isabelle: src/HOL/ex/set.thy@379ce56e5dc2 (annotated)

13058 ad6106d7b4bb converted theory "set" to Isar and added some SET-VAR examples paulson parents: 9100 diff changeset	1	(* Title: HOL/ex/set.thy
ad6106d7b4bb converted theory "set" to Isar and added some SET-VAR examples paulson parents: 9100 diff changeset	2	ID: $Id$
ad6106d7b4bb converted theory "set" to Isar and added some SET-VAR examples paulson parents: 9100 diff changeset	3	Author: Tobias Nipkow and Lawrence C Paulson
ad6106d7b4bb converted theory "set" to Isar and added some SET-VAR examples paulson parents: 9100 diff changeset	4	Copyright 1991 University of Cambridge
13107 8743cc847224 tuned presentation; wenzelm parents: 13058 diff changeset	5	*)
13058 ad6106d7b4bb converted theory "set" to Isar and added some SET-VAR examples paulson parents: 9100 diff changeset	6
19982 e4d50f8f3722 Typo. ballarin parents: 18391 diff changeset	7	header {* Set Theory examples: Cantor's Theorem, Schr�der-Bernstein Theorem, etc. *}
9100 9e081c812338 fixed deps; wenzelm parents: diff changeset	8
16417 9bc16273c2d4 migrated theory headers to new format haftmann parents: 15488 diff changeset	9	theory set imports Main begin
9100 9e081c812338 fixed deps; wenzelm parents: diff changeset	10
13107 8743cc847224 tuned presentation; wenzelm parents: 13058 diff changeset	11	text{*
8743cc847224 tuned presentation; wenzelm parents: 13058 diff changeset	12	These two are cited in Benzmueller and Kohlhase's system description
8743cc847224 tuned presentation; wenzelm parents: 13058 diff changeset	13	of LEO, CADE-15, 1998 (pages 139-143) as theorems LEO could not
8743cc847224 tuned presentation; wenzelm parents: 13058 diff changeset	14	prove.
8743cc847224 tuned presentation; wenzelm parents: 13058 diff changeset	15	*}
13058 ad6106d7b4bb converted theory "set" to Isar and added some SET-VAR examples paulson parents: 9100 diff changeset	16
13107 8743cc847224 tuned presentation; wenzelm parents: 13058 diff changeset	17	lemma "(X = Y \<union> Z) =
8743cc847224 tuned presentation; wenzelm parents: 13058 diff changeset	18	(Y \<subseteq> X \<and> Z \<subseteq> X \<and> (\<forall>V. Y \<subseteq> V \<and> Z \<subseteq> V \<longrightarrow> X \<subseteq> V))"
8743cc847224 tuned presentation; wenzelm parents: 13058 diff changeset	19	by blast
13058 ad6106d7b4bb converted theory "set" to Isar and added some SET-VAR examples paulson parents: 9100 diff changeset	20
13107 8743cc847224 tuned presentation; wenzelm parents: 13058 diff changeset	21	lemma "(X = Y \<inter> Z) =
8743cc847224 tuned presentation; wenzelm parents: 13058 diff changeset	22	(X \<subseteq> Y \<and> X \<subseteq> Z \<and> (\<forall>V. V \<subseteq> Y \<and> V \<subseteq> Z \<longrightarrow> V \<subseteq> X))"
8743cc847224 tuned presentation; wenzelm parents: 13058 diff changeset	23	by blast
13058 ad6106d7b4bb converted theory "set" to Isar and added some SET-VAR examples paulson parents: 9100 diff changeset	24
13107 8743cc847224 tuned presentation; wenzelm parents: 13058 diff changeset	25	text {*
8743cc847224 tuned presentation; wenzelm parents: 13058 diff changeset	26	Trivial example of term synthesis: apparently hard for some provers!
8743cc847224 tuned presentation; wenzelm parents: 13058 diff changeset	27	*}
13058 ad6106d7b4bb converted theory "set" to Isar and added some SET-VAR examples paulson parents: 9100 diff changeset	28
13107 8743cc847224 tuned presentation; wenzelm parents: 13058 diff changeset	29	lemma "a \<noteq> b \<Longrightarrow> a \<in> ?X \<and> b \<notin> ?X"
8743cc847224 tuned presentation; wenzelm parents: 13058 diff changeset	30	by blast
8743cc847224 tuned presentation; wenzelm parents: 13058 diff changeset	31
8743cc847224 tuned presentation; wenzelm parents: 13058 diff changeset	32
8743cc847224 tuned presentation; wenzelm parents: 13058 diff changeset	33	subsection {* Examples for the @{text blast} paper *}
13058 ad6106d7b4bb converted theory "set" to Isar and added some SET-VAR examples paulson parents: 9100 diff changeset	34
13107 8743cc847224 tuned presentation; wenzelm parents: 13058 diff changeset	35	lemma "(\<Union>x \<in> C. f x \<union> g x) = \<Union>(f ` C) \<union> \<Union>(g ` C)"
8743cc847224 tuned presentation; wenzelm parents: 13058 diff changeset	36	-- {* Union-image, called @{text Un_Union_image} in Main HOL *}
8743cc847224 tuned presentation; wenzelm parents: 13058 diff changeset	37	by blast
13058 ad6106d7b4bb converted theory "set" to Isar and added some SET-VAR examples paulson parents: 9100 diff changeset	38
13107 8743cc847224 tuned presentation; wenzelm parents: 13058 diff changeset	39	lemma "(\<Inter>x \<in> C. f x \<inter> g x) = \<Inter>(f ` C) \<inter> \<Inter>(g ` C)"
8743cc847224 tuned presentation; wenzelm parents: 13058 diff changeset	40	-- {* Inter-image, called @{text Int_Inter_image} in Main HOL *}
8743cc847224 tuned presentation; wenzelm parents: 13058 diff changeset	41	by blast
13058 ad6106d7b4bb converted theory "set" to Isar and added some SET-VAR examples paulson parents: 9100 diff changeset	42
16898 543ee8fabe1a revised examples paulson parents: 16417 diff changeset	43	lemma singleton_example_1:
543ee8fabe1a revised examples paulson parents: 16417 diff changeset	44	"\<And>S::'a set set. \<forall>x \<in> S. \<forall>y \<in> S. x \<subseteq> y \<Longrightarrow> \<exists>z. S \<subseteq> {z}"
18391 2e901da7cd3a meson no longer does these examples paulson parents: 16898 diff changeset	45	by blast
2e901da7cd3a meson no longer does these examples paulson parents: 16898 diff changeset	46	(*With removal of negated equality literals, this no longer works:
16898 543ee8fabe1a revised examples paulson parents: 16417 diff changeset	47	by (meson subsetI subset_antisym insertCI)
18391 2e901da7cd3a meson no longer does these examples paulson parents: 16898 diff changeset	48	*)
16898 543ee8fabe1a revised examples paulson parents: 16417 diff changeset	49
543ee8fabe1a revised examples paulson parents: 16417 diff changeset	50	lemma singleton_example_2:
543ee8fabe1a revised examples paulson parents: 16417 diff changeset	51	"\<forall>x \<in> S. \<Union>S \<subseteq> x \<Longrightarrow> \<exists>z. S \<subseteq> {z}"
543ee8fabe1a revised examples paulson parents: 16417 diff changeset	52	-- {Variant of the problem above. }
18391 2e901da7cd3a meson no longer does these examples paulson parents: 16898 diff changeset	53	by blast
2e901da7cd3a meson no longer does these examples paulson parents: 16898 diff changeset	54	(*With removal of negated equality literals, this no longer works:
16898 543ee8fabe1a revised examples paulson parents: 16417 diff changeset	55	by (meson subsetI subset_antisym insertCI UnionI)
18391 2e901da7cd3a meson no longer does these examples paulson parents: 16898 diff changeset	56	*)
16898 543ee8fabe1a revised examples paulson parents: 16417 diff changeset	57
13107 8743cc847224 tuned presentation; wenzelm parents: 13058 diff changeset	58
8743cc847224 tuned presentation; wenzelm parents: 13058 diff changeset	59	lemma "\<exists>!x. f (g x) = x \<Longrightarrow> \<exists>!y. g (f y) = y"
8743cc847224 tuned presentation; wenzelm parents: 13058 diff changeset	60	-- {* A unique fixpoint theorem --- @{text fast}/@{text best}/@{text meson} all fail. *}
8743cc847224 tuned presentation; wenzelm parents: 13058 diff changeset	61	apply (erule ex1E, rule ex1I, erule arg_cong)
8743cc847224 tuned presentation; wenzelm parents: 13058 diff changeset	62	apply (rule subst, assumption, erule allE, rule arg_cong, erule mp)
8743cc847224 tuned presentation; wenzelm parents: 13058 diff changeset	63	apply (erule arg_cong)
8743cc847224 tuned presentation; wenzelm parents: 13058 diff changeset	64	done
13058 ad6106d7b4bb converted theory "set" to Isar and added some SET-VAR examples paulson parents: 9100 diff changeset	65
ad6106d7b4bb converted theory "set" to Isar and added some SET-VAR examples paulson parents: 9100 diff changeset	66
ad6106d7b4bb converted theory "set" to Isar and added some SET-VAR examples paulson parents: 9100 diff changeset	67
13107 8743cc847224 tuned presentation; wenzelm parents: 13058 diff changeset	68	subsection {* Cantor's Theorem: There is no surjection from a set to its powerset *}
13058 ad6106d7b4bb converted theory "set" to Isar and added some SET-VAR examples paulson parents: 9100 diff changeset	69
13107 8743cc847224 tuned presentation; wenzelm parents: 13058 diff changeset	70	lemma cantor1: "\<not> (\<exists>f:: 'a \<Rightarrow> 'a set. \<forall>S. \<exists>x. f x = S)"
8743cc847224 tuned presentation; wenzelm parents: 13058 diff changeset	71	-- {* Requires best-first search because it is undirectional. *}
8743cc847224 tuned presentation; wenzelm parents: 13058 diff changeset	72	by best
13058 ad6106d7b4bb converted theory "set" to Isar and added some SET-VAR examples paulson parents: 9100 diff changeset	73
13107 8743cc847224 tuned presentation; wenzelm parents: 13058 diff changeset	74	lemma "\<forall>f:: 'a \<Rightarrow> 'a set. \<forall>x. f x \<noteq> ?S f"
8743cc847224 tuned presentation; wenzelm parents: 13058 diff changeset	75	-- {This form displays the diagonal term. }
8743cc847224 tuned presentation; wenzelm parents: 13058 diff changeset	76	by best
13058 ad6106d7b4bb converted theory "set" to Isar and added some SET-VAR examples paulson parents: 9100 diff changeset	77
13107 8743cc847224 tuned presentation; wenzelm parents: 13058 diff changeset	78	lemma "?S \<notin> range (f :: 'a \<Rightarrow> 'a set)"
8743cc847224 tuned presentation; wenzelm parents: 13058 diff changeset	79	-- {* This form exploits the set constructs. *}
8743cc847224 tuned presentation; wenzelm parents: 13058 diff changeset	80	by (rule notI, erule rangeE, best)
13058 ad6106d7b4bb converted theory "set" to Isar and added some SET-VAR examples paulson parents: 9100 diff changeset	81
13107 8743cc847224 tuned presentation; wenzelm parents: 13058 diff changeset	82	lemma "?S \<notin> range (f :: 'a \<Rightarrow> 'a set)"
8743cc847224 tuned presentation; wenzelm parents: 13058 diff changeset	83	-- {* Or just this! *}
8743cc847224 tuned presentation; wenzelm parents: 13058 diff changeset	84	by best
8743cc847224 tuned presentation; wenzelm parents: 13058 diff changeset	85
13058 ad6106d7b4bb converted theory "set" to Isar and added some SET-VAR examples paulson parents: 9100 diff changeset	86
13107 8743cc847224 tuned presentation; wenzelm parents: 13058 diff changeset	87	subsection {* The Schr�der-Berstein Theorem *}
13058 ad6106d7b4bb converted theory "set" to Isar and added some SET-VAR examples paulson parents: 9100 diff changeset	88
13107 8743cc847224 tuned presentation; wenzelm parents: 13058 diff changeset	89	lemma disj_lemma: "- (f ` X) = g ` (-X) \<Longrightarrow> f a = g b \<Longrightarrow> a \<in> X \<Longrightarrow> b \<in> X"
8743cc847224 tuned presentation; wenzelm parents: 13058 diff changeset	90	by blast
13058 ad6106d7b4bb converted theory "set" to Isar and added some SET-VAR examples paulson parents: 9100 diff changeset	91
ad6106d7b4bb converted theory "set" to Isar and added some SET-VAR examples paulson parents: 9100 diff changeset	92	lemma surj_if_then_else:
13107 8743cc847224 tuned presentation; wenzelm parents: 13058 diff changeset	93	"-(f ` X) = g ` (-X) \<Longrightarrow> surj (\<lambda>z. if z \<in> X then f z else g z)"
8743cc847224 tuned presentation; wenzelm parents: 13058 diff changeset	94	by (simp add: surj_def) blast
13058 ad6106d7b4bb converted theory "set" to Isar and added some SET-VAR examples paulson parents: 9100 diff changeset	95
13107 8743cc847224 tuned presentation; wenzelm parents: 13058 diff changeset	96	lemma bij_if_then_else:
8743cc847224 tuned presentation; wenzelm parents: 13058 diff changeset	97	"inj_on f X \<Longrightarrow> inj_on g (-X) \<Longrightarrow> -(f ` X) = g ` (-X) \<Longrightarrow>
8743cc847224 tuned presentation; wenzelm parents: 13058 diff changeset	98	h = (\<lambda>z. if z \<in> X then f z else g z) \<Longrightarrow> inj h \<and> surj h"
8743cc847224 tuned presentation; wenzelm parents: 13058 diff changeset	99	apply (unfold inj_on_def)
8743cc847224 tuned presentation; wenzelm parents: 13058 diff changeset	100	apply (simp add: surj_if_then_else)
8743cc847224 tuned presentation; wenzelm parents: 13058 diff changeset	101	apply (blast dest: disj_lemma sym)
8743cc847224 tuned presentation; wenzelm parents: 13058 diff changeset	102	done
13058 ad6106d7b4bb converted theory "set" to Isar and added some SET-VAR examples paulson parents: 9100 diff changeset	103
13107 8743cc847224 tuned presentation; wenzelm parents: 13058 diff changeset	104	lemma decomposition: "\<exists>X. X = - (g ` (- (f ` X)))"
8743cc847224 tuned presentation; wenzelm parents: 13058 diff changeset	105	apply (rule exI)
8743cc847224 tuned presentation; wenzelm parents: 13058 diff changeset	106	apply (rule lfp_unfold)
8743cc847224 tuned presentation; wenzelm parents: 13058 diff changeset	107	apply (rule monoI, blast)
8743cc847224 tuned presentation; wenzelm parents: 13058 diff changeset	108	done
13058 ad6106d7b4bb converted theory "set" to Isar and added some SET-VAR examples paulson parents: 9100 diff changeset	109
13107 8743cc847224 tuned presentation; wenzelm parents: 13058 diff changeset	110	theorem Schroeder_Bernstein:
8743cc847224 tuned presentation; wenzelm parents: 13058 diff changeset	111	"inj (f :: 'a \<Rightarrow> 'b) \<Longrightarrow> inj (g :: 'b \<Rightarrow> 'a)
8743cc847224 tuned presentation; wenzelm parents: 13058 diff changeset	112	\<Longrightarrow> \<exists>h:: 'a \<Rightarrow> 'b. inj h \<and> surj h"
15488 7c638a46dcbb tidying of some subst/simplesubst proofs paulson parents: 15481 diff changeset	113	apply (rule decomposition [where f=f and g=g, THEN exE])
7c638a46dcbb tidying of some subst/simplesubst proofs paulson parents: 15481 diff changeset	114	apply (rule_tac x = "(\<lambda>z. if z \<in> x then f z else inv g z)" in exI)
7c638a46dcbb tidying of some subst/simplesubst proofs paulson parents: 15481 diff changeset	115	--{The term above can be synthesized by a sufficiently detailed proof.}
13107 8743cc847224 tuned presentation; wenzelm parents: 13058 diff changeset	116	apply (rule bij_if_then_else)
8743cc847224 tuned presentation; wenzelm parents: 13058 diff changeset	117	apply (rule_tac [4] refl)
8743cc847224 tuned presentation; wenzelm parents: 13058 diff changeset	118	apply (rule_tac [2] inj_on_inv)
15306 51f3d31e8eea fixed proof nipkow parents: 14353 diff changeset	119	apply (erule subset_inj_on [OF _ subset_UNIV])
15488 7c638a46dcbb tidying of some subst/simplesubst proofs paulson parents: 15481 diff changeset	120	apply blast
7c638a46dcbb tidying of some subst/simplesubst proofs paulson parents: 15481 diff changeset	121	apply (erule ssubst, subst double_complement, erule inv_image_comp [symmetric])
13107 8743cc847224 tuned presentation; wenzelm parents: 13058 diff changeset	122	done
13058 ad6106d7b4bb converted theory "set" to Isar and added some SET-VAR examples paulson parents: 9100 diff changeset	123
ad6106d7b4bb converted theory "set" to Isar and added some SET-VAR examples paulson parents: 9100 diff changeset	124
13107 8743cc847224 tuned presentation; wenzelm parents: 13058 diff changeset	125	text {*
8743cc847224 tuned presentation; wenzelm parents: 13058 diff changeset	126	From W. W. Bledsoe and Guohui Feng, SET-VAR. JAR 11 (3), 1993, pages
8743cc847224 tuned presentation; wenzelm parents: 13058 diff changeset	127	293-314.
8743cc847224 tuned presentation; wenzelm parents: 13058 diff changeset	128
8743cc847224 tuned presentation; wenzelm parents: 13058 diff changeset	129	Isabelle can prove the easy examples without any special mechanisms,
8743cc847224 tuned presentation; wenzelm parents: 13058 diff changeset	130	but it can't prove the hard ones.
13058 ad6106d7b4bb converted theory "set" to Isar and added some SET-VAR examples paulson parents: 9100 diff changeset	131	*}
ad6106d7b4bb converted theory "set" to Isar and added some SET-VAR examples paulson parents: 9100 diff changeset	132
13107 8743cc847224 tuned presentation; wenzelm parents: 13058 diff changeset	133	lemma "\<exists>A. (\<forall>x \<in> A. x \<le> (0::int))"
8743cc847224 tuned presentation; wenzelm parents: 13058 diff changeset	134	-- {* Example 1, page 295. *}
8743cc847224 tuned presentation; wenzelm parents: 13058 diff changeset	135	by force
13058 ad6106d7b4bb converted theory "set" to Isar and added some SET-VAR examples paulson parents: 9100 diff changeset	136
13107 8743cc847224 tuned presentation; wenzelm parents: 13058 diff changeset	137	lemma "D \<in> F \<Longrightarrow> \<exists>G. \<forall>A \<in> G. \<exists>B \<in> F. A \<subseteq> B"
8743cc847224 tuned presentation; wenzelm parents: 13058 diff changeset	138	-- {* Example 2. *}
8743cc847224 tuned presentation; wenzelm parents: 13058 diff changeset	139	by force
13058 ad6106d7b4bb converted theory "set" to Isar and added some SET-VAR examples paulson parents: 9100 diff changeset	140
13107 8743cc847224 tuned presentation; wenzelm parents: 13058 diff changeset	141	lemma "P a \<Longrightarrow> \<exists>A. (\<forall>x \<in> A. P x) \<and> (\<exists>y. y \<in> A)"
8743cc847224 tuned presentation; wenzelm parents: 13058 diff changeset	142	-- {* Example 3. *}
8743cc847224 tuned presentation; wenzelm parents: 13058 diff changeset	143	by force
13058 ad6106d7b4bb converted theory "set" to Isar and added some SET-VAR examples paulson parents: 9100 diff changeset	144
13107 8743cc847224 tuned presentation; wenzelm parents: 13058 diff changeset	145	lemma "a < b \<and> b < (c::int) \<Longrightarrow> \<exists>A. a \<notin> A \<and> b \<in> A \<and> c \<notin> A"
8743cc847224 tuned presentation; wenzelm parents: 13058 diff changeset	146	-- {* Example 4. *}
8743cc847224 tuned presentation; wenzelm parents: 13058 diff changeset	147	by force
13058 ad6106d7b4bb converted theory "set" to Isar and added some SET-VAR examples paulson parents: 9100 diff changeset	148
13107 8743cc847224 tuned presentation; wenzelm parents: 13058 diff changeset	149	lemma "P (f b) \<Longrightarrow> \<exists>s A. (\<forall>x \<in> A. P x) \<and> f s \<in> A"
8743cc847224 tuned presentation; wenzelm parents: 13058 diff changeset	150	-- {Example 5, page 298. }
8743cc847224 tuned presentation; wenzelm parents: 13058 diff changeset	151	by force
13058 ad6106d7b4bb converted theory "set" to Isar and added some SET-VAR examples paulson parents: 9100 diff changeset	152
13107 8743cc847224 tuned presentation; wenzelm parents: 13058 diff changeset	153	lemma "P (f b) \<Longrightarrow> \<exists>s A. (\<forall>x \<in> A. P x) \<and> f s \<in> A"
8743cc847224 tuned presentation; wenzelm parents: 13058 diff changeset	154	-- {* Example 6. *}
8743cc847224 tuned presentation; wenzelm parents: 13058 diff changeset	155	by force
13058 ad6106d7b4bb converted theory "set" to Isar and added some SET-VAR examples paulson parents: 9100 diff changeset	156
13107 8743cc847224 tuned presentation; wenzelm parents: 13058 diff changeset	157	lemma "\<exists>A. a \<notin> A"
8743cc847224 tuned presentation; wenzelm parents: 13058 diff changeset	158	-- {* Example 7. *}
8743cc847224 tuned presentation; wenzelm parents: 13058 diff changeset	159	by force
13058 ad6106d7b4bb converted theory "set" to Isar and added some SET-VAR examples paulson parents: 9100 diff changeset	160
13107 8743cc847224 tuned presentation; wenzelm parents: 13058 diff changeset	161	lemma "(\<forall>u v. u < (0::int) \<longrightarrow> u \<noteq> abs v)
8743cc847224 tuned presentation; wenzelm parents: 13058 diff changeset	162	\<longrightarrow> (\<exists>A::int set. (\<forall>y. abs y \<notin> A) \<and> -2 \<in> A)"
14353 79f9fbef9106 Added lemmas to Ring_and_Field with slightly modified simplification rules paulson parents: 13107 diff changeset	163	-- {* Example 8 now needs a small hint. *}
79f9fbef9106 Added lemmas to Ring_and_Field with slightly modified simplification rules paulson parents: 13107 diff changeset	164	by (simp add: abs_if, force)
79f9fbef9106 Added lemmas to Ring_and_Field with slightly modified simplification rules paulson parents: 13107 diff changeset	165	-- {* not @{text blast}, which can't simplify @{text "-2 < 0"} *}
13058 ad6106d7b4bb converted theory "set" to Isar and added some SET-VAR examples paulson parents: 9100 diff changeset	166
13107 8743cc847224 tuned presentation; wenzelm parents: 13058 diff changeset	167	text {* Example 9 omitted (requires the reals). *}
13058 ad6106d7b4bb converted theory "set" to Isar and added some SET-VAR examples paulson parents: 9100 diff changeset	168
13107 8743cc847224 tuned presentation; wenzelm parents: 13058 diff changeset	169	text {* The paper has no Example 10! *}
13058 ad6106d7b4bb converted theory "set" to Isar and added some SET-VAR examples paulson parents: 9100 diff changeset	170
13107 8743cc847224 tuned presentation; wenzelm parents: 13058 diff changeset	171	lemma "(\<forall>A. 0 \<in> A \<and> (\<forall>x \<in> A. Suc x \<in> A) \<longrightarrow> n \<in> A) \<and>
8743cc847224 tuned presentation; wenzelm parents: 13058 diff changeset	172	P 0 \<and> (\<forall>x. P x \<longrightarrow> P (Suc x)) \<longrightarrow> P n"
8743cc847224 tuned presentation; wenzelm parents: 13058 diff changeset	173	-- {* Example 11: needs a hint. *}
8743cc847224 tuned presentation; wenzelm parents: 13058 diff changeset	174	apply clarify
8743cc847224 tuned presentation; wenzelm parents: 13058 diff changeset	175	apply (drule_tac x = "{x. P x}" in spec)
8743cc847224 tuned presentation; wenzelm parents: 13058 diff changeset	176	apply force
8743cc847224 tuned presentation; wenzelm parents: 13058 diff changeset	177	done
13058 ad6106d7b4bb converted theory "set" to Isar and added some SET-VAR examples paulson parents: 9100 diff changeset	178
13107 8743cc847224 tuned presentation; wenzelm parents: 13058 diff changeset	179	lemma
8743cc847224 tuned presentation; wenzelm parents: 13058 diff changeset	180	"(\<forall>A. (0, 0) \<in> A \<and> (\<forall>x y. (x, y) \<in> A \<longrightarrow> (Suc x, Suc y) \<in> A) \<longrightarrow> (n, m) \<in> A)
8743cc847224 tuned presentation; wenzelm parents: 13058 diff changeset	181	\<and> P n \<longrightarrow> P m"
8743cc847224 tuned presentation; wenzelm parents: 13058 diff changeset	182	-- {* Example 12. *}
8743cc847224 tuned presentation; wenzelm parents: 13058 diff changeset	183	by auto
13058 ad6106d7b4bb converted theory "set" to Isar and added some SET-VAR examples paulson parents: 9100 diff changeset	184
13107 8743cc847224 tuned presentation; wenzelm parents: 13058 diff changeset	185	lemma
8743cc847224 tuned presentation; wenzelm parents: 13058 diff changeset	186	"(\<forall>x. (\<exists>u. x = 2 * u) = (\<not> (\<exists>v. Suc x = 2 * v))) \<longrightarrow>
8743cc847224 tuned presentation; wenzelm parents: 13058 diff changeset	187	(\<exists>A. \<forall>x. (x \<in> A) = (Suc x \<notin> A))"
8743cc847224 tuned presentation; wenzelm parents: 13058 diff changeset	188	-- {* Example EO1: typo in article, and with the obvious fix it seems
8743cc847224 tuned presentation; wenzelm parents: 13058 diff changeset	189	to require arithmetic reasoning. *}
8743cc847224 tuned presentation; wenzelm parents: 13058 diff changeset	190	apply clarify
8743cc847224 tuned presentation; wenzelm parents: 13058 diff changeset	191	apply (rule_tac x = "{x. \<exists>u. x = 2 * u}" in exI, auto)
8743cc847224 tuned presentation; wenzelm parents: 13058 diff changeset	192	apply (case_tac v, auto)
8743cc847224 tuned presentation; wenzelm parents: 13058 diff changeset	193	apply (drule_tac x = "Suc v" and P = "\<lambda>x. ?a x \<noteq> ?b x" in spec, force)
8743cc847224 tuned presentation; wenzelm parents: 13058 diff changeset	194	done
13058 ad6106d7b4bb converted theory "set" to Isar and added some SET-VAR examples paulson parents: 9100 diff changeset	195
9100 9e081c812338 fixed deps; wenzelm parents: diff changeset	196	end

author	wenzelm
	Sun, 01 Oct 2006 18:29:32 +0200
changeset 20813	379ce56e5dc2
parent 19982	e4d50f8f3722
child 24573	5bbdc9b60648
permissions	-rw-r--r--