isabelle: src/HOL/ex/Higher_Order_Logic.thy@11542bebe4d4 (annotated)

12360 9c156045c8f2 added Higher_Order_Logic.thy; wenzelm parents: diff changeset	1	(* Title: HOL/ex/Higher_Order_Logic.thy
9c156045c8f2 added Higher_Order_Logic.thy; wenzelm parents: diff changeset	2	ID: $Id$
9c156045c8f2 added Higher_Order_Logic.thy; wenzelm parents: diff changeset	3	Author: Gertrud Bauer and Markus Wenzel, TU Muenchen
9c156045c8f2 added Higher_Order_Logic.thy; wenzelm parents: diff changeset	4	*)
9c156045c8f2 added Higher_Order_Logic.thy; wenzelm parents: diff changeset	5
9c156045c8f2 added Higher_Order_Logic.thy; wenzelm parents: diff changeset	6	header {* Foundations of HOL *}
9c156045c8f2 added Higher_Order_Logic.thy; wenzelm parents: diff changeset	7
26957 e3f04fdd994d eliminated theory CPure; wenzelm parents: 23822 diff changeset	8	theory Higher_Order_Logic imports Pure begin
12360 9c156045c8f2 added Higher_Order_Logic.thy; wenzelm parents: diff changeset	9
9c156045c8f2 added Higher_Order_Logic.thy; wenzelm parents: diff changeset	10	text {*
9c156045c8f2 added Higher_Order_Logic.thy; wenzelm parents: diff changeset	11	The following theory development demonstrates Higher-Order Logic
9c156045c8f2 added Higher_Order_Logic.thy; wenzelm parents: diff changeset	12	itself, represented directly within the Pure framework of Isabelle.
9c156045c8f2 added Higher_Order_Logic.thy; wenzelm parents: diff changeset	13	The ``HOL'' logic given here is essentially that of Gordon
9c156045c8f2 added Higher_Order_Logic.thy; wenzelm parents: diff changeset	14	\cite{Gordon:1985:HOL}, although we prefer to present basic concepts
9c156045c8f2 added Higher_Order_Logic.thy; wenzelm parents: diff changeset	15	in a slightly more conventional manner oriented towards plain
9c156045c8f2 added Higher_Order_Logic.thy; wenzelm parents: diff changeset	16	Natural Deduction.
9c156045c8f2 added Higher_Order_Logic.thy; wenzelm parents: diff changeset	17	*}
9c156045c8f2 added Higher_Order_Logic.thy; wenzelm parents: diff changeset	18
9c156045c8f2 added Higher_Order_Logic.thy; wenzelm parents: diff changeset	19
9c156045c8f2 added Higher_Order_Logic.thy; wenzelm parents: diff changeset	20	subsection {* Pure Logic *}
9c156045c8f2 added Higher_Order_Logic.thy; wenzelm parents: diff changeset	21
14854 61bdf2ae4dc5 removed obsolete sort 'logic'; wenzelm parents: 12573 diff changeset	22	classes type
12360 9c156045c8f2 added Higher_Order_Logic.thy; wenzelm parents: diff changeset	23	defaultsort type
9c156045c8f2 added Higher_Order_Logic.thy; wenzelm parents: diff changeset	24
9c156045c8f2 added Higher_Order_Logic.thy; wenzelm parents: diff changeset	25	typedecl o
9c156045c8f2 added Higher_Order_Logic.thy; wenzelm parents: diff changeset	26	arities
9c156045c8f2 added Higher_Order_Logic.thy; wenzelm parents: diff changeset	27	o :: type
20523 36a59e5d0039 Major update to function package, including new syntax and the (only theoretical) krauss parents: 19736 diff changeset	28	"fun" :: (type, type) type
12360 9c156045c8f2 added Higher_Order_Logic.thy; wenzelm parents: diff changeset	29
9c156045c8f2 added Higher_Order_Logic.thy; wenzelm parents: diff changeset	30
9c156045c8f2 added Higher_Order_Logic.thy; wenzelm parents: diff changeset	31	subsubsection {* Basic logical connectives *}
9c156045c8f2 added Higher_Order_Logic.thy; wenzelm parents: diff changeset	32
9c156045c8f2 added Higher_Order_Logic.thy; wenzelm parents: diff changeset	33	judgment
9c156045c8f2 added Higher_Order_Logic.thy; wenzelm parents: diff changeset	34	Trueprop :: "o \<Rightarrow> prop" ("_" 5)
9c156045c8f2 added Higher_Order_Logic.thy; wenzelm parents: diff changeset	35
23822 bfb3b1e1d766 tuned specifications; wenzelm parents: 23373 diff changeset	36	axiomatization
bfb3b1e1d766 tuned specifications; wenzelm parents: 23373 diff changeset	37	imp :: "o \<Rightarrow> o \<Rightarrow> o" (infixr "\<longrightarrow>" 25) and
12360 9c156045c8f2 added Higher_Order_Logic.thy; wenzelm parents: diff changeset	38	All :: "('a \<Rightarrow> o) \<Rightarrow> o" (binder "\<forall>" 10)
23822 bfb3b1e1d766 tuned specifications; wenzelm parents: 23373 diff changeset	39	where
bfb3b1e1d766 tuned specifications; wenzelm parents: 23373 diff changeset	40	impI [intro]: "(A \<Longrightarrow> B) \<Longrightarrow> A \<longrightarrow> B" and
bfb3b1e1d766 tuned specifications; wenzelm parents: 23373 diff changeset	41	impE [dest, trans]: "A \<longrightarrow> B \<Longrightarrow> A \<Longrightarrow> B" and
bfb3b1e1d766 tuned specifications; wenzelm parents: 23373 diff changeset	42	allI [intro]: "(\<And>x. P x) \<Longrightarrow> \<forall>x. P x" and
12360 9c156045c8f2 added Higher_Order_Logic.thy; wenzelm parents: diff changeset	43	allE [dest]: "\<forall>x. P x \<Longrightarrow> P a"
9c156045c8f2 added Higher_Order_Logic.thy; wenzelm parents: diff changeset	44
9c156045c8f2 added Higher_Order_Logic.thy; wenzelm parents: diff changeset	45
9c156045c8f2 added Higher_Order_Logic.thy; wenzelm parents: diff changeset	46	subsubsection {* Extensional equality *}
9c156045c8f2 added Higher_Order_Logic.thy; wenzelm parents: diff changeset	47
23822 bfb3b1e1d766 tuned specifications; wenzelm parents: 23373 diff changeset	48	axiomatization
12360 9c156045c8f2 added Higher_Order_Logic.thy; wenzelm parents: diff changeset	49	equal :: "'a \<Rightarrow> 'a \<Rightarrow> o" (infixl "=" 50)
23822 bfb3b1e1d766 tuned specifications; wenzelm parents: 23373 diff changeset	50	where
bfb3b1e1d766 tuned specifications; wenzelm parents: 23373 diff changeset	51	refl [intro]: "x = x" and
bfb3b1e1d766 tuned specifications; wenzelm parents: 23373 diff changeset	52	subst: "x = y \<Longrightarrow> P x \<Longrightarrow> P y"
12360 9c156045c8f2 added Higher_Order_Logic.thy; wenzelm parents: diff changeset	53
23822 bfb3b1e1d766 tuned specifications; wenzelm parents: 23373 diff changeset	54	axiomatization where
bfb3b1e1d766 tuned specifications; wenzelm parents: 23373 diff changeset	55	ext [intro]: "(\<And>x. f x = g x) \<Longrightarrow> f = g" and
12360 9c156045c8f2 added Higher_Order_Logic.thy; wenzelm parents: diff changeset	56	iff [intro]: "(A \<Longrightarrow> B) \<Longrightarrow> (B \<Longrightarrow> A) \<Longrightarrow> A = B"
9c156045c8f2 added Higher_Order_Logic.thy; wenzelm parents: diff changeset	57
12394 b20a37eb8338 sym [sym]; wenzelm parents: 12360 diff changeset	58	theorem sym [sym]: "x = y \<Longrightarrow> y = x"
12360 9c156045c8f2 added Higher_Order_Logic.thy; wenzelm parents: diff changeset	59	proof -
9c156045c8f2 added Higher_Order_Logic.thy; wenzelm parents: diff changeset	60	assume "x = y"
23373 ead82c82da9e tuned proofs: avoid implicit prems; wenzelm parents: 21404 diff changeset	61	then show "y = x" by (rule subst) (rule refl)
12360 9c156045c8f2 added Higher_Order_Logic.thy; wenzelm parents: diff changeset	62	qed
9c156045c8f2 added Higher_Order_Logic.thy; wenzelm parents: diff changeset	63
9c156045c8f2 added Higher_Order_Logic.thy; wenzelm parents: diff changeset	64	lemma [trans]: "x = y \<Longrightarrow> P y \<Longrightarrow> P x"
9c156045c8f2 added Higher_Order_Logic.thy; wenzelm parents: diff changeset	65	by (rule subst) (rule sym)
9c156045c8f2 added Higher_Order_Logic.thy; wenzelm parents: diff changeset	66
9c156045c8f2 added Higher_Order_Logic.thy; wenzelm parents: diff changeset	67	lemma [trans]: "P x \<Longrightarrow> x = y \<Longrightarrow> P y"
9c156045c8f2 added Higher_Order_Logic.thy; wenzelm parents: diff changeset	68	by (rule subst)
9c156045c8f2 added Higher_Order_Logic.thy; wenzelm parents: diff changeset	69
9c156045c8f2 added Higher_Order_Logic.thy; wenzelm parents: diff changeset	70	theorem trans [trans]: "x = y \<Longrightarrow> y = z \<Longrightarrow> x = z"
9c156045c8f2 added Higher_Order_Logic.thy; wenzelm parents: diff changeset	71	by (rule subst)
9c156045c8f2 added Higher_Order_Logic.thy; wenzelm parents: diff changeset	72
9c156045c8f2 added Higher_Order_Logic.thy; wenzelm parents: diff changeset	73	theorem iff1 [elim]: "A = B \<Longrightarrow> A \<Longrightarrow> B"
9c156045c8f2 added Higher_Order_Logic.thy; wenzelm parents: diff changeset	74	by (rule subst)
9c156045c8f2 added Higher_Order_Logic.thy; wenzelm parents: diff changeset	75
9c156045c8f2 added Higher_Order_Logic.thy; wenzelm parents: diff changeset	76	theorem iff2 [elim]: "A = B \<Longrightarrow> B \<Longrightarrow> A"
9c156045c8f2 added Higher_Order_Logic.thy; wenzelm parents: diff changeset	77	by (rule subst) (rule sym)
9c156045c8f2 added Higher_Order_Logic.thy; wenzelm parents: diff changeset	78
9c156045c8f2 added Higher_Order_Logic.thy; wenzelm parents: diff changeset	79
9c156045c8f2 added Higher_Order_Logic.thy; wenzelm parents: diff changeset	80	subsubsection {* Derived connectives *}
9c156045c8f2 added Higher_Order_Logic.thy; wenzelm parents: diff changeset	81
19736 d8d0f8f51d69 tuned; wenzelm parents: 19380 diff changeset	82	definition
21404 eb85850d3eb7 more robust syntax for definition/abbreviation/notation; wenzelm parents: 20523 diff changeset	83	false :: o ("\<bottom>") where
12360 9c156045c8f2 added Higher_Order_Logic.thy; wenzelm parents: diff changeset	84	"\<bottom> \<equiv> \<forall>A. A"
21404 eb85850d3eb7 more robust syntax for definition/abbreviation/notation; wenzelm parents: 20523 diff changeset	85
eb85850d3eb7 more robust syntax for definition/abbreviation/notation; wenzelm parents: 20523 diff changeset	86	definition
eb85850d3eb7 more robust syntax for definition/abbreviation/notation; wenzelm parents: 20523 diff changeset	87	true :: o ("\<top>") where
12360 9c156045c8f2 added Higher_Order_Logic.thy; wenzelm parents: diff changeset	88	"\<top> \<equiv> \<bottom> \<longrightarrow> \<bottom>"
21404 eb85850d3eb7 more robust syntax for definition/abbreviation/notation; wenzelm parents: 20523 diff changeset	89
eb85850d3eb7 more robust syntax for definition/abbreviation/notation; wenzelm parents: 20523 diff changeset	90	definition
eb85850d3eb7 more robust syntax for definition/abbreviation/notation; wenzelm parents: 20523 diff changeset	91	not :: "o \<Rightarrow> o" ("\<not> _" [40] 40) where
12360 9c156045c8f2 added Higher_Order_Logic.thy; wenzelm parents: diff changeset	92	"not \<equiv> \<lambda>A. A \<longrightarrow> \<bottom>"
21404 eb85850d3eb7 more robust syntax for definition/abbreviation/notation; wenzelm parents: 20523 diff changeset	93
eb85850d3eb7 more robust syntax for definition/abbreviation/notation; wenzelm parents: 20523 diff changeset	94	definition
eb85850d3eb7 more robust syntax for definition/abbreviation/notation; wenzelm parents: 20523 diff changeset	95	conj :: "o \<Rightarrow> o \<Rightarrow> o" (infixr "\<and>" 35) where
12360 9c156045c8f2 added Higher_Order_Logic.thy; wenzelm parents: diff changeset	96	"conj \<equiv> \<lambda>A B. \<forall>C. (A \<longrightarrow> B \<longrightarrow> C) \<longrightarrow> C"
21404 eb85850d3eb7 more robust syntax for definition/abbreviation/notation; wenzelm parents: 20523 diff changeset	97
eb85850d3eb7 more robust syntax for definition/abbreviation/notation; wenzelm parents: 20523 diff changeset	98	definition
eb85850d3eb7 more robust syntax for definition/abbreviation/notation; wenzelm parents: 20523 diff changeset	99	disj :: "o \<Rightarrow> o \<Rightarrow> o" (infixr "\<or>" 30) where
12360 9c156045c8f2 added Higher_Order_Logic.thy; wenzelm parents: diff changeset	100	"disj \<equiv> \<lambda>A B. \<forall>C. (A \<longrightarrow> C) \<longrightarrow> (B \<longrightarrow> C) \<longrightarrow> C"
21404 eb85850d3eb7 more robust syntax for definition/abbreviation/notation; wenzelm parents: 20523 diff changeset	101
eb85850d3eb7 more robust syntax for definition/abbreviation/notation; wenzelm parents: 20523 diff changeset	102	definition
eb85850d3eb7 more robust syntax for definition/abbreviation/notation; wenzelm parents: 20523 diff changeset	103	Ex :: "('a \<Rightarrow> o) \<Rightarrow> o" (binder "\<exists>" 10) where
23822 bfb3b1e1d766 tuned specifications; wenzelm parents: 23373 diff changeset	104	"\<exists>x. P x \<equiv> \<forall>C. (\<forall>x. P x \<longrightarrow> C) \<longrightarrow> C"
12360 9c156045c8f2 added Higher_Order_Logic.thy; wenzelm parents: diff changeset	105
19380 b808efaa5828 tuned syntax/abbreviations; wenzelm parents: 16417 diff changeset	106	abbreviation
21404 eb85850d3eb7 more robust syntax for definition/abbreviation/notation; wenzelm parents: 20523 diff changeset	107	not_equal :: "'a \<Rightarrow> 'a \<Rightarrow> o" (infixl "\<noteq>" 50) where
19380 b808efaa5828 tuned syntax/abbreviations; wenzelm parents: 16417 diff changeset	108	"x \<noteq> y \<equiv> \<not> (x = y)"
12360 9c156045c8f2 added Higher_Order_Logic.thy; wenzelm parents: diff changeset	109
9c156045c8f2 added Higher_Order_Logic.thy; wenzelm parents: diff changeset	110	theorem falseE [elim]: "\<bottom> \<Longrightarrow> A"
9c156045c8f2 added Higher_Order_Logic.thy; wenzelm parents: diff changeset	111	proof (unfold false_def)
9c156045c8f2 added Higher_Order_Logic.thy; wenzelm parents: diff changeset	112	assume "\<forall>A. A"
23373 ead82c82da9e tuned proofs: avoid implicit prems; wenzelm parents: 21404 diff changeset	113	then show A ..
12360 9c156045c8f2 added Higher_Order_Logic.thy; wenzelm parents: diff changeset	114	qed
9c156045c8f2 added Higher_Order_Logic.thy; wenzelm parents: diff changeset	115
9c156045c8f2 added Higher_Order_Logic.thy; wenzelm parents: diff changeset	116	theorem trueI [intro]: \<top>
9c156045c8f2 added Higher_Order_Logic.thy; wenzelm parents: diff changeset	117	proof (unfold true_def)
9c156045c8f2 added Higher_Order_Logic.thy; wenzelm parents: diff changeset	118	show "\<bottom> \<longrightarrow> \<bottom>" ..
9c156045c8f2 added Higher_Order_Logic.thy; wenzelm parents: diff changeset	119	qed
9c156045c8f2 added Higher_Order_Logic.thy; wenzelm parents: diff changeset	120
9c156045c8f2 added Higher_Order_Logic.thy; wenzelm parents: diff changeset	121	theorem notI [intro]: "(A \<Longrightarrow> \<bottom>) \<Longrightarrow> \<not> A"
9c156045c8f2 added Higher_Order_Logic.thy; wenzelm parents: diff changeset	122	proof (unfold not_def)
9c156045c8f2 added Higher_Order_Logic.thy; wenzelm parents: diff changeset	123	assume "A \<Longrightarrow> \<bottom>"
23373 ead82c82da9e tuned proofs: avoid implicit prems; wenzelm parents: 21404 diff changeset	124	then show "A \<longrightarrow> \<bottom>" ..
12360 9c156045c8f2 added Higher_Order_Logic.thy; wenzelm parents: diff changeset	125	qed
9c156045c8f2 added Higher_Order_Logic.thy; wenzelm parents: diff changeset	126
9c156045c8f2 added Higher_Order_Logic.thy; wenzelm parents: diff changeset	127	theorem notE [elim]: "\<not> A \<Longrightarrow> A \<Longrightarrow> B"
9c156045c8f2 added Higher_Order_Logic.thy; wenzelm parents: diff changeset	128	proof (unfold not_def)
9c156045c8f2 added Higher_Order_Logic.thy; wenzelm parents: diff changeset	129	assume "A \<longrightarrow> \<bottom>"
9c156045c8f2 added Higher_Order_Logic.thy; wenzelm parents: diff changeset	130	also assume A
9c156045c8f2 added Higher_Order_Logic.thy; wenzelm parents: diff changeset	131	finally have \<bottom> ..
23373 ead82c82da9e tuned proofs: avoid implicit prems; wenzelm parents: 21404 diff changeset	132	then show B ..
12360 9c156045c8f2 added Higher_Order_Logic.thy; wenzelm parents: diff changeset	133	qed
9c156045c8f2 added Higher_Order_Logic.thy; wenzelm parents: diff changeset	134
9c156045c8f2 added Higher_Order_Logic.thy; wenzelm parents: diff changeset	135	lemma notE': "A \<Longrightarrow> \<not> A \<Longrightarrow> B"
9c156045c8f2 added Higher_Order_Logic.thy; wenzelm parents: diff changeset	136	by (rule notE)
9c156045c8f2 added Higher_Order_Logic.thy; wenzelm parents: diff changeset	137
9c156045c8f2 added Higher_Order_Logic.thy; wenzelm parents: diff changeset	138	lemmas contradiction = notE notE' -- {* proof by contradiction in any order *}
9c156045c8f2 added Higher_Order_Logic.thy; wenzelm parents: diff changeset	139
9c156045c8f2 added Higher_Order_Logic.thy; wenzelm parents: diff changeset	140	theorem conjI [intro]: "A \<Longrightarrow> B \<Longrightarrow> A \<and> B"
9c156045c8f2 added Higher_Order_Logic.thy; wenzelm parents: diff changeset	141	proof (unfold conj_def)
9c156045c8f2 added Higher_Order_Logic.thy; wenzelm parents: diff changeset	142	assume A and B
9c156045c8f2 added Higher_Order_Logic.thy; wenzelm parents: diff changeset	143	show "\<forall>C. (A \<longrightarrow> B \<longrightarrow> C) \<longrightarrow> C"
9c156045c8f2 added Higher_Order_Logic.thy; wenzelm parents: diff changeset	144	proof
9c156045c8f2 added Higher_Order_Logic.thy; wenzelm parents: diff changeset	145	fix C show "(A \<longrightarrow> B \<longrightarrow> C) \<longrightarrow> C"
9c156045c8f2 added Higher_Order_Logic.thy; wenzelm parents: diff changeset	146	proof
9c156045c8f2 added Higher_Order_Logic.thy; wenzelm parents: diff changeset	147	assume "A \<longrightarrow> B \<longrightarrow> C"
23373 ead82c82da9e tuned proofs: avoid implicit prems; wenzelm parents: 21404 diff changeset	148	also note `A`
ead82c82da9e tuned proofs: avoid implicit prems; wenzelm parents: 21404 diff changeset	149	also note `B`
12360 9c156045c8f2 added Higher_Order_Logic.thy; wenzelm parents: diff changeset	150	finally show C .
9c156045c8f2 added Higher_Order_Logic.thy; wenzelm parents: diff changeset	151	qed
9c156045c8f2 added Higher_Order_Logic.thy; wenzelm parents: diff changeset	152	qed
9c156045c8f2 added Higher_Order_Logic.thy; wenzelm parents: diff changeset	153	qed
9c156045c8f2 added Higher_Order_Logic.thy; wenzelm parents: diff changeset	154
9c156045c8f2 added Higher_Order_Logic.thy; wenzelm parents: diff changeset	155	theorem conjE [elim]: "A \<and> B \<Longrightarrow> (A \<Longrightarrow> B \<Longrightarrow> C) \<Longrightarrow> C"
9c156045c8f2 added Higher_Order_Logic.thy; wenzelm parents: diff changeset	156	proof (unfold conj_def)
9c156045c8f2 added Higher_Order_Logic.thy; wenzelm parents: diff changeset	157	assume c: "\<forall>C. (A \<longrightarrow> B \<longrightarrow> C) \<longrightarrow> C"
9c156045c8f2 added Higher_Order_Logic.thy; wenzelm parents: diff changeset	158	assume "A \<Longrightarrow> B \<Longrightarrow> C"
9c156045c8f2 added Higher_Order_Logic.thy; wenzelm parents: diff changeset	159	moreover {
9c156045c8f2 added Higher_Order_Logic.thy; wenzelm parents: diff changeset	160	from c have "(A \<longrightarrow> B \<longrightarrow> A) \<longrightarrow> A" ..
9c156045c8f2 added Higher_Order_Logic.thy; wenzelm parents: diff changeset	161	also have "A \<longrightarrow> B \<longrightarrow> A"
9c156045c8f2 added Higher_Order_Logic.thy; wenzelm parents: diff changeset	162	proof
9c156045c8f2 added Higher_Order_Logic.thy; wenzelm parents: diff changeset	163	assume A
23373 ead82c82da9e tuned proofs: avoid implicit prems; wenzelm parents: 21404 diff changeset	164	then show "B \<longrightarrow> A" ..
12360 9c156045c8f2 added Higher_Order_Logic.thy; wenzelm parents: diff changeset	165	qed
9c156045c8f2 added Higher_Order_Logic.thy; wenzelm parents: diff changeset	166	finally have A .
9c156045c8f2 added Higher_Order_Logic.thy; wenzelm parents: diff changeset	167	} moreover {
9c156045c8f2 added Higher_Order_Logic.thy; wenzelm parents: diff changeset	168	from c have "(A \<longrightarrow> B \<longrightarrow> B) \<longrightarrow> B" ..
9c156045c8f2 added Higher_Order_Logic.thy; wenzelm parents: diff changeset	169	also have "A \<longrightarrow> B \<longrightarrow> B"
9c156045c8f2 added Higher_Order_Logic.thy; wenzelm parents: diff changeset	170	proof
9c156045c8f2 added Higher_Order_Logic.thy; wenzelm parents: diff changeset	171	show "B \<longrightarrow> B" ..
9c156045c8f2 added Higher_Order_Logic.thy; wenzelm parents: diff changeset	172	qed
9c156045c8f2 added Higher_Order_Logic.thy; wenzelm parents: diff changeset	173	finally have B .
9c156045c8f2 added Higher_Order_Logic.thy; wenzelm parents: diff changeset	174	} ultimately show C .
9c156045c8f2 added Higher_Order_Logic.thy; wenzelm parents: diff changeset	175	qed
9c156045c8f2 added Higher_Order_Logic.thy; wenzelm parents: diff changeset	176
9c156045c8f2 added Higher_Order_Logic.thy; wenzelm parents: diff changeset	177	theorem disjI1 [intro]: "A \<Longrightarrow> A \<or> B"
9c156045c8f2 added Higher_Order_Logic.thy; wenzelm parents: diff changeset	178	proof (unfold disj_def)
9c156045c8f2 added Higher_Order_Logic.thy; wenzelm parents: diff changeset	179	assume A
9c156045c8f2 added Higher_Order_Logic.thy; wenzelm parents: diff changeset	180	show "\<forall>C. (A \<longrightarrow> C) \<longrightarrow> (B \<longrightarrow> C) \<longrightarrow> C"
9c156045c8f2 added Higher_Order_Logic.thy; wenzelm parents: diff changeset	181	proof
9c156045c8f2 added Higher_Order_Logic.thy; wenzelm parents: diff changeset	182	fix C show "(A \<longrightarrow> C) \<longrightarrow> (B \<longrightarrow> C) \<longrightarrow> C"
9c156045c8f2 added Higher_Order_Logic.thy; wenzelm parents: diff changeset	183	proof
9c156045c8f2 added Higher_Order_Logic.thy; wenzelm parents: diff changeset	184	assume "A \<longrightarrow> C"
23373 ead82c82da9e tuned proofs: avoid implicit prems; wenzelm parents: 21404 diff changeset	185	also note `A`
12360 9c156045c8f2 added Higher_Order_Logic.thy; wenzelm parents: diff changeset	186	finally have C .
23373 ead82c82da9e tuned proofs: avoid implicit prems; wenzelm parents: 21404 diff changeset	187	then show "(B \<longrightarrow> C) \<longrightarrow> C" ..
12360 9c156045c8f2 added Higher_Order_Logic.thy; wenzelm parents: diff changeset	188	qed
9c156045c8f2 added Higher_Order_Logic.thy; wenzelm parents: diff changeset	189	qed
9c156045c8f2 added Higher_Order_Logic.thy; wenzelm parents: diff changeset	190	qed
9c156045c8f2 added Higher_Order_Logic.thy; wenzelm parents: diff changeset	191
9c156045c8f2 added Higher_Order_Logic.thy; wenzelm parents: diff changeset	192	theorem disjI2 [intro]: "B \<Longrightarrow> A \<or> B"
9c156045c8f2 added Higher_Order_Logic.thy; wenzelm parents: diff changeset	193	proof (unfold disj_def)
9c156045c8f2 added Higher_Order_Logic.thy; wenzelm parents: diff changeset	194	assume B
9c156045c8f2 added Higher_Order_Logic.thy; wenzelm parents: diff changeset	195	show "\<forall>C. (A \<longrightarrow> C) \<longrightarrow> (B \<longrightarrow> C) \<longrightarrow> C"
9c156045c8f2 added Higher_Order_Logic.thy; wenzelm parents: diff changeset	196	proof
9c156045c8f2 added Higher_Order_Logic.thy; wenzelm parents: diff changeset	197	fix C show "(A \<longrightarrow> C) \<longrightarrow> (B \<longrightarrow> C) \<longrightarrow> C"
9c156045c8f2 added Higher_Order_Logic.thy; wenzelm parents: diff changeset	198	proof
9c156045c8f2 added Higher_Order_Logic.thy; wenzelm parents: diff changeset	199	show "(B \<longrightarrow> C) \<longrightarrow> C"
9c156045c8f2 added Higher_Order_Logic.thy; wenzelm parents: diff changeset	200	proof
9c156045c8f2 added Higher_Order_Logic.thy; wenzelm parents: diff changeset	201	assume "B \<longrightarrow> C"
23373 ead82c82da9e tuned proofs: avoid implicit prems; wenzelm parents: 21404 diff changeset	202	also note `B`
12360 9c156045c8f2 added Higher_Order_Logic.thy; wenzelm parents: diff changeset	203	finally show C .
9c156045c8f2 added Higher_Order_Logic.thy; wenzelm parents: diff changeset	204	qed
9c156045c8f2 added Higher_Order_Logic.thy; wenzelm parents: diff changeset	205	qed
9c156045c8f2 added Higher_Order_Logic.thy; wenzelm parents: diff changeset	206	qed
9c156045c8f2 added Higher_Order_Logic.thy; wenzelm parents: diff changeset	207	qed
9c156045c8f2 added Higher_Order_Logic.thy; wenzelm parents: diff changeset	208
9c156045c8f2 added Higher_Order_Logic.thy; wenzelm parents: diff changeset	209	theorem disjE [elim]: "A \<or> B \<Longrightarrow> (A \<Longrightarrow> C) \<Longrightarrow> (B \<Longrightarrow> C) \<Longrightarrow> C"
9c156045c8f2 added Higher_Order_Logic.thy; wenzelm parents: diff changeset	210	proof (unfold disj_def)
9c156045c8f2 added Higher_Order_Logic.thy; wenzelm parents: diff changeset	211	assume c: "\<forall>C. (A \<longrightarrow> C) \<longrightarrow> (B \<longrightarrow> C) \<longrightarrow> C"
9c156045c8f2 added Higher_Order_Logic.thy; wenzelm parents: diff changeset	212	assume r1: "A \<Longrightarrow> C" and r2: "B \<Longrightarrow> C"
9c156045c8f2 added Higher_Order_Logic.thy; wenzelm parents: diff changeset	213	from c have "(A \<longrightarrow> C) \<longrightarrow> (B \<longrightarrow> C) \<longrightarrow> C" ..
9c156045c8f2 added Higher_Order_Logic.thy; wenzelm parents: diff changeset	214	also have "A \<longrightarrow> C"
9c156045c8f2 added Higher_Order_Logic.thy; wenzelm parents: diff changeset	215	proof
23373 ead82c82da9e tuned proofs: avoid implicit prems; wenzelm parents: 21404 diff changeset	216	assume A then show C by (rule r1)
12360 9c156045c8f2 added Higher_Order_Logic.thy; wenzelm parents: diff changeset	217	qed
9c156045c8f2 added Higher_Order_Logic.thy; wenzelm parents: diff changeset	218	also have "B \<longrightarrow> C"
9c156045c8f2 added Higher_Order_Logic.thy; wenzelm parents: diff changeset	219	proof
23373 ead82c82da9e tuned proofs: avoid implicit prems; wenzelm parents: 21404 diff changeset	220	assume B then show C by (rule r2)
12360 9c156045c8f2 added Higher_Order_Logic.thy; wenzelm parents: diff changeset	221	qed
9c156045c8f2 added Higher_Order_Logic.thy; wenzelm parents: diff changeset	222	finally show C .
9c156045c8f2 added Higher_Order_Logic.thy; wenzelm parents: diff changeset	223	qed
9c156045c8f2 added Higher_Order_Logic.thy; wenzelm parents: diff changeset	224
9c156045c8f2 added Higher_Order_Logic.thy; wenzelm parents: diff changeset	225	theorem exI [intro]: "P a \<Longrightarrow> \<exists>x. P x"
9c156045c8f2 added Higher_Order_Logic.thy; wenzelm parents: diff changeset	226	proof (unfold Ex_def)
9c156045c8f2 added Higher_Order_Logic.thy; wenzelm parents: diff changeset	227	assume "P a"
9c156045c8f2 added Higher_Order_Logic.thy; wenzelm parents: diff changeset	228	show "\<forall>C. (\<forall>x. P x \<longrightarrow> C) \<longrightarrow> C"
9c156045c8f2 added Higher_Order_Logic.thy; wenzelm parents: diff changeset	229	proof
9c156045c8f2 added Higher_Order_Logic.thy; wenzelm parents: diff changeset	230	fix C show "(\<forall>x. P x \<longrightarrow> C) \<longrightarrow> C"
9c156045c8f2 added Higher_Order_Logic.thy; wenzelm parents: diff changeset	231	proof
9c156045c8f2 added Higher_Order_Logic.thy; wenzelm parents: diff changeset	232	assume "\<forall>x. P x \<longrightarrow> C"
23373 ead82c82da9e tuned proofs: avoid implicit prems; wenzelm parents: 21404 diff changeset	233	then have "P a \<longrightarrow> C" ..
ead82c82da9e tuned proofs: avoid implicit prems; wenzelm parents: 21404 diff changeset	234	also note `P a`
12360 9c156045c8f2 added Higher_Order_Logic.thy; wenzelm parents: diff changeset	235	finally show C .
9c156045c8f2 added Higher_Order_Logic.thy; wenzelm parents: diff changeset	236	qed
9c156045c8f2 added Higher_Order_Logic.thy; wenzelm parents: diff changeset	237	qed
9c156045c8f2 added Higher_Order_Logic.thy; wenzelm parents: diff changeset	238	qed
9c156045c8f2 added Higher_Order_Logic.thy; wenzelm parents: diff changeset	239
9c156045c8f2 added Higher_Order_Logic.thy; wenzelm parents: diff changeset	240	theorem exE [elim]: "\<exists>x. P x \<Longrightarrow> (\<And>x. P x \<Longrightarrow> C) \<Longrightarrow> C"
9c156045c8f2 added Higher_Order_Logic.thy; wenzelm parents: diff changeset	241	proof (unfold Ex_def)
9c156045c8f2 added Higher_Order_Logic.thy; wenzelm parents: diff changeset	242	assume c: "\<forall>C. (\<forall>x. P x \<longrightarrow> C) \<longrightarrow> C"
9c156045c8f2 added Higher_Order_Logic.thy; wenzelm parents: diff changeset	243	assume r: "\<And>x. P x \<Longrightarrow> C"
9c156045c8f2 added Higher_Order_Logic.thy; wenzelm parents: diff changeset	244	from c have "(\<forall>x. P x \<longrightarrow> C) \<longrightarrow> C" ..
9c156045c8f2 added Higher_Order_Logic.thy; wenzelm parents: diff changeset	245	also have "\<forall>x. P x \<longrightarrow> C"
9c156045c8f2 added Higher_Order_Logic.thy; wenzelm parents: diff changeset	246	proof
9c156045c8f2 added Higher_Order_Logic.thy; wenzelm parents: diff changeset	247	fix x show "P x \<longrightarrow> C"
9c156045c8f2 added Higher_Order_Logic.thy; wenzelm parents: diff changeset	248	proof
9c156045c8f2 added Higher_Order_Logic.thy; wenzelm parents: diff changeset	249	assume "P x"
23373 ead82c82da9e tuned proofs: avoid implicit prems; wenzelm parents: 21404 diff changeset	250	then show C by (rule r)
12360 9c156045c8f2 added Higher_Order_Logic.thy; wenzelm parents: diff changeset	251	qed
9c156045c8f2 added Higher_Order_Logic.thy; wenzelm parents: diff changeset	252	qed
9c156045c8f2 added Higher_Order_Logic.thy; wenzelm parents: diff changeset	253	finally show C .
9c156045c8f2 added Higher_Order_Logic.thy; wenzelm parents: diff changeset	254	qed
9c156045c8f2 added Higher_Order_Logic.thy; wenzelm parents: diff changeset	255
9c156045c8f2 added Higher_Order_Logic.thy; wenzelm parents: diff changeset	256
9c156045c8f2 added Higher_Order_Logic.thy; wenzelm parents: diff changeset	257	subsection {* Classical logic *}
9c156045c8f2 added Higher_Order_Logic.thy; wenzelm parents: diff changeset	258
9c156045c8f2 added Higher_Order_Logic.thy; wenzelm parents: diff changeset	259	locale classical =
9c156045c8f2 added Higher_Order_Logic.thy; wenzelm parents: diff changeset	260	assumes classical: "(\<not> A \<Longrightarrow> A) \<Longrightarrow> A"
9c156045c8f2 added Higher_Order_Logic.thy; wenzelm parents: diff changeset	261
9c156045c8f2 added Higher_Order_Logic.thy; wenzelm parents: diff changeset	262	theorem (in classical)
9c156045c8f2 added Higher_Order_Logic.thy; wenzelm parents: diff changeset	263	Peirce's_Law: "((A \<longrightarrow> B) \<longrightarrow> A) \<longrightarrow> A"
9c156045c8f2 added Higher_Order_Logic.thy; wenzelm parents: diff changeset	264	proof
9c156045c8f2 added Higher_Order_Logic.thy; wenzelm parents: diff changeset	265	assume a: "(A \<longrightarrow> B) \<longrightarrow> A"
9c156045c8f2 added Higher_Order_Logic.thy; wenzelm parents: diff changeset	266	show A
9c156045c8f2 added Higher_Order_Logic.thy; wenzelm parents: diff changeset	267	proof (rule classical)
9c156045c8f2 added Higher_Order_Logic.thy; wenzelm parents: diff changeset	268	assume "\<not> A"
9c156045c8f2 added Higher_Order_Logic.thy; wenzelm parents: diff changeset	269	have "A \<longrightarrow> B"
9c156045c8f2 added Higher_Order_Logic.thy; wenzelm parents: diff changeset	270	proof
9c156045c8f2 added Higher_Order_Logic.thy; wenzelm parents: diff changeset	271	assume A
23373 ead82c82da9e tuned proofs: avoid implicit prems; wenzelm parents: 21404 diff changeset	272	with `\<not> A` show B by (rule contradiction)
12360 9c156045c8f2 added Higher_Order_Logic.thy; wenzelm parents: diff changeset	273	qed
9c156045c8f2 added Higher_Order_Logic.thy; wenzelm parents: diff changeset	274	with a show A ..
9c156045c8f2 added Higher_Order_Logic.thy; wenzelm parents: diff changeset	275	qed
9c156045c8f2 added Higher_Order_Logic.thy; wenzelm parents: diff changeset	276	qed
9c156045c8f2 added Higher_Order_Logic.thy; wenzelm parents: diff changeset	277
9c156045c8f2 added Higher_Order_Logic.thy; wenzelm parents: diff changeset	278	theorem (in classical)
9c156045c8f2 added Higher_Order_Logic.thy; wenzelm parents: diff changeset	279	double_negation: "\<not> \<not> A \<Longrightarrow> A"
9c156045c8f2 added Higher_Order_Logic.thy; wenzelm parents: diff changeset	280	proof -
9c156045c8f2 added Higher_Order_Logic.thy; wenzelm parents: diff changeset	281	assume "\<not> \<not> A"
9c156045c8f2 added Higher_Order_Logic.thy; wenzelm parents: diff changeset	282	show A
9c156045c8f2 added Higher_Order_Logic.thy; wenzelm parents: diff changeset	283	proof (rule classical)
9c156045c8f2 added Higher_Order_Logic.thy; wenzelm parents: diff changeset	284	assume "\<not> A"
23373 ead82c82da9e tuned proofs: avoid implicit prems; wenzelm parents: 21404 diff changeset	285	with `\<not> \<not> A` show ?thesis by (rule contradiction)
12360 9c156045c8f2 added Higher_Order_Logic.thy; wenzelm parents: diff changeset	286	qed
9c156045c8f2 added Higher_Order_Logic.thy; wenzelm parents: diff changeset	287	qed
9c156045c8f2 added Higher_Order_Logic.thy; wenzelm parents: diff changeset	288
9c156045c8f2 added Higher_Order_Logic.thy; wenzelm parents: diff changeset	289	theorem (in classical)
9c156045c8f2 added Higher_Order_Logic.thy; wenzelm parents: diff changeset	290	tertium_non_datur: "A \<or> \<not> A"
9c156045c8f2 added Higher_Order_Logic.thy; wenzelm parents: diff changeset	291	proof (rule double_negation)
9c156045c8f2 added Higher_Order_Logic.thy; wenzelm parents: diff changeset	292	show "\<not> \<not> (A \<or> \<not> A)"
9c156045c8f2 added Higher_Order_Logic.thy; wenzelm parents: diff changeset	293	proof
9c156045c8f2 added Higher_Order_Logic.thy; wenzelm parents: diff changeset	294	assume "\<not> (A \<or> \<not> A)"
9c156045c8f2 added Higher_Order_Logic.thy; wenzelm parents: diff changeset	295	have "\<not> A"
9c156045c8f2 added Higher_Order_Logic.thy; wenzelm parents: diff changeset	296	proof
23373 ead82c82da9e tuned proofs: avoid implicit prems; wenzelm parents: 21404 diff changeset	297	assume A then have "A \<or> \<not> A" ..
ead82c82da9e tuned proofs: avoid implicit prems; wenzelm parents: 21404 diff changeset	298	with `\<not> (A \<or> \<not> A)` show \<bottom> by (rule contradiction)
12360 9c156045c8f2 added Higher_Order_Logic.thy; wenzelm parents: diff changeset	299	qed
23373 ead82c82da9e tuned proofs: avoid implicit prems; wenzelm parents: 21404 diff changeset	300	then have "A \<or> \<not> A" ..
ead82c82da9e tuned proofs: avoid implicit prems; wenzelm parents: 21404 diff changeset	301	with `\<not> (A \<or> \<not> A)` show \<bottom> by (rule contradiction)
12360 9c156045c8f2 added Higher_Order_Logic.thy; wenzelm parents: diff changeset	302	qed
9c156045c8f2 added Higher_Order_Logic.thy; wenzelm parents: diff changeset	303	qed
9c156045c8f2 added Higher_Order_Logic.thy; wenzelm parents: diff changeset	304
9c156045c8f2 added Higher_Order_Logic.thy; wenzelm parents: diff changeset	305	theorem (in classical)
9c156045c8f2 added Higher_Order_Logic.thy; wenzelm parents: diff changeset	306	classical_cases: "(A \<Longrightarrow> C) \<Longrightarrow> (\<not> A \<Longrightarrow> C) \<Longrightarrow> C"
9c156045c8f2 added Higher_Order_Logic.thy; wenzelm parents: diff changeset	307	proof -
9c156045c8f2 added Higher_Order_Logic.thy; wenzelm parents: diff changeset	308	assume r1: "A \<Longrightarrow> C" and r2: "\<not> A \<Longrightarrow> C"
9c156045c8f2 added Higher_Order_Logic.thy; wenzelm parents: diff changeset	309	from tertium_non_datur show C
9c156045c8f2 added Higher_Order_Logic.thy; wenzelm parents: diff changeset	310	proof
9c156045c8f2 added Higher_Order_Logic.thy; wenzelm parents: diff changeset	311	assume A
23373 ead82c82da9e tuned proofs: avoid implicit prems; wenzelm parents: 21404 diff changeset	312	then show ?thesis by (rule r1)
12360 9c156045c8f2 added Higher_Order_Logic.thy; wenzelm parents: diff changeset	313	next
9c156045c8f2 added Higher_Order_Logic.thy; wenzelm parents: diff changeset	314	assume "\<not> A"
23373 ead82c82da9e tuned proofs: avoid implicit prems; wenzelm parents: 21404 diff changeset	315	then show ?thesis by (rule r2)
12360 9c156045c8f2 added Higher_Order_Logic.thy; wenzelm parents: diff changeset	316	qed
9c156045c8f2 added Higher_Order_Logic.thy; wenzelm parents: diff changeset	317	qed
9c156045c8f2 added Higher_Order_Logic.thy; wenzelm parents: diff changeset	318
12573 6226b35c04ca added lemma; wenzelm parents: 12394 diff changeset	319	lemma (in classical) "(\<not> A \<Longrightarrow> A) \<Longrightarrow> A" (* FIXME *)
6226b35c04ca added lemma; wenzelm parents: 12394 diff changeset	320	proof -
6226b35c04ca added lemma; wenzelm parents: 12394 diff changeset	321	assume r: "\<not> A \<Longrightarrow> A"
6226b35c04ca added lemma; wenzelm parents: 12394 diff changeset	322	show A
6226b35c04ca added lemma; wenzelm parents: 12394 diff changeset	323	proof (rule classical_cases)
23373 ead82c82da9e tuned proofs: avoid implicit prems; wenzelm parents: 21404 diff changeset	324	assume A then show A .
12573 6226b35c04ca added lemma; wenzelm parents: 12394 diff changeset	325	next
23373 ead82c82da9e tuned proofs: avoid implicit prems; wenzelm parents: 21404 diff changeset	326	assume "\<not> A" then show A by (rule r)
12573 6226b35c04ca added lemma; wenzelm parents: 12394 diff changeset	327	qed
6226b35c04ca added lemma; wenzelm parents: 12394 diff changeset	328	qed
6226b35c04ca added lemma; wenzelm parents: 12394 diff changeset	329
12360 9c156045c8f2 added Higher_Order_Logic.thy; wenzelm parents: diff changeset	330	end

author	boehmes
	Mon, 17 Aug 2009 10:59:12 +0200
changeset 32381	11542bebe4d4
parent 26957	e3f04fdd994d
child 36452	d37c6eed8117
permissions	-rw-r--r--