder :: "[idts, o] => o" ("(3\<forall>_./ _)" [0, 10] 10)
7843e2fd14a9 updated (binder) syntax/notation; wenzelm parents: 21428 diff changeset	62	Ex_binder :: "[idts, o] => o" ("(3\<exists>_./ _)" [0, 10] 10)
22894 619b270607ac eliminated unnamed infixes; wenzelm parents: 21588 diff changeset	63	not_equal :: "['a, 'a] => o" (infixl "\<noteq>" 50)
7093 b2ee0e5d1a7f renamed theory LK to LK0 paulson parents: diff changeset	64
b2ee0e5d1a7f renamed theory LK to LK0 paulson parents: diff changeset	65	local
17481 75166ebb619b converted to Isar theory format; wenzelm parents: 16019 diff changeset	66
75166ebb619b converted to Isar theory format; wenzelm parents: 16019 diff changeset	67	axioms
7093 b2ee0e5d1a7f renamed theory LK to LK0 paulson parents: diff changeset	68
b2ee0e5d1a7f renamed theory LK to LK0 paulson parents: diff changeset	69	(Structural rules: contraction, thinning, exchange [Soren Heilmann] )
b2ee0e5d1a7f renamed theory LK to LK0 paulson parents: diff changeset	70
17481 75166ebb619b converted to Isar theory format; wenzelm parents: 16019 diff changeset	71	contRS: "$H \|- $E, $S, $S, $F ==> $H \|- $E, $S, $F"
75166ebb619b converted to Isar theory format; wenzelm parents: 16019 diff changeset	72	contLS: "$H, $S, $S, $G \|- $E ==> $H, $S, $G \|- $E"
7093 b2ee0e5d1a7f renamed theory LK to LK0 paulson parents: diff changeset	73
17481 75166ebb619b converted to Isar theory format; wenzelm parents: 16019 diff changeset	74	thinRS: "$H \|- $E, $F ==> $H \|- $E, $S, $F"
75166ebb619b converted to Isar theory format; wenzelm parents: 16019 diff changeset	75	thinLS: "$H, $G \|- $E ==> $H, $S, $G \|- $E"
7093 b2ee0e5d1a7f renamed theory LK to LK0 paulson parents: diff changeset	76
17481 75166ebb619b converted to Isar theory format; wenzelm parents: 16019 diff changeset	77	exchRS: "$H \|- $E, $R, $S, $F ==> $H \|- $E, $S, $R, $F"
75166ebb619b converted to Isar theory format; wenzelm parents: 16019 diff changeset	78	exchLS: "$H, $R, $S, $G \|- $E ==> $H, $S, $R, $G \|- $E"
7093 b2ee0e5d1a7f renamed theory LK to LK0 paulson parents: diff changeset	79
17481 75166ebb619b converted to Isar theory format; wenzelm parents: 16019 diff changeset	80	cut: "[\| $H \|- $E, P; $H, P \|- $E \|] ==> $H \|- $E"
7093 b2ee0e5d1a7f renamed theory LK to LK0 paulson parents: diff changeset	81
b2ee0e5d1a7f renamed theory LK to LK0 paulson parents: diff changeset	82	(Propositional rules)
b2ee0e5d1a7f renamed theory LK to LK0 paulson parents: diff changeset	83
17481 75166ebb619b converted to Isar theory format; wenzelm parents: 16019 diff changeset	84	basic: "$H, P, $G \|- $E, P, $F"
7093 b2ee0e5d1a7f renamed theory LK to LK0 paulson parents: diff changeset	85
17481 75166ebb619b converted to Isar theory format; wenzelm parents: 16019 diff changeset	86	conjR: "[\| $H\|- $E, P, $F; $H\|- $E, Q, $F \|] ==> $H\|- $E, P&Q, $F"
75166ebb619b converted to Isar theory format; wenzelm parents: 16019 diff changeset	87	conjL: "$H, P, Q, $G \|- $E ==> $H, P & Q, $G \|- $E"
7093 b2ee0e5d1a7f renamed theory LK to LK0 paulson parents: diff changeset	88
17481 75166ebb619b converted to Isar theory format; wenzelm parents: 16019 diff changeset	89	disjR: "$H \|- $E, P, Q, $F ==> $H \|- $E, P\|Q, $F"
75166ebb619b converted to Isar theory format; wenzelm parents: 16019 diff changeset	90	disjL: "[\| $H, P, $G \|- $E; $H, Q, $G \|- $E \|] ==> $H, P\|Q, $G \|- $E"
7093 b2ee0e5d1a7f renamed theory LK to LK0 paulson parents: diff changeset	91
17481 75166ebb619b converted to Isar theory format; wenzelm parents: 16019 diff changeset	92	impR: "$H, P \|- $E, Q, $F ==> $H \|- $E, P-->Q, $F"
75166ebb619b converted to Isar theory format; wenzelm parents: 16019 diff changeset	93	impL: "[\| $H,$G \|- $E,P; $H, Q, $G \|- $E \|] ==> $H, P-->Q, $G \|- $E"
7093 b2ee0e5d1a7f renamed theory LK to LK0 paulson parents: diff changeset	94
17481 75166ebb619b converted to Isar theory format; wenzelm parents: 16019 diff changeset	95	notR: "$H, P \|- $E, $F ==> $H \|- $E, ~P, $F"
75166ebb619b converted to Isar theory format; wenzelm parents: 16019 diff changeset	96	notL: "$H, $G \|- $E, P ==> $H, ~P, $G \|- $E"
7093 b2ee0e5d1a7f renamed theory LK to LK0 paulson parents: diff changeset	97
17481 75166ebb619b converted to Isar theory format; wenzelm parents: 16019 diff changeset	98	FalseL: "$H, False, $G \|- $E"
7093 b2ee0e5d1a7f renamed theory LK to LK0 paulson parents: diff changeset	99
17481 75166ebb619b converted to Isar theory format; wenzelm parents: 16019 diff changeset	100	True_def: "True == False-->False"
75166ebb619b converted to Isar theory format; wenzelm parents: 16019 diff changeset	101	iff_def: "P<->Q == (P-->Q) & (Q-->P)"
7093 b2ee0e5d1a7f renamed theory LK to LK0 paulson parents: diff changeset	102
b2ee0e5d1a7f renamed theory LK to LK0 paulson parents: diff changeset	103	(Quantifiers)
b2ee0e5d1a7f renamed theory LK to LK0 paulson parents: diff changeset	104
17481 75166ebb619b converted to Isar theory format; wenzelm parents: 16019 diff changeset	105	allR: "(!!x.$H \|- $E, P(x), $F) ==> $H \|- $E, ALL x. P(x), $F"
75166ebb619b converted to Isar theory format; wenzelm parents: 16019 diff changeset	106	allL: "$H, P(x), $G, ALL x. P(x) \|- $E ==> $H, ALL x. P(x), $G \|- $E"
7093 b2ee0e5d1a7f renamed theory LK to LK0 paulson parents: diff changeset	107
17481 75166ebb619b converted to Isar theory format; wenzelm parents: 16019 diff changeset	108	exR: "$H \|- $E, P(x), $F, EX x. P(x) ==> $H \|- $E, EX x. P(x), $F"
75166ebb619b converted to Isar theory format; wenzelm parents: 16019 diff changeset	109	exL: "(!!x.$H, P(x), $G \|- $E) ==> $H, EX x. P(x), $G \|- $E"
7093 b2ee0e5d1a7f renamed theory LK to LK0 paulson parents: diff changeset	110
b2ee0e5d1a7f renamed theory LK to LK0 paulson parents: diff changeset	111	(Equality)
b2ee0e5d1a7f renamed theory LK to LK0 paulson parents: diff changeset	112
17481 75166ebb619b converted to Isar theory format; wenzelm parents: 16019 diff changeset	113	refl: "$H \|- $E, a=a, $F"
75166ebb619b converted to Isar theory format; wenzelm parents: 16019 diff changeset	114	subst: "$H(a), $G(a) \|- $E(a) ==> $H(b), a=b, $G(b) \|- $E(b)"
7093 b2ee0e5d1a7f renamed theory LK to LK0 paulson parents: diff changeset	115
b2ee0e5d1a7f renamed theory LK to LK0 paulson parents: diff changeset	116	(* Reflection *)
b2ee0e5d1a7f renamed theory LK to LK0 paulson parents: diff changeset	117
17481 75166ebb619b converted to Isar theory format; wenzelm parents: 16019 diff changeset	118	eq_reflection: "\|- x=y ==> (x==y)"
75166ebb619b converted to Isar theory format; wenzelm parents: 16019 diff changeset	119	iff_reflection: "\|- P<->Q ==> (P==Q)"
7093 b2ee0e5d1a7f renamed theory LK to LK0 paulson parents: diff changeset	120
b2ee0e5d1a7f renamed theory LK to LK0 paulson parents: diff changeset	121	(Descriptions)
b2ee0e5d1a7f renamed theory LK to LK0 paulson parents: diff changeset	122
17481 75166ebb619b converted to Isar theory format; wenzelm parents: 16019 diff changeset	123	The: "[\| $H \|- $E, P(a), $F; !!x.$H, P(x) \|- $E, x=a, $F \|] ==>
7093 b2ee0e5d1a7f renamed theory LK to LK0 paulson parents: diff changeset	124	$H \|- $E, P(THE x. P(x)), $F"
b2ee0e5d1a7f renamed theory LK to LK0 paulson parents: diff changeset	125
b2ee0e5d1a7f renamed theory LK to LK0 paulson parents: diff changeset	126	constdefs
17481 75166ebb619b converted to Isar theory format; wenzelm parents: 16019 diff changeset	127	If :: "[o, 'a, 'a] => 'a" ("(if (_)/ then (_)/ else (_))" 10)
7093 b2ee0e5d1a7f renamed theory LK to LK0 paulson parents: diff changeset	128	"If(P,x,y) == THE z::'a. (P --> z=x) & (~P --> z=y)"
b2ee0e5d1a7f renamed theory LK to LK0 paulson parents: diff changeset	129
21426 87ac12bed1ab converted legacy ML scripts; wenzelm parents: 17481 diff changeset	130
87ac12bed1ab converted legacy ML scripts; wenzelm parents: 17481 diff changeset	131	( Structural Rules on formulas )
87ac12bed1ab converted legacy ML scripts; wenzelm parents: 17481 diff changeset	132
87ac12bed1ab converted legacy ML scripts; wenzelm parents: 17481 diff changeset	133	(contraction)
87ac12bed1ab converted legacy ML scripts; wenzelm parents: 17481 diff changeset	134
87ac12bed1ab converted legacy ML scripts; wenzelm parents: 17481 diff changeset	135	lemma contR: "$H \|- $E, P, P, $F ==> $H \|- $E, P, $F"
87ac12bed1ab converted legacy ML scripts; wenzelm parents: 17481 diff changeset	136	by (rule contRS)
87ac12bed1ab converted legacy ML scripts; wenzelm parents: 17481 diff changeset	137
87ac12bed1ab converted legacy ML scripts; wenzelm parents: 17481 diff changeset	138	lemma contL: "$H, P, P, $G \|- $E ==> $H, P, $G \|- $E"
87ac12bed1ab converted legacy ML scripts; wenzelm parents: 17481 diff changeset	139	by (rule contLS)
87ac12bed1ab converted legacy ML scripts; wenzelm parents: 17481 diff changeset	140
87ac12bed1ab converted legacy ML scripts; wenzelm parents: 17481 diff changeset	141	(thinning)
87ac12bed1ab converted legacy ML scripts; wenzelm parents: 17481 diff changeset	142
87ac12bed1ab converted legacy ML scripts; wenzelm parents: 17481 diff changeset	143	lemma thinR: "$H \|- $E, $F ==> $H \|- $E, P, $F"
87ac12bed1ab converted legacy ML scripts; wenzelm parents: 17481 diff changeset	144	by (rule thinRS)
87ac12bed1ab converted legacy ML scripts; wenzelm parents: 17481 diff changeset	145
87ac12bed1ab converted legacy ML scripts; wenzelm parents: 17481 diff changeset	146	lemma thinL: "$H, $G \|- $E ==> $H, P, $G \|- $E"
87ac12bed1ab converted legacy ML scripts; wenzelm parents: 17481 diff changeset	147	by (rule thinLS)
87ac12bed1ab converted legacy ML scripts; wenzelm parents: 17481 diff changeset	148
87ac12bed1ab converted legacy ML scripts; wenzelm parents: 17481 diff changeset	149	(exchange)
87ac12bed1ab converted legacy ML scripts; wenzelm parents: 17481 diff changeset	150
87ac12bed1ab converted legacy ML scripts; wenzelm parents: 17481 diff changeset	151	lemma exchR: "$H \|- $E, Q, P, $F ==> $H \|- $E, P, Q, $F"
87ac12bed1ab converted legacy ML scripts; wenzelm parents: 17481 diff changeset	152	by (rule exchRS)
87ac12bed1ab converted legacy ML scripts; wenzelm parents: 17481 diff changeset	153
87ac12bed1ab converted legacy ML scripts; wenzelm parents: 17481 diff changeset	154	lemma exchL: "$H, Q, P, $G \|- $E ==> $H, P, Q, $G \|- $E"
87ac12bed1ab converted legacy ML scripts; wenzelm parents: 17481 diff changeset	155	by (rule exchLS)
87ac12bed1ab converted legacy ML scripts; wenzelm parents: 17481 diff changeset	156
87ac12bed1ab converted legacy ML scripts; wenzelm parents: 17481 diff changeset	157	ML {*
87ac12bed1ab converted legacy ML scripts; wenzelm parents: 17481 diff changeset	158	local
87ac12bed1ab converted legacy ML scripts; wenzelm parents: 17481 diff changeset	159	val thinR = thm "thinR"
87ac12bed1ab converted legacy ML scripts; wenzelm parents: 17481 diff changeset	160	val thinL = thm "thinL"
87ac12bed1ab converted legacy ML scripts; wenzelm parents: 17481 diff changeset	161	val cut = thm "cut"
87ac12bed1ab converted legacy ML scripts; wenzelm parents: 17481 diff changeset	162	in
87ac12bed1ab converted legacy ML scripts; wenzelm parents: 17481 diff changeset	163
87ac12bed1ab converted legacy ML scripts; wenzelm parents: 17481 diff changeset	164	(Cut and thin, replacing the right-side formula)
87ac12bed1ab converted legacy ML scripts; wenzelm parents: 17481 diff changeset	165	fun cutR_tac s i =
87ac12bed1ab converted legacy ML scripts; wenzelm parents: 17481 diff changeset	166	res_inst_tac [ ("P", s) ] cut i THEN rtac thinR i
87ac12bed1ab converted legacy ML scripts; wenzelm parents: 17481 diff changeset	167
87ac12bed1ab converted legacy ML scripts; wenzelm parents: 17481 diff changeset	168	(Cut and thin, replacing the left-side formula)
87ac12bed1ab converted legacy ML scripts; wenzelm parents: 17481 diff changeset	169	fun cutL_tac s i =
87ac12bed1ab converted legacy ML scripts; wenzelm parents: 17481 diff changeset	170	res_inst_tac [("P", s)] cut i THEN rtac thinL (i+1)
17481 75166ebb619b converted to Isar theory format; wenzelm parents: 16019 diff changeset	171
7093 b2ee0e5d1a7f renamed theory LK to LK0 paulson parents: diff changeset	172	end
21426 87ac12bed1ab converted legacy ML scripts; wenzelm parents: 17481 diff changeset	173	*}
87ac12bed1ab converted legacy ML scripts; wenzelm parents: 17481 diff changeset	174
87ac12bed1ab converted legacy ML scripts; wenzelm parents: 17481 diff changeset	175
87ac12bed1ab converted legacy ML scripts; wenzelm parents: 17481 diff changeset	176	( If-and-only-if rules )
87ac12bed1ab converted legacy ML scripts; wenzelm parents: 17481 diff changeset	177	lemma iffR:
87ac12bed1ab converted legacy ML scripts; wenzelm parents: 17481 diff changeset	178	"[\| $H,P \|- $E,Q,$F; $H,Q \|- $E,P,$F \|] ==> $H \|- $E, P <-> Q, $F"
87ac12bed1ab converted legacy ML scripts; wenzelm parents: 17481 diff changeset	179	apply (unfold iff_def)
87ac12bed1ab converted legacy ML scripts; wenzelm parents: 17481 diff changeset	180	apply (assumption \| rule conjR impR)+
87ac12bed1ab converted legacy ML scripts; wenzelm parents: 17481 diff changeset	181	done
87ac12bed1ab converted legacy ML scripts; wenzelm parents: 17481 diff changeset	182
87ac12bed1ab converted legacy ML scripts; wenzelm parents: 17481 diff changeset	183	lemma iffL:
87ac12bed1ab converted legacy ML scripts; wenzelm parents: 17481 diff changeset	184	"[\| $H,$G \|- $E,P,Q; $H,Q,P,$G \|- $E \|] ==> $H, P <-> Q, $G \|- $E"
87ac12bed1ab converted legacy ML scripts; wenzelm parents: 17481 diff changeset	185	apply (unfold iff_def)
87ac12bed1ab converted legacy ML scripts; wenzelm parents: 17481 diff changeset	186	apply (assumption \| rule conjL impL basic)+
87ac12bed1ab converted legacy ML scripts; wenzelm parents: 17481 diff changeset	187	done
87ac12bed1ab converted legacy ML scripts; wenzelm parents: 17481 diff changeset	188
87ac12bed1ab converted legacy ML scripts; wenzelm parents: 17481 diff changeset	189	lemma iff_refl: "$H \|- $E, (P <-> P), $F"
87ac12bed1ab converted legacy ML scripts; wenzelm parents: 17481 diff changeset	190	apply (rule iffR basic)+
87ac12bed1ab converted legacy ML scripts; wenzelm parents: 17481 diff changeset	191	done
87ac12bed1ab converted legacy ML scripts; wenzelm parents: 17481 diff changeset	192
87ac12bed1ab converted legacy ML scripts; wenzelm parents: 17481 diff changeset	193	lemma TrueR: "$H \|- $E, True, $F"
87ac12bed1ab converted legacy ML scripts; wenzelm parents: 17481 diff changeset	194	apply (unfold True_def)
87ac12bed1ab converted legacy ML scripts; wenzelm parents: 17481 diff changeset	195	apply (rule impR)
87ac12bed1ab converted legacy ML scripts; wenzelm parents: 17481 diff changeset	196	apply (rule basic)
87ac12bed1ab converted legacy ML scripts; wenzelm parents: 17481 diff changeset	197	done
87ac12bed1ab converted legacy ML scripts; wenzelm parents: 17481 diff changeset	198
87ac12bed1ab converted legacy ML scripts; wenzelm parents: 17481 diff changeset	199	(Descriptions)
87ac12bed1ab converted legacy ML scripts; wenzelm parents: 17481 diff changeset	200	lemma the_equality:
87ac12bed1ab converted legacy ML scripts; wenzelm parents: 17481 diff changeset	201	assumes p1: "$H \|- $E, P(a), $F"
87ac12bed1ab converted legacy ML scripts; wenzelm parents: 17481 diff changeset	202	and p2: "!!x. $H, P(x) \|- $E, x=a, $F"
87ac12bed1ab converted legacy ML scripts; wenzelm parents: 17481 diff changeset	203	shows "$H \|- $E, (THE x. P(x)) = a, $F"
87ac12bed1ab converted legacy ML scripts; wenzelm parents: 17481 diff changeset	204	apply (rule cut)
87ac12bed1ab converted legacy ML scripts; wenzelm parents: 17481 diff changeset	205	apply (rule_tac [2] p2)
87ac12bed1ab converted legacy ML scripts; wenzelm parents: 17481 diff changeset	206	apply (rule The, rule thinR, rule exchRS, rule p1)
87ac12bed1ab converted legacy ML scripts; wenzelm parents: 17481 diff changeset	207	apply (rule thinR, rule exchRS, rule p2)
87ac12bed1ab converted legacy ML scripts; wenzelm parents: 17481 diff changeset	208	done
87ac12bed1ab converted legacy ML scripts; wenzelm parents: 17481 diff changeset	209
87ac12bed1ab converted legacy ML scripts; wenzelm parents: 17481 diff changeset	210
87ac12bed1ab converted legacy ML scripts; wenzelm parents: 17481 diff changeset	211	( Weakened quantifier rules. Incomplete, they let the search terminate.)
87ac12bed1ab converted legacy ML scripts; wenzelm parents: 17481 diff changeset	212
87ac12bed1ab converted legacy ML scripts; wenzelm parents: 17481 diff changeset	213	lemma allL_thin: "$H, P(x), $G \|- $E ==> $H, ALL x. P(x), $G \|- $E"
87ac12bed1ab converted legacy ML scripts; wenzelm parents: 17481 diff changeset	214	apply (rule allL)
87ac12bed1ab converted legacy ML scripts; wenzelm parents: 17481 diff changeset	215	apply (erule thinL)
87ac12bed1ab converted legacy ML scripts; wenzelm parents: 17481 diff changeset	216	done
87ac12bed1ab converted legacy ML scripts; wenzelm parents: 17481 diff changeset	217
87ac12bed1ab converted legacy ML scripts; wenzelm parents: 17481 diff changeset	218	lemma exR_thin: "$H \|- $E, P(x), $F ==> $H \|- $E, EX x. P(x), $F"
87ac12bed1ab converted legacy ML scripts; wenzelm parents: 17481 diff changeset	219	apply (rule exR)
87ac12bed1ab converted legacy ML scripts; wenzelm parents: 17481 diff changeset	220	apply (erule thinR)
87ac12bed1ab converted legacy ML scripts; wenzelm parents: 17481 diff changeset	221	done
87ac12bed1ab converted legacy ML scripts; wenzelm parents: 17481 diff changeset	222
87ac12bed1ab converted legacy ML scripts; wenzelm parents: 17481 diff changeset	223	(The rules of LK)
87ac12bed1ab converted legacy ML scripts; wenzelm parents: 17481 diff changeset	224
87ac12bed1ab converted legacy ML scripts; wenzelm parents: 17481 diff changeset	225	ML {*
87ac12bed1ab converted legacy ML scripts; wenzelm parents: 17481 diff changeset	226	val prop_pack = empty_pack add_safes
87ac12bed1ab converted legacy ML scripts; wenzelm parents: 17481 diff changeset	227	[thm "basic", thm "refl", thm "TrueR", thm "FalseL",
87ac12bed1ab converted legacy ML scripts; wenzelm parents: 17481 diff changeset	228	thm "conjL", thm "conjR", thm "disjL", thm "disjR", thm "impL", thm "impR",
87ac12bed1ab converted legacy ML scripts; wenzelm parents: 17481 diff changeset	229	thm "notL", thm "notR", thm "iffL", thm "iffR"];
87ac12bed1ab converted legacy ML scripts; wenzelm parents: 17481 diff changeset	230
87ac12bed1ab converted legacy ML scripts; wenzelm parents: 17481 diff changeset	231	val LK_pack = prop_pack add_safes [thm "allR", thm "exL"]
87ac12bed1ab converted legacy ML scripts; wenzelm parents: 17481 diff changeset	232	add_unsafes [thm "allL_thin", thm "exR_thin", thm "the_equality"];
87ac12bed1ab converted legacy ML scripts; wenzelm parents: 17481 diff changeset	233
87ac12bed1ab converted legacy ML scripts; wenzelm parents: 17481 diff changeset	234	val LK_dup_pack = prop_pack add_safes [thm "allR", thm "exL"]
87ac12bed1ab converted legacy ML scripts; wenzelm parents: 17481 diff changeset	235	add_unsafes [thm "allL", thm "exR", thm "the_equality"];
87ac12bed1ab converted legacy ML scripts; wenzelm parents: 17481 diff changeset	236
87ac12bed1ab converted legacy ML scripts; wenzelm parents: 17481 diff changeset	237
87ac12bed1ab converted legacy ML scripts; wenzelm parents: 17481 diff changeset	238	local
87ac12bed1ab converted legacy ML scripts; wenzelm parents: 17481 diff changeset	239	val thinR = thm "thinR"
87ac12bed1ab converted legacy ML scripts; wenzelm parents: 17481 diff changeset	240	val thinL = thm "thinL"
87ac12bed1ab converted legacy ML scripts; wenzelm parents: 17481 diff changeset	241	val cut = thm "cut"
87ac12bed1ab converted legacy ML scripts; wenzelm parents: 17481 diff changeset	242	in
87ac12bed1ab converted legacy ML scripts; wenzelm parents: 17481 diff changeset	243
87ac12bed1ab converted legacy ML scripts; wenzelm parents: 17481 diff changeset	244	fun lemma_tac th i =
87ac12bed1ab converted legacy ML scripts; wenzelm parents: 17481 diff changeset	245	rtac (thinR RS cut) i THEN REPEAT (rtac thinL i) THEN rtac th i;
87ac12bed1ab converted legacy ML scripts; wenzelm parents: 17481 diff changeset	246
87ac12bed1ab converted legacy ML scripts; wenzelm parents: 17481 diff changeset	247	end;
87ac12bed1ab converted legacy ML scripts; wenzelm parents: 17481 diff changeset	248	*}
87ac12bed1ab converted legacy ML scripts; wenzelm parents: 17481 diff changeset	249
87ac12bed1ab converted legacy ML scripts; wenzelm parents: 17481 diff changeset	250	method_setup fast_prop =
21588 cd0dc678a205 simplified method setup; wenzelm parents: 21524 diff changeset	251	{* Method.no_args (Method.SIMPLE_METHOD' (fast_tac prop_pack)) *}
21426 87ac12bed1ab converted legacy ML scripts; wenzelm parents: 17481 diff changeset	252	"propositional reasoning"
87ac12bed1ab converted legacy ML scripts; wenzelm parents: 17481 diff changeset	253
87ac12bed1ab converted legacy ML scripts; wenzelm parents: 17481 diff changeset	254	method_setup fast =
21588 cd0dc678a205 simplified method setup; wenzelm parents: 21524 diff changeset	255	{* Method.no_args (Method.SIMPLE_METHOD' (fast_tac LK_pack)) *}
21426 87ac12bed1ab converted legacy ML scripts; wenzelm parents: 17481 diff changeset	256	"classical reasoning"
87ac12bed1ab converted legacy ML scripts; wenzelm parents: 17481 diff changeset	257
87ac12bed1ab converted legacy ML scripts; wenzelm parents: 17481 diff changeset	258	method_setup fast_dup =
21588 cd0dc678a205 simplified method setup; wenzelm parents: 21524 diff changeset	259	{* Method.no_args (Method.SIMPLE_METHOD' (fast_tac LK_dup_pack)) *}
21426 87ac12bed1ab converted legacy ML scripts; wenzelm parents: 17481 diff changeset	260	"classical reasoning"
87ac12bed1ab converted legacy ML scripts; wenzelm parents: 17481 diff changeset	261
87ac12bed1ab converted legacy ML scripts; wenzelm parents: 17481 diff changeset	262	method_setup best =
21588 cd0dc678a205 simplified method setup; wenzelm parents: 21524 diff changeset	263	{* Method.no_args (Method.SIMPLE_METHOD' (best_tac LK_pack)) *}
21426 87ac12bed1ab converted legacy ML scripts; wenzelm parents: 17481 diff changeset	264	"classical reasoning"
87ac12bed1ab converted legacy ML scripts; wenzelm parents: 17481 diff changeset	265
87ac12bed1ab converted legacy ML scripts; wenzelm parents: 17481 diff changeset	266	method_setup best_dup =
21588 cd0dc678a205 simplified method setup; wenzelm parents: 21524 diff changeset	267	{* Method.no_args (Method.SIMPLE_METHOD' (best_tac LK_dup_pack)) *}
21426 87ac12bed1ab converted legacy ML scripts; wenzelm parents: 17481 diff changeset	268	"classical reasoning"
7093 b2ee0e5d1a7f renamed theory LK to LK0 paulson parents: diff changeset	269
7118 ee384c7b7416 adding missing declarations for the <<...>> notation paulson parents: 7093 diff changeset	270
21426 87ac12bed1ab converted legacy ML scripts; wenzelm parents: 17481 diff changeset	271	lemma mp_R:
87ac12bed1ab converted legacy ML scripts; wenzelm parents: 17481 diff changeset	272	assumes major: "$H \|- $E, $F, P --> Q"
87ac12bed1ab converted legacy ML scripts; wenzelm parents: 17481 diff changeset	273	and minor: "$H \|- $E, $F, P"
87ac12bed1ab converted legacy ML scripts; wenzelm parents: 17481 diff changeset	274	shows "$H \|- $E, Q, $F"
87ac12bed1ab converted legacy ML scripts; wenzelm parents: 17481 diff changeset	275	apply (rule thinRS [THEN cut], rule major)
87ac12bed1ab converted legacy ML scripts; wenzelm parents: 17481 diff changeset	276	apply (tactic "step_tac LK_pack 1")
87ac12bed1ab converted legacy ML scripts; wenzelm parents: 17481 diff changeset	277	apply (rule thinR, rule minor)
87ac12bed1ab converted legacy ML scripts; wenzelm parents: 17481 diff changeset	278	done
87ac12bed1ab converted legacy ML scripts; wenzelm parents: 17481 diff changeset	279
87ac12bed1ab converted legacy ML scripts; wenzelm parents: 17481 diff changeset	280	lemma mp_L:
87ac12bed1ab converted legacy ML scripts; wenzelm parents: 17481 diff changeset	281	assumes major: "$H, $G \|- $E, P --> Q"
87ac12bed1ab converted legacy ML scripts; wenzelm parents: 17481 diff changeset	282	and minor: "$H, $G, Q \|- $E"
87ac12bed1ab converted legacy ML scripts; wenzelm parents: 17481 diff changeset	283	shows "$H, P, $G \|- $E"
87ac12bed1ab converted legacy ML scripts; wenzelm parents: 17481 diff changeset	284	apply (rule thinL [THEN cut], rule major)
87ac12bed1ab converted legacy ML scripts; wenzelm parents: 17481 diff changeset	285	apply (tactic "step_tac LK_pack 1")
87ac12bed1ab converted legacy ML scripts; wenzelm parents: 17481 diff changeset	286	apply (rule thinL, rule minor)
87ac12bed1ab converted legacy ML scripts; wenzelm parents: 17481 diff changeset	287	done
87ac12bed1ab converted legacy ML scripts; wenzelm parents: 17481 diff changeset	288
87ac12bed1ab converted legacy ML scripts; wenzelm parents: 17481 diff changeset	289
87ac12bed1ab converted legacy ML scripts; wenzelm parents: 17481 diff changeset	290	( Two rules to generate left- and right- rules from implications )
87ac12bed1ab converted legacy ML scripts; wenzelm parents: 17481 diff changeset	291
87ac12bed1ab converted legacy ML scripts; wenzelm parents: 17481 diff changeset	292	lemma R_of_imp:
87ac12bed1ab converted legacy ML scripts; wenzelm parents: 17481 diff changeset	293	assumes major: "\|- P --> Q"
87ac12bed1ab converted legacy ML scripts; wenzelm parents: 17481 diff changeset	294	and minor: "$H \|- $E, $F, P"
87ac12bed1ab converted legacy ML scripts; wenzelm parents: 17481 diff changeset	295	shows "$H \|- $E, Q, $F"
87ac12bed1ab converted legacy ML scripts; wenzelm parents: 17481 diff changeset	296	apply (rule mp_R)
87ac12bed1ab converted legacy ML scripts; wenzelm parents: 17481 diff changeset	297	apply (rule_tac [2] minor)
87ac12bed1ab converted legacy ML scripts; wenzelm parents: 17481 diff changeset	298	apply (rule thinRS, rule major [THEN thinLS])
87ac12bed1ab converted legacy ML scripts; wenzelm parents: 17481 diff changeset	299	done
87ac12bed1ab converted legacy ML scripts; wenzelm parents: 17481 diff changeset	300
87ac12bed1ab converted legacy ML scripts; wenzelm parents: 17481 diff changeset	301	lemma L_of_imp:
87ac12bed1ab converted legacy ML scripts; wenzelm parents: 17481 diff changeset	302	assumes major: "\|- P --> Q"
87ac12bed1ab converted legacy ML scripts; wenzelm parents: 17481 diff changeset	303	and minor: "$H, $G, Q \|- $E"
87ac12bed1ab converted legacy ML scripts; wenzelm parents: 17481 diff changeset	304	shows "$H, P, $G \|- $E"
87ac12bed1ab converted legacy ML scripts; wenzelm parents: 17481 diff changeset	305	apply (rule mp_L)
87ac12bed1ab converted legacy ML scripts; wenzelm parents: 17481 diff changeset	306	apply (rule_tac [2] minor)
87ac12bed1ab converted legacy ML scripts; wenzelm parents: 17481 diff changeset	307	apply (rule thinRS, rule major [THEN thinLS])
87ac12bed1ab converted legacy ML scripts; wenzelm parents: 17481 diff changeset	308	done
87ac12bed1ab converted legacy ML scripts; wenzelm parents: 17481 diff changeset	309
87ac12bed1ab converted legacy ML scripts; wenzelm parents: 17481 diff changeset	310	(Can be used to create implications in a subgoal)
87ac12bed1ab converted legacy ML scripts; wenzelm parents: 17481 diff changeset	311	lemma backwards_impR:
87ac12bed1ab converted legacy ML scripts; wenzelm parents: 17481 diff changeset	312	assumes prem: "$H, $G \|- $E, $F, P --> Q"
87ac12bed1ab converted legacy ML scripts; wenzelm parents: 17481 diff changeset	313	shows "$H, P, $G \|- $E, Q, $F"
87ac12bed1ab converted legacy ML scripts; wenzelm parents: 17481 diff changeset	314	apply (rule mp_L)
87ac12bed1ab converted legacy ML scripts; wenzelm parents: 17481 diff changeset	315	apply (rule_tac [2] basic)
87ac12bed1ab converted legacy ML scripts; wenzelm parents: 17481 diff changeset	316	apply (rule thinR, rule prem)
87ac12bed1ab converted legacy ML scripts; wenzelm parents: 17481 diff changeset	317	done
87ac12bed1ab converted legacy ML scripts; wenzelm parents: 17481 diff changeset	318
87ac12bed1ab converted legacy ML scripts; wenzelm parents: 17481 diff changeset	319	lemma conjunct1: "\|-P&Q ==> \|-P"
87ac12bed1ab converted legacy ML scripts; wenzelm parents: 17481 diff changeset	320	apply (erule thinR [THEN cut])
87ac12bed1ab converted legacy ML scripts; wenzelm parents: 17481 diff changeset	321	apply fast
87ac12bed1ab converted legacy ML scripts; wenzelm parents: 17481 diff changeset	322	done
87ac12bed1ab converted legacy ML scripts; wenzelm parents: 17481 diff changeset	323
87ac12bed1ab converted legacy ML scripts; wenzelm parents: 17481 diff changeset	324	lemma conjunct2: "\|-P&Q ==> \|-Q"
87ac12bed1ab converted legacy ML scripts; wenzelm parents: 17481 diff changeset	325	apply (erule thinR [THEN cut])
87ac12bed1ab converted legacy ML scripts; wenzelm parents: 17481 diff changeset	326	apply fast
87ac12bed1ab converted legacy ML scripts; wenzelm parents: 17481 diff changeset	327	done
87ac12bed1ab converted legacy ML scripts; wenzelm parents: 17481 diff changeset	328
87ac12bed1ab converted legacy ML scripts; wenzelm parents: 17481 diff changeset	329	lemma spec: "\|- (ALL x. P(x)) ==> \|- P(x)"
87ac12bed1ab converted legacy ML scripts; wenzelm parents: 17481 diff changeset	330	apply (erule thinR [THEN cut])
87ac12bed1ab converted legacy ML scripts; wenzelm parents: 17481 diff changeset	331	apply fast
87ac12bed1ab converted legacy ML scripts; wenzelm parents: 17481 diff changeset	332	done
87ac12bed1ab converted legacy ML scripts; wenzelm parents: 17481 diff changeset	333
87ac12bed1ab converted legacy ML scripts; wenzelm parents: 17481 diff changeset	334
87ac12bed1ab converted legacy ML scripts; wenzelm parents: 17481 diff changeset	335	( Equality )
87ac12bed1ab converted legacy ML scripts; wenzelm parents: 17481 diff changeset	336
87ac12bed1ab converted legacy ML scripts; wenzelm parents: 17481 diff changeset	337	lemma sym: "\|- a=b --> b=a"
87ac12bed1ab converted legacy ML scripts; wenzelm parents: 17481 diff changeset	338	by (tactic {* safe_tac (LK_pack add_safes [thm "subst"]) 1 *})
87ac12bed1ab converted legacy ML scripts; wenzelm parents: 17481 diff changeset	339
87ac12bed1ab converted legacy ML scripts; wenzelm parents: 17481 diff changeset	340	lemma trans: "\|- a=b --> b=c --> a=c"
87ac12bed1ab converted legacy ML scripts; wenzelm parents: 17481 diff changeset	341	by (tactic {* safe_tac (LK_pack add_safes [thm "subst"]) 1 *})
87ac12bed1ab converted legacy ML scripts; wenzelm parents: 17481 diff changeset	342
87ac12bed1ab converted legacy ML scripts; wenzelm parents: 17481 diff changeset	343	(* Symmetry of equality in hypotheses *)
87ac12bed1ab converted legacy ML scripts; wenzelm parents: 17481 diff changeset	344	lemmas symL = sym [THEN L_of_imp, standard]
87ac12bed1ab converted legacy ML scripts; wenzelm parents: 17481 diff changeset	345
87ac12bed1ab converted legacy ML scripts; wenzelm parents: 17481 diff changeset	346	(* Symmetry of equality in hypotheses *)
87ac12bed1ab converted legacy ML scripts; wenzelm parents: 17481 diff changeset	347	lemmas symR = sym [THEN R_of_imp, standard]
87ac12bed1ab converted legacy ML scripts; wenzelm parents: 17481 diff changeset	348
87ac12bed1ab converted legacy ML scripts; wenzelm parents: 17481 diff changeset	349	lemma transR: "[\| $H\|- $E, $F, a=b; $H\|- $E, $F, b=c \|] ==> $H\|- $E, a=c, $F"
87ac12bed1ab converted legacy ML scripts; wenzelm parents: 17481 diff changeset	350	by (rule trans [THEN R_of_imp, THEN mp_R])
87ac12bed1ab converted legacy ML scripts; wenzelm parents: 17481 diff changeset	351
87ac12bed1ab converted legacy ML scripts; wenzelm parents: 17481 diff changeset	352	(* Two theorms for rewriting only one instance of a definition:
87ac12bed1ab converted legacy ML scripts; wenzelm parents: 17481 diff changeset	353	the first for definitions of formulae and the second for terms *)
87ac12bed1ab converted legacy ML scripts; wenzelm parents: 17481 diff changeset	354
87ac12bed1ab converted legacy ML scripts; wenzelm parents: 17481 diff changeset	355	lemma def_imp_iff: "(A == B) ==> \|- A <-> B"
87ac12bed1ab converted legacy ML scripts; wenzelm parents: 17481 diff changeset	356	apply unfold
87ac12bed1ab converted legacy ML scripts; wenzelm parents: 17481 diff changeset	357	apply (rule iff_refl)
87ac12bed1ab converted legacy ML scripts; wenzelm parents: 17481 diff changeset	358	done
87ac12bed1ab converted legacy ML scripts; wenzelm parents: 17481 diff changeset	359
87ac12bed1ab converted legacy ML scripts; wenzelm parents: 17481 diff changeset	360	lemma meta_eq_to_obj_eq: "(A == B) ==> \|- A = B"
87ac12bed1ab converted legacy ML scripts; wenzelm parents: 17481 diff changeset	361	apply unfold
87ac12bed1ab converted legacy ML scripts; wenzelm parents: 17481 diff changeset	362	apply (rule refl)
87ac12bed1ab converted legacy ML scripts; wenzelm parents: 17481 diff changeset	363	done
87ac12bed1ab converted legacy ML scripts; wenzelm parents: 17481 diff changeset	364
87ac12bed1ab converted legacy ML scripts; wenzelm parents: 17481 diff changeset	365
87ac12bed1ab converted legacy ML scripts; wenzelm parents: 17481 diff changeset	366	( if-then-else rules )
87ac12bed1ab converted legacy ML scripts; wenzelm parents: 17481 diff changeset	367
87ac12bed1ab converted legacy ML scripts; wenzelm parents: 17481 diff changeset	368	lemma if_True: "\|- (if True then x else y) = x"
87ac12bed1ab converted legacy ML scripts; wenzelm parents: 17481 diff changeset	369	unfolding If_def by fast
87ac12bed1ab converted legacy ML scripts; wenzelm parents: 17481 diff changeset	370
87ac12bed1ab converted legacy ML scripts; wenzelm parents: 17481 diff changeset	371	lemma if_False: "\|- (if False then x else y) = y"
87ac12bed1ab converted legacy ML scripts; wenzelm parents: 17481 diff changeset	372	unfolding If_def by fast
87ac12bed1ab converted legacy ML scripts; wenzelm parents: 17481 diff changeset	373
87ac12bed1ab converted legacy ML scripts; wenzelm parents: 17481 diff changeset	374	lemma if_P: "\|- P ==> \|- (if P then x else y) = x"
87ac12bed1ab converted legacy ML scripts; wenzelm parents: 17481 diff changeset	375	apply (unfold If_def)
87ac12bed1ab converted legacy ML scripts; wenzelm parents: 17481 diff changeset	376	apply (erule thinR [THEN cut])
87ac12bed1ab converted legacy ML scripts; wenzelm parents: 17481 diff changeset	377	apply fast
87ac12bed1ab converted legacy ML scripts; wenzelm parents: 17481 diff changeset	378	done
87ac12bed1ab converted legacy ML scripts; wenzelm parents: 17481 diff changeset	379
87ac12bed1ab converted legacy ML scripts; wenzelm parents: 17481 diff changeset	380	lemma if_not_P: "\|- ~P ==> \|- (if P then x else y) = y";
87ac12bed1ab converted legacy ML scripts; wenzelm parents: 17481 diff changeset	381	apply (unfold If_def)
87ac12bed1ab converted legacy ML scripts; wenzelm parents: 17481 diff changeset	382	apply (erule thinR [THEN cut])
87ac12bed1ab converted legacy ML scripts; wenzelm parents: 17481 diff changeset	383	apply fast
87ac12bed1ab converted legacy ML scripts; wenzelm parents: 17481 diff changeset	384	done
87ac12bed1ab converted legacy ML scripts; wenzelm parents: 17481 diff changeset	385
87ac12bed1ab converted legacy ML scripts; wenzelm parents: 17481 diff changeset	386	end

author	chaieb
	Sun, 08 Jul 2007 19:01:32 +0200
changeset 23650	0a6a719d24d5
parent 22894	619b270607ac
child 27146	443c19953137
permissions	-rw-r--r--