isabelle: src/HOL/Relation.thy@0c4fd7529467 (annotated)

10358 ef2a753cda2a converse: syntax \<inverse>; wenzelm parents: 10212 diff changeset	1	(* Title: HOL/Relation.thy
1128 64b30e3cc6d4 Trancl is now based on Relation which used to be in Integ. nipkow parents: diff changeset	2	ID: $Id$
1983 f3f7bf0079fa Simplification and tidying of definitions paulson parents: 1695 diff changeset	3	Author: Lawrence C Paulson, Cambridge University Computer Laboratory
f3f7bf0079fa Simplification and tidying of definitions paulson parents: 1695 diff changeset	4	Copyright 1996 University of Cambridge
1128 64b30e3cc6d4 Trancl is now based on Relation which used to be in Integ. nipkow parents: diff changeset	5	*)
64b30e3cc6d4 Trancl is now based on Relation which used to be in Integ. nipkow parents: diff changeset	6
12905 bbbae3f359e6 Converted to new theory format. berghofe parents: 12487 diff changeset	7	header {* Relations *}
bbbae3f359e6 Converted to new theory format. berghofe parents: 12487 diff changeset	8
bbbae3f359e6 Converted to new theory format. berghofe parents: 12487 diff changeset	9	theory Relation = Product_Type:
5978 fa2c2dd74f8c moved diag (diagonal relation) from Univ to Relation paulson parents: 5608 diff changeset	10
12913 5ac498bffb6b fixed document; wenzelm parents: 12905 diff changeset	11	subsection {* Definitions *}
5ac498bffb6b fixed document; wenzelm parents: 12905 diff changeset	12
5978 fa2c2dd74f8c moved diag (diagonal relation) from Univ to Relation paulson parents: 5608 diff changeset	13	constdefs
10358 ef2a753cda2a converse: syntax \<inverse>; wenzelm parents: 10212 diff changeset	14	converse :: "('a * 'b) set => ('b * 'a) set" ("(_^-1)" [1000] 999)
ef2a753cda2a converse: syntax \<inverse>; wenzelm parents: 10212 diff changeset	15	"r^-1 == {(y, x). (x, y) : r}"
ef2a753cda2a converse: syntax \<inverse>; wenzelm parents: 10212 diff changeset	16	syntax (xsymbols)
12905 bbbae3f359e6 Converted to new theory format. berghofe parents: 12487 diff changeset	17	converse :: "('a * 'b) set => ('b * 'a) set" ("(_\<inverse>)" [1000] 999)
7912 0e42be14f136 tidied using modern infix form paulson parents: 7014 diff changeset	18
10358 ef2a753cda2a converse: syntax \<inverse>; wenzelm parents: 10212 diff changeset	19	constdefs
12487 bbd564190c9b comp -> rel_comp nipkow parents: 11136 diff changeset	20	rel_comp :: "[('b * 'c) set, ('a * 'b) set] => ('a * 'c) set" (infixr "O" 60)
12913 5ac498bffb6b fixed document; wenzelm parents: 12905 diff changeset	21	"r O s == {(x,z). EX y. (x, y) : s & (y, z) : r}"
5ac498bffb6b fixed document; wenzelm parents: 12905 diff changeset	22
5ac498bffb6b fixed document; wenzelm parents: 12905 diff changeset	23	fun_rel_comp :: "['a => 'b, ('b * 'c) set] => ('a => 'c) set"
5ac498bffb6b fixed document; wenzelm parents: 12905 diff changeset	24	"fun_rel_comp f R == {g. ALL x. (f x, g x) : R}"
5978 fa2c2dd74f8c moved diag (diagonal relation) from Univ to Relation paulson parents: 5608 diff changeset	25
11136 e34e7f6d9b57 moved inv_image to Relation oheimb parents: 10832 diff changeset	26	Image :: "[('a * 'b) set, 'a set] => 'b set" (infixl "``" 90)
12913 5ac498bffb6b fixed document; wenzelm parents: 12905 diff changeset	27	"r `` s == {y. EX x:s. (x,y):r}"
7912 0e42be14f136 tidied using modern infix form paulson parents: 7014 diff changeset	28
12905 bbbae3f359e6 Converted to new theory format. berghofe parents: 12487 diff changeset	29	Id :: "('a * 'a) set" -- {* the identity relation *}
12913 5ac498bffb6b fixed document; wenzelm parents: 12905 diff changeset	30	"Id == {p. EX x. p = (x,x)}"
7912 0e42be14f136 tidied using modern infix form paulson parents: 7014 diff changeset	31
12905 bbbae3f359e6 Converted to new theory format. berghofe parents: 12487 diff changeset	32	diag :: "'a set => ('a * 'a) set" -- {* diagonal: identity over a set *}
12913 5ac498bffb6b fixed document; wenzelm parents: 12905 diff changeset	33	"diag A == UN x:A. {(x,x)}"
5ac498bffb6b fixed document; wenzelm parents: 12905 diff changeset	34
11136 e34e7f6d9b57 moved inv_image to Relation oheimb parents: 10832 diff changeset	35	Domain :: "('a * 'b) set => 'a set"
12913 5ac498bffb6b fixed document; wenzelm parents: 12905 diff changeset	36	"Domain r == {x. EX y. (x,y):r}"
5978 fa2c2dd74f8c moved diag (diagonal relation) from Univ to Relation paulson parents: 5608 diff changeset	37
11136 e34e7f6d9b57 moved inv_image to Relation oheimb parents: 10832 diff changeset	38	Range :: "('a * 'b) set => 'b set"
12913 5ac498bffb6b fixed document; wenzelm parents: 12905 diff changeset	39	"Range r == Domain(r^-1)"
5978 fa2c2dd74f8c moved diag (diagonal relation) from Univ to Relation paulson parents: 5608 diff changeset	40
11136 e34e7f6d9b57 moved inv_image to Relation oheimb parents: 10832 diff changeset	41	Field :: "('a * 'a) set => 'a set"
12913 5ac498bffb6b fixed document; wenzelm parents: 12905 diff changeset	42	"Field r == Domain r Un Range r"
10786 04ee73606993 Field of a relation, and some Domain/Range rules paulson parents: 10358 diff changeset	43
12905 bbbae3f359e6 Converted to new theory format. berghofe parents: 12487 diff changeset	44	refl :: "['a set, ('a * 'a) set] => bool" -- {* reflexivity over a set *}
12913 5ac498bffb6b fixed document; wenzelm parents: 12905 diff changeset	45	"refl A r == r \<subseteq> A \<times> A & (ALL x: A. (x,x) : r)"
6806 43c081a0858d new preficates refl, sym [from Integ/Equiv], antisym paulson parents: 5978 diff changeset	46
12905 bbbae3f359e6 Converted to new theory format. berghofe parents: 12487 diff changeset	47	sym :: "('a * 'a) set => bool" -- {* symmetry predicate *}
12913 5ac498bffb6b fixed document; wenzelm parents: 12905 diff changeset	48	"sym r == ALL x y. (x,y): r --> (y,x): r"
6806 43c081a0858d new preficates refl, sym [from Integ/Equiv], antisym paulson parents: 5978 diff changeset	49
12905 bbbae3f359e6 Converted to new theory format. berghofe parents: 12487 diff changeset	50	antisym:: "('a * 'a) set => bool" -- {* antisymmetry predicate *}
12913 5ac498bffb6b fixed document; wenzelm parents: 12905 diff changeset	51	"antisym r == ALL x y. (x,y):r --> (y,x):r --> x=y"
6806 43c081a0858d new preficates refl, sym [from Integ/Equiv], antisym paulson parents: 5978 diff changeset	52
12905 bbbae3f359e6 Converted to new theory format. berghofe parents: 12487 diff changeset	53	trans :: "('a * 'a) set => bool" -- {* transitivity predicate *}
12913 5ac498bffb6b fixed document; wenzelm parents: 12905 diff changeset	54	"trans r == (ALL x y z. (x,y):r --> (y,z):r --> (x,z):r)"
5978 fa2c2dd74f8c moved diag (diagonal relation) from Univ to Relation paulson parents: 5608 diff changeset	55
11136 e34e7f6d9b57 moved inv_image to Relation oheimb parents: 10832 diff changeset	56	single_valued :: "('a * 'b) set => bool"
12913 5ac498bffb6b fixed document; wenzelm parents: 12905 diff changeset	57	"single_valued r == ALL x y. (x,y):r --> (ALL z. (x,z):r --> y=z)"
7014 11ee650edcd2 Added some definitions and theorems needed for the berghofe parents: 6806 diff changeset	58
11136 e34e7f6d9b57 moved inv_image to Relation oheimb parents: 10832 diff changeset	59	inv_image :: "('b * 'b) set => ('a => 'b) => ('a * 'a) set"
12913 5ac498bffb6b fixed document; wenzelm parents: 12905 diff changeset	60	"inv_image r f == {(x, y). (f x, f y) : r}"
11136 e34e7f6d9b57 moved inv_image to Relation oheimb parents: 10832 diff changeset	61
6806 43c081a0858d new preficates refl, sym [from Integ/Equiv], antisym paulson parents: 5978 diff changeset	62	syntax
12905 bbbae3f359e6 Converted to new theory format. berghofe parents: 12487 diff changeset	63	reflexive :: "('a * 'a) set => bool" -- {* reflexivity over a type *}
6806 43c081a0858d new preficates refl, sym [from Integ/Equiv], antisym paulson parents: 5978 diff changeset	64	translations
43c081a0858d new preficates refl, sym [from Integ/Equiv], antisym paulson parents: 5978 diff changeset	65	"reflexive" == "refl UNIV"
43c081a0858d new preficates refl, sym [from Integ/Equiv], antisym paulson parents: 5978 diff changeset	66
12905 bbbae3f359e6 Converted to new theory format. berghofe parents: 12487 diff changeset	67
12913 5ac498bffb6b fixed document; wenzelm parents: 12905 diff changeset	68	subsection {* The identity relation *}
12905 bbbae3f359e6 Converted to new theory format. berghofe parents: 12487 diff changeset	69
bbbae3f359e6 Converted to new theory format. berghofe parents: 12487 diff changeset	70	lemma IdI [intro]: "(a, a) : Id"
bbbae3f359e6 Converted to new theory format. berghofe parents: 12487 diff changeset	71	by (simp add: Id_def)
bbbae3f359e6 Converted to new theory format. berghofe parents: 12487 diff changeset	72
bbbae3f359e6 Converted to new theory format. berghofe parents: 12487 diff changeset	73	lemma IdE [elim!]: "p : Id ==> (!!x. p = (x, x) ==> P) ==> P"
bbbae3f359e6 Converted to new theory format. berghofe parents: 12487 diff changeset	74	by (unfold Id_def) (rules elim: CollectE)
bbbae3f359e6 Converted to new theory format. berghofe parents: 12487 diff changeset	75
bbbae3f359e6 Converted to new theory format. berghofe parents: 12487 diff changeset	76	lemma pair_in_Id_conv [iff]: "((a, b) : Id) = (a = b)"
bbbae3f359e6 Converted to new theory format. berghofe parents: 12487 diff changeset	77	by (unfold Id_def) blast
bbbae3f359e6 Converted to new theory format. berghofe parents: 12487 diff changeset	78
bbbae3f359e6 Converted to new theory format. berghofe parents: 12487 diff changeset	79	lemma reflexive_Id: "reflexive Id"
bbbae3f359e6 Converted to new theory format. berghofe parents: 12487 diff changeset	80	by (simp add: refl_def)
bbbae3f359e6 Converted to new theory format. berghofe parents: 12487 diff changeset	81
bbbae3f359e6 Converted to new theory format. berghofe parents: 12487 diff changeset	82	lemma antisym_Id: "antisym Id"
bbbae3f359e6 Converted to new theory format. berghofe parents: 12487 diff changeset	83	-- {* A strange result, since @{text Id} is also symmetric. *}
bbbae3f359e6 Converted to new theory format. berghofe parents: 12487 diff changeset	84	by (simp add: antisym_def)
bbbae3f359e6 Converted to new theory format. berghofe parents: 12487 diff changeset	85
bbbae3f359e6 Converted to new theory format. berghofe parents: 12487 diff changeset	86	lemma trans_Id: "trans Id"
bbbae3f359e6 Converted to new theory format. berghofe parents: 12487 diff changeset	87	by (simp add: trans_def)
bbbae3f359e6 Converted to new theory format. berghofe parents: 12487 diff changeset	88
bbbae3f359e6 Converted to new theory format. berghofe parents: 12487 diff changeset	89
12913 5ac498bffb6b fixed document; wenzelm parents: 12905 diff changeset	90	subsection {* Diagonal: identity over a set *}
12905 bbbae3f359e6 Converted to new theory format. berghofe parents: 12487 diff changeset	91
bbbae3f359e6 Converted to new theory format. berghofe parents: 12487 diff changeset	92	lemma diag_eqI: "a = b ==> a : A ==> (a, b) : diag A"
bbbae3f359e6 Converted to new theory format. berghofe parents: 12487 diff changeset	93	by (simp add: diag_def)
bbbae3f359e6 Converted to new theory format. berghofe parents: 12487 diff changeset	94
bbbae3f359e6 Converted to new theory format. berghofe parents: 12487 diff changeset	95	lemma diagI [intro!]: "a : A ==> (a, a) : diag A"
bbbae3f359e6 Converted to new theory format. berghofe parents: 12487 diff changeset	96	by (rule diag_eqI) (rule refl)
bbbae3f359e6 Converted to new theory format. berghofe parents: 12487 diff changeset	97
bbbae3f359e6 Converted to new theory format. berghofe parents: 12487 diff changeset	98	lemma diagE [elim!]:
bbbae3f359e6 Converted to new theory format. berghofe parents: 12487 diff changeset	99	"c : diag A ==> (!!x. x : A ==> c = (x, x) ==> P) ==> P"
12913 5ac498bffb6b fixed document; wenzelm parents: 12905 diff changeset	100	-- {* The general elimination rule. *}
12905 bbbae3f359e6 Converted to new theory format. berghofe parents: 12487 diff changeset	101	by (unfold diag_def) (rules elim!: UN_E singletonE)
bbbae3f359e6 Converted to new theory format. berghofe parents: 12487 diff changeset	102
bbbae3f359e6 Converted to new theory format. berghofe parents: 12487 diff changeset	103	lemma diag_iff: "((x, y) : diag A) = (x = y & x : A)"
bbbae3f359e6 Converted to new theory format. berghofe parents: 12487 diff changeset	104	by blast
bbbae3f359e6 Converted to new theory format. berghofe parents: 12487 diff changeset	105
12913 5ac498bffb6b fixed document; wenzelm parents: 12905 diff changeset	106	lemma diag_subset_Times: "diag A \<subseteq> A \<times> A"
12905 bbbae3f359e6 Converted to new theory format. berghofe parents: 12487 diff changeset	107	by blast
bbbae3f359e6 Converted to new theory format. berghofe parents: 12487 diff changeset	108
bbbae3f359e6 Converted to new theory format. berghofe parents: 12487 diff changeset	109
bbbae3f359e6 Converted to new theory format. berghofe parents: 12487 diff changeset	110	subsection {* Composition of two relations *}
bbbae3f359e6 Converted to new theory format. berghofe parents: 12487 diff changeset	111
12913 5ac498bffb6b fixed document; wenzelm parents: 12905 diff changeset	112	lemma rel_compI [intro]:
12905 bbbae3f359e6 Converted to new theory format. berghofe parents: 12487 diff changeset	113	"(a, b) : s ==> (b, c) : r ==> (a, c) : r O s"
bbbae3f359e6 Converted to new theory format. berghofe parents: 12487 diff changeset	114	by (unfold rel_comp_def) blast
bbbae3f359e6 Converted to new theory format. berghofe parents: 12487 diff changeset	115
12913 5ac498bffb6b fixed document; wenzelm parents: 12905 diff changeset	116	lemma rel_compE [elim!]: "xz : r O s ==>
12905 bbbae3f359e6 Converted to new theory format. berghofe parents: 12487 diff changeset	117	(!!x y z. xz = (x, z) ==> (x, y) : s ==> (y, z) : r ==> P) ==> P"
bbbae3f359e6 Converted to new theory format. berghofe parents: 12487 diff changeset	118	by (unfold rel_comp_def) (rules elim!: CollectE splitE exE conjE)
bbbae3f359e6 Converted to new theory format. berghofe parents: 12487 diff changeset	119
bbbae3f359e6 Converted to new theory format. berghofe parents: 12487 diff changeset	120	lemma rel_compEpair:
bbbae3f359e6 Converted to new theory format. berghofe parents: 12487 diff changeset	121	"(a, c) : r O s ==> (!!y. (a, y) : s ==> (y, c) : r ==> P) ==> P"
bbbae3f359e6 Converted to new theory format. berghofe parents: 12487 diff changeset	122	by (rules elim: rel_compE Pair_inject ssubst)
bbbae3f359e6 Converted to new theory format. berghofe parents: 12487 diff changeset	123
bbbae3f359e6 Converted to new theory format. berghofe parents: 12487 diff changeset	124	lemma R_O_Id [simp]: "R O Id = R"
bbbae3f359e6 Converted to new theory format. berghofe parents: 12487 diff changeset	125	by fast
bbbae3f359e6 Converted to new theory format. berghofe parents: 12487 diff changeset	126
bbbae3f359e6 Converted to new theory format. berghofe parents: 12487 diff changeset	127	lemma Id_O_R [simp]: "Id O R = R"
bbbae3f359e6 Converted to new theory format. berghofe parents: 12487 diff changeset	128	by fast
bbbae3f359e6 Converted to new theory format. berghofe parents: 12487 diff changeset	129
bbbae3f359e6 Converted to new theory format. berghofe parents: 12487 diff changeset	130	lemma O_assoc: "(R O S) O T = R O (S O T)"
bbbae3f359e6 Converted to new theory format. berghofe parents: 12487 diff changeset	131	by blast
bbbae3f359e6 Converted to new theory format. berghofe parents: 12487 diff changeset	132
12913 5ac498bffb6b fixed document; wenzelm parents: 12905 diff changeset	133	lemma trans_O_subset: "trans r ==> r O r \<subseteq> r"
12905 bbbae3f359e6 Converted to new theory format. berghofe parents: 12487 diff changeset	134	by (unfold trans_def) blast
bbbae3f359e6 Converted to new theory format. berghofe parents: 12487 diff changeset	135
12913 5ac498bffb6b fixed document; wenzelm parents: 12905 diff changeset	136	lemma rel_comp_mono: "r' \<subseteq> r ==> s' \<subseteq> s ==> (r' O s') \<subseteq> (r O s)"
12905 bbbae3f359e6 Converted to new theory format. berghofe parents: 12487 diff changeset	137	by blast
bbbae3f359e6 Converted to new theory format. berghofe parents: 12487 diff changeset	138
bbbae3f359e6 Converted to new theory format. berghofe parents: 12487 diff changeset	139	lemma rel_comp_subset_Sigma:
12913 5ac498bffb6b fixed document; wenzelm parents: 12905 diff changeset	140	"s \<subseteq> A \<times> B ==> r \<subseteq> B \<times> C ==> (r O s) \<subseteq> A \<times> C"
12905 bbbae3f359e6 Converted to new theory format. berghofe parents: 12487 diff changeset	141	by blast
bbbae3f359e6 Converted to new theory format. berghofe parents: 12487 diff changeset	142
12913 5ac498bffb6b fixed document; wenzelm parents: 12905 diff changeset	143
5ac498bffb6b fixed document; wenzelm parents: 12905 diff changeset	144	subsection {* Composition of function and relation *}
5ac498bffb6b fixed document; wenzelm parents: 12905 diff changeset	145
5ac498bffb6b fixed document; wenzelm parents: 12905 diff changeset	146	lemma fun_rel_comp_mono: "A \<subseteq> B ==> fun_rel_comp f A \<subseteq> fun_rel_comp f B"
5ac498bffb6b fixed document; wenzelm parents: 12905 diff changeset	147	by (unfold fun_rel_comp_def) fast
12905 bbbae3f359e6 Converted to new theory format. berghofe parents: 12487 diff changeset	148
12913 5ac498bffb6b fixed document; wenzelm parents: 12905 diff changeset	149	lemma fun_rel_comp_unique:
5ac498bffb6b fixed document; wenzelm parents: 12905 diff changeset	150	"ALL x. EX! y. (f x, y) : R ==> EX! g. g : fun_rel_comp f R"
5ac498bffb6b fixed document; wenzelm parents: 12905 diff changeset	151	apply (unfold fun_rel_comp_def)
5ac498bffb6b fixed document; wenzelm parents: 12905 diff changeset	152	apply (rule_tac a = "%x. THE y. (f x, y) : R" in ex1I)
5ac498bffb6b fixed document; wenzelm parents: 12905 diff changeset	153	apply (fast dest!: theI')
5ac498bffb6b fixed document; wenzelm parents: 12905 diff changeset	154	apply (fast intro: ext the1_equality [symmetric])
5ac498bffb6b fixed document; wenzelm parents: 12905 diff changeset	155	done
5ac498bffb6b fixed document; wenzelm parents: 12905 diff changeset	156
5ac498bffb6b fixed document; wenzelm parents: 12905 diff changeset	157
5ac498bffb6b fixed document; wenzelm parents: 12905 diff changeset	158	subsection {* Reflexivity *}
5ac498bffb6b fixed document; wenzelm parents: 12905 diff changeset	159
5ac498bffb6b fixed document; wenzelm parents: 12905 diff changeset	160	lemma reflI: "r \<subseteq> A \<times> A ==> (!!x. x : A ==> (x, x) : r) ==> refl A r"
12905 bbbae3f359e6 Converted to new theory format. berghofe parents: 12487 diff changeset	161	by (unfold refl_def) (rules intro!: ballI)
bbbae3f359e6 Converted to new theory format. berghofe parents: 12487 diff changeset	162
bbbae3f359e6 Converted to new theory format. berghofe parents: 12487 diff changeset	163	lemma reflD: "refl A r ==> a : A ==> (a, a) : r"
bbbae3f359e6 Converted to new theory format. berghofe parents: 12487 diff changeset	164	by (unfold refl_def) blast
bbbae3f359e6 Converted to new theory format. berghofe parents: 12487 diff changeset	165
12913 5ac498bffb6b fixed document; wenzelm parents: 12905 diff changeset	166
5ac498bffb6b fixed document; wenzelm parents: 12905 diff changeset	167	subsection {* Antisymmetry *}
12905 bbbae3f359e6 Converted to new theory format. berghofe parents: 12487 diff changeset	168
bbbae3f359e6 Converted to new theory format. berghofe parents: 12487 diff changeset	169	lemma antisymI:
bbbae3f359e6 Converted to new theory format. berghofe parents: 12487 diff changeset	170	"(!!x y. (x, y) : r ==> (y, x) : r ==> x=y) ==> antisym r"
bbbae3f359e6 Converted to new theory format. berghofe parents: 12487 diff changeset	171	by (unfold antisym_def) rules
bbbae3f359e6 Converted to new theory format. berghofe parents: 12487 diff changeset	172
bbbae3f359e6 Converted to new theory format. berghofe parents: 12487 diff changeset	173	lemma antisymD: "antisym r ==> (a, b) : r ==> (b, a) : r ==> a = b"
bbbae3f359e6 Converted to new theory format. berghofe parents: 12487 diff changeset	174	by (unfold antisym_def) rules
bbbae3f359e6 Converted to new theory format. berghofe parents: 12487 diff changeset	175
12913 5ac498bffb6b fixed document; wenzelm parents: 12905 diff changeset	176
5ac498bffb6b fixed document; wenzelm parents: 12905 diff changeset	177	subsection {* Transitivity *}
12905 bbbae3f359e6 Converted to new theory format. berghofe parents: 12487 diff changeset	178
bbbae3f359e6 Converted to new theory format. berghofe parents: 12487 diff changeset	179	lemma transI:
bbbae3f359e6 Converted to new theory format. berghofe parents: 12487 diff changeset	180	"(!!x y z. (x, y) : r ==> (y, z) : r ==> (x, z) : r) ==> trans r"
bbbae3f359e6 Converted to new theory format. berghofe parents: 12487 diff changeset	181	by (unfold trans_def) rules
bbbae3f359e6 Converted to new theory format. berghofe parents: 12487 diff changeset	182
bbbae3f359e6 Converted to new theory format. berghofe parents: 12487 diff changeset	183	lemma transD: "trans r ==> (a, b) : r ==> (b, c) : r ==> (a, c) : r"
bbbae3f359e6 Converted to new theory format. berghofe parents: 12487 diff changeset	184	by (unfold trans_def) rules
bbbae3f359e6 Converted to new theory format. berghofe parents: 12487 diff changeset	185
bbbae3f359e6 Converted to new theory format. berghofe parents: 12487 diff changeset	186
12913 5ac498bffb6b fixed document; wenzelm parents: 12905 diff changeset	187	subsection {* Converse *}
5ac498bffb6b fixed document; wenzelm parents: 12905 diff changeset	188
5ac498bffb6b fixed document; wenzelm parents: 12905 diff changeset	189	lemma converse_iff [iff]: "((a,b): r^-1) = ((b,a) : r)"
12905 bbbae3f359e6 Converted to new theory format. berghofe parents: 12487 diff changeset	190	by (simp add: converse_def)
bbbae3f359e6 Converted to new theory format. berghofe parents: 12487 diff changeset	191
12913 5ac498bffb6b fixed document; wenzelm parents: 12905 diff changeset	192	lemma converseI: "(a, b) : r ==> (b, a) : r^-1"
12905 bbbae3f359e6 Converted to new theory format. berghofe parents: 12487 diff changeset	193	by (simp add: converse_def)
bbbae3f359e6 Converted to new theory format. berghofe parents: 12487 diff changeset	194
12913 5ac498bffb6b fixed document; wenzelm parents: 12905 diff changeset	195	lemma converseD: "(a,b) : r^-1 ==> (b, a) : r"
12905 bbbae3f359e6 Converted to new theory format. berghofe parents: 12487 diff changeset	196	by (simp add: converse_def)
bbbae3f359e6 Converted to new theory format. berghofe parents: 12487 diff changeset	197
bbbae3f359e6 Converted to new theory format. berghofe parents: 12487 diff changeset	198	lemma converseE [elim!]:
bbbae3f359e6 Converted to new theory format. berghofe parents: 12487 diff changeset	199	"yx : r^-1 ==> (!!x y. yx = (y, x) ==> (x, y) : r ==> P) ==> P"
12913 5ac498bffb6b fixed document; wenzelm parents: 12905 diff changeset	200	-- {* More general than @{text converseD}, as it ``splits'' the member of the relation. *}
12905 bbbae3f359e6 Converted to new theory format. berghofe parents: 12487 diff changeset	201	by (unfold converse_def) (rules elim!: CollectE splitE bexE)
bbbae3f359e6 Converted to new theory format. berghofe parents: 12487 diff changeset	202
bbbae3f359e6 Converted to new theory format. berghofe parents: 12487 diff changeset	203	lemma converse_converse [simp]: "(r^-1)^-1 = r"
bbbae3f359e6 Converted to new theory format. berghofe parents: 12487 diff changeset	204	by (unfold converse_def) blast
bbbae3f359e6 Converted to new theory format. berghofe parents: 12487 diff changeset	205
bbbae3f359e6 Converted to new theory format. berghofe parents: 12487 diff changeset	206	lemma converse_rel_comp: "(r O s)^-1 = s^-1 O r^-1"
bbbae3f359e6 Converted to new theory format. berghofe parents: 12487 diff changeset	207	by blast
bbbae3f359e6 Converted to new theory format. berghofe parents: 12487 diff changeset	208
bbbae3f359e6 Converted to new theory format. berghofe parents: 12487 diff changeset	209	lemma converse_Id [simp]: "Id^-1 = Id"
bbbae3f359e6 Converted to new theory format. berghofe parents: 12487 diff changeset	210	by blast
bbbae3f359e6 Converted to new theory format. berghofe parents: 12487 diff changeset	211
12913 5ac498bffb6b fixed document; wenzelm parents: 12905 diff changeset	212	lemma converse_diag [simp]: "(diag A)^-1 = diag A"
12905 bbbae3f359e6 Converted to new theory format. berghofe parents: 12487 diff changeset	213	by blast
bbbae3f359e6 Converted to new theory format. berghofe parents: 12487 diff changeset	214
bbbae3f359e6 Converted to new theory format. berghofe parents: 12487 diff changeset	215	lemma refl_converse: "refl A r ==> refl A (converse r)"
bbbae3f359e6 Converted to new theory format. berghofe parents: 12487 diff changeset	216	by (unfold refl_def) blast
bbbae3f359e6 Converted to new theory format. berghofe parents: 12487 diff changeset	217
bbbae3f359e6 Converted to new theory format. berghofe parents: 12487 diff changeset	218	lemma antisym_converse: "antisym (converse r) = antisym r"
bbbae3f359e6 Converted to new theory format. berghofe parents: 12487 diff changeset	219	by (unfold antisym_def) blast
bbbae3f359e6 Converted to new theory format. berghofe parents: 12487 diff changeset	220
bbbae3f359e6 Converted to new theory format. berghofe parents: 12487 diff changeset	221	lemma trans_converse: "trans (converse r) = trans r"
bbbae3f359e6 Converted to new theory format. berghofe parents: 12487 diff changeset	222	by (unfold trans_def) blast
bbbae3f359e6 Converted to new theory format. berghofe parents: 12487 diff changeset	223
12913 5ac498bffb6b fixed document; wenzelm parents: 12905 diff changeset	224
12905 bbbae3f359e6 Converted to new theory format. berghofe parents: 12487 diff changeset	225	subsection {* Domain *}
bbbae3f359e6 Converted to new theory format. berghofe parents: 12487 diff changeset	226
bbbae3f359e6 Converted to new theory format. berghofe parents: 12487 diff changeset	227	lemma Domain_iff: "(a : Domain r) = (EX y. (a, y) : r)"
bbbae3f359e6 Converted to new theory format. berghofe parents: 12487 diff changeset	228	by (unfold Domain_def) blast
bbbae3f359e6 Converted to new theory format. berghofe parents: 12487 diff changeset	229
bbbae3f359e6 Converted to new theory format. berghofe parents: 12487 diff changeset	230	lemma DomainI [intro]: "(a, b) : r ==> a : Domain r"
bbbae3f359e6 Converted to new theory format. berghofe parents: 12487 diff changeset	231	by (rules intro!: iffD2 [OF Domain_iff])
bbbae3f359e6 Converted to new theory format. berghofe parents: 12487 diff changeset	232
bbbae3f359e6 Converted to new theory format. berghofe parents: 12487 diff changeset	233	lemma DomainE [elim!]:
bbbae3f359e6 Converted to new theory format. berghofe parents: 12487 diff changeset	234	"a : Domain r ==> (!!y. (a, y) : r ==> P) ==> P"
bbbae3f359e6 Converted to new theory format. berghofe parents: 12487 diff changeset	235	by (rules dest!: iffD1 [OF Domain_iff])
bbbae3f359e6 Converted to new theory format. berghofe parents: 12487 diff changeset	236
bbbae3f359e6 Converted to new theory format. berghofe parents: 12487 diff changeset	237	lemma Domain_empty [simp]: "Domain {} = {}"
bbbae3f359e6 Converted to new theory format. berghofe parents: 12487 diff changeset	238	by blast
bbbae3f359e6 Converted to new theory format. berghofe parents: 12487 diff changeset	239
bbbae3f359e6 Converted to new theory format. berghofe parents: 12487 diff changeset	240	lemma Domain_insert: "Domain (insert (a, b) r) = insert a (Domain r)"
bbbae3f359e6 Converted to new theory format. berghofe parents: 12487 diff changeset	241	by blast
bbbae3f359e6 Converted to new theory format. berghofe parents: 12487 diff changeset	242
bbbae3f359e6 Converted to new theory format. berghofe parents: 12487 diff changeset	243	lemma Domain_Id [simp]: "Domain Id = UNIV"
bbbae3f359e6 Converted to new theory format. berghofe parents: 12487 diff changeset	244	by blast
bbbae3f359e6 Converted to new theory format. berghofe parents: 12487 diff changeset	245
bbbae3f359e6 Converted to new theory format. berghofe parents: 12487 diff changeset	246	lemma Domain_diag [simp]: "Domain (diag A) = A"
bbbae3f359e6 Converted to new theory format. berghofe parents: 12487 diff changeset	247	by blast
bbbae3f359e6 Converted to new theory format. berghofe parents: 12487 diff changeset	248
bbbae3f359e6 Converted to new theory format. berghofe parents: 12487 diff changeset	249	lemma Domain_Un_eq: "Domain(A Un B) = Domain(A) Un Domain(B)"
bbbae3f359e6 Converted to new theory format. berghofe parents: 12487 diff changeset	250	by blast
bbbae3f359e6 Converted to new theory format. berghofe parents: 12487 diff changeset	251
12913 5ac498bffb6b fixed document; wenzelm parents: 12905 diff changeset	252	lemma Domain_Int_subset: "Domain(A Int B) \<subseteq> Domain(A) Int Domain(B)"
12905 bbbae3f359e6 Converted to new theory format. berghofe parents: 12487 diff changeset	253	by blast
bbbae3f359e6 Converted to new theory format. berghofe parents: 12487 diff changeset	254
12913 5ac498bffb6b fixed document; wenzelm parents: 12905 diff changeset	255	lemma Domain_Diff_subset: "Domain(A) - Domain(B) \<subseteq> Domain(A - B)"
12905 bbbae3f359e6 Converted to new theory format. berghofe parents: 12487 diff changeset	256	by blast
bbbae3f359e6 Converted to new theory format. berghofe parents: 12487 diff changeset	257
bbbae3f359e6 Converted to new theory format. berghofe parents: 12487 diff changeset	258	lemma Domain_Union: "Domain (Union S) = (UN A:S. Domain A)"
bbbae3f359e6 Converted to new theory format. berghofe parents: 12487 diff changeset	259	by blast
bbbae3f359e6 Converted to new theory format. berghofe parents: 12487 diff changeset	260
12913 5ac498bffb6b fixed document; wenzelm parents: 12905 diff changeset	261	lemma Domain_mono: "r \<subseteq> s ==> Domain r \<subseteq> Domain s"
12905 bbbae3f359e6 Converted to new theory format. berghofe parents: 12487 diff changeset	262	by blast
bbbae3f359e6 Converted to new theory format. berghofe parents: 12487 diff changeset	263
bbbae3f359e6 Converted to new theory format. berghofe parents: 12487 diff changeset	264
bbbae3f359e6 Converted to new theory format. berghofe parents: 12487 diff changeset	265	subsection {* Range *}
bbbae3f359e6 Converted to new theory format. berghofe parents: 12487 diff changeset	266
bbbae3f359e6 Converted to new theory format. berghofe parents: 12487 diff changeset	267	lemma Range_iff: "(a : Range r) = (EX y. (y, a) : r)"
bbbae3f359e6 Converted to new theory format. berghofe parents: 12487 diff changeset	268	by (simp add: Domain_def Range_def)
bbbae3f359e6 Converted to new theory format. berghofe parents: 12487 diff changeset	269
bbbae3f359e6 Converted to new theory format. berghofe parents: 12487 diff changeset	270	lemma RangeI [intro]: "(a, b) : r ==> b : Range r"
bbbae3f359e6 Converted to new theory format. berghofe parents: 12487 diff changeset	271	by (unfold Range_def) (rules intro!: converseI DomainI)
bbbae3f359e6 Converted to new theory format. berghofe parents: 12487 diff changeset	272
bbbae3f359e6 Converted to new theory format. berghofe parents: 12487 diff changeset	273	lemma RangeE [elim!]: "b : Range r ==> (!!x. (x, b) : r ==> P) ==> P"
bbbae3f359e6 Converted to new theory format. berghofe parents: 12487 diff changeset	274	by (unfold Range_def) (rules elim!: DomainE dest!: converseD)
bbbae3f359e6 Converted to new theory format. berghofe parents: 12487 diff changeset	275
bbbae3f359e6 Converted to new theory format. berghofe parents: 12487 diff changeset	276	lemma Range_empty [simp]: "Range {} = {}"
bbbae3f359e6 Converted to new theory format. berghofe parents: 12487 diff changeset	277	by blast
bbbae3f359e6 Converted to new theory format. berghofe parents: 12487 diff changeset	278
bbbae3f359e6 Converted to new theory format. berghofe parents: 12487 diff changeset	279	lemma Range_insert: "Range (insert (a, b) r) = insert b (Range r)"
bbbae3f359e6 Converted to new theory format. berghofe parents: 12487 diff changeset	280	by blast
bbbae3f359e6 Converted to new theory format. berghofe parents: 12487 diff changeset	281
bbbae3f359e6 Converted to new theory format. berghofe parents: 12487 diff changeset	282	lemma Range_Id [simp]: "Range Id = UNIV"
bbbae3f359e6 Converted to new theory format. berghofe parents: 12487 diff changeset	283	by blast
bbbae3f359e6 Converted to new theory format. berghofe parents: 12487 diff changeset	284
bbbae3f359e6 Converted to new theory format. berghofe parents: 12487 diff changeset	285	lemma Range_diag [simp]: "Range (diag A) = A"
bbbae3f359e6 Converted to new theory format. berghofe parents: 12487 diff changeset	286	by auto
bbbae3f359e6 Converted to new theory format. berghofe parents: 12487 diff changeset	287
bbbae3f359e6 Converted to new theory format. berghofe parents: 12487 diff changeset	288	lemma Range_Un_eq: "Range(A Un B) = Range(A) Un Range(B)"
bbbae3f359e6 Converted to new theory format. berghofe parents: 12487 diff changeset	289	by blast
bbbae3f359e6 Converted to new theory format. berghofe parents: 12487 diff changeset	290
12913 5ac498bffb6b fixed document; wenzelm parents: 12905 diff changeset	291	lemma Range_Int_subset: "Range(A Int B) \<subseteq> Range(A) Int Range(B)"
12905 bbbae3f359e6 Converted to new theory format. berghofe parents: 12487 diff changeset	292	by blast
bbbae3f359e6 Converted to new theory format. berghofe parents: 12487 diff changeset	293
12913 5ac498bffb6b fixed document; wenzelm parents: 12905 diff changeset	294	lemma Range_Diff_subset: "Range(A) - Range(B) \<subseteq> Range(A - B)"
12905 bbbae3f359e6 Converted to new theory format. berghofe parents: 12487 diff changeset	295	by blast
bbbae3f359e6 Converted to new theory format. berghofe parents: 12487 diff changeset	296
bbbae3f359e6 Converted to new theory format. berghofe parents: 12487 diff changeset	297	lemma Range_Union: "Range (Union S) = (UN A:S. Range A)"
bbbae3f359e6 Converted to new theory format. berghofe parents: 12487 diff changeset	298	by blast
bbbae3f359e6 Converted to new theory format. berghofe parents: 12487 diff changeset	299
bbbae3f359e6 Converted to new theory format. berghofe parents: 12487 diff changeset	300
bbbae3f359e6 Converted to new theory format. berghofe parents: 12487 diff changeset	301	subsection {* Image of a set under a relation *}
bbbae3f359e6 Converted to new theory format. berghofe parents: 12487 diff changeset	302
bbbae3f359e6 Converted to new theory format. berghofe parents: 12487 diff changeset	303	ML {* overload_1st_set "Relation.Image" *}
bbbae3f359e6 Converted to new theory format. berghofe parents: 12487 diff changeset	304
12913 5ac498bffb6b fixed document; wenzelm parents: 12905 diff changeset	305	lemma Image_iff: "(b : r``A) = (EX x:A. (x, b) : r)"
12905 bbbae3f359e6 Converted to new theory format. berghofe parents: 12487 diff changeset	306	by (simp add: Image_def)
bbbae3f359e6 Converted to new theory format. berghofe parents: 12487 diff changeset	307
12913 5ac498bffb6b fixed document; wenzelm parents: 12905 diff changeset	308	lemma Image_singleton: "r``{a} = {b. (a, b) : r}"
12905 bbbae3f359e6 Converted to new theory format. berghofe parents: 12487 diff changeset	309	by (simp add: Image_def)
bbbae3f359e6 Converted to new theory format. berghofe parents: 12487 diff changeset	310
12913 5ac498bffb6b fixed document; wenzelm parents: 12905 diff changeset	311	lemma Image_singleton_iff [iff]: "(b : r``{a}) = ((a, b) : r)"
12905 bbbae3f359e6 Converted to new theory format. berghofe parents: 12487 diff changeset	312	by (rule Image_iff [THEN trans]) simp
bbbae3f359e6 Converted to new theory format. berghofe parents: 12487 diff changeset	313
12913 5ac498bffb6b fixed document; wenzelm parents: 12905 diff changeset	314	lemma ImageI [intro]: "(a, b) : r ==> a : A ==> b : r``A"
12905 bbbae3f359e6 Converted to new theory format. berghofe parents: 12487 diff changeset	315	by (unfold Image_def) blast
bbbae3f359e6 Converted to new theory format. berghofe parents: 12487 diff changeset	316
bbbae3f359e6 Converted to new theory format. berghofe parents: 12487 diff changeset	317	lemma ImageE [elim!]:
12913 5ac498bffb6b fixed document; wenzelm parents: 12905 diff changeset	318	"b : r `` A ==> (!!x. (x, b) : r ==> x : A ==> P) ==> P"
12905 bbbae3f359e6 Converted to new theory format. berghofe parents: 12487 diff changeset	319	by (unfold Image_def) (rules elim!: CollectE bexE)
bbbae3f359e6 Converted to new theory format. berghofe parents: 12487 diff changeset	320
bbbae3f359e6 Converted to new theory format. berghofe parents: 12487 diff changeset	321	lemma rev_ImageI: "a : A ==> (a, b) : r ==> b : r `` A"
bbbae3f359e6 Converted to new theory format. berghofe parents: 12487 diff changeset	322	-- {* This version's more effective when we already have the required @{text a} *}
bbbae3f359e6 Converted to new theory format. berghofe parents: 12487 diff changeset	323	by blast
bbbae3f359e6 Converted to new theory format. berghofe parents: 12487 diff changeset	324
bbbae3f359e6 Converted to new theory format. berghofe parents: 12487 diff changeset	325	lemma Image_empty [simp]: "R``{} = {}"
bbbae3f359e6 Converted to new theory format. berghofe parents: 12487 diff changeset	326	by blast
bbbae3f359e6 Converted to new theory format. berghofe parents: 12487 diff changeset	327
bbbae3f359e6 Converted to new theory format. berghofe parents: 12487 diff changeset	328	lemma Image_Id [simp]: "Id `` A = A"
bbbae3f359e6 Converted to new theory format. berghofe parents: 12487 diff changeset	329	by blast
bbbae3f359e6 Converted to new theory format. berghofe parents: 12487 diff changeset	330
bbbae3f359e6 Converted to new theory format. berghofe parents: 12487 diff changeset	331	lemma Image_diag [simp]: "diag A `` B = A Int B"
bbbae3f359e6 Converted to new theory format. berghofe parents: 12487 diff changeset	332	by blast
bbbae3f359e6 Converted to new theory format. berghofe parents: 12487 diff changeset	333
12913 5ac498bffb6b fixed document; wenzelm parents: 12905 diff changeset	334	lemma Image_Int_subset: "R `` (A Int B) \<subseteq> R `` A Int R `` B"
12905 bbbae3f359e6 Converted to new theory format. berghofe parents: 12487 diff changeset	335	by blast
bbbae3f359e6 Converted to new theory format. berghofe parents: 12487 diff changeset	336
bbbae3f359e6 Converted to new theory format. berghofe parents: 12487 diff changeset	337	lemma Image_Un: "R `` (A Un B) = R `` A Un R `` B"
bbbae3f359e6 Converted to new theory format. berghofe parents: 12487 diff changeset	338	by blast
bbbae3f359e6 Converted to new theory format. berghofe parents: 12487 diff changeset	339
12913 5ac498bffb6b fixed document; wenzelm parents: 12905 diff changeset	340	lemma Image_subset: "r \<subseteq> A \<times> B ==> r``C \<subseteq> B"
12905 bbbae3f359e6 Converted to new theory format. berghofe parents: 12487 diff changeset	341	by (rules intro!: subsetI elim!: ImageE dest!: subsetD SigmaD2)
bbbae3f359e6 Converted to new theory format. berghofe parents: 12487 diff changeset	342
bbbae3f359e6 Converted to new theory format. berghofe parents: 12487 diff changeset	343	lemma Image_eq_UN: "r``B = (UN y: B. r``{y})"
bbbae3f359e6 Converted to new theory format. berghofe parents: 12487 diff changeset	344	-- {* NOT suitable for rewriting *}
bbbae3f359e6 Converted to new theory format. berghofe parents: 12487 diff changeset	345	by blast
bbbae3f359e6 Converted to new theory format. berghofe parents: 12487 diff changeset	346
12913 5ac498bffb6b fixed document; wenzelm parents: 12905 diff changeset	347	lemma Image_mono: "r' \<subseteq> r ==> A' \<subseteq> A ==> (r' `` A') \<subseteq> (r `` A)"
12905 bbbae3f359e6 Converted to new theory format. berghofe parents: 12487 diff changeset	348	by blast
bbbae3f359e6 Converted to new theory format. berghofe parents: 12487 diff changeset	349
bbbae3f359e6 Converted to new theory format. berghofe parents: 12487 diff changeset	350	lemma Image_UN: "(r `` (UNION A B)) = (UN x:A.(r `` (B x)))"
bbbae3f359e6 Converted to new theory format. berghofe parents: 12487 diff changeset	351	by blast
bbbae3f359e6 Converted to new theory format. berghofe parents: 12487 diff changeset	352
12913 5ac498bffb6b fixed document; wenzelm parents: 12905 diff changeset	353	lemma Image_INT_subset: "(r `` (INTER A B)) \<subseteq> (INT x:A.(r `` (B x)))"
12905 bbbae3f359e6 Converted to new theory format. berghofe parents: 12487 diff changeset	354	-- {* Converse inclusion fails *}
bbbae3f359e6 Converted to new theory format. berghofe parents: 12487 diff changeset	355	by blast
bbbae3f359e6 Converted to new theory format. berghofe parents: 12487 diff changeset	356
12913 5ac498bffb6b fixed document; wenzelm parents: 12905 diff changeset	357	lemma Image_subset_eq: "(r``A \<subseteq> B) = (A \<subseteq> - ((r^-1) `` (-B)))"
12905 bbbae3f359e6 Converted to new theory format. berghofe parents: 12487 diff changeset	358	by blast
bbbae3f359e6 Converted to new theory format. berghofe parents: 12487 diff changeset	359
bbbae3f359e6 Converted to new theory format. berghofe parents: 12487 diff changeset	360
12913 5ac498bffb6b fixed document; wenzelm parents: 12905 diff changeset	361	subsection {* Single valued relations *}
5ac498bffb6b fixed document; wenzelm parents: 12905 diff changeset	362
5ac498bffb6b fixed document; wenzelm parents: 12905 diff changeset	363	lemma single_valuedI:
12905 bbbae3f359e6 Converted to new theory format. berghofe parents: 12487 diff changeset	364	"ALL x y. (x,y):r --> (ALL z. (x,z):r --> y=z) ==> single_valued r"
bbbae3f359e6 Converted to new theory format. berghofe parents: 12487 diff changeset	365	by (unfold single_valued_def)
bbbae3f359e6 Converted to new theory format. berghofe parents: 12487 diff changeset	366
bbbae3f359e6 Converted to new theory format. berghofe parents: 12487 diff changeset	367	lemma single_valuedD:
bbbae3f359e6 Converted to new theory format. berghofe parents: 12487 diff changeset	368	"single_valued r ==> (x, y) : r ==> (x, z) : r ==> y = z"
bbbae3f359e6 Converted to new theory format. berghofe parents: 12487 diff changeset	369	by (simp add: single_valued_def)
bbbae3f359e6 Converted to new theory format. berghofe parents: 12487 diff changeset	370
bbbae3f359e6 Converted to new theory format. berghofe parents: 12487 diff changeset	371
bbbae3f359e6 Converted to new theory format. berghofe parents: 12487 diff changeset	372	subsection {* Graphs given by @{text Collect} *}
bbbae3f359e6 Converted to new theory format. berghofe parents: 12487 diff changeset	373
bbbae3f359e6 Converted to new theory format. berghofe parents: 12487 diff changeset	374	lemma Domain_Collect_split [simp]: "Domain{(x,y). P x y} = {x. EX y. P x y}"
bbbae3f359e6 Converted to new theory format. berghofe parents: 12487 diff changeset	375	by auto
bbbae3f359e6 Converted to new theory format. berghofe parents: 12487 diff changeset	376
bbbae3f359e6 Converted to new theory format. berghofe parents: 12487 diff changeset	377	lemma Range_Collect_split [simp]: "Range{(x,y). P x y} = {y. EX x. P x y}"
bbbae3f359e6 Converted to new theory format. berghofe parents: 12487 diff changeset	378	by auto
bbbae3f359e6 Converted to new theory format. berghofe parents: 12487 diff changeset	379
bbbae3f359e6 Converted to new theory format. berghofe parents: 12487 diff changeset	380	lemma Image_Collect_split [simp]: "{(x,y). P x y} `` A = {y. EX x:A. P x y}"
bbbae3f359e6 Converted to new theory format. berghofe parents: 12487 diff changeset	381	by auto
bbbae3f359e6 Converted to new theory format. berghofe parents: 12487 diff changeset	382
bbbae3f359e6 Converted to new theory format. berghofe parents: 12487 diff changeset	383
12913 5ac498bffb6b fixed document; wenzelm parents: 12905 diff changeset	384	subsection {* Inverse image *}
12905 bbbae3f359e6 Converted to new theory format. berghofe parents: 12487 diff changeset	385
12913 5ac498bffb6b fixed document; wenzelm parents: 12905 diff changeset	386	lemma trans_inv_image: "trans r ==> trans (inv_image r f)"
12905 bbbae3f359e6 Converted to new theory format. berghofe parents: 12487 diff changeset	387	apply (unfold trans_def inv_image_def)
bbbae3f359e6 Converted to new theory format. berghofe parents: 12487 diff changeset	388	apply (simp (no_asm))
bbbae3f359e6 Converted to new theory format. berghofe parents: 12487 diff changeset	389	apply blast
bbbae3f359e6 Converted to new theory format. berghofe parents: 12487 diff changeset	390	done
bbbae3f359e6 Converted to new theory format. berghofe parents: 12487 diff changeset	391
1128 64b30e3cc6d4 Trancl is now based on Relation which used to be in Integ. nipkow parents: diff changeset	392	end

author	wenzelm
	Mon, 25 Feb 2002 20:48:14 +0100
changeset 12937	0c4fd7529467
parent 12913	5ac498bffb6b
child 13343	3b2b18c58d80
permissions	-rw-r--r--