isabelle: src/HOL/Set.thy@428e4caf2299 (annotated)

923 ff1574a81019 new version of HOL with curried function application clasohm parents: diff changeset	1	(* Title: HOL/Set.thy
12257 e3f7d6fb55d7 theory Inverse_Image converted and moved to Set; wenzelm parents: 12114 diff changeset	2	Author: Tobias Nipkow, Lawrence C Paulson and Markus Wenzel
923 ff1574a81019 new version of HOL with curried function application clasohm parents: diff changeset	3	*)
ff1574a81019 new version of HOL with curried function application clasohm parents: diff changeset	4
11979 0a3dace545c5 converted theory "Set"; wenzelm parents: 11752 diff changeset	5	header {* Set theory for higher-order logic *}
0a3dace545c5 converted theory "Set"; wenzelm parents: 11752 diff changeset	6
15131 c69542757a4d New theory header syntax. nipkow parents: 15120 diff changeset	7	theory Set
30304 d8e4cd2ac2a1 set operations Int, Un, INTER, UNION, Inter, Union, empty, UNIV are now proper qualified constants with authentic syntax haftmann parents: 29901 diff changeset	8	imports Lattices
15131 c69542757a4d New theory header syntax. nipkow parents: 15120 diff changeset	9	begin
11979 0a3dace545c5 converted theory "Set"; wenzelm parents: 11752 diff changeset	10
0a3dace545c5 converted theory "Set"; wenzelm parents: 11752 diff changeset	11	text {* A set in HOL is simply a predicate. *}
923 ff1574a81019 new version of HOL with curried function application clasohm parents: diff changeset	12
30531 ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	13
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	14	subsection {* Basic syntax *}
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	15
3947 eb707467f8c5 adapted to qualified names; wenzelm parents: 3842 diff changeset	16	global
eb707467f8c5 adapted to qualified names; wenzelm parents: 3842 diff changeset	17
26800 dcf1dfc915a7 - Now uses Orderings as parent theory berghofe parents: 26732 diff changeset	18	types 'a set = "'a => bool"
3820 46b255e140dc fixed infix syntax; wenzelm parents: 3370 diff changeset	19
923 ff1574a81019 new version of HOL with curried function application clasohm parents: diff changeset	20	consts
30531 ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	21	Collect :: "('a => bool) => 'a set" -- "comprehension"
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	22	"op :" :: "'a => 'a set => bool" -- "membership"
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	23	insert :: "'a => 'a set => 'a set"
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	24	Ball :: "'a set => ('a => bool) => bool" -- "bounded universal quantifiers"
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	25	Bex :: "'a set => ('a => bool) => bool" -- "bounded existential quantifiers"
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	26	Bex1 :: "'a set => ('a => bool) => bool" -- "bounded unique existential quantifiers"
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	27	Pow :: "'a set => 'a set set" -- "powerset"
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	28	image :: "('a => 'b) => 'a set => 'b set" (infixr "`" 90)
30304 d8e4cd2ac2a1 set operations Int, Un, INTER, UNION, Inter, Union, empty, UNIV are now proper qualified constants with authentic syntax haftmann parents: 29901 diff changeset	29
d8e4cd2ac2a1 set operations Int, Un, INTER, UNION, Inter, Union, empty, UNIV are now proper qualified constants with authentic syntax haftmann parents: 29901 diff changeset	30	local
19656 09be06943252 tuned concrete syntax -- abbreviation/const_syntax; wenzelm parents: 19637 diff changeset	31
21210 c17fd2df4e9e renamed 'const_syntax' to 'notation'; wenzelm parents: 20380 diff changeset	32	notation
21404 eb85850d3eb7 more robust syntax for definition/abbreviation/notation; wenzelm parents: 21384 diff changeset	33	"op :" ("op :") and
19656 09be06943252 tuned concrete syntax -- abbreviation/const_syntax; wenzelm parents: 19637 diff changeset	34	"op :" ("(_/ : _)" [50, 51] 50)
11979 0a3dace545c5 converted theory "Set"; wenzelm parents: 11752 diff changeset	35
19656 09be06943252 tuned concrete syntax -- abbreviation/const_syntax; wenzelm parents: 19637 diff changeset	36	abbreviation
21404 eb85850d3eb7 more robust syntax for definition/abbreviation/notation; wenzelm parents: 21384 diff changeset	37	"not_mem x A == ~ (x : A)" -- "non-membership"
19656 09be06943252 tuned concrete syntax -- abbreviation/const_syntax; wenzelm parents: 19637 diff changeset	38
21210 c17fd2df4e9e renamed 'const_syntax' to 'notation'; wenzelm parents: 20380 diff changeset	39	notation
21404 eb85850d3eb7 more robust syntax for definition/abbreviation/notation; wenzelm parents: 21384 diff changeset	40	not_mem ("op ~:") and
19656 09be06943252 tuned concrete syntax -- abbreviation/const_syntax; wenzelm parents: 19637 diff changeset	41	not_mem ("(_/ ~: _)" [50, 51] 50)
09be06943252 tuned concrete syntax -- abbreviation/const_syntax; wenzelm parents: 19637 diff changeset	42
21210 c17fd2df4e9e renamed 'const_syntax' to 'notation'; wenzelm parents: 20380 diff changeset	43	notation (xsymbols)
21404 eb85850d3eb7 more robust syntax for definition/abbreviation/notation; wenzelm parents: 21384 diff changeset	44	"op :" ("op \<in>") and
eb85850d3eb7 more robust syntax for definition/abbreviation/notation; wenzelm parents: 21384 diff changeset	45	"op :" ("(_/ \<in> _)" [50, 51] 50) and
eb85850d3eb7 more robust syntax for definition/abbreviation/notation; wenzelm parents: 21384 diff changeset	46	not_mem ("op \<notin>") and
30304 d8e4cd2ac2a1 set operations Int, Un, INTER, UNION, Inter, Union, empty, UNIV are now proper qualified constants with authentic syntax haftmann parents: 29901 diff changeset	47	not_mem ("(_/ \<notin> _)" [50, 51] 50)
19656 09be06943252 tuned concrete syntax -- abbreviation/const_syntax; wenzelm parents: 19637 diff changeset	48
21210 c17fd2df4e9e renamed 'const_syntax' to 'notation'; wenzelm parents: 20380 diff changeset	49	notation (HTML output)
21404 eb85850d3eb7 more robust syntax for definition/abbreviation/notation; wenzelm parents: 21384 diff changeset	50	"op :" ("op \<in>") and
eb85850d3eb7 more robust syntax for definition/abbreviation/notation; wenzelm parents: 21384 diff changeset	51	"op :" ("(_/ \<in> _)" [50, 51] 50) and
eb85850d3eb7 more robust syntax for definition/abbreviation/notation; wenzelm parents: 21384 diff changeset	52	not_mem ("op \<notin>") and
19656 09be06943252 tuned concrete syntax -- abbreviation/const_syntax; wenzelm parents: 19637 diff changeset	53	not_mem ("(_/ \<notin> _)" [50, 51] 50)
09be06943252 tuned concrete syntax -- abbreviation/const_syntax; wenzelm parents: 19637 diff changeset	54
30531 ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	55	syntax
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	56	"@Coll" :: "pttrn => bool => 'a set" ("(1{_./ _})")
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	57
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	58	translations
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	59	"{x. P}" == "Collect (%x. P)"
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	60
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	61	definition empty :: "'a set" ("{}") where
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	62	"empty \<equiv> {x. False}"
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	63
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	64	definition UNIV :: "'a set" where
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	65	"UNIV \<equiv> {x. True}"
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	66
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	67	syntax
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	68	"@Finset" :: "args => 'a set" ("{(_)}")
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	69
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	70	translations
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	71	"{x, xs}" == "insert x {xs}"
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	72	"{x}" == "insert x {}"
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	73
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	74	definition Int :: "'a set \<Rightarrow> 'a set \<Rightarrow> 'a set" (infixl "Int" 70) where
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	75	"A Int B \<equiv> {x. x \<in> A \<and> x \<in> B}"
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	76
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	77	definition Un :: "'a set \<Rightarrow> 'a set \<Rightarrow> 'a set" (infixl "Un" 65) where
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	78	"A Un B \<equiv> {x. x \<in> A \<or> x \<in> B}"
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	79
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	80	notation (xsymbols)
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	81	"Int" (infixl "\<inter>" 70) and
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	82	"Un" (infixl "\<union>" 65)
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	83
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	84	notation (HTML output)
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	85	"Int" (infixl "\<inter>" 70) and
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	86	"Un" (infixl "\<union>" 65)
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	87
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	88	syntax
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	89	"_Ball" :: "pttrn => 'a set => bool => bool" ("(3ALL _:_./ _)" [0, 0, 10] 10)
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	90	"_Bex" :: "pttrn => 'a set => bool => bool" ("(3EX _:_./ _)" [0, 0, 10] 10)
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	91	"_Bex1" :: "pttrn => 'a set => bool => bool" ("(3EX! _:_./ _)" [0, 0, 10] 10)
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	92	"_Bleast" :: "id => 'a set => bool => 'a" ("(3LEAST _:_./ _)" [0, 0, 10] 10)
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	93
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	94	syntax (HOL)
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	95	"_Ball" :: "pttrn => 'a set => bool => bool" ("(3! _:_./ _)" [0, 0, 10] 10)
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	96	"_Bex" :: "pttrn => 'a set => bool => bool" ("(3? _:_./ _)" [0, 0, 10] 10)
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	97	"_Bex1" :: "pttrn => 'a set => bool => bool" ("(3?! _:_./ _)" [0, 0, 10] 10)
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	98
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	99	syntax (xsymbols)
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	100	"_Ball" :: "pttrn => 'a set => bool => bool" ("(3\<forall>_\<in>_./ _)" [0, 0, 10] 10)
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	101	"_Bex" :: "pttrn => 'a set => bool => bool" ("(3\<exists>_\<in>_./ _)" [0, 0, 10] 10)
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	102	"_Bex1" :: "pttrn => 'a set => bool => bool" ("(3\<exists>!_\<in>_./ _)" [0, 0, 10] 10)
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	103	"_Bleast" :: "id => 'a set => bool => 'a" ("(3LEAST_\<in>_./ _)" [0, 0, 10] 10)
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	104
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	105	syntax (HTML output)
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	106	"_Ball" :: "pttrn => 'a set => bool => bool" ("(3\<forall>_\<in>_./ _)" [0, 0, 10] 10)
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	107	"_Bex" :: "pttrn => 'a set => bool => bool" ("(3\<exists>_\<in>_./ _)" [0, 0, 10] 10)
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	108	"_Bex1" :: "pttrn => 'a set => bool => bool" ("(3\<exists>!_\<in>_./ _)" [0, 0, 10] 10)
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	109
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	110	translations
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	111	"ALL x:A. P" == "Ball A (%x. P)"
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	112	"EX x:A. P" == "Bex A (%x. P)"
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	113	"EX! x:A. P" == "Bex1 A (%x. P)"
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	114	"LEAST x:A. P" => "LEAST x. x:A & P"
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	115
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	116	definition INTER :: "'a set \<Rightarrow> ('a \<Rightarrow> 'b set) \<Rightarrow> 'b set" where
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	117	"INTER A B \<equiv> {y. \<forall>x\<in>A. y \<in> B x}"
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	118
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	119	definition UNION :: "'a set \<Rightarrow> ('a \<Rightarrow> 'b set) \<Rightarrow> 'b set" where
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	120	"UNION A B \<equiv> {y. \<exists>x\<in>A. y \<in> B x}"
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	121
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	122	definition Inter :: "'a set set \<Rightarrow> 'a set" where
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	123	"Inter S \<equiv> INTER S (\<lambda>x. x)"
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	124
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	125	definition Union :: "'a set set \<Rightarrow> 'a set" where
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	126	"Union S \<equiv> UNION S (\<lambda>x. x)"
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	127
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	128	notation (xsymbols)
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	129	Inter ("\<Inter>_" [90] 90) and
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	130	Union ("\<Union>_" [90] 90)
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	131
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	132
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	133	subsection {* Additional concrete syntax *}
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	134
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	135	syntax
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	136	"@SetCompr" :: "'a => idts => bool => 'a set" ("(1{_ \|/_./ _})")
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	137	"@Collect" :: "idt => 'a set => bool => 'a set" ("(1{_ :/ _./ _})")
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	138	"@INTER1" :: "pttrns => 'b set => 'b set" ("(3INT _./ _)" [0, 10] 10)
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	139	"@UNION1" :: "pttrns => 'b set => 'b set" ("(3UN _./ _)" [0, 10] 10)
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	140	"@INTER" :: "pttrn => 'a set => 'b set => 'b set" ("(3INT _:_./ _)" [0, 10] 10)
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	141	"@UNION" :: "pttrn => 'a set => 'b set => 'b set" ("(3UN _:_./ _)" [0, 10] 10)
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	142
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	143	syntax (xsymbols)
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	144	"@Collect" :: "idt => 'a set => bool => 'a set" ("(1{_ \<in>/ _./ _})")
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	145	"@INTER1" :: "pttrns => 'b set => 'b set" ("(3\<Inter>_./ _)" [0, 10] 10)
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	146	"@UNION1" :: "pttrns => 'b set => 'b set" ("(3\<Union>_./ _)" [0, 10] 10)
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	147	"@INTER" :: "pttrn => 'a set => 'b set => 'b set" ("(3\<Inter>_\<in>_./ _)" [0, 10] 10)
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	148	"@UNION" :: "pttrn => 'a set => 'b set => 'b set" ("(3\<Union>_\<in>_./ _)" [0, 10] 10)
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	149
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	150	syntax (latex output)
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	151	"@INTER1" :: "pttrns => 'b set => 'b set" ("(3\<Inter>(00\<^bsub>_\<^esub>)/ _)" [0, 10] 10)
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	152	"@UNION1" :: "pttrns => 'b set => 'b set" ("(3\<Union>(00\<^bsub>_\<^esub>)/ _)" [0, 10] 10)
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	153	"@INTER" :: "pttrn => 'a set => 'b set => 'b set" ("(3\<Inter>(00\<^bsub>_\<in>_\<^esub>)/ _)" [0, 10] 10)
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	154	"@UNION" :: "pttrn => 'a set => 'b set => 'b set" ("(3\<Union>(00\<^bsub>_\<in>_\<^esub>)/ _)" [0, 10] 10)
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	155
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	156	translations
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	157	"{x:A. P}" => "{x. x:A & P}"
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	158	"INT x y. B" == "INT x. INT y. B"
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	159	"INT x. B" == "CONST INTER CONST UNIV (%x. B)"
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	160	"INT x. B" == "INT x:CONST UNIV. B"
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	161	"INT x:A. B" == "CONST INTER A (%x. B)"
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	162	"UN x y. B" == "UN x. UN y. B"
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	163	"UN x. B" == "CONST UNION CONST UNIV (%x. B)"
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	164	"UN x. B" == "UN x:CONST UNIV. B"
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	165	"UN x:A. B" == "CONST UNION A (%x. B)"
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	166
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	167	text {*
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	168	Note the difference between ordinary xsymbol syntax of indexed
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	169	unions and intersections (e.g.\ @{text"\<Union>a\<^isub>1\<in>A\<^isub>1. B"})
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	170	and their \LaTeX\ rendition: @{term"\<Union>a\<^isub>1\<in>A\<^isub>1. B"}. The
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	171	former does not make the index expression a subscript of the
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	172	union/intersection symbol because this leads to problems with nested
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	173	subscripts in Proof General.
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	174	*}
2261 d926157c0a6a added "op :", "op ~:" syntax; wenzelm parents: 2006 diff changeset	175
21333 eb291029d6cd dropped LOrder dependency haftmann parents: 21316 diff changeset	176	abbreviation
21404 eb85850d3eb7 more robust syntax for definition/abbreviation/notation; wenzelm parents: 21384 diff changeset	177	subset :: "'a set \<Rightarrow> 'a set \<Rightarrow> bool" where
21819 8eb82ffcdd15 fixed syntax for bounded quantification haftmann parents: 21669 diff changeset	178	"subset \<equiv> less"
21404 eb85850d3eb7 more robust syntax for definition/abbreviation/notation; wenzelm parents: 21384 diff changeset	179
eb85850d3eb7 more robust syntax for definition/abbreviation/notation; wenzelm parents: 21384 diff changeset	180	abbreviation
eb85850d3eb7 more robust syntax for definition/abbreviation/notation; wenzelm parents: 21384 diff changeset	181	subset_eq :: "'a set \<Rightarrow> 'a set \<Rightarrow> bool" where
21819 8eb82ffcdd15 fixed syntax for bounded quantification haftmann parents: 21669 diff changeset	182	"subset_eq \<equiv> less_eq"
21333 eb291029d6cd dropped LOrder dependency haftmann parents: 21316 diff changeset	183
eb291029d6cd dropped LOrder dependency haftmann parents: 21316 diff changeset	184	notation (output)
21404 eb85850d3eb7 more robust syntax for definition/abbreviation/notation; wenzelm parents: 21384 diff changeset	185	subset ("op <") and
eb85850d3eb7 more robust syntax for definition/abbreviation/notation; wenzelm parents: 21384 diff changeset	186	subset ("(_/ < _)" [50, 51] 50) and
eb85850d3eb7 more robust syntax for definition/abbreviation/notation; wenzelm parents: 21384 diff changeset	187	subset_eq ("op <=") and
21333 eb291029d6cd dropped LOrder dependency haftmann parents: 21316 diff changeset	188	subset_eq ("(_/ <= _)" [50, 51] 50)
eb291029d6cd dropped LOrder dependency haftmann parents: 21316 diff changeset	189
eb291029d6cd dropped LOrder dependency haftmann parents: 21316 diff changeset	190	notation (xsymbols)
21404 eb85850d3eb7 more robust syntax for definition/abbreviation/notation; wenzelm parents: 21384 diff changeset	191	subset ("op \<subset>") and
eb85850d3eb7 more robust syntax for definition/abbreviation/notation; wenzelm parents: 21384 diff changeset	192	subset ("(_/ \<subset> _)" [50, 51] 50) and
eb85850d3eb7 more robust syntax for definition/abbreviation/notation; wenzelm parents: 21384 diff changeset	193	subset_eq ("op \<subseteq>") and
21333 eb291029d6cd dropped LOrder dependency haftmann parents: 21316 diff changeset	194	subset_eq ("(_/ \<subseteq> _)" [50, 51] 50)
eb291029d6cd dropped LOrder dependency haftmann parents: 21316 diff changeset	195
eb291029d6cd dropped LOrder dependency haftmann parents: 21316 diff changeset	196	notation (HTML output)
21404 eb85850d3eb7 more robust syntax for definition/abbreviation/notation; wenzelm parents: 21384 diff changeset	197	subset ("op \<subset>") and
eb85850d3eb7 more robust syntax for definition/abbreviation/notation; wenzelm parents: 21384 diff changeset	198	subset ("(_/ \<subset> _)" [50, 51] 50) and
eb85850d3eb7 more robust syntax for definition/abbreviation/notation; wenzelm parents: 21384 diff changeset	199	subset_eq ("op \<subseteq>") and
21333 eb291029d6cd dropped LOrder dependency haftmann parents: 21316 diff changeset	200	subset_eq ("(_/ \<subseteq> _)" [50, 51] 50)
eb291029d6cd dropped LOrder dependency haftmann parents: 21316 diff changeset	201
eb291029d6cd dropped LOrder dependency haftmann parents: 21316 diff changeset	202	abbreviation (input)
21819 8eb82ffcdd15 fixed syntax for bounded quantification haftmann parents: 21669 diff changeset	203	supset :: "'a set \<Rightarrow> 'a set \<Rightarrow> bool" where
8eb82ffcdd15 fixed syntax for bounded quantification haftmann parents: 21669 diff changeset	204	"supset \<equiv> greater"
21404 eb85850d3eb7 more robust syntax for definition/abbreviation/notation; wenzelm parents: 21384 diff changeset	205
eb85850d3eb7 more robust syntax for definition/abbreviation/notation; wenzelm parents: 21384 diff changeset	206	abbreviation (input)
21819 8eb82ffcdd15 fixed syntax for bounded quantification haftmann parents: 21669 diff changeset	207	supset_eq :: "'a set \<Rightarrow> 'a set \<Rightarrow> bool" where
8eb82ffcdd15 fixed syntax for bounded quantification haftmann parents: 21669 diff changeset	208	"supset_eq \<equiv> greater_eq"
8eb82ffcdd15 fixed syntax for bounded quantification haftmann parents: 21669 diff changeset	209
8eb82ffcdd15 fixed syntax for bounded quantification haftmann parents: 21669 diff changeset	210	notation (xsymbols)
8eb82ffcdd15 fixed syntax for bounded quantification haftmann parents: 21669 diff changeset	211	supset ("op \<supset>") and
8eb82ffcdd15 fixed syntax for bounded quantification haftmann parents: 21669 diff changeset	212	supset ("(_/ \<supset> _)" [50, 51] 50) and
8eb82ffcdd15 fixed syntax for bounded quantification haftmann parents: 21669 diff changeset	213	supset_eq ("op \<supseteq>") and
8eb82ffcdd15 fixed syntax for bounded quantification haftmann parents: 21669 diff changeset	214	supset_eq ("(_/ \<supseteq> _)" [50, 51] 50)
21333 eb291029d6cd dropped LOrder dependency haftmann parents: 21316 diff changeset	215
30531 ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	216	abbreviation
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	217	range :: "('a => 'b) => 'b set" where -- "of function"
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	218	"range f == f ` UNIV"
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	219
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	220
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	221	subsubsection "Bounded quantifiers"
14804 8de39d3e8eb6 Corrected printer bug for bounded quantifiers Q x<=y. P nipkow parents: 14752 diff changeset	222
19656 09be06943252 tuned concrete syntax -- abbreviation/const_syntax; wenzelm parents: 19637 diff changeset	223	syntax (output)
14804 8de39d3e8eb6 Corrected printer bug for bounded quantifiers Q x<=y. P nipkow parents: 14752 diff changeset	224	"_setlessAll" :: "[idt, 'a, bool] => bool" ("(3ALL _<_./ _)" [0, 0, 10] 10)
8de39d3e8eb6 Corrected printer bug for bounded quantifiers Q x<=y. P nipkow parents: 14752 diff changeset	225	"_setlessEx" :: "[idt, 'a, bool] => bool" ("(3EX _<_./ _)" [0, 0, 10] 10)
8de39d3e8eb6 Corrected printer bug for bounded quantifiers Q x<=y. P nipkow parents: 14752 diff changeset	226	"_setleAll" :: "[idt, 'a, bool] => bool" ("(3ALL _<=_./ _)" [0, 0, 10] 10)
8de39d3e8eb6 Corrected printer bug for bounded quantifiers Q x<=y. P nipkow parents: 14752 diff changeset	227	"_setleEx" :: "[idt, 'a, bool] => bool" ("(3EX _<=_./ _)" [0, 0, 10] 10)
20217 25b068a99d2b linear arithmetic splits certain operators (e.g. min, max, abs) webertj parents: 19870 diff changeset	228	"_setleEx1" :: "[idt, 'a, bool] => bool" ("(3EX! _<=_./ _)" [0, 0, 10] 10)
14804 8de39d3e8eb6 Corrected printer bug for bounded quantifiers Q x<=y. P nipkow parents: 14752 diff changeset	229
8de39d3e8eb6 Corrected printer bug for bounded quantifiers Q x<=y. P nipkow parents: 14752 diff changeset	230	syntax (xsymbols)
8de39d3e8eb6 Corrected printer bug for bounded quantifiers Q x<=y. P nipkow parents: 14752 diff changeset	231	"_setlessAll" :: "[idt, 'a, bool] => bool" ("(3\<forall>_\<subset>_./ _)" [0, 0, 10] 10)
8de39d3e8eb6 Corrected printer bug for bounded quantifiers Q x<=y. P nipkow parents: 14752 diff changeset	232	"_setlessEx" :: "[idt, 'a, bool] => bool" ("(3\<exists>_\<subset>_./ _)" [0, 0, 10] 10)
8de39d3e8eb6 Corrected printer bug for bounded quantifiers Q x<=y. P nipkow parents: 14752 diff changeset	233	"_setleAll" :: "[idt, 'a, bool] => bool" ("(3\<forall>_\<subseteq>_./ _)" [0, 0, 10] 10)
8de39d3e8eb6 Corrected printer bug for bounded quantifiers Q x<=y. P nipkow parents: 14752 diff changeset	234	"_setleEx" :: "[idt, 'a, bool] => bool" ("(3\<exists>_\<subseteq>_./ _)" [0, 0, 10] 10)
20217 25b068a99d2b linear arithmetic splits certain operators (e.g. min, max, abs) webertj parents: 19870 diff changeset	235	"_setleEx1" :: "[idt, 'a, bool] => bool" ("(3\<exists>!_\<subseteq>_./ _)" [0, 0, 10] 10)
14804 8de39d3e8eb6 Corrected printer bug for bounded quantifiers Q x<=y. P nipkow parents: 14752 diff changeset	236
19656 09be06943252 tuned concrete syntax -- abbreviation/const_syntax; wenzelm parents: 19637 diff changeset	237	syntax (HOL output)
14804 8de39d3e8eb6 Corrected printer bug for bounded quantifiers Q x<=y. P nipkow parents: 14752 diff changeset	238	"_setlessAll" :: "[idt, 'a, bool] => bool" ("(3! _<_./ _)" [0, 0, 10] 10)
8de39d3e8eb6 Corrected printer bug for bounded quantifiers Q x<=y. P nipkow parents: 14752 diff changeset	239	"_setlessEx" :: "[idt, 'a, bool] => bool" ("(3? _<_./ _)" [0, 0, 10] 10)
8de39d3e8eb6 Corrected printer bug for bounded quantifiers Q x<=y. P nipkow parents: 14752 diff changeset	240	"_setleAll" :: "[idt, 'a, bool] => bool" ("(3! _<=_./ _)" [0, 0, 10] 10)
8de39d3e8eb6 Corrected printer bug for bounded quantifiers Q x<=y. P nipkow parents: 14752 diff changeset	241	"_setleEx" :: "[idt, 'a, bool] => bool" ("(3? _<=_./ _)" [0, 0, 10] 10)
20217 25b068a99d2b linear arithmetic splits certain operators (e.g. min, max, abs) webertj parents: 19870 diff changeset	242	"_setleEx1" :: "[idt, 'a, bool] => bool" ("(3?! _<=_./ _)" [0, 0, 10] 10)
14804 8de39d3e8eb6 Corrected printer bug for bounded quantifiers Q x<=y. P nipkow parents: 14752 diff changeset	243
8de39d3e8eb6 Corrected printer bug for bounded quantifiers Q x<=y. P nipkow parents: 14752 diff changeset	244	syntax (HTML output)
8de39d3e8eb6 Corrected printer bug for bounded quantifiers Q x<=y. P nipkow parents: 14752 diff changeset	245	"_setlessAll" :: "[idt, 'a, bool] => bool" ("(3\<forall>_\<subset>_./ _)" [0, 0, 10] 10)
8de39d3e8eb6 Corrected printer bug for bounded quantifiers Q x<=y. P nipkow parents: 14752 diff changeset	246	"_setlessEx" :: "[idt, 'a, bool] => bool" ("(3\<exists>_\<subset>_./ _)" [0, 0, 10] 10)
8de39d3e8eb6 Corrected printer bug for bounded quantifiers Q x<=y. P nipkow parents: 14752 diff changeset	247	"_setleAll" :: "[idt, 'a, bool] => bool" ("(3\<forall>_\<subseteq>_./ _)" [0, 0, 10] 10)
8de39d3e8eb6 Corrected printer bug for bounded quantifiers Q x<=y. P nipkow parents: 14752 diff changeset	248	"_setleEx" :: "[idt, 'a, bool] => bool" ("(3\<exists>_\<subseteq>_./ _)" [0, 0, 10] 10)
20217 25b068a99d2b linear arithmetic splits certain operators (e.g. min, max, abs) webertj parents: 19870 diff changeset	249	"_setleEx1" :: "[idt, 'a, bool] => bool" ("(3\<exists>!_\<subseteq>_./ _)" [0, 0, 10] 10)
14804 8de39d3e8eb6 Corrected printer bug for bounded quantifiers Q x<=y. P nipkow parents: 14752 diff changeset	250
8de39d3e8eb6 Corrected printer bug for bounded quantifiers Q x<=y. P nipkow parents: 14752 diff changeset	251	translations
30531 ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	252	"\<forall>A\<subset>B. P" => "ALL A. A \<subset> B --> P"
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	253	"\<exists>A\<subset>B. P" => "EX A. A \<subset> B & P"
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	254	"\<forall>A\<subseteq>B. P" => "ALL A. A \<subseteq> B --> P"
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	255	"\<exists>A\<subseteq>B. P" => "EX A. A \<subseteq> B & P"
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	256	"\<exists>!A\<subseteq>B. P" => "EX! A. A \<subseteq> B & P"
14804 8de39d3e8eb6 Corrected printer bug for bounded quantifiers Q x<=y. P nipkow parents: 14752 diff changeset	257
8de39d3e8eb6 Corrected printer bug for bounded quantifiers Q x<=y. P nipkow parents: 14752 diff changeset	258	print_translation {*
8de39d3e8eb6 Corrected printer bug for bounded quantifiers Q x<=y. P nipkow parents: 14752 diff changeset	259	let
22377 61610b1beedf tuned ML setup; wenzelm parents: 22172 diff changeset	260	val Type (set_type, _) = @{typ "'a set"};
61610b1beedf tuned ML setup; wenzelm parents: 22172 diff changeset	261	val All_binder = Syntax.binder_name @{const_syntax "All"};
61610b1beedf tuned ML setup; wenzelm parents: 22172 diff changeset	262	val Ex_binder = Syntax.binder_name @{const_syntax "Ex"};
61610b1beedf tuned ML setup; wenzelm parents: 22172 diff changeset	263	val impl = @{const_syntax "op -->"};
61610b1beedf tuned ML setup; wenzelm parents: 22172 diff changeset	264	val conj = @{const_syntax "op &"};
61610b1beedf tuned ML setup; wenzelm parents: 22172 diff changeset	265	val sbset = @{const_syntax "subset"};
61610b1beedf tuned ML setup; wenzelm parents: 22172 diff changeset	266	val sbset_eq = @{const_syntax "subset_eq"};
21819 8eb82ffcdd15 fixed syntax for bounded quantification haftmann parents: 21669 diff changeset	267
8eb82ffcdd15 fixed syntax for bounded quantification haftmann parents: 21669 diff changeset	268	val trans =
8eb82ffcdd15 fixed syntax for bounded quantification haftmann parents: 21669 diff changeset	269	[((All_binder, impl, sbset), "_setlessAll"),
8eb82ffcdd15 fixed syntax for bounded quantification haftmann parents: 21669 diff changeset	270	((All_binder, impl, sbset_eq), "_setleAll"),
8eb82ffcdd15 fixed syntax for bounded quantification haftmann parents: 21669 diff changeset	271	((Ex_binder, conj, sbset), "_setlessEx"),
8eb82ffcdd15 fixed syntax for bounded quantification haftmann parents: 21669 diff changeset	272	((Ex_binder, conj, sbset_eq), "_setleEx")];
8eb82ffcdd15 fixed syntax for bounded quantification haftmann parents: 21669 diff changeset	273
8eb82ffcdd15 fixed syntax for bounded quantification haftmann parents: 21669 diff changeset	274	fun mk v v' c n P =
8eb82ffcdd15 fixed syntax for bounded quantification haftmann parents: 21669 diff changeset	275	if v = v' andalso not (Term.exists_subterm (fn Free (x, _) => x = v \| _ => false) n)
8eb82ffcdd15 fixed syntax for bounded quantification haftmann parents: 21669 diff changeset	276	then Syntax.const c $ Syntax.mark_bound v' $ n $ P else raise Match;
8eb82ffcdd15 fixed syntax for bounded quantification haftmann parents: 21669 diff changeset	277
8eb82ffcdd15 fixed syntax for bounded quantification haftmann parents: 21669 diff changeset	278	fun tr' q = (q,
8eb82ffcdd15 fixed syntax for bounded quantification haftmann parents: 21669 diff changeset	279	fn [Const ("_bound", _) $ Free (v, Type (T, _)), Const (c, _) $ (Const (d, _) $ (Const ("_bound", _) $ Free (v', _)) $ n) $ P] =>
8eb82ffcdd15 fixed syntax for bounded quantification haftmann parents: 21669 diff changeset	280	if T = (set_type) then case AList.lookup (op =) trans (q, c, d)
8eb82ffcdd15 fixed syntax for bounded quantification haftmann parents: 21669 diff changeset	281	of NONE => raise Match
8eb82ffcdd15 fixed syntax for bounded quantification haftmann parents: 21669 diff changeset	282	\| SOME l => mk v v' l n P
8eb82ffcdd15 fixed syntax for bounded quantification haftmann parents: 21669 diff changeset	283	else raise Match
8eb82ffcdd15 fixed syntax for bounded quantification haftmann parents: 21669 diff changeset	284	\| _ => raise Match);
14804 8de39d3e8eb6 Corrected printer bug for bounded quantifiers Q x<=y. P nipkow parents: 14752 diff changeset	285	in
21819 8eb82ffcdd15 fixed syntax for bounded quantification haftmann parents: 21669 diff changeset	286	[tr' All_binder, tr' Ex_binder]
14804 8de39d3e8eb6 Corrected printer bug for bounded quantifiers Q x<=y. P nipkow parents: 14752 diff changeset	287	end
8de39d3e8eb6 Corrected printer bug for bounded quantifiers Q x<=y. P nipkow parents: 14752 diff changeset	288	*}
8de39d3e8eb6 Corrected printer bug for bounded quantifiers Q x<=y. P nipkow parents: 14752 diff changeset	289
30531 ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	290
11979 0a3dace545c5 converted theory "Set"; wenzelm parents: 11752 diff changeset	291	text {*
0a3dace545c5 converted theory "Set"; wenzelm parents: 11752 diff changeset	292	\medskip Translate between @{text "{e \| x1...xn. P}"} and @{text
0a3dace545c5 converted theory "Set"; wenzelm parents: 11752 diff changeset	293	"{u. EX x1..xn. u = e & P}"}; @{text "{y. EX x1..xn. y = e & P}"} is
0a3dace545c5 converted theory "Set"; wenzelm parents: 11752 diff changeset	294	only translated if @{text "[0..n] subset bvs(e)"}.
0a3dace545c5 converted theory "Set"; wenzelm parents: 11752 diff changeset	295	*}
0a3dace545c5 converted theory "Set"; wenzelm parents: 11752 diff changeset	296
0a3dace545c5 converted theory "Set"; wenzelm parents: 11752 diff changeset	297	parse_translation {*
0a3dace545c5 converted theory "Set"; wenzelm parents: 11752 diff changeset	298	let
0a3dace545c5 converted theory "Set"; wenzelm parents: 11752 diff changeset	299	val ex_tr = snd (mk_binder_tr ("EX ", "Ex"));
3947 eb707467f8c5 adapted to qualified names; wenzelm parents: 3842 diff changeset	300
11979 0a3dace545c5 converted theory "Set"; wenzelm parents: 11752 diff changeset	301	fun nvars (Const ("_idts", _) $ _ $ idts) = nvars idts + 1
0a3dace545c5 converted theory "Set"; wenzelm parents: 11752 diff changeset	302	\| nvars _ = 1;
0a3dace545c5 converted theory "Set"; wenzelm parents: 11752 diff changeset	303
0a3dace545c5 converted theory "Set"; wenzelm parents: 11752 diff changeset	304	fun setcompr_tr [e, idts, b] =
0a3dace545c5 converted theory "Set"; wenzelm parents: 11752 diff changeset	305	let
0a3dace545c5 converted theory "Set"; wenzelm parents: 11752 diff changeset	306	val eq = Syntax.const "op =" $ Bound (nvars idts) $ e;
0a3dace545c5 converted theory "Set"; wenzelm parents: 11752 diff changeset	307	val P = Syntax.const "op &" $ eq $ b;
0a3dace545c5 converted theory "Set"; wenzelm parents: 11752 diff changeset	308	val exP = ex_tr [idts, P];
17784 5cbb52f2c478 Term.absdummy; wenzelm parents: 17715 diff changeset	309	in Syntax.const "Collect" $ Term.absdummy (dummyT, exP) end;
11979 0a3dace545c5 converted theory "Set"; wenzelm parents: 11752 diff changeset	310
0a3dace545c5 converted theory "Set"; wenzelm parents: 11752 diff changeset	311	in [("@SetCompr", setcompr_tr)] end;
0a3dace545c5 converted theory "Set"; wenzelm parents: 11752 diff changeset	312	*}
923 ff1574a81019 new version of HOL with curried function application clasohm parents: diff changeset	313
30531 ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	314	(* To avoid eta-contraction of body: *)
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	315	print_translation {*
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	316	let
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	317	fun btr' syn [A, Abs abs] =
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	318	let val (x, t) = atomic_abs_tr' abs
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	319	in Syntax.const syn $ x $ A $ t end
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	320	in
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	321	[(@{const_syntax Ball}, btr' "_Ball"), (@{const_syntax Bex}, btr' "_Bex"),
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	322	(@{const_syntax UNION}, btr' "@UNION"),(@{const_syntax INTER}, btr' "@INTER")]
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	323	end
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	324	*}
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	325
13763 f94b569cd610 added print translations tha avoid eta contraction for important binders. nipkow parents: 13653 diff changeset	326	print_translation {*
f94b569cd610 added print translations tha avoid eta contraction for important binders. nipkow parents: 13653 diff changeset	327	let
f94b569cd610 added print translations tha avoid eta contraction for important binders. nipkow parents: 13653 diff changeset	328	val ex_tr' = snd (mk_binder_tr' ("Ex", "DUMMY"));
f94b569cd610 added print translations tha avoid eta contraction for important binders. nipkow parents: 13653 diff changeset	329
f94b569cd610 added print translations tha avoid eta contraction for important binders. nipkow parents: 13653 diff changeset	330	fun setcompr_tr' [Abs (abs as (_, _, P))] =
f94b569cd610 added print translations tha avoid eta contraction for important binders. nipkow parents: 13653 diff changeset	331	let
f94b569cd610 added print translations tha avoid eta contraction for important binders. nipkow parents: 13653 diff changeset	332	fun check (Const ("Ex", _) $ Abs (_, _, P), n) = check (P, n + 1)
f94b569cd610 added print translations tha avoid eta contraction for important binders. nipkow parents: 13653 diff changeset	333	\| check (Const ("op &", _) $ (Const ("op =", _) $ Bound m $ e) $ P, n) =
f94b569cd610 added print translations tha avoid eta contraction for important binders. nipkow parents: 13653 diff changeset	334	n > 0 andalso m = n andalso not (loose_bvar1 (P, n)) andalso
f94b569cd610 added print translations tha avoid eta contraction for important binders. nipkow parents: 13653 diff changeset	335	((0 upto (n - 1)) subset add_loose_bnos (e, 0, []))
13764 3e180bf68496 removed some problems with print translations nipkow parents: 13763 diff changeset	336	\| check _ = false
923 ff1574a81019 new version of HOL with curried function application clasohm parents: diff changeset	337
11979 0a3dace545c5 converted theory "Set"; wenzelm parents: 11752 diff changeset	338	fun tr' (_ $ abs) =
0a3dace545c5 converted theory "Set"; wenzelm parents: 11752 diff changeset	339	let val _ $ idts $ (_ $ (_ $ _ $ e) $ Q) = ex_tr' [abs]
0a3dace545c5 converted theory "Set"; wenzelm parents: 11752 diff changeset	340	in Syntax.const "@SetCompr" $ e $ idts $ Q end;
13763 f94b569cd610 added print translations tha avoid eta contraction for important binders. nipkow parents: 13653 diff changeset	341	in if check (P, 0) then tr' P
15535 a0cf3a19ee36 tuning nipkow parents: 15524 diff changeset	342	else let val (x as _ $ Free(xN,_), t) = atomic_abs_tr' abs
a0cf3a19ee36 tuning nipkow parents: 15524 diff changeset	343	val M = Syntax.const "@Coll" $ x $ t
a0cf3a19ee36 tuning nipkow parents: 15524 diff changeset	344	in case t of
a0cf3a19ee36 tuning nipkow parents: 15524 diff changeset	345	Const("op &",_)
a0cf3a19ee36 tuning nipkow parents: 15524 diff changeset	346	$ (Const("op :",_) $ (Const("_bound",_) $ Free(yN,_)) $ A)
a0cf3a19ee36 tuning nipkow parents: 15524 diff changeset	347	$ P =>
a0cf3a19ee36 tuning nipkow parents: 15524 diff changeset	348	if xN=yN then Syntax.const "@Collect" $ x $ A $ P else M
a0cf3a19ee36 tuning nipkow parents: 15524 diff changeset	349	\| _ => M
a0cf3a19ee36 tuning nipkow parents: 15524 diff changeset	350	end
13763 f94b569cd610 added print translations tha avoid eta contraction for important binders. nipkow parents: 13653 diff changeset	351	end;
11979 0a3dace545c5 converted theory "Set"; wenzelm parents: 11752 diff changeset	352	in [("Collect", setcompr_tr')] end;
0a3dace545c5 converted theory "Set"; wenzelm parents: 11752 diff changeset	353	*}
0a3dace545c5 converted theory "Set"; wenzelm parents: 11752 diff changeset	354
30531 ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	355
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	356	subsection {* Rules and definitions *}
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	357
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	358	text {* Isomorphisms between predicates and sets. *}
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	359
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	360	defs
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	361	mem_def [code]: "x : S == S x"
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	362	Collect_def [code]: "Collect P == P"
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	363
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	364	defs
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	365	Ball_def: "Ball A P == ALL x. x:A --> P(x)"
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	366	Bex_def: "Bex A P == EX x. x:A & P(x)"
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	367	Bex1_def: "Bex1 A P == EX! x. x:A & P(x)"
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	368
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	369	instantiation "fun" :: (type, minus) minus
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	370	begin
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	371
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	372	definition
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	373	fun_diff_def: "A - B = (%x. A x - B x)"
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	374
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	375	instance ..
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	376
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	377	end
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	378
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	379	instantiation bool :: minus
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	380	begin
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	381
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	382	definition
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	383	bool_diff_def: "A - B = (A & ~ B)"
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	384
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	385	instance ..
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	386
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	387	end
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	388
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	389	instantiation "fun" :: (type, uminus) uminus
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	390	begin
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	391
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	392	definition
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	393	fun_Compl_def: "- A = (%x. - A x)"
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	394
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	395	instance ..
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	396
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	397	end
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	398
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	399	instantiation bool :: uminus
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	400	begin
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	401
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	402	definition
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	403	bool_Compl_def: "- A = (~ A)"
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	404
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	405	instance ..
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	406
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	407	end
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	408
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	409	defs
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	410	Pow_def: "Pow A == {B. B <= A}"
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	411	insert_def: "insert a B == {x. x=a} Un B"
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	412	image_def: "f`A == {y. EX x:A. y = f(x)}"
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	413
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	414
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	415	subsection {* Lemmas and proof tool setup *}
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	416
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	417	subsubsection {* Relating predicates and sets *}
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	418
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	419	lemma mem_Collect_eq [iff]: "(a : {x. P(x)}) = P(a)"
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	420	by (simp add: Collect_def mem_def)
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	421
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	422	lemma Collect_mem_eq [simp]: "{x. x:A} = A"
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	423	by (simp add: Collect_def mem_def)
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	424
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	425	lemma CollectI: "P(a) ==> a : {x. P(x)}"
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	426	by simp
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	427
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	428	lemma CollectD: "a : {x. P(x)} ==> P(a)"
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	429	by simp
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	430
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	431	lemma Collect_cong: "(!!x. P x = Q x) ==> {x. P(x)} = {x. Q(x)}"
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	432	by simp
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	433
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	434	lemmas CollectE = CollectD [elim_format]
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	435
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	436
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	437	subsubsection {* Bounded quantifiers *}
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	438
11979 0a3dace545c5 converted theory "Set"; wenzelm parents: 11752 diff changeset	439	lemma ballI [intro!]: "(!!x. x:A ==> P x) ==> ALL x:A. P x"
0a3dace545c5 converted theory "Set"; wenzelm parents: 11752 diff changeset	440	by (simp add: Ball_def)
0a3dace545c5 converted theory "Set"; wenzelm parents: 11752 diff changeset	441
0a3dace545c5 converted theory "Set"; wenzelm parents: 11752 diff changeset	442	lemmas strip = impI allI ballI
0a3dace545c5 converted theory "Set"; wenzelm parents: 11752 diff changeset	443
0a3dace545c5 converted theory "Set"; wenzelm parents: 11752 diff changeset	444	lemma bspec [dest?]: "ALL x:A. P x ==> x:A ==> P x"
0a3dace545c5 converted theory "Set"; wenzelm parents: 11752 diff changeset	445	by (simp add: Ball_def)
0a3dace545c5 converted theory "Set"; wenzelm parents: 11752 diff changeset	446
0a3dace545c5 converted theory "Set"; wenzelm parents: 11752 diff changeset	447	lemma ballE [elim]: "ALL x:A. P x ==> (P x ==> Q) ==> (x ~: A ==> Q) ==> Q"
0a3dace545c5 converted theory "Set"; wenzelm parents: 11752 diff changeset	448	by (unfold Ball_def) blast
22139 539a63b98f76 tuned ML setup; wenzelm parents: 21833 diff changeset	449
539a63b98f76 tuned ML setup; wenzelm parents: 21833 diff changeset	450	ML {* bind_thm ("rev_ballE", permute_prems 1 1 @{thm ballE}) *}
11979 0a3dace545c5 converted theory "Set"; wenzelm parents: 11752 diff changeset	451
0a3dace545c5 converted theory "Set"; wenzelm parents: 11752 diff changeset	452	text {*
0a3dace545c5 converted theory "Set"; wenzelm parents: 11752 diff changeset	453	\medskip This tactic takes assumptions @{prop "ALL x:A. P x"} and
0a3dace545c5 converted theory "Set"; wenzelm parents: 11752 diff changeset	454	@{prop "a:A"}; creates assumption @{prop "P a"}.
0a3dace545c5 converted theory "Set"; wenzelm parents: 11752 diff changeset	455	*}
0a3dace545c5 converted theory "Set"; wenzelm parents: 11752 diff changeset	456
0a3dace545c5 converted theory "Set"; wenzelm parents: 11752 diff changeset	457	ML {*
22139 539a63b98f76 tuned ML setup; wenzelm parents: 21833 diff changeset	458	fun ball_tac i = etac @{thm ballE} i THEN contr_tac (i + 1)
11979 0a3dace545c5 converted theory "Set"; wenzelm parents: 11752 diff changeset	459	*}
0a3dace545c5 converted theory "Set"; wenzelm parents: 11752 diff changeset	460
0a3dace545c5 converted theory "Set"; wenzelm parents: 11752 diff changeset	461	text {*
0a3dace545c5 converted theory "Set"; wenzelm parents: 11752 diff changeset	462	Gives better instantiation for bound:
0a3dace545c5 converted theory "Set"; wenzelm parents: 11752 diff changeset	463	*}
0a3dace545c5 converted theory "Set"; wenzelm parents: 11752 diff changeset	464
26339 7825c83c9eff eliminated change_claset/simpset; wenzelm parents: 26150 diff changeset	465	declaration {* fn _ =>
7825c83c9eff eliminated change_claset/simpset; wenzelm parents: 26150 diff changeset	466	Classical.map_cs (fn cs => cs addbefore ("bspec", datac @{thm bspec} 1))
11979 0a3dace545c5 converted theory "Set"; wenzelm parents: 11752 diff changeset	467	*}
0a3dace545c5 converted theory "Set"; wenzelm parents: 11752 diff changeset	468
0a3dace545c5 converted theory "Set"; wenzelm parents: 11752 diff changeset	469	lemma bexI [intro]: "P x ==> x:A ==> EX x:A. P x"
0a3dace545c5 converted theory "Set"; wenzelm parents: 11752 diff changeset	470	-- {* Normally the best argument order: @{prop "P x"} constrains the
0a3dace545c5 converted theory "Set"; wenzelm parents: 11752 diff changeset	471	choice of @{prop "x:A"}. *}
0a3dace545c5 converted theory "Set"; wenzelm parents: 11752 diff changeset	472	by (unfold Bex_def) blast
0a3dace545c5 converted theory "Set"; wenzelm parents: 11752 diff changeset	473
13113 5eb9be7b72a5 rev_bexI [intro?]; wenzelm parents: 13103 diff changeset	474	lemma rev_bexI [intro?]: "x:A ==> P x ==> EX x:A. P x"
11979 0a3dace545c5 converted theory "Set"; wenzelm parents: 11752 diff changeset	475	-- {* The best argument order when there is only one @{prop "x:A"}. *}
0a3dace545c5 converted theory "Set"; wenzelm parents: 11752 diff changeset	476	by (unfold Bex_def) blast
0a3dace545c5 converted theory "Set"; wenzelm parents: 11752 diff changeset	477
0a3dace545c5 converted theory "Set"; wenzelm parents: 11752 diff changeset	478	lemma bexCI: "(ALL x:A. ~P x ==> P a) ==> a:A ==> EX x:A. P x"
0a3dace545c5 converted theory "Set"; wenzelm parents: 11752 diff changeset	479	by (unfold Bex_def) blast
0a3dace545c5 converted theory "Set"; wenzelm parents: 11752 diff changeset	480
0a3dace545c5 converted theory "Set"; wenzelm parents: 11752 diff changeset	481	lemma bexE [elim!]: "EX x:A. P x ==> (!!x. x:A ==> P x ==> Q) ==> Q"
0a3dace545c5 converted theory "Set"; wenzelm parents: 11752 diff changeset	482	by (unfold Bex_def) blast
0a3dace545c5 converted theory "Set"; wenzelm parents: 11752 diff changeset	483
0a3dace545c5 converted theory "Set"; wenzelm parents: 11752 diff changeset	484	lemma ball_triv [simp]: "(ALL x:A. P) = ((EX x. x:A) --> P)"
0a3dace545c5 converted theory "Set"; wenzelm parents: 11752 diff changeset	485	-- {* Trival rewrite rule. *}
0a3dace545c5 converted theory "Set"; wenzelm parents: 11752 diff changeset	486	by (simp add: Ball_def)
0a3dace545c5 converted theory "Set"; wenzelm parents: 11752 diff changeset	487
0a3dace545c5 converted theory "Set"; wenzelm parents: 11752 diff changeset	488	lemma bex_triv [simp]: "(EX x:A. P) = ((EX x. x:A) & P)"
0a3dace545c5 converted theory "Set"; wenzelm parents: 11752 diff changeset	489	-- {* Dual form for existentials. *}
0a3dace545c5 converted theory "Set"; wenzelm parents: 11752 diff changeset	490	by (simp add: Bex_def)
0a3dace545c5 converted theory "Set"; wenzelm parents: 11752 diff changeset	491
0a3dace545c5 converted theory "Set"; wenzelm parents: 11752 diff changeset	492	lemma bex_triv_one_point1 [simp]: "(EX x:A. x = a) = (a:A)"
0a3dace545c5 converted theory "Set"; wenzelm parents: 11752 diff changeset	493	by blast
0a3dace545c5 converted theory "Set"; wenzelm parents: 11752 diff changeset	494
0a3dace545c5 converted theory "Set"; wenzelm parents: 11752 diff changeset	495	lemma bex_triv_one_point2 [simp]: "(EX x:A. a = x) = (a:A)"
0a3dace545c5 converted theory "Set"; wenzelm parents: 11752 diff changeset	496	by blast
0a3dace545c5 converted theory "Set"; wenzelm parents: 11752 diff changeset	497
0a3dace545c5 converted theory "Set"; wenzelm parents: 11752 diff changeset	498	lemma bex_one_point1 [simp]: "(EX x:A. x = a & P x) = (a:A & P a)"
0a3dace545c5 converted theory "Set"; wenzelm parents: 11752 diff changeset	499	by blast
0a3dace545c5 converted theory "Set"; wenzelm parents: 11752 diff changeset	500
0a3dace545c5 converted theory "Set"; wenzelm parents: 11752 diff changeset	501	lemma bex_one_point2 [simp]: "(EX x:A. a = x & P x) = (a:A & P a)"
0a3dace545c5 converted theory "Set"; wenzelm parents: 11752 diff changeset	502	by blast
0a3dace545c5 converted theory "Set"; wenzelm parents: 11752 diff changeset	503
0a3dace545c5 converted theory "Set"; wenzelm parents: 11752 diff changeset	504	lemma ball_one_point1 [simp]: "(ALL x:A. x = a --> P x) = (a:A --> P a)"
0a3dace545c5 converted theory "Set"; wenzelm parents: 11752 diff changeset	505	by blast
0a3dace545c5 converted theory "Set"; wenzelm parents: 11752 diff changeset	506
0a3dace545c5 converted theory "Set"; wenzelm parents: 11752 diff changeset	507	lemma ball_one_point2 [simp]: "(ALL x:A. a = x --> P x) = (a:A --> P a)"
0a3dace545c5 converted theory "Set"; wenzelm parents: 11752 diff changeset	508	by blast
0a3dace545c5 converted theory "Set"; wenzelm parents: 11752 diff changeset	509
26480 544cef16045b replaced 'ML_setup' by 'ML'; wenzelm parents: 26339 diff changeset	510	ML {*
13462 56610e2ba220 sane interface for simprocs; wenzelm parents: 13421 diff changeset	511	local
22139 539a63b98f76 tuned ML setup; wenzelm parents: 21833 diff changeset	512	val unfold_bex_tac = unfold_tac @{thms "Bex_def"};
18328 841261f303a1 simprocs: static evaluation of simpset; wenzelm parents: 18315 diff changeset	513	fun prove_bex_tac ss = unfold_bex_tac ss THEN Quantifier1.prove_one_point_ex_tac;
11979 0a3dace545c5 converted theory "Set"; wenzelm parents: 11752 diff changeset	514	val rearrange_bex = Quantifier1.rearrange_bex prove_bex_tac;
0a3dace545c5 converted theory "Set"; wenzelm parents: 11752 diff changeset	515
22139 539a63b98f76 tuned ML setup; wenzelm parents: 21833 diff changeset	516	val unfold_ball_tac = unfold_tac @{thms "Ball_def"};
18328 841261f303a1 simprocs: static evaluation of simpset; wenzelm parents: 18315 diff changeset	517	fun prove_ball_tac ss = unfold_ball_tac ss THEN Quantifier1.prove_one_point_all_tac;
11979 0a3dace545c5 converted theory "Set"; wenzelm parents: 11752 diff changeset	518	val rearrange_ball = Quantifier1.rearrange_ball prove_ball_tac;
0a3dace545c5 converted theory "Set"; wenzelm parents: 11752 diff changeset	519	in
18328 841261f303a1 simprocs: static evaluation of simpset; wenzelm parents: 18315 diff changeset	520	val defBEX_regroup = Simplifier.simproc (the_context ())
13462 56610e2ba220 sane interface for simprocs; wenzelm parents: 13421 diff changeset	521	"defined BEX" ["EX x:A. P x & Q x"] rearrange_bex;
18328 841261f303a1 simprocs: static evaluation of simpset; wenzelm parents: 18315 diff changeset	522	val defBALL_regroup = Simplifier.simproc (the_context ())
13462 56610e2ba220 sane interface for simprocs; wenzelm parents: 13421 diff changeset	523	"defined BALL" ["ALL x:A. P x --> Q x"] rearrange_ball;
11979 0a3dace545c5 converted theory "Set"; wenzelm parents: 11752 diff changeset	524	end;
13462 56610e2ba220 sane interface for simprocs; wenzelm parents: 13421 diff changeset	525
56610e2ba220 sane interface for simprocs; wenzelm parents: 13421 diff changeset	526	Addsimprocs [defBALL_regroup, defBEX_regroup];
11979 0a3dace545c5 converted theory "Set"; wenzelm parents: 11752 diff changeset	527	*}
0a3dace545c5 converted theory "Set"; wenzelm parents: 11752 diff changeset	528
30531 ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	529
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	530	subsubsection {* Congruence rules *}
11979 0a3dace545c5 converted theory "Set"; wenzelm parents: 11752 diff changeset	531
16636 1ed737a98198 Added strong_ball_cong and strong_bex_cong (these are now the standard berghofe parents: 15950 diff changeset	532	lemma ball_cong:
11979 0a3dace545c5 converted theory "Set"; wenzelm parents: 11752 diff changeset	533	"A = B ==> (!!x. x:B ==> P x = Q x) ==>
0a3dace545c5 converted theory "Set"; wenzelm parents: 11752 diff changeset	534	(ALL x:A. P x) = (ALL x:B. Q x)"
0a3dace545c5 converted theory "Set"; wenzelm parents: 11752 diff changeset	535	by (simp add: Ball_def)
0a3dace545c5 converted theory "Set"; wenzelm parents: 11752 diff changeset	536
16636 1ed737a98198 Added strong_ball_cong and strong_bex_cong (these are now the standard berghofe parents: 15950 diff changeset	537	lemma strong_ball_cong [cong]:
1ed737a98198 Added strong_ball_cong and strong_bex_cong (these are now the standard berghofe parents: 15950 diff changeset	538	"A = B ==> (!!x. x:B =simp=> P x = Q x) ==>
1ed737a98198 Added strong_ball_cong and strong_bex_cong (these are now the standard berghofe parents: 15950 diff changeset	539	(ALL x:A. P x) = (ALL x:B. Q x)"
1ed737a98198 Added strong_ball_cong and strong_bex_cong (these are now the standard berghofe parents: 15950 diff changeset	540	by (simp add: simp_implies_def Ball_def)
1ed737a98198 Added strong_ball_cong and strong_bex_cong (these are now the standard berghofe parents: 15950 diff changeset	541
1ed737a98198 Added strong_ball_cong and strong_bex_cong (these are now the standard berghofe parents: 15950 diff changeset	542	lemma bex_cong:
11979 0a3dace545c5 converted theory "Set"; wenzelm parents: 11752 diff changeset	543	"A = B ==> (!!x. x:B ==> P x = Q x) ==>
0a3dace545c5 converted theory "Set"; wenzelm parents: 11752 diff changeset	544	(EX x:A. P x) = (EX x:B. Q x)"
0a3dace545c5 converted theory "Set"; wenzelm parents: 11752 diff changeset	545	by (simp add: Bex_def cong: conj_cong)
1273 6960ec882bca added 8bit pragmas regensbu parents: 1068 diff changeset	546
16636 1ed737a98198 Added strong_ball_cong and strong_bex_cong (these are now the standard berghofe parents: 15950 diff changeset	547	lemma strong_bex_cong [cong]:
1ed737a98198 Added strong_ball_cong and strong_bex_cong (these are now the standard berghofe parents: 15950 diff changeset	548	"A = B ==> (!!x. x:B =simp=> P x = Q x) ==>
1ed737a98198 Added strong_ball_cong and strong_bex_cong (these are now the standard berghofe parents: 15950 diff changeset	549	(EX x:A. P x) = (EX x:B. Q x)"
1ed737a98198 Added strong_ball_cong and strong_bex_cong (these are now the standard berghofe parents: 15950 diff changeset	550	by (simp add: simp_implies_def Bex_def cong: conj_cong)
1ed737a98198 Added strong_ball_cong and strong_bex_cong (these are now the standard berghofe parents: 15950 diff changeset	551
30531 ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	552
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	553	subsubsection {* Subsets *}
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	554
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	555	lemma subsetI [atp,intro!]: "(!!x. x:A ==> x:B) ==> A \<subseteq> B"
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	556	by (auto simp add: mem_def intro: predicate1I)
30352 047f183c43b0 restructured theory Set.thy haftmann parents: 30304 diff changeset	557
11979 0a3dace545c5 converted theory "Set"; wenzelm parents: 11752 diff changeset	558	text {*
30531 ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	559	\medskip Map the type @{text "'a set => anything"} to just @{typ
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	560	'a}; for overloading constants whose first argument has type @{typ
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	561	"'a set"}.
11979 0a3dace545c5 converted theory "Set"; wenzelm parents: 11752 diff changeset	562	*}
0a3dace545c5 converted theory "Set"; wenzelm parents: 11752 diff changeset	563
30596 140b22f22071 tuned some theorem and attribute bindings haftmann parents: 30531 diff changeset	564	lemma subsetD [elim, intro?]: "A \<subseteq> B ==> c \<in> A ==> c \<in> B"
30531 ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	565	-- {* Rule in Modus Ponens style. *}
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	566	by (unfold mem_def) blast
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	567
30596 140b22f22071 tuned some theorem and attribute bindings haftmann parents: 30531 diff changeset	568	lemma rev_subsetD [intro?]: "c \<in> A ==> A \<subseteq> B ==> c \<in> B"
30531 ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	569	-- {* The same, with reversed premises for use with @{text erule} --
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	570	cf @{text rev_mp}. *}
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	571	by (rule subsetD)
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	572
11979 0a3dace545c5 converted theory "Set"; wenzelm parents: 11752 diff changeset	573	text {*
30531 ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	574	\medskip Converts @{prop "A \<subseteq> B"} to @{prop "x \<in> A ==> x \<in> B"}.
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	575	*}
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	576
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	577	ML {*
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	578	fun impOfSubs th = th RSN (2, @{thm rev_subsetD})
11979 0a3dace545c5 converted theory "Set"; wenzelm parents: 11752 diff changeset	579	*}
0a3dace545c5 converted theory "Set"; wenzelm parents: 11752 diff changeset	580
30531 ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	581	lemma subsetCE [elim]: "A \<subseteq> B ==> (c \<notin> A ==> P) ==> (c \<in> B ==> P) ==> P"
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	582	-- {* Classical elimination rule. *}
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	583	by (unfold mem_def) blast
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	584
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	585	lemma subset_eq: "A \<le> B = (\<forall>x\<in>A. x \<in> B)" by blast
2388 d1f0505fc602 added set inclusion symbol syntax; wenzelm parents: 2372 diff changeset	586
11979 0a3dace545c5 converted theory "Set"; wenzelm parents: 11752 diff changeset	587	text {*
30531 ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	588	\medskip Takes assumptions @{prop "A \<subseteq> B"}; @{prop "c \<in> A"} and
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	589	creates the assumption @{prop "c \<in> B"}.
30352 047f183c43b0 restructured theory Set.thy haftmann parents: 30304 diff changeset	590	*}
047f183c43b0 restructured theory Set.thy haftmann parents: 30304 diff changeset	591
047f183c43b0 restructured theory Set.thy haftmann parents: 30304 diff changeset	592	ML {*
30531 ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	593	fun set_mp_tac i = etac @{thm subsetCE} i THEN mp_tac i
11979 0a3dace545c5 converted theory "Set"; wenzelm parents: 11752 diff changeset	594	*}
0a3dace545c5 converted theory "Set"; wenzelm parents: 11752 diff changeset	595
30531 ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	596	lemma contra_subsetD: "A \<subseteq> B ==> c \<notin> B ==> c \<notin> A"
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	597	by blast
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	598
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	599	lemma subset_refl [simp,atp]: "A \<subseteq> A"
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	600	by fast
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	601
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	602	lemma subset_trans: "A \<subseteq> B ==> B \<subseteq> C ==> A \<subseteq> C"
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	603	by blast
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	604
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	605
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	606	subsubsection {* Equality *}
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	607
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	608	lemma set_ext: assumes prem: "(!!x. (x:A) = (x:B))" shows "A = B"
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	609	apply (rule prem [THEN ext, THEN arg_cong, THEN box_equals])
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	610	apply (rule Collect_mem_eq)
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	611	apply (rule Collect_mem_eq)
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	612	done
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	613
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	614	(* Due to Brian Huffman *)
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	615	lemma expand_set_eq: "(A = B) = (ALL x. (x:A) = (x:B))"
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	616	by(auto intro:set_ext)
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	617
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	618	lemma subset_antisym [intro!]: "A \<subseteq> B ==> B \<subseteq> A ==> A = B"
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	619	-- {* Anti-symmetry of the subset relation. *}
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	620	by (iprover intro: set_ext subsetD)
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	621
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	622	text {*
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	623	\medskip Equality rules from ZF set theory -- are they appropriate
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	624	here?
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	625	*}
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	626
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	627	lemma equalityD1: "A = B ==> A \<subseteq> B"
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	628	by (simp add: subset_refl)
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	629
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	630	lemma equalityD2: "A = B ==> B \<subseteq> A"
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	631	by (simp add: subset_refl)
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	632
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	633	text {*
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	634	\medskip Be careful when adding this to the claset as @{text
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	635	subset_empty} is in the simpset: @{prop "A = {}"} goes to @{prop "{}
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	636	\<subseteq> A"} and @{prop "A \<subseteq> {}"} and then back to @{prop "A = {}"}!
30352 047f183c43b0 restructured theory Set.thy haftmann parents: 30304 diff changeset	637	*}
047f183c43b0 restructured theory Set.thy haftmann parents: 30304 diff changeset	638
30531 ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	639	lemma equalityE: "A = B ==> (A \<subseteq> B ==> B \<subseteq> A ==> P) ==> P"
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	640	by (simp add: subset_refl)
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	641
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	642	lemma equalityCE [elim]:
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	643	"A = B ==> (c \<in> A ==> c \<in> B ==> P) ==> (c \<notin> A ==> c \<notin> B ==> P) ==> P"
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	644	by blast
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	645
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	646	lemma eqset_imp_iff: "A = B ==> (x : A) = (x : B)"
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	647	by simp
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	648
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	649	lemma eqelem_imp_iff: "x = y ==> (x : A) = (y : A)"
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	650	by simp
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	651
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	652
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	653	subsubsection {* The universal set -- UNIV *}
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	654
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	655	lemma UNIV_I [simp]: "x : UNIV"
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	656	by (simp add: UNIV_def)
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	657
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	658	declare UNIV_I [intro] -- {* unsafe makes it less likely to cause problems *}
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	659
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	660	lemma UNIV_witness [intro?]: "EX x. x : UNIV"
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	661	by simp
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	662
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	663	lemma subset_UNIV [simp]: "A \<subseteq> UNIV"
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	664	by (rule subsetI) (rule UNIV_I)
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	665
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	666	text {*
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	667	\medskip Eta-contracting these two rules (to remove @{text P})
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	668	causes them to be ignored because of their interaction with
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	669	congruence rules.
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	670	*}
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	671
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	672	lemma ball_UNIV [simp]: "Ball UNIV P = All P"
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	673	by (simp add: Ball_def)
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	674
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	675	lemma bex_UNIV [simp]: "Bex UNIV P = Ex P"
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	676	by (simp add: Bex_def)
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	677
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	678	lemma UNIV_eq_I: "(\<And>x. x \<in> A) \<Longrightarrow> UNIV = A"
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	679	by auto
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	680
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	681
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	682	subsubsection {* The empty set *}
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	683
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	684	lemma empty_iff [simp]: "(c : {}) = False"
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	685	by (simp add: empty_def)
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	686
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	687	lemma emptyE [elim!]: "a : {} ==> P"
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	688	by simp
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	689
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	690	lemma empty_subsetI [iff]: "{} \<subseteq> A"
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	691	-- {* One effect is to delete the ASSUMPTION @{prop "{} <= A"} *}
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	692	by blast
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	693
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	694	lemma equals0I: "(!!y. y \<in> A ==> False) ==> A = {}"
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	695	by blast
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	696
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	697	lemma equals0D: "A = {} ==> a \<notin> A"
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	698	-- {* Use for reasoning about disjointness: @{prop "A Int B = {}"} *}
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	699	by blast
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	700
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	701	lemma ball_empty [simp]: "Ball {} P = True"
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	702	by (simp add: Ball_def)
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	703
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	704	lemma bex_empty [simp]: "Bex {} P = False"
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	705	by (simp add: Bex_def)
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	706
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	707	lemma UNIV_not_empty [iff]: "UNIV ~= {}"
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	708	by (blast elim: equalityE)
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	709
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	710
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	711	subsubsection {* The Powerset operator -- Pow *}
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	712
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	713	lemma Pow_iff [iff]: "(A \<in> Pow B) = (A \<subseteq> B)"
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	714	by (simp add: Pow_def)
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	715
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	716	lemma PowI: "A \<subseteq> B ==> A \<in> Pow B"
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	717	by (simp add: Pow_def)
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	718
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	719	lemma PowD: "A \<in> Pow B ==> A \<subseteq> B"
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	720	by (simp add: Pow_def)
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	721
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	722	lemma Pow_bottom: "{} \<in> Pow B"
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	723	by simp
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	724
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	725	lemma Pow_top: "A \<in> Pow A"
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	726	by (simp add: subset_refl)
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	727
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	728
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	729	subsubsection {* Set complement *}
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	730
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	731	lemma Compl_iff [simp]: "(c \<in> -A) = (c \<notin> A)"
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	732	by (simp add: mem_def fun_Compl_def bool_Compl_def)
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	733
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	734	lemma ComplI [intro!]: "(c \<in> A ==> False) ==> c \<in> -A"
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	735	by (unfold mem_def fun_Compl_def bool_Compl_def) blast
923 ff1574a81019 new version of HOL with curried function application clasohm parents: diff changeset	736
11979 0a3dace545c5 converted theory "Set"; wenzelm parents: 11752 diff changeset	737	text {*
30531 ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	738	\medskip This form, with negated conclusion, works well with the
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	739	Classical prover. Negated assumptions behave like formulae on the
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	740	right side of the notional turnstile ... *}
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	741
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	742	lemma ComplD [dest!]: "c : -A ==> c~:A"
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	743	by (simp add: mem_def fun_Compl_def bool_Compl_def)
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	744
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	745	lemmas ComplE = ComplD [elim_format]
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	746
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	747	lemma Compl_eq: "- A = {x. ~ x : A}" by blast
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	748
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	749
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	750	subsubsection {* Binary union -- Un *}
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	751
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	752	lemma Un_iff [simp]: "(c : A Un B) = (c:A \| c:B)"
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	753	by (unfold Un_def) blast
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	754
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	755	lemma UnI1 [elim?]: "c:A ==> c : A Un B"
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	756	by simp
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	757
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	758	lemma UnI2 [elim?]: "c:B ==> c : A Un B"
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	759	by simp
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	760
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	761	text {*
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	762	\medskip Classical introduction rule: no commitment to @{prop A} vs
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	763	@{prop B}.
11979 0a3dace545c5 converted theory "Set"; wenzelm parents: 11752 diff changeset	764	*}
0a3dace545c5 converted theory "Set"; wenzelm parents: 11752 diff changeset	765
30531 ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	766	lemma UnCI [intro!]: "(c~:B ==> c:A) ==> c : A Un B"
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	767	by auto
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	768
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	769	lemma UnE [elim!]: "c : A Un B ==> (c:A ==> P) ==> (c:B ==> P) ==> P"
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	770	by (unfold Un_def) blast
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	771
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	772
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	773	subsubsection {* Binary intersection -- Int *}
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	774
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	775	lemma Int_iff [simp]: "(c : A Int B) = (c:A & c:B)"
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	776	by (unfold Int_def) blast
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	777
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	778	lemma IntI [intro!]: "c:A ==> c:B ==> c : A Int B"
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	779	by simp
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	780
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	781	lemma IntD1: "c : A Int B ==> c:A"
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	782	by simp
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	783
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	784	lemma IntD2: "c : A Int B ==> c:B"
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	785	by simp
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	786
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	787	lemma IntE [elim!]: "c : A Int B ==> (c:A ==> c:B ==> P) ==> P"
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	788	by simp
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	789
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	790
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	791	subsubsection {* Set difference *}
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	792
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	793	lemma Diff_iff [simp]: "(c : A - B) = (c:A & c~:B)"
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	794	by (simp add: mem_def fun_diff_def bool_diff_def)
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	795
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	796	lemma DiffI [intro!]: "c : A ==> c ~: B ==> c : A - B"
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	797	by simp
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	798
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	799	lemma DiffD1: "c : A - B ==> c : A"
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	800	by simp
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	801
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	802	lemma DiffD2: "c : A - B ==> c : B ==> P"
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	803	by simp
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	804
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	805	lemma DiffE [elim!]: "c : A - B ==> (c:A ==> c~:B ==> P) ==> P"
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	806	by simp
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	807
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	808	lemma set_diff_eq: "A - B = {x. x : A & ~ x : B}" by blast
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	809
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	810	lemma Compl_eq_Diff_UNIV: "-A = (UNIV - A)"
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	811	by blast
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	812
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	813
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	814	subsubsection {* Augmenting a set -- insert *}
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	815
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	816	lemma insert_iff [simp]: "(a : insert b A) = (a = b \| a:A)"
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	817	by (unfold insert_def) blast
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	818
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	819	lemma insertI1: "a : insert a B"
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	820	by simp
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	821
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	822	lemma insertI2: "a : B ==> a : insert b B"
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	823	by simp
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	824
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	825	lemma insertE [elim!]: "a : insert b A ==> (a = b ==> P) ==> (a:A ==> P) ==> P"
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	826	by (unfold insert_def) blast
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	827
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	828	lemma insertCI [intro!]: "(a~:B ==> a = b) ==> a: insert b B"
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	829	-- {* Classical introduction rule. *}
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	830	by auto
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	831
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	832	lemma subset_insert_iff: "(A \<subseteq> insert x B) = (if x:A then A - {x} \<subseteq> B else A \<subseteq> B)"
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	833	by auto
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	834
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	835	lemma set_insert:
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	836	assumes "x \<in> A"
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	837	obtains B where "A = insert x B" and "x \<notin> B"
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	838	proof
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	839	from assms show "A = insert x (A - {x})" by blast
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	840	next
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	841	show "x \<notin> A - {x}" by blast
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	842	qed
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	843
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	844	lemma insert_ident: "x ~: A ==> x ~: B ==> (insert x A = insert x B) = (A = B)"
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	845	by auto
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	846
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	847	subsubsection {* Singletons, using insert *}
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	848
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	849	lemma singletonI [intro!,noatp]: "a : {a}"
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	850	-- {* Redundant? But unlike @{text insertCI}, it proves the subgoal immediately! *}
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	851	by (rule insertI1)
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	852
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	853	lemma singletonD [dest!,noatp]: "b : {a} ==> b = a"
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	854	by blast
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	855
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	856	lemmas singletonE = singletonD [elim_format]
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	857
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	858	lemma singleton_iff: "(b : {a}) = (b = a)"
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	859	by blast
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	860
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	861	lemma singleton_inject [dest!]: "{a} = {b} ==> a = b"
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	862	by blast
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	863
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	864	lemma singleton_insert_inj_eq [iff,noatp]:
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	865	"({b} = insert a A) = (a = b & A \<subseteq> {b})"
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	866	by blast
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	867
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	868	lemma singleton_insert_inj_eq' [iff,noatp]:
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	869	"(insert a A = {b}) = (a = b & A \<subseteq> {b})"
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	870	by blast
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	871
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	872	lemma subset_singletonD: "A \<subseteq> {x} ==> A = {} \| A = {x}"
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	873	by fast
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	874
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	875	lemma singleton_conv [simp]: "{x. x = a} = {a}"
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	876	by blast
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	877
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	878	lemma singleton_conv2 [simp]: "{x. a = x} = {a}"
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	879	by blast
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	880
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	881	lemma diff_single_insert: "A - {x} \<subseteq> B ==> x \<in> A ==> A \<subseteq> insert x B"
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	882	by blast
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	883
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	884	lemma doubleton_eq_iff: "({a,b} = {c,d}) = (a=c & b=d \| a=d & b=c)"
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	885	by (blast elim: equalityE)
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	886
11979 0a3dace545c5 converted theory "Set"; wenzelm parents: 11752 diff changeset	887
0a3dace545c5 converted theory "Set"; wenzelm parents: 11752 diff changeset	888	subsubsection {* Unions of families *}
0a3dace545c5 converted theory "Set"; wenzelm parents: 11752 diff changeset	889
0a3dace545c5 converted theory "Set"; wenzelm parents: 11752 diff changeset	890	text {*
0a3dace545c5 converted theory "Set"; wenzelm parents: 11752 diff changeset	891	@{term [source] "UN x:A. B x"} is @{term "Union (B`A)"}.
0a3dace545c5 converted theory "Set"; wenzelm parents: 11752 diff changeset	892	*}
0a3dace545c5 converted theory "Set"; wenzelm parents: 11752 diff changeset	893
24286 7619080e49f0 ATP blacklisting is now in theory data, attribute noatp paulson parents: 24280 diff changeset	894	declare UNION_def [noatp]
7619080e49f0 ATP blacklisting is now in theory data, attribute noatp paulson parents: 24280 diff changeset	895
11979 0a3dace545c5 converted theory "Set"; wenzelm parents: 11752 diff changeset	896	lemma UN_iff [simp]: "(b: (UN x:A. B x)) = (EX x:A. b: B x)"
0a3dace545c5 converted theory "Set"; wenzelm parents: 11752 diff changeset	897	by (unfold UNION_def) blast
0a3dace545c5 converted theory "Set"; wenzelm parents: 11752 diff changeset	898
0a3dace545c5 converted theory "Set"; wenzelm parents: 11752 diff changeset	899	lemma UN_I [intro]: "a:A ==> b: B a ==> b: (UN x:A. B x)"
0a3dace545c5 converted theory "Set"; wenzelm parents: 11752 diff changeset	900	-- {* The order of the premises presupposes that @{term A} is rigid;
0a3dace545c5 converted theory "Set"; wenzelm parents: 11752 diff changeset	901	@{term b} may be flexible. *}
0a3dace545c5 converted theory "Set"; wenzelm parents: 11752 diff changeset	902	by auto
0a3dace545c5 converted theory "Set"; wenzelm parents: 11752 diff changeset	903
0a3dace545c5 converted theory "Set"; wenzelm parents: 11752 diff changeset	904	lemma UN_E [elim!]: "b : (UN x:A. B x) ==> (!!x. x:A ==> b: B x ==> R) ==> R"
0a3dace545c5 converted theory "Set"; wenzelm parents: 11752 diff changeset	905	by (unfold UNION_def) blast
923 ff1574a81019 new version of HOL with curried function application clasohm parents: diff changeset	906
11979 0a3dace545c5 converted theory "Set"; wenzelm parents: 11752 diff changeset	907	lemma UN_cong [cong]:
0a3dace545c5 converted theory "Set"; wenzelm parents: 11752 diff changeset	908	"A = B ==> (!!x. x:B ==> C x = D x) ==> (UN x:A. C x) = (UN x:B. D x)"
0a3dace545c5 converted theory "Set"; wenzelm parents: 11752 diff changeset	909	by (simp add: UNION_def)
0a3dace545c5 converted theory "Set"; wenzelm parents: 11752 diff changeset	910
29691 9f03b5f847cd Added strong congruence rule for UN. berghofe parents: 28562 diff changeset	911	lemma strong_UN_cong:
9f03b5f847cd Added strong congruence rule for UN. berghofe parents: 28562 diff changeset	912	"A = B ==> (!!x. x:B =simp=> C x = D x) ==> (UN x:A. C x) = (UN x:B. D x)"
9f03b5f847cd Added strong congruence rule for UN. berghofe parents: 28562 diff changeset	913	by (simp add: UNION_def simp_implies_def)
9f03b5f847cd Added strong congruence rule for UN. berghofe parents: 28562 diff changeset	914
11979 0a3dace545c5 converted theory "Set"; wenzelm parents: 11752 diff changeset	915
0a3dace545c5 converted theory "Set"; wenzelm parents: 11752 diff changeset	916	subsubsection {* Intersections of families *}
0a3dace545c5 converted theory "Set"; wenzelm parents: 11752 diff changeset	917
0a3dace545c5 converted theory "Set"; wenzelm parents: 11752 diff changeset	918	text {* @{term [source] "INT x:A. B x"} is @{term "Inter (B`A)"}. *}
0a3dace545c5 converted theory "Set"; wenzelm parents: 11752 diff changeset	919
0a3dace545c5 converted theory "Set"; wenzelm parents: 11752 diff changeset	920	lemma INT_iff [simp]: "(b: (INT x:A. B x)) = (ALL x:A. b: B x)"
0a3dace545c5 converted theory "Set"; wenzelm parents: 11752 diff changeset	921	by (unfold INTER_def) blast
923 ff1574a81019 new version of HOL with curried function application clasohm parents: diff changeset	922
11979 0a3dace545c5 converted theory "Set"; wenzelm parents: 11752 diff changeset	923	lemma INT_I [intro!]: "(!!x. x:A ==> b: B x) ==> b : (INT x:A. B x)"
0a3dace545c5 converted theory "Set"; wenzelm parents: 11752 diff changeset	924	by (unfold INTER_def) blast
0a3dace545c5 converted theory "Set"; wenzelm parents: 11752 diff changeset	925
0a3dace545c5 converted theory "Set"; wenzelm parents: 11752 diff changeset	926	lemma INT_D [elim]: "b : (INT x:A. B x) ==> a:A ==> b: B a"
0a3dace545c5 converted theory "Set"; wenzelm parents: 11752 diff changeset	927	by auto
0a3dace545c5 converted theory "Set"; wenzelm parents: 11752 diff changeset	928
0a3dace545c5 converted theory "Set"; wenzelm parents: 11752 diff changeset	929	lemma INT_E [elim]: "b : (INT x:A. B x) ==> (b: B a ==> R) ==> (a~:A ==> R) ==> R"
0a3dace545c5 converted theory "Set"; wenzelm parents: 11752 diff changeset	930	-- {* "Classical" elimination -- by the Excluded Middle on @{prop "a:A"}. *}
0a3dace545c5 converted theory "Set"; wenzelm parents: 11752 diff changeset	931	by (unfold INTER_def) blast
0a3dace545c5 converted theory "Set"; wenzelm parents: 11752 diff changeset	932
0a3dace545c5 converted theory "Set"; wenzelm parents: 11752 diff changeset	933	lemma INT_cong [cong]:
0a3dace545c5 converted theory "Set"; wenzelm parents: 11752 diff changeset	934	"A = B ==> (!!x. x:B ==> C x = D x) ==> (INT x:A. C x) = (INT x:B. D x)"
0a3dace545c5 converted theory "Set"; wenzelm parents: 11752 diff changeset	935	by (simp add: INTER_def)
7238 36e58620ffc8 replaced HOL_quantifiers flag by "HOL" print mode; wenzelm parents: 5931 diff changeset	936
923 ff1574a81019 new version of HOL with curried function application clasohm parents: diff changeset	937
11979 0a3dace545c5 converted theory "Set"; wenzelm parents: 11752 diff changeset	938	subsubsection {* Union *}
0a3dace545c5 converted theory "Set"; wenzelm parents: 11752 diff changeset	939
24286 7619080e49f0 ATP blacklisting is now in theory data, attribute noatp paulson parents: 24280 diff changeset	940	lemma Union_iff [simp,noatp]: "(A : Union C) = (EX X:C. A:X)"
11979 0a3dace545c5 converted theory "Set"; wenzelm parents: 11752 diff changeset	941	by (unfold Union_def) blast
0a3dace545c5 converted theory "Set"; wenzelm parents: 11752 diff changeset	942
0a3dace545c5 converted theory "Set"; wenzelm parents: 11752 diff changeset	943	lemma UnionI [intro]: "X:C ==> A:X ==> A : Union C"
0a3dace545c5 converted theory "Set"; wenzelm parents: 11752 diff changeset	944	-- {* The order of the premises presupposes that @{term C} is rigid;
0a3dace545c5 converted theory "Set"; wenzelm parents: 11752 diff changeset	945	@{term A} may be flexible. *}
0a3dace545c5 converted theory "Set"; wenzelm parents: 11752 diff changeset	946	by auto
0a3dace545c5 converted theory "Set"; wenzelm parents: 11752 diff changeset	947
0a3dace545c5 converted theory "Set"; wenzelm parents: 11752 diff changeset	948	lemma UnionE [elim!]: "A : Union C ==> (!!X. A:X ==> X:C ==> R) ==> R"
0a3dace545c5 converted theory "Set"; wenzelm parents: 11752 diff changeset	949	by (unfold Union_def) blast
0a3dace545c5 converted theory "Set"; wenzelm parents: 11752 diff changeset	950
0a3dace545c5 converted theory "Set"; wenzelm parents: 11752 diff changeset	951
0a3dace545c5 converted theory "Set"; wenzelm parents: 11752 diff changeset	952	subsubsection {* Inter *}
0a3dace545c5 converted theory "Set"; wenzelm parents: 11752 diff changeset	953
24286 7619080e49f0 ATP blacklisting is now in theory data, attribute noatp paulson parents: 24280 diff changeset	954	lemma Inter_iff [simp,noatp]: "(A : Inter C) = (ALL X:C. A:X)"
11979 0a3dace545c5 converted theory "Set"; wenzelm parents: 11752 diff changeset	955	by (unfold Inter_def) blast
0a3dace545c5 converted theory "Set"; wenzelm parents: 11752 diff changeset	956
0a3dace545c5 converted theory "Set"; wenzelm parents: 11752 diff changeset	957	lemma InterI [intro!]: "(!!X. X:C ==> A:X) ==> A : Inter C"
0a3dace545c5 converted theory "Set"; wenzelm parents: 11752 diff changeset	958	by (simp add: Inter_def)
0a3dace545c5 converted theory "Set"; wenzelm parents: 11752 diff changeset	959
0a3dace545c5 converted theory "Set"; wenzelm parents: 11752 diff changeset	960	text {*
0a3dace545c5 converted theory "Set"; wenzelm parents: 11752 diff changeset	961	\medskip A ``destruct'' rule -- every @{term X} in @{term C}
0a3dace545c5 converted theory "Set"; wenzelm parents: 11752 diff changeset	962	contains @{term A} as an element, but @{prop "A:X"} can hold when
0a3dace545c5 converted theory "Set"; wenzelm parents: 11752 diff changeset	963	@{prop "X:C"} does not! This rule is analogous to @{text spec}.
0a3dace545c5 converted theory "Set"; wenzelm parents: 11752 diff changeset	964	*}
0a3dace545c5 converted theory "Set"; wenzelm parents: 11752 diff changeset	965
0a3dace545c5 converted theory "Set"; wenzelm parents: 11752 diff changeset	966	lemma InterD [elim]: "A : Inter C ==> X:C ==> A:X"
0a3dace545c5 converted theory "Set"; wenzelm parents: 11752 diff changeset	967	by auto
0a3dace545c5 converted theory "Set"; wenzelm parents: 11752 diff changeset	968
0a3dace545c5 converted theory "Set"; wenzelm parents: 11752 diff changeset	969	lemma InterE [elim]: "A : Inter C ==> (X~:C ==> R) ==> (A:X ==> R) ==> R"
0a3dace545c5 converted theory "Set"; wenzelm parents: 11752 diff changeset	970	-- {* ``Classical'' elimination rule -- does not require proving
0a3dace545c5 converted theory "Set"; wenzelm parents: 11752 diff changeset	971	@{prop "X:C"}. *}
0a3dace545c5 converted theory "Set"; wenzelm parents: 11752 diff changeset	972	by (unfold Inter_def) blast
0a3dace545c5 converted theory "Set"; wenzelm parents: 11752 diff changeset	973
30531 ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	974	text {*
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	975	\medskip Image of a set under a function. Frequently @{term b} does
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	976	not have the syntactic form of @{term "f x"}.
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	977	*}
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	978
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	979	declare image_def [noatp]
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	980
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	981	lemma image_eqI [simp, intro]: "b = f x ==> x:A ==> b : f`A"
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	982	by (unfold image_def) blast
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	983
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	984	lemma imageI: "x : A ==> f x : f ` A"
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	985	by (rule image_eqI) (rule refl)
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	986
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	987	lemma rev_image_eqI: "x:A ==> b = f x ==> b : f`A"
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	988	-- {* This version's more effective when we already have the
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	989	required @{term x}. *}
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	990	by (unfold image_def) blast
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	991
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	992	lemma imageE [elim!]:
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	993	"b : (%x. f x)`A ==> (!!x. b = f x ==> x:A ==> P) ==> P"
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	994	-- {* The eta-expansion gives variable-name preservation. *}
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	995	by (unfold image_def) blast
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	996
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	997	lemma image_Un: "f`(A Un B) = f`A Un f`B"
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	998	by blast
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	999
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	1000	lemma image_eq_UN: "f`A = (UN x:A. {f x})"
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	1001	by blast
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	1002
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	1003	lemma image_iff: "(z : f`A) = (EX x:A. z = f x)"
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	1004	by blast
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	1005
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	1006	lemma image_subset_iff: "(f`A \<subseteq> B) = (\<forall>x\<in>A. f x \<in> B)"
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	1007	-- {* This rewrite rule would confuse users if made default. *}
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	1008	by blast
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	1009
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	1010	lemma subset_image_iff: "(B \<subseteq> f`A) = (EX AA. AA \<subseteq> A & B = f`AA)"
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	1011	apply safe
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	1012	prefer 2 apply fast
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	1013	apply (rule_tac x = "{a. a : A & f a : B}" in exI, fast)
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	1014	done
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	1015
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	1016	lemma image_subsetI: "(!!x. x \<in> A ==> f x \<in> B) ==> f`A \<subseteq> B"
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	1017	-- {* Replaces the three steps @{text subsetI}, @{text imageE},
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	1018	@{text hypsubst}, but breaks too many existing proofs. *}
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	1019	by blast
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	1020
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	1021	text {*
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	1022	\medskip Range of a function -- just a translation for image!
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	1023	*}
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	1024
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	1025	lemma range_eqI: "b = f x ==> b \<in> range f"
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	1026	by simp
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	1027
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	1028	lemma rangeI: "f x \<in> range f"
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	1029	by simp
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	1030
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	1031	lemma rangeE [elim?]: "b \<in> range (\<lambda>x. f x) ==> (!!x. b = f x ==> P) ==> P"
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	1032	by blast
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	1033
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	1034
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	1035	subsubsection {* Set reasoning tools *}
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	1036
31166 a90fe83f58ea "{x. P x & x=t & Q x}" is now rewritten to "if P t & Q t then {t} else {}" nipkow parents: 30814 diff changeset	1037	text{* Elimination of @{text"{x. \<dots> & x=t & \<dots>}"}. *}
a90fe83f58ea "{x. P x & x=t & Q x}" is now rewritten to "if P t & Q t then {t} else {}" nipkow parents: 30814 diff changeset	1038
31197 c1c163ec6c44 fine-tuned elimination of comprehensions involving x=t. nipkow parents: 31166 diff changeset	1039	lemma Collect_conv_if: "{x. x=a & P x} = (if P a then {a} else {})"
c1c163ec6c44 fine-tuned elimination of comprehensions involving x=t. nipkow parents: 31166 diff changeset	1040	by auto
c1c163ec6c44 fine-tuned elimination of comprehensions involving x=t. nipkow parents: 31166 diff changeset	1041
c1c163ec6c44 fine-tuned elimination of comprehensions involving x=t. nipkow parents: 31166 diff changeset	1042	lemma Collect_conv_if2: "{x. a=x & P x} = (if P a then {a} else {})"
31166 a90fe83f58ea "{x. P x & x=t & Q x}" is now rewritten to "if P t & Q t then {t} else {}" nipkow parents: 30814 diff changeset	1043	by auto
a90fe83f58ea "{x. P x & x=t & Q x}" is now rewritten to "if P t & Q t then {t} else {}" nipkow parents: 30814 diff changeset	1044
31197 c1c163ec6c44 fine-tuned elimination of comprehensions involving x=t. nipkow parents: 31166 diff changeset	1045	text {*
c1c163ec6c44 fine-tuned elimination of comprehensions involving x=t. nipkow parents: 31166 diff changeset	1046	Simproc for pulling @{text "x=t"} in @{text "{x. \<dots> & x=t & \<dots>}"}
c1c163ec6c44 fine-tuned elimination of comprehensions involving x=t. nipkow parents: 31166 diff changeset	1047	to the front (and similarly for @{text "t=x"}):
c1c163ec6c44 fine-tuned elimination of comprehensions involving x=t. nipkow parents: 31166 diff changeset	1048	*}
31166 a90fe83f58ea "{x. P x & x=t & Q x}" is now rewritten to "if P t & Q t then {t} else {}" nipkow parents: 30814 diff changeset	1049
a90fe83f58ea "{x. P x & x=t & Q x}" is now rewritten to "if P t & Q t then {t} else {}" nipkow parents: 30814 diff changeset	1050	ML{*
a90fe83f58ea "{x. P x & x=t & Q x}" is now rewritten to "if P t & Q t then {t} else {}" nipkow parents: 30814 diff changeset	1051	local
a90fe83f58ea "{x. P x & x=t & Q x}" is now rewritten to "if P t & Q t then {t} else {}" nipkow parents: 30814 diff changeset	1052	val Coll_perm_tac = rtac @{thm Collect_cong} 1 THEN rtac @{thm iffI} 1 THEN
a90fe83f58ea "{x. P x & x=t & Q x}" is now rewritten to "if P t & Q t then {t} else {}" nipkow parents: 30814 diff changeset	1053	ALLGOALS(EVERY'[REPEAT_DETERM o (etac @{thm conjE}),
a90fe83f58ea "{x. P x & x=t & Q x}" is now rewritten to "if P t & Q t then {t} else {}" nipkow parents: 30814 diff changeset	1054	DEPTH_SOLVE_1 o (ares_tac [@{thm conjI}])])
a90fe83f58ea "{x. P x & x=t & Q x}" is now rewritten to "if P t & Q t then {t} else {}" nipkow parents: 30814 diff changeset	1055	in
a90fe83f58ea "{x. P x & x=t & Q x}" is now rewritten to "if P t & Q t then {t} else {}" nipkow parents: 30814 diff changeset	1056	val defColl_regroup = Simplifier.simproc (the_context ())
a90fe83f58ea "{x. P x & x=t & Q x}" is now rewritten to "if P t & Q t then {t} else {}" nipkow parents: 30814 diff changeset	1057	"defined Collect" ["{x. P x & Q x}"]
a90fe83f58ea "{x. P x & x=t & Q x}" is now rewritten to "if P t & Q t then {t} else {}" nipkow parents: 30814 diff changeset	1058	(Quantifier1.rearrange_Coll Coll_perm_tac)
a90fe83f58ea "{x. P x & x=t & Q x}" is now rewritten to "if P t & Q t then {t} else {}" nipkow parents: 30814 diff changeset	1059	end;
a90fe83f58ea "{x. P x & x=t & Q x}" is now rewritten to "if P t & Q t then {t} else {}" nipkow parents: 30814 diff changeset	1060
a90fe83f58ea "{x. P x & x=t & Q x}" is now rewritten to "if P t & Q t then {t} else {}" nipkow parents: 30814 diff changeset	1061	Addsimprocs [defColl_regroup];
a90fe83f58ea "{x. P x & x=t & Q x}" is now rewritten to "if P t & Q t then {t} else {}" nipkow parents: 30814 diff changeset	1062	*}
a90fe83f58ea "{x. P x & x=t & Q x}" is now rewritten to "if P t & Q t then {t} else {}" nipkow parents: 30814 diff changeset	1063
30531 ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	1064	text {*
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	1065	Rewrite rules for boolean case-splitting: faster than @{text
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	1066	"split_if [split]"}.
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	1067	*}
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	1068
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	1069	lemma split_if_eq1: "((if Q then x else y) = b) = ((Q --> x = b) & (~ Q --> y = b))"
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	1070	by (rule split_if)
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	1071
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	1072	lemma split_if_eq2: "(a = (if Q then x else y)) = ((Q --> a = x) & (~ Q --> a = y))"
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	1073	by (rule split_if)
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	1074
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	1075	text {*
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	1076	Split ifs on either side of the membership relation. Not for @{text
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	1077	"[simp]"} -- can cause goals to blow up!
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	1078	*}
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	1079
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	1080	lemma split_if_mem1: "((if Q then x else y) : b) = ((Q --> x : b) & (~ Q --> y : b))"
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	1081	by (rule split_if)
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	1082
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	1083	lemma split_if_mem2: "(a : (if Q then x else y)) = ((Q --> a : x) & (~ Q --> a : y))"
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	1084	by (rule split_if [where P="%S. a : S"])
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	1085
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	1086	lemmas split_ifs = if_bool_eq_conj split_if_eq1 split_if_eq2 split_if_mem1 split_if_mem2
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	1087
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	1088	(*Would like to add these, but the existing code only searches for the
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	1089	outer-level constant, which in this case is just "op :"; we instead need
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	1090	to use term-nets to associate patterns with rules. Also, if a rule fails to
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	1091	apply, then the formula should be kept.
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	1092	[("HOL.uminus", Compl_iff RS iffD1), ("HOL.minus", [Diff_iff RS iffD1]),
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	1093	("Int", [IntD1,IntD2]),
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	1094	("Collect", [CollectD]), ("Inter", [InterD]), ("INTER", [INT_D])]
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	1095	*)
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	1096
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	1097	ML {*
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	1098	val mksimps_pairs = [(@{const_name Ball}, @{thms bspec})] @ mksimps_pairs;
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	1099	*}
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	1100	declaration {* fn _ =>
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	1101	Simplifier.map_ss (fn ss => ss setmksimps (mksimps mksimps_pairs))
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	1102	*}
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	1103
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	1104
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	1105	subsubsection {* The ``proper subset'' relation *}
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	1106
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	1107	lemma psubsetI [intro!,noatp]: "A \<subseteq> B ==> A \<noteq> B ==> A \<subset> B"
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	1108	by (unfold less_le) blast
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	1109
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	1110	lemma psubsetE [elim!,noatp]:
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	1111	"[\|A \<subset> B; [\|A \<subseteq> B; ~ (B\<subseteq>A)\|] ==> R\|] ==> R"
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	1112	by (unfold less_le) blast
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	1113
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	1114	lemma psubset_insert_iff:
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	1115	"(A \<subset> insert x B) = (if x \<in> B then A \<subset> B else if x \<in> A then A - {x} \<subset> B else A \<subseteq> B)"
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	1116	by (auto simp add: less_le subset_insert_iff)
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	1117
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	1118	lemma psubset_eq: "(A \<subset> B) = (A \<subseteq> B & A \<noteq> B)"
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	1119	by (simp only: less_le)
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	1120
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	1121	lemma psubset_imp_subset: "A \<subset> B ==> A \<subseteq> B"
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	1122	by (simp add: psubset_eq)
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	1123
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	1124	lemma psubset_trans: "[\| A \<subset> B; B \<subset> C \|] ==> A \<subset> C"
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	1125	apply (unfold less_le)
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	1126	apply (auto dest: subset_antisym)
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	1127	done
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	1128
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	1129	lemma psubsetD: "[\| A \<subset> B; c \<in> A \|] ==> c \<in> B"
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	1130	apply (unfold less_le)
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	1131	apply (auto dest: subsetD)
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	1132	done
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	1133
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	1134	lemma psubset_subset_trans: "A \<subset> B ==> B \<subseteq> C ==> A \<subset> C"
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	1135	by (auto simp add: psubset_eq)
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	1136
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	1137	lemma subset_psubset_trans: "A \<subseteq> B ==> B \<subset> C ==> A \<subset> C"
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	1138	by (auto simp add: psubset_eq)
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	1139
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	1140	lemma psubset_imp_ex_mem: "A \<subset> B ==> \<exists>b. b \<in> (B - A)"
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	1141	by (unfold less_le) blast
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	1142
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	1143	lemma atomize_ball:
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	1144	"(!!x. x \<in> A ==> P x) == Trueprop (\<forall>x\<in>A. P x)"
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	1145	by (simp only: Ball_def atomize_all atomize_imp)
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	1146
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	1147	lemmas [symmetric, rulify] = atomize_ball
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	1148	and [symmetric, defn] = atomize_ball
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	1149
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	1150
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	1151	subsection {* Further set-theory lemmas *}
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	1152
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	1153	subsubsection {* Derived rules involving subsets. *}
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	1154
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	1155	text {* @{text insert}. *}
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	1156
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	1157	lemma subset_insertI: "B \<subseteq> insert a B"
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	1158	by (rule subsetI) (erule insertI2)
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	1159
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	1160	lemma subset_insertI2: "A \<subseteq> B \<Longrightarrow> A \<subseteq> insert b B"
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	1161	by blast
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	1162
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	1163	lemma subset_insert: "x \<notin> A ==> (A \<subseteq> insert x B) = (A \<subseteq> B)"
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	1164	by blast
12897 f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1165
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1166
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1167	text {* \medskip Big Union -- least upper bound of a set. *}
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1168
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1169	lemma Union_upper: "B \<in> A ==> B \<subseteq> Union A"
17589 58eeffd73be1 renamed rules to iprover nipkow parents: 17508 diff changeset	1170	by (iprover intro: subsetI UnionI)
12897 f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1171
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1172	lemma Union_least: "(!!X. X \<in> A ==> X \<subseteq> C) ==> Union A \<subseteq> C"
17589 58eeffd73be1 renamed rules to iprover nipkow parents: 17508 diff changeset	1173	by (iprover intro: subsetI elim: UnionE dest: subsetD)
12897 f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1174
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1175
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1176	text {* \medskip General union. *}
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1177
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1178	lemma UN_upper: "a \<in> A ==> B a \<subseteq> (\<Union>x\<in>A. B x)"
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1179	by blast
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1180
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1181	lemma UN_least: "(!!x. x \<in> A ==> B x \<subseteq> C) ==> (\<Union>x\<in>A. B x) \<subseteq> C"
17589 58eeffd73be1 renamed rules to iprover nipkow parents: 17508 diff changeset	1182	by (iprover intro: subsetI elim: UN_E dest: subsetD)
12897 f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1183
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1184
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1185	text {* \medskip Big Intersection -- greatest lower bound of a set. *}
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1186
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1187	lemma Inter_lower: "B \<in> A ==> Inter A \<subseteq> B"
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1188	by blast
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1189
14551 2cb6ff394bfb Various changes to HOL-Algebra; ballarin parents: 14479 diff changeset	1190	lemma Inter_subset:
2cb6ff394bfb Various changes to HOL-Algebra; ballarin parents: 14479 diff changeset	1191	"[\| !!X. X \<in> A ==> X \<subseteq> B; A ~= {} \|] ==> \<Inter>A \<subseteq> B"
2cb6ff394bfb Various changes to HOL-Algebra; ballarin parents: 14479 diff changeset	1192	by blast
2cb6ff394bfb Various changes to HOL-Algebra; ballarin parents: 14479 diff changeset	1193
12897 f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1194	lemma Inter_greatest: "(!!X. X \<in> A ==> C \<subseteq> X) ==> C \<subseteq> Inter A"
17589 58eeffd73be1 renamed rules to iprover nipkow parents: 17508 diff changeset	1195	by (iprover intro: InterI subsetI dest: subsetD)
12897 f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1196
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1197	lemma INT_lower: "a \<in> A ==> (\<Inter>x\<in>A. B x) \<subseteq> B a"
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1198	by blast
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1199
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1200	lemma INT_greatest: "(!!x. x \<in> A ==> C \<subseteq> B x) ==> C \<subseteq> (\<Inter>x\<in>A. B x)"
17589 58eeffd73be1 renamed rules to iprover nipkow parents: 17508 diff changeset	1201	by (iprover intro: INT_I subsetI dest: subsetD)
12897 f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1202
30531 ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	1203
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	1204	text {* \medskip Finite Union -- the least upper bound of two sets. *}
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	1205
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	1206	lemma Un_upper1: "A \<subseteq> A \<union> B"
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	1207	by blast
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	1208
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	1209	lemma Un_upper2: "B \<subseteq> A \<union> B"
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	1210	by blast
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	1211
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	1212	lemma Un_least: "A \<subseteq> C ==> B \<subseteq> C ==> A \<union> B \<subseteq> C"
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	1213	by blast
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	1214
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	1215
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	1216	text {* \medskip Finite Intersection -- the greatest lower bound of two sets. *}
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	1217
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	1218	lemma Int_lower1: "A \<inter> B \<subseteq> A"
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	1219	by blast
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	1220
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	1221	lemma Int_lower2: "A \<inter> B \<subseteq> B"
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	1222	by blast
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	1223
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	1224	lemma Int_greatest: "C \<subseteq> A ==> C \<subseteq> B ==> C \<subseteq> A \<inter> B"
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	1225	by blast
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	1226
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	1227
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	1228	text {* \medskip Set difference. *}
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	1229
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	1230	lemma Diff_subset: "A - B \<subseteq> A"
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	1231	by blast
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	1232
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	1233	lemma Diff_subset_conv: "(A - B \<subseteq> C) = (A \<subseteq> B \<union> C)"
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	1234	by blast
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	1235
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	1236
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	1237	subsubsection {* Equalities involving union, intersection, inclusion, etc. *}
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	1238
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	1239	text {* @{text "{}"}. *}
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	1240
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	1241	lemma Collect_const [simp]: "{s. P} = (if P then UNIV else {})"
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	1242	-- {* supersedes @{text "Collect_False_empty"} *}
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	1243	by auto
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	1244
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	1245	lemma subset_empty [simp]: "(A \<subseteq> {}) = (A = {})"
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	1246	by blast
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	1247
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	1248	lemma not_psubset_empty [iff]: "\<not> (A < {})"
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	1249	by (unfold less_le) blast
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	1250
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	1251	lemma Collect_empty_eq [simp]: "(Collect P = {}) = (\<forall>x. \<not> P x)"
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	1252	by blast
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	1253
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	1254	lemma empty_Collect_eq [simp]: "({} = Collect P) = (\<forall>x. \<not> P x)"
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	1255	by blast
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	1256
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	1257	lemma Collect_neg_eq: "{x. \<not> P x} = - {x. P x}"
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	1258	by blast
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	1259
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	1260	lemma Collect_disj_eq: "{x. P x \| Q x} = {x. P x} \<union> {x. Q x}"
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	1261	by blast
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	1262
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	1263	lemma Collect_imp_eq: "{x. P x --> Q x} = -{x. P x} \<union> {x. Q x}"
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	1264	by blast
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	1265
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	1266	lemma Collect_conj_eq: "{x. P x & Q x} = {x. P x} \<inter> {x. Q x}"
12897 f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1267	by blast
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1268
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1269	lemma Collect_all_eq: "{x. \<forall>y. P x y} = (\<Inter>y. {x. P x y})"
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1270	by blast
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1271
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1272	lemma Collect_ball_eq: "{x. \<forall>y\<in>A. P x y} = (\<Inter>y\<in>A. {x. P x y})"
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1273	by blast
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1274
24286 7619080e49f0 ATP blacklisting is now in theory data, attribute noatp paulson parents: 24280 diff changeset	1275	lemma Collect_ex_eq [noatp]: "{x. \<exists>y. P x y} = (\<Union>y. {x. P x y})"
12897 f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1276	by blast
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1277
24286 7619080e49f0 ATP blacklisting is now in theory data, attribute noatp paulson parents: 24280 diff changeset	1278	lemma Collect_bex_eq [noatp]: "{x. \<exists>y\<in>A. P x y} = (\<Union>y\<in>A. {x. P x y})"
12897 f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1279	by blast
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1280
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1281
30531 ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	1282	text {* \medskip @{text insert}. *}
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	1283
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	1284	lemma insert_is_Un: "insert a A = {a} Un A"
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	1285	-- {* NOT SUITABLE FOR REWRITING since @{text "{a} == insert a {}"} *}
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	1286	by blast
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	1287
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	1288	lemma insert_not_empty [simp]: "insert a A \<noteq> {}"
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	1289	by blast
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	1290
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	1291	lemmas empty_not_insert = insert_not_empty [symmetric, standard]
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	1292	declare empty_not_insert [simp]
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	1293
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	1294	lemma insert_absorb: "a \<in> A ==> insert a A = A"
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	1295	-- {* @{text "[simp]"} causes recursive calls when there are nested inserts *}
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	1296	-- {* with \emph{quadratic} running time *}
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	1297	by blast
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	1298
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	1299	lemma insert_absorb2 [simp]: "insert x (insert x A) = insert x A"
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	1300	by blast
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	1301
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	1302	lemma insert_commute: "insert x (insert y A) = insert y (insert x A)"
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	1303	by blast
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	1304
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	1305	lemma insert_subset [simp]: "(insert x A \<subseteq> B) = (x \<in> B & A \<subseteq> B)"
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	1306	by blast
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	1307
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	1308	lemma mk_disjoint_insert: "a \<in> A ==> \<exists>B. A = insert a B & a \<notin> B"
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	1309	-- {* use new @{text B} rather than @{text "A - {a}"} to avoid infinite unfolding *}
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	1310	apply (rule_tac x = "A - {a}" in exI, blast)
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	1311	done
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	1312
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	1313	lemma insert_Collect: "insert a (Collect P) = {u. u \<noteq> a --> P u}"
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	1314	by auto
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	1315
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	1316	lemma UN_insert_distrib: "u \<in> A ==> (\<Union>x\<in>A. insert a (B x)) = insert a (\<Union>x\<in>A. B x)"
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	1317	by blast
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	1318
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	1319	lemma insert_inter_insert[simp]: "insert a A \<inter> insert a B = insert a (A \<inter> B)"
14742 dde816115d6a New simp rules added: mehta parents: 14692 diff changeset	1320	by blast
14302 6c24235e8d5d * empty log message * nipkow parents: 14208 diff changeset	1321
30531 ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	1322	lemma insert_disjoint [simp,noatp]:
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	1323	"(insert a A \<inter> B = {}) = (a \<notin> B \<and> A \<inter> B = {})"
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	1324	"({} = insert a A \<inter> B) = (a \<notin> B \<and> {} = A \<inter> B)"
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	1325	by auto
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	1326
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	1327	lemma disjoint_insert [simp,noatp]:
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	1328	"(B \<inter> insert a A = {}) = (a \<notin> B \<and> B \<inter> A = {})"
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	1329	"({} = A \<inter> insert b B) = (b \<notin> A \<and> {} = A \<inter> B)"
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	1330	by auto
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	1331
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	1332	text {* \medskip @{text image}. *}
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	1333
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	1334	lemma image_empty [simp]: "f`{} = {}"
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	1335	by blast
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	1336
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	1337	lemma image_insert [simp]: "f ` insert a B = insert (f a) (f`B)"
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	1338	by blast
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	1339
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	1340	lemma image_constant: "x \<in> A ==> (\<lambda>x. c) ` A = {c}"
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	1341	by auto
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	1342
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	1343	lemma image_constant_conv: "(%x. c) ` A = (if A = {} then {} else {c})"
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	1344	by auto
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	1345
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	1346	lemma image_image: "f ` (g ` A) = (\<lambda>x. f (g x)) ` A"
31441 428e4caf2299 finite lemmas nipkow parents: 31197 diff changeset	1347	by blast
30531 ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	1348
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	1349	lemma insert_image [simp]: "x \<in> A ==> insert (f x) (f`A) = f`A"
31441 428e4caf2299 finite lemmas nipkow parents: 31197 diff changeset	1350	by blast
30531 ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	1351
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	1352	lemma image_is_empty [iff]: "(f`A = {}) = (A = {})"
31441 428e4caf2299 finite lemmas nipkow parents: 31197 diff changeset	1353	by blast
428e4caf2299 finite lemmas nipkow parents: 31197 diff changeset	1354
428e4caf2299 finite lemmas nipkow parents: 31197 diff changeset	1355	lemma empty_is_image[iff]: "({} = f ` A) = (A = {})"
428e4caf2299 finite lemmas nipkow parents: 31197 diff changeset	1356	by blast
30531 ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	1357
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	1358
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	1359	lemma image_Collect [noatp]: "f ` {x. P x} = {f x \| x. P x}"
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	1360	-- {* NOT suitable as a default simprule: the RHS isn't simpler than the LHS,
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	1361	with its implicit quantifier and conjunction. Also image enjoys better
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	1362	equational properties than does the RHS. *}
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	1363	by blast
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	1364
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	1365	lemma if_image_distrib [simp]:
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	1366	"(\<lambda>x. if P x then f x else g x) ` S
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	1367	= (f ` (S \<inter> {x. P x})) \<union> (g ` (S \<inter> {x. \<not> P x}))"
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	1368	by (auto simp add: image_def)
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	1369
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	1370	lemma image_cong: "M = N ==> (!!x. x \<in> N ==> f x = g x) ==> f`M = g`N"
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	1371	by (simp add: image_def)
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	1372
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	1373
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	1374	text {* \medskip @{text range}. *}
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	1375
24286 7619080e49f0 ATP blacklisting is now in theory data, attribute noatp paulson parents: 24280 diff changeset	1376	lemma full_SetCompr_eq [noatp]: "{u. \<exists>x. u = f x} = range f"
12897 f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1377	by auto
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1378
27418 564117b58d73 remove simp attribute from range_composition huffman parents: 27106 diff changeset	1379	lemma range_composition: "range (\<lambda>x. f (g x)) = f`range g"
14208 144f45277d5a misc tidying paulson parents: 14098 diff changeset	1380	by (subst image_image, simp)
12897 f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1381
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1382
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1383	text {* \medskip @{text Int} *}
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1384
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1385	lemma Int_absorb [simp]: "A \<inter> A = A"
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1386	by blast
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1387
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1388	lemma Int_left_absorb: "A \<inter> (A \<inter> B) = A \<inter> B"
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1389	by blast
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1390
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1391	lemma Int_commute: "A \<inter> B = B \<inter> A"
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1392	by blast
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1393
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1394	lemma Int_left_commute: "A \<inter> (B \<inter> C) = B \<inter> (A \<inter> C)"
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1395	by blast
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1396
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1397	lemma Int_assoc: "(A \<inter> B) \<inter> C = A \<inter> (B \<inter> C)"
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1398	by blast
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1399
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1400	lemmas Int_ac = Int_assoc Int_left_absorb Int_commute Int_left_commute
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1401	-- {* Intersection is an AC-operator *}
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1402
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1403	lemma Int_absorb1: "B \<subseteq> A ==> A \<inter> B = B"
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1404	by blast
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1405
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1406	lemma Int_absorb2: "A \<subseteq> B ==> A \<inter> B = A"
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1407	by blast
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1408
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1409	lemma Int_empty_left [simp]: "{} \<inter> B = {}"
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1410	by blast
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1411
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1412	lemma Int_empty_right [simp]: "A \<inter> {} = {}"
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1413	by blast
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1414
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1415	lemma disjoint_eq_subset_Compl: "(A \<inter> B = {}) = (A \<subseteq> -B)"
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1416	by blast
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1417
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1418	lemma disjoint_iff_not_equal: "(A \<inter> B = {}) = (\<forall>x\<in>A. \<forall>y\<in>B. x \<noteq> y)"
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1419	by blast
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1420
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1421	lemma Int_UNIV_left [simp]: "UNIV \<inter> B = B"
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1422	by blast
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1423
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1424	lemma Int_UNIV_right [simp]: "A \<inter> UNIV = A"
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1425	by blast
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1426
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1427	lemma Int_eq_Inter: "A \<inter> B = \<Inter>{A, B}"
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1428	by blast
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1429
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1430	lemma Int_Un_distrib: "A \<inter> (B \<union> C) = (A \<inter> B) \<union> (A \<inter> C)"
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1431	by blast
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1432
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1433	lemma Int_Un_distrib2: "(B \<union> C) \<inter> A = (B \<inter> A) \<union> (C \<inter> A)"
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1434	by blast
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1435
24286 7619080e49f0 ATP blacklisting is now in theory data, attribute noatp paulson parents: 24280 diff changeset	1436	lemma Int_UNIV [simp,noatp]: "(A \<inter> B = UNIV) = (A = UNIV & B = UNIV)"
12897 f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1437	by blast
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1438
15102 04b0e943fcc9 new simprules Int_subset_iff and Un_subset_iff paulson parents: 14981 diff changeset	1439	lemma Int_subset_iff [simp]: "(C \<subseteq> A \<inter> B) = (C \<subseteq> A & C \<subseteq> B)"
12897 f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1440	by blast
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1441
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1442	lemma Int_Collect: "(x \<in> A \<inter> {x. P x}) = (x \<in> A & P x)"
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1443	by blast
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1444
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1445
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1446	text {* \medskip @{text Un}. *}
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1447
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1448	lemma Un_absorb [simp]: "A \<union> A = A"
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1449	by blast
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1450
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1451	lemma Un_left_absorb: "A \<union> (A \<union> B) = A \<union> B"
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1452	by blast
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1453
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1454	lemma Un_commute: "A \<union> B = B \<union> A"
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1455	by blast
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1456
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1457	lemma Un_left_commute: "A \<union> (B \<union> C) = B \<union> (A \<union> C)"
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1458	by blast
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1459
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1460	lemma Un_assoc: "(A \<union> B) \<union> C = A \<union> (B \<union> C)"
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1461	by blast
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1462
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1463	lemmas Un_ac = Un_assoc Un_left_absorb Un_commute Un_left_commute
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1464	-- {* Union is an AC-operator *}
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1465
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1466	lemma Un_absorb1: "A \<subseteq> B ==> A \<union> B = B"
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1467	by blast
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1468
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1469	lemma Un_absorb2: "B \<subseteq> A ==> A \<union> B = A"
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1470	by blast
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1471
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1472	lemma Un_empty_left [simp]: "{} \<union> B = B"
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1473	by blast
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1474
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1475	lemma Un_empty_right [simp]: "A \<union> {} = A"
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1476	by blast
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1477
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1478	lemma Un_UNIV_left [simp]: "UNIV \<union> B = UNIV"
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1479	by blast
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1480
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1481	lemma Un_UNIV_right [simp]: "A \<union> UNIV = UNIV"
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1482	by blast
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1483
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1484	lemma Un_eq_Union: "A \<union> B = \<Union>{A, B}"
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1485	by blast
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1486
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1487	lemma Un_insert_left [simp]: "(insert a B) \<union> C = insert a (B \<union> C)"
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1488	by blast
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1489
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1490	lemma Un_insert_right [simp]: "A \<union> (insert a B) = insert a (A \<union> B)"
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1491	by blast
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1492
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1493	lemma Int_insert_left:
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1494	"(insert a B) Int C = (if a \<in> C then insert a (B \<inter> C) else B \<inter> C)"
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1495	by auto
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1496
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1497	lemma Int_insert_right:
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1498	"A \<inter> (insert a B) = (if a \<in> A then insert a (A \<inter> B) else A \<inter> B)"
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1499	by auto
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1500
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1501	lemma Un_Int_distrib: "A \<union> (B \<inter> C) = (A \<union> B) \<inter> (A \<union> C)"
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1502	by blast
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1503
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1504	lemma Un_Int_distrib2: "(B \<inter> C) \<union> A = (B \<union> A) \<inter> (C \<union> A)"
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1505	by blast
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1506
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1507	lemma Un_Int_crazy:
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1508	"(A \<inter> B) \<union> (B \<inter> C) \<union> (C \<inter> A) = (A \<union> B) \<inter> (B \<union> C) \<inter> (C \<union> A)"
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1509	by blast
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1510
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1511	lemma subset_Un_eq: "(A \<subseteq> B) = (A \<union> B = B)"
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1512	by blast
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1513
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1514	lemma Un_empty [iff]: "(A \<union> B = {}) = (A = {} & B = {})"
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1515	by blast
15102 04b0e943fcc9 new simprules Int_subset_iff and Un_subset_iff paulson parents: 14981 diff changeset	1516
04b0e943fcc9 new simprules Int_subset_iff and Un_subset_iff paulson parents: 14981 diff changeset	1517	lemma Un_subset_iff [simp]: "(A \<union> B \<subseteq> C) = (A \<subseteq> C & B \<subseteq> C)"
12897 f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1518	by blast
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1519
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1520	lemma Un_Diff_Int: "(A - B) \<union> (A \<inter> B) = A"
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1521	by blast
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1522
22172 e7d6cb237b5e some new lemmas paulson parents: 22139 diff changeset	1523	lemma Diff_Int2: "A \<inter> C - B \<inter> C = A \<inter> C - B"
e7d6cb237b5e some new lemmas paulson parents: 22139 diff changeset	1524	by blast
e7d6cb237b5e some new lemmas paulson parents: 22139 diff changeset	1525
12897 f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1526
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1527	text {* \medskip Set complement *}
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1528
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1529	lemma Compl_disjoint [simp]: "A \<inter> -A = {}"
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1530	by blast
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1531
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1532	lemma Compl_disjoint2 [simp]: "-A \<inter> A = {}"
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1533	by blast
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1534
13818 274fda8cca4b new theorem Compl_partition2 paulson parents: 13764 diff changeset	1535	lemma Compl_partition: "A \<union> -A = UNIV"
274fda8cca4b new theorem Compl_partition2 paulson parents: 13764 diff changeset	1536	by blast
274fda8cca4b new theorem Compl_partition2 paulson parents: 13764 diff changeset	1537
274fda8cca4b new theorem Compl_partition2 paulson parents: 13764 diff changeset	1538	lemma Compl_partition2: "-A \<union> A = UNIV"
12897 f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1539	by blast
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1540
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1541	lemma double_complement [simp]: "- (-A) = (A::'a set)"
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1542	by blast
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1543
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1544	lemma Compl_Un [simp]: "-(A \<union> B) = (-A) \<inter> (-B)"
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1545	by blast
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1546
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1547	lemma Compl_Int [simp]: "-(A \<inter> B) = (-A) \<union> (-B)"
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1548	by blast
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1549
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1550	lemma Compl_UN [simp]: "-(\<Union>x\<in>A. B x) = (\<Inter>x\<in>A. -B x)"
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1551	by blast
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1552
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1553	lemma Compl_INT [simp]: "-(\<Inter>x\<in>A. B x) = (\<Union>x\<in>A. -B x)"
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1554	by blast
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1555
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1556	lemma subset_Compl_self_eq: "(A \<subseteq> -A) = (A = {})"
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1557	by blast
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1558
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1559	lemma Un_Int_assoc_eq: "((A \<inter> B) \<union> C = A \<inter> (B \<union> C)) = (C \<subseteq> A)"
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1560	-- {* Halmos, Naive Set Theory, page 16. *}
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1561	by blast
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1562
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1563	lemma Compl_UNIV_eq [simp]: "-UNIV = {}"
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1564	by blast
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1565
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1566	lemma Compl_empty_eq [simp]: "-{} = UNIV"
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1567	by blast
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1568
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1569	lemma Compl_subset_Compl_iff [iff]: "(-A \<subseteq> -B) = (B \<subseteq> A)"
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1570	by blast
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1571
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1572	lemma Compl_eq_Compl_iff [iff]: "(-A = -B) = (A = (B::'a set))"
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1573	by blast
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1574
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1575
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1576	text {* \medskip @{text Union}. *}
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1577
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1578	lemma Union_empty [simp]: "Union({}) = {}"
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1579	by blast
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1580
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1581	lemma Union_UNIV [simp]: "Union UNIV = UNIV"
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1582	by blast
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1583
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1584	lemma Union_insert [simp]: "Union (insert a B) = a \<union> \<Union>B"
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1585	by blast
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1586
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1587	lemma Union_Un_distrib [simp]: "\<Union>(A Un B) = \<Union>A \<union> \<Union>B"
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1588	by blast
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1589
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1590	lemma Union_Int_subset: "\<Union>(A \<inter> B) \<subseteq> \<Union>A \<inter> \<Union>B"
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1591	by blast
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1592
24286 7619080e49f0 ATP blacklisting is now in theory data, attribute noatp paulson parents: 24280 diff changeset	1593	lemma Union_empty_conv [simp,noatp]: "(\<Union>A = {}) = (\<forall>x\<in>A. x = {})"
13653 ef123b9e8089 Added a few thms about UN/INT/{}/UNIV nipkow parents: 13624 diff changeset	1594	by blast
ef123b9e8089 Added a few thms about UN/INT/{}/UNIV nipkow parents: 13624 diff changeset	1595
24286 7619080e49f0 ATP blacklisting is now in theory data, attribute noatp paulson parents: 24280 diff changeset	1596	lemma empty_Union_conv [simp,noatp]: "({} = \<Union>A) = (\<forall>x\<in>A. x = {})"
13653 ef123b9e8089 Added a few thms about UN/INT/{}/UNIV nipkow parents: 13624 diff changeset	1597	by blast
12897 f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1598
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1599	lemma Union_disjoint: "(\<Union>C \<inter> A = {}) = (\<forall>B\<in>C. B \<inter> A = {})"
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1600	by blast
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1601
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1602
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1603	text {* \medskip @{text Inter}. *}
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1604
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1605	lemma Inter_empty [simp]: "\<Inter>{} = UNIV"
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1606	by blast
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1607
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1608	lemma Inter_UNIV [simp]: "\<Inter>UNIV = {}"
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1609	by blast
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1610
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1611	lemma Inter_insert [simp]: "\<Inter>(insert a B) = a \<inter> \<Inter>B"
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1612	by blast
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1613
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1614	lemma Inter_Un_subset: "\<Inter>A \<union> \<Inter>B \<subseteq> \<Inter>(A \<inter> B)"
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1615	by blast
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1616
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1617	lemma Inter_Un_distrib: "\<Inter>(A \<union> B) = \<Inter>A \<inter> \<Inter>B"
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1618	by blast
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1619
24286 7619080e49f0 ATP blacklisting is now in theory data, attribute noatp paulson parents: 24280 diff changeset	1620	lemma Inter_UNIV_conv [simp,noatp]:
13653 ef123b9e8089 Added a few thms about UN/INT/{}/UNIV nipkow parents: 13624 diff changeset	1621	"(\<Inter>A = UNIV) = (\<forall>x\<in>A. x = UNIV)"
ef123b9e8089 Added a few thms about UN/INT/{}/UNIV nipkow parents: 13624 diff changeset	1622	"(UNIV = \<Inter>A) = (\<forall>x\<in>A. x = UNIV)"
14208 144f45277d5a misc tidying paulson parents: 14098 diff changeset	1623	by blast+
13653 ef123b9e8089 Added a few thms about UN/INT/{}/UNIV nipkow parents: 13624 diff changeset	1624
12897 f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1625
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1626	text {*
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1627	\medskip @{text UN} and @{text INT}.
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1628
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1629	Basic identities: *}
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1630
24286 7619080e49f0 ATP blacklisting is now in theory data, attribute noatp paulson parents: 24280 diff changeset	1631	lemma UN_empty [simp,noatp]: "(\<Union>x\<in>{}. B x) = {}"
12897 f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1632	by blast
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1633
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1634	lemma UN_empty2 [simp]: "(\<Union>x\<in>A. {}) = {}"
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1635	by blast
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1636
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1637	lemma UN_singleton [simp]: "(\<Union>x\<in>A. {x}) = A"
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1638	by blast
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1639
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1640	lemma UN_absorb: "k \<in> I ==> A k \<union> (\<Union>i\<in>I. A i) = (\<Union>i\<in>I. A i)"
15102 04b0e943fcc9 new simprules Int_subset_iff and Un_subset_iff paulson parents: 14981 diff changeset	1641	by auto
12897 f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1642
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1643	lemma INT_empty [simp]: "(\<Inter>x\<in>{}. B x) = UNIV"
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1644	by blast
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1645
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1646	lemma INT_absorb: "k \<in> I ==> A k \<inter> (\<Inter>i\<in>I. A i) = (\<Inter>i\<in>I. A i)"
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1647	by blast
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1648
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1649	lemma UN_insert [simp]: "(\<Union>x\<in>insert a A. B x) = B a \<union> UNION A B"
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1650	by blast
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1651
24331 76f7a8c6e842 Made UN_Un simp nipkow parents: 24303 diff changeset	1652	lemma UN_Un[simp]: "(\<Union>i \<in> A \<union> B. M i) = (\<Union>i\<in>A. M i) \<union> (\<Union>i\<in>B. M i)"
12897 f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1653	by blast
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1654
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1655	lemma UN_UN_flatten: "(\<Union>x \<in> (\<Union>y\<in>A. B y). C x) = (\<Union>y\<in>A. \<Union>x\<in>B y. C x)"
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1656	by blast
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1657
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1658	lemma UN_subset_iff: "((\<Union>i\<in>I. A i) \<subseteq> B) = (\<forall>i\<in>I. A i \<subseteq> B)"
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1659	by blast
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1660
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1661	lemma INT_subset_iff: "(B \<subseteq> (\<Inter>i\<in>I. A i)) = (\<forall>i\<in>I. B \<subseteq> A i)"
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1662	by blast
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1663
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1664	lemma INT_insert [simp]: "(\<Inter>x \<in> insert a A. B x) = B a \<inter> INTER A B"
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1665	by blast
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1666
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1667	lemma INT_Un: "(\<Inter>i \<in> A \<union> B. M i) = (\<Inter>i \<in> A. M i) \<inter> (\<Inter>i\<in>B. M i)"
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1668	by blast
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1669
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1670	lemma INT_insert_distrib:
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1671	"u \<in> A ==> (\<Inter>x\<in>A. insert a (B x)) = insert a (\<Inter>x\<in>A. B x)"
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1672	by blast
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1673
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1674	lemma Union_image_eq [simp]: "\<Union>(B`A) = (\<Union>x\<in>A. B x)"
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1675	by blast
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1676
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1677	lemma image_Union: "f ` \<Union>S = (\<Union>x\<in>S. f ` x)"
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1678	by blast
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1679
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1680	lemma Inter_image_eq [simp]: "\<Inter>(B`A) = (\<Inter>x\<in>A. B x)"
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1681	by blast
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1682
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1683	lemma UN_constant [simp]: "(\<Union>y\<in>A. c) = (if A = {} then {} else c)"
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1684	by auto
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1685
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1686	lemma INT_constant [simp]: "(\<Inter>y\<in>A. c) = (if A = {} then UNIV else c)"
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1687	by auto
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1688
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1689	lemma UN_eq: "(\<Union>x\<in>A. B x) = \<Union>({Y. \<exists>x\<in>A. Y = B x})"
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1690	by blast
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1691
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1692	lemma INT_eq: "(\<Inter>x\<in>A. B x) = \<Inter>({Y. \<exists>x\<in>A. Y = B x})"
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1693	-- {* Look: it has an \emph{existential} quantifier *}
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1694	by blast
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1695
18447 da548623916a removed or modified some instances of [iff] paulson parents: 18423 diff changeset	1696	lemma UNION_empty_conv[simp]:
13653 ef123b9e8089 Added a few thms about UN/INT/{}/UNIV nipkow parents: 13624 diff changeset	1697	"({} = (UN x:A. B x)) = (\<forall>x\<in>A. B x = {})"
ef123b9e8089 Added a few thms about UN/INT/{}/UNIV nipkow parents: 13624 diff changeset	1698	"((UN x:A. B x) = {}) = (\<forall>x\<in>A. B x = {})"
ef123b9e8089 Added a few thms about UN/INT/{}/UNIV nipkow parents: 13624 diff changeset	1699	by blast+
ef123b9e8089 Added a few thms about UN/INT/{}/UNIV nipkow parents: 13624 diff changeset	1700
18447 da548623916a removed or modified some instances of [iff] paulson parents: 18423 diff changeset	1701	lemma INTER_UNIV_conv[simp]:
13653 ef123b9e8089 Added a few thms about UN/INT/{}/UNIV nipkow parents: 13624 diff changeset	1702	"(UNIV = (INT x:A. B x)) = (\<forall>x\<in>A. B x = UNIV)"
ef123b9e8089 Added a few thms about UN/INT/{}/UNIV nipkow parents: 13624 diff changeset	1703	"((INT x:A. B x) = UNIV) = (\<forall>x\<in>A. B x = UNIV)"
ef123b9e8089 Added a few thms about UN/INT/{}/UNIV nipkow parents: 13624 diff changeset	1704	by blast+
12897 f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1705
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1706
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1707	text {* \medskip Distributive laws: *}
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1708
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1709	lemma Int_Union: "A \<inter> \<Union>B = (\<Union>C\<in>B. A \<inter> C)"
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1710	by blast
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1711
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1712	lemma Int_Union2: "\<Union>B \<inter> A = (\<Union>C\<in>B. C \<inter> A)"
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1713	by blast
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1714
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1715	lemma Un_Union_image: "(\<Union>x\<in>C. A x \<union> B x) = \<Union>(A`C) \<union> \<Union>(B`C)"
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1716	-- {* Devlin, Fundamentals of Contemporary Set Theory, page 12, exercise 5: *}
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1717	-- {* Union of a family of unions *}
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1718	by blast
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1719
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1720	lemma UN_Un_distrib: "(\<Union>i\<in>I. A i \<union> B i) = (\<Union>i\<in>I. A i) \<union> (\<Union>i\<in>I. B i)"
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1721	-- {* Equivalent version *}
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1722	by blast
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1723
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1724	lemma Un_Inter: "A \<union> \<Inter>B = (\<Inter>C\<in>B. A \<union> C)"
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1725	by blast
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1726
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1727	lemma Int_Inter_image: "(\<Inter>x\<in>C. A x \<inter> B x) = \<Inter>(A`C) \<inter> \<Inter>(B`C)"
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1728	by blast
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1729
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1730	lemma INT_Int_distrib: "(\<Inter>i\<in>I. A i \<inter> B i) = (\<Inter>i\<in>I. A i) \<inter> (\<Inter>i\<in>I. B i)"
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1731	-- {* Equivalent version *}
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1732	by blast
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1733
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1734	lemma Int_UN_distrib: "B \<inter> (\<Union>i\<in>I. A i) = (\<Union>i\<in>I. B \<inter> A i)"
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1735	-- {* Halmos, Naive Set Theory, page 35. *}
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1736	by blast
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1737
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1738	lemma Un_INT_distrib: "B \<union> (\<Inter>i\<in>I. A i) = (\<Inter>i\<in>I. B \<union> A i)"
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1739	by blast
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1740
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1741	lemma Int_UN_distrib2: "(\<Union>i\<in>I. A i) \<inter> (\<Union>j\<in>J. B j) = (\<Union>i\<in>I. \<Union>j\<in>J. A i \<inter> B j)"
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1742	by blast
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1743
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1744	lemma Un_INT_distrib2: "(\<Inter>i\<in>I. A i) \<union> (\<Inter>j\<in>J. B j) = (\<Inter>i\<in>I. \<Inter>j\<in>J. A i \<union> B j)"
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1745	by blast
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1746
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1747
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1748	text {* \medskip Bounded quantifiers.
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1749
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1750	The following are not added to the default simpset because
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1751	(a) they duplicate the body and (b) there are no similar rules for @{text Int}. *}
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1752
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1753	lemma ball_Un: "(\<forall>x \<in> A \<union> B. P x) = ((\<forall>x\<in>A. P x) & (\<forall>x\<in>B. P x))"
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1754	by blast
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1755
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1756	lemma bex_Un: "(\<exists>x \<in> A \<union> B. P x) = ((\<exists>x\<in>A. P x) \| (\<exists>x\<in>B. P x))"
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1757	by blast
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1758
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1759	lemma ball_UN: "(\<forall>z \<in> UNION A B. P z) = (\<forall>x\<in>A. \<forall>z \<in> B x. P z)"
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1760	by blast
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1761
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1762	lemma bex_UN: "(\<exists>z \<in> UNION A B. P z) = (\<exists>x\<in>A. \<exists>z\<in>B x. P z)"
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1763	by blast
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1764
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1765
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1766	text {* \medskip Set difference. *}
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1767
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1768	lemma Diff_eq: "A - B = A \<inter> (-B)"
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1769	by blast
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1770
24286 7619080e49f0 ATP blacklisting is now in theory data, attribute noatp paulson parents: 24280 diff changeset	1771	lemma Diff_eq_empty_iff [simp,noatp]: "(A - B = {}) = (A \<subseteq> B)"
12897 f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1772	by blast
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1773
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1774	lemma Diff_cancel [simp]: "A - A = {}"
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1775	by blast
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1776
14302 6c24235e8d5d * empty log message * nipkow parents: 14208 diff changeset	1777	lemma Diff_idemp [simp]: "(A - B) - B = A - (B::'a set)"
6c24235e8d5d * empty log message * nipkow parents: 14208 diff changeset	1778	by blast
6c24235e8d5d * empty log message * nipkow parents: 14208 diff changeset	1779
12897 f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1780	lemma Diff_triv: "A \<inter> B = {} ==> A - B = A"
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1781	by (blast elim: equalityE)
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1782
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1783	lemma empty_Diff [simp]: "{} - A = {}"
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1784	by blast
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1785
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1786	lemma Diff_empty [simp]: "A - {} = A"
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1787	by blast
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1788
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1789	lemma Diff_UNIV [simp]: "A - UNIV = {}"
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1790	by blast
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1791
24286 7619080e49f0 ATP blacklisting is now in theory data, attribute noatp paulson parents: 24280 diff changeset	1792	lemma Diff_insert0 [simp,noatp]: "x \<notin> A ==> A - insert x B = A - B"
12897 f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1793	by blast
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1794
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1795	lemma Diff_insert: "A - insert a B = A - B - {a}"
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1796	-- {* NOT SUITABLE FOR REWRITING since @{text "{a} == insert a 0"} *}
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1797	by blast
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1798
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1799	lemma Diff_insert2: "A - insert a B = A - {a} - B"
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1800	-- {* NOT SUITABLE FOR REWRITING since @{text "{a} == insert a 0"} *}
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1801	by blast
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1802
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1803	lemma insert_Diff_if: "insert x A - B = (if x \<in> B then A - B else insert x (A - B))"
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1804	by auto
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1805
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1806	lemma insert_Diff1 [simp]: "x \<in> B ==> insert x A - B = A - B"
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1807	by blast
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1808
14302 6c24235e8d5d * empty log message * nipkow parents: 14208 diff changeset	1809	lemma insert_Diff_single[simp]: "insert a (A - {a}) = insert a A"
6c24235e8d5d * empty log message * nipkow parents: 14208 diff changeset	1810	by blast
6c24235e8d5d * empty log message * nipkow parents: 14208 diff changeset	1811
12897 f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1812	lemma insert_Diff: "a \<in> A ==> insert a (A - {a}) = A"
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1813	by blast
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1814
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1815	lemma Diff_insert_absorb: "x \<notin> A ==> (insert x A) - {x} = A"
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1816	by auto
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1817
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1818	lemma Diff_disjoint [simp]: "A \<inter> (B - A) = {}"
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1819	by blast
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1820
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1821	lemma Diff_partition: "A \<subseteq> B ==> A \<union> (B - A) = B"
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1822	by blast
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1823
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1824	lemma double_diff: "A \<subseteq> B ==> B \<subseteq> C ==> B - (C - A) = A"
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1825	by blast
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1826
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1827	lemma Un_Diff_cancel [simp]: "A \<union> (B - A) = A \<union> B"
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1828	by blast
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1829
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1830	lemma Un_Diff_cancel2 [simp]: "(B - A) \<union> A = B \<union> A"
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1831	by blast
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1832
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1833	lemma Diff_Un: "A - (B \<union> C) = (A - B) \<inter> (A - C)"
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1834	by blast
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1835
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1836	lemma Diff_Int: "A - (B \<inter> C) = (A - B) \<union> (A - C)"
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1837	by blast
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1838
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1839	lemma Un_Diff: "(A \<union> B) - C = (A - C) \<union> (B - C)"
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1840	by blast
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1841
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1842	lemma Int_Diff: "(A \<inter> B) - C = A \<inter> (B - C)"
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1843	by blast
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1844
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1845	lemma Diff_Int_distrib: "C \<inter> (A - B) = (C \<inter> A) - (C \<inter> B)"
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1846	by blast
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1847
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1848	lemma Diff_Int_distrib2: "(A - B) \<inter> C = (A \<inter> C) - (B \<inter> C)"
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1849	by blast
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1850
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1851	lemma Diff_Compl [simp]: "A - (- B) = A \<inter> B"
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1852	by auto
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1853
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1854	lemma Compl_Diff_eq [simp]: "- (A - B) = -A \<union> B"
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1855	by blast
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1856
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1857
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1858	text {* \medskip Quantification over type @{typ bool}. *}
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1859
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1860	lemma bool_induct: "P True \<Longrightarrow> P False \<Longrightarrow> P x"
21549 12eff58b56a0 restructured some proofs haftmann parents: 21524 diff changeset	1861	by (cases x) auto
12eff58b56a0 restructured some proofs haftmann parents: 21524 diff changeset	1862
12eff58b56a0 restructured some proofs haftmann parents: 21524 diff changeset	1863	lemma all_bool_eq: "(\<forall>b. P b) \<longleftrightarrow> P True \<and> P False"
12eff58b56a0 restructured some proofs haftmann parents: 21524 diff changeset	1864	by (auto intro: bool_induct)
12eff58b56a0 restructured some proofs haftmann parents: 21524 diff changeset	1865
12eff58b56a0 restructured some proofs haftmann parents: 21524 diff changeset	1866	lemma bool_contrapos: "P x \<Longrightarrow> \<not> P False \<Longrightarrow> P True"
12eff58b56a0 restructured some proofs haftmann parents: 21524 diff changeset	1867	by (cases x) auto
12eff58b56a0 restructured some proofs haftmann parents: 21524 diff changeset	1868
12eff58b56a0 restructured some proofs haftmann parents: 21524 diff changeset	1869	lemma ex_bool_eq: "(\<exists>b. P b) \<longleftrightarrow> P True \<or> P False"
12eff58b56a0 restructured some proofs haftmann parents: 21524 diff changeset	1870	by (auto intro: bool_contrapos)
12897 f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1871
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1872	lemma Un_eq_UN: "A \<union> B = (\<Union>b. if b then A else B)"
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1873	by (auto simp add: split_if_mem2)
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1874
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1875	lemma UN_bool_eq: "(\<Union>b::bool. A b) = (A True \<union> A False)"
21549 12eff58b56a0 restructured some proofs haftmann parents: 21524 diff changeset	1876	by (auto intro: bool_contrapos)
12897 f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1877
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1878	lemma INT_bool_eq: "(\<Inter>b::bool. A b) = (A True \<inter> A False)"
21549 12eff58b56a0 restructured some proofs haftmann parents: 21524 diff changeset	1879	by (auto intro: bool_induct)
12897 f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1880
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1881	text {* \medskip @{text Pow} *}
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1882
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1883	lemma Pow_empty [simp]: "Pow {} = {{}}"
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1884	by (auto simp add: Pow_def)
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1885
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1886	lemma Pow_insert: "Pow (insert a A) = Pow A \<union> (insert a ` Pow A)"
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1887	by (blast intro: image_eqI [where ?x = "u - {a}", standard])
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1888
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1889	lemma Pow_Compl: "Pow (- A) = {-B \| B. A \<in> Pow B}"
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1890	by (blast intro: exI [where ?x = "- u", standard])
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1891
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1892	lemma Pow_UNIV [simp]: "Pow UNIV = UNIV"
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1893	by blast
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1894
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1895	lemma Un_Pow_subset: "Pow A \<union> Pow B \<subseteq> Pow (A \<union> B)"
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1896	by blast
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1897
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1898	lemma UN_Pow_subset: "(\<Union>x\<in>A. Pow (B x)) \<subseteq> Pow (\<Union>x\<in>A. B x)"
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1899	by blast
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1900
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1901	lemma subset_Pow_Union: "A \<subseteq> Pow (\<Union>A)"
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1902	by blast
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1903
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1904	lemma Union_Pow_eq [simp]: "\<Union>(Pow A) = A"
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1905	by blast
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1906
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1907	lemma Pow_Int_eq [simp]: "Pow (A \<inter> B) = Pow A \<inter> Pow B"
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1908	by blast
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1909
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1910	lemma Pow_INT_eq: "Pow (\<Inter>x\<in>A. B x) = (\<Inter>x\<in>A. Pow (B x))"
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1911	by blast
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1912
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1913
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1914	text {* \medskip Miscellany. *}
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1915
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1916	lemma set_eq_subset: "(A = B) = (A \<subseteq> B & B \<subseteq> A)"
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1917	by blast
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1918
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1919	lemma subset_iff: "(A \<subseteq> B) = (\<forall>t. t \<in> A --> t \<in> B)"
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1920	by blast
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1921
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1922	lemma subset_iff_psubset_eq: "(A \<subseteq> B) = ((A \<subset> B) \| (A = B))"
26800 dcf1dfc915a7 - Now uses Orderings as parent theory berghofe parents: 26732 diff changeset	1923	by (unfold less_le) blast
12897 f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1924
18447 da548623916a removed or modified some instances of [iff] paulson parents: 18423 diff changeset	1925	lemma all_not_in_conv [simp]: "(\<forall>x. x \<notin> A) = (A = {})"
12897 f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1926	by blast
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1927
13831 ab27b36aba99 new lemma paulson parents: 13826 diff changeset	1928	lemma ex_in_conv: "(\<exists>x. x \<in> A) = (A \<noteq> {})"
ab27b36aba99 new lemma paulson parents: 13826 diff changeset	1929	by blast
ab27b36aba99 new lemma paulson parents: 13826 diff changeset	1930
12897 f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1931	lemma distinct_lemma: "f x \<noteq> f y ==> x \<noteq> y"
17589 58eeffd73be1 renamed rules to iprover nipkow parents: 17508 diff changeset	1932	by iprover
12897 f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1933
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1934
13860 b681a3cb0beb new UN/INT simprules paulson parents: 13858 diff changeset	1935	text {* \medskip Miniscoping: pushing in quantifiers and big Unions
b681a3cb0beb new UN/INT simprules paulson parents: 13858 diff changeset	1936	and Intersections. *}
12897 f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1937
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1938	lemma UN_simps [simp]:
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1939	"!!a B C. (UN x:C. insert a (B x)) = (if C={} then {} else insert a (UN x:C. B x))"
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1940	"!!A B C. (UN x:C. A x Un B) = ((if C={} then {} else (UN x:C. A x) Un B))"
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1941	"!!A B C. (UN x:C. A Un B x) = ((if C={} then {} else A Un (UN x:C. B x)))"
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1942	"!!A B C. (UN x:C. A x Int B) = ((UN x:C. A x) Int B)"
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1943	"!!A B C. (UN x:C. A Int B x) = (A Int (UN x:C. B x))"
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1944	"!!A B C. (UN x:C. A x - B) = ((UN x:C. A x) - B)"
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1945	"!!A B C. (UN x:C. A - B x) = (A - (INT x:C. B x))"
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1946	"!!A B. (UN x: Union A. B x) = (UN y:A. UN x:y. B x)"
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1947	"!!A B C. (UN z: UNION A B. C z) = (UN x:A. UN z: B(x). C z)"
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1948	"!!A B f. (UN x:f`A. B x) = (UN a:A. B (f a))"
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1949	by auto
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1950
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1951	lemma INT_simps [simp]:
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1952	"!!A B C. (INT x:C. A x Int B) = (if C={} then UNIV else (INT x:C. A x) Int B)"
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1953	"!!A B C. (INT x:C. A Int B x) = (if C={} then UNIV else A Int (INT x:C. B x))"
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1954	"!!A B C. (INT x:C. A x - B) = (if C={} then UNIV else (INT x:C. A x) - B)"
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1955	"!!A B C. (INT x:C. A - B x) = (if C={} then UNIV else A - (UN x:C. B x))"
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1956	"!!a B C. (INT x:C. insert a (B x)) = insert a (INT x:C. B x)"
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1957	"!!A B C. (INT x:C. A x Un B) = ((INT x:C. A x) Un B)"
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1958	"!!A B C. (INT x:C. A Un B x) = (A Un (INT x:C. B x))"
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1959	"!!A B. (INT x: Union A. B x) = (INT y:A. INT x:y. B x)"
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1960	"!!A B C. (INT z: UNION A B. C z) = (INT x:A. INT z: B(x). C z)"
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1961	"!!A B f. (INT x:f`A. B x) = (INT a:A. B (f a))"
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1962	by auto
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1963
24286 7619080e49f0 ATP blacklisting is now in theory data, attribute noatp paulson parents: 24280 diff changeset	1964	lemma ball_simps [simp,noatp]:
12897 f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1965	"!!A P Q. (ALL x:A. P x \| Q) = ((ALL x:A. P x) \| Q)"
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1966	"!!A P Q. (ALL x:A. P \| Q x) = (P \| (ALL x:A. Q x))"
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1967	"!!A P Q. (ALL x:A. P --> Q x) = (P --> (ALL x:A. Q x))"
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1968	"!!A P Q. (ALL x:A. P x --> Q) = ((EX x:A. P x) --> Q)"
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1969	"!!P. (ALL x:{}. P x) = True"
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1970	"!!P. (ALL x:UNIV. P x) = (ALL x. P x)"
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1971	"!!a B P. (ALL x:insert a B. P x) = (P a & (ALL x:B. P x))"
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1972	"!!A P. (ALL x:Union A. P x) = (ALL y:A. ALL x:y. P x)"
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1973	"!!A B P. (ALL x: UNION A B. P x) = (ALL a:A. ALL x: B a. P x)"
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1974	"!!P Q. (ALL x:Collect Q. P x) = (ALL x. Q x --> P x)"
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1975	"!!A P f. (ALL x:f`A. P x) = (ALL x:A. P (f x))"
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1976	"!!A P. (~(ALL x:A. P x)) = (EX x:A. ~P x)"
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1977	by auto
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1978
24286 7619080e49f0 ATP blacklisting is now in theory data, attribute noatp paulson parents: 24280 diff changeset	1979	lemma bex_simps [simp,noatp]:
12897 f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1980	"!!A P Q. (EX x:A. P x & Q) = ((EX x:A. P x) & Q)"
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1981	"!!A P Q. (EX x:A. P & Q x) = (P & (EX x:A. Q x))"
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1982	"!!P. (EX x:{}. P x) = False"
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1983	"!!P. (EX x:UNIV. P x) = (EX x. P x)"
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1984	"!!a B P. (EX x:insert a B. P x) = (P(a) \| (EX x:B. P x))"
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1985	"!!A P. (EX x:Union A. P x) = (EX y:A. EX x:y. P x)"
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1986	"!!A B P. (EX x: UNION A B. P x) = (EX a:A. EX x:B a. P x)"
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1987	"!!P Q. (EX x:Collect Q. P x) = (EX x. Q x & P x)"
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1988	"!!A P f. (EX x:f`A. P x) = (EX x:A. P (f x))"
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1989	"!!A P. (~(EX x:A. P x)) = (ALL x:A. ~P x)"
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1990	by auto
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1991
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1992	lemma ball_conj_distrib:
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1993	"(ALL x:A. P x & Q x) = ((ALL x:A. P x) & (ALL x:A. Q x))"
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1994	by blast
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1995
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1996	lemma bex_disj_distrib:
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1997	"(EX x:A. P x \| Q x) = ((EX x:A. P x) \| (EX x:A. Q x))"
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1998	by blast
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	1999
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	2000
13860 b681a3cb0beb new UN/INT simprules paulson parents: 13858 diff changeset	2001	text {* \medskip Maxiscoping: pulling out big Unions and Intersections. *}
b681a3cb0beb new UN/INT simprules paulson parents: 13858 diff changeset	2002
b681a3cb0beb new UN/INT simprules paulson parents: 13858 diff changeset	2003	lemma UN_extend_simps:
b681a3cb0beb new UN/INT simprules paulson parents: 13858 diff changeset	2004	"!!a B C. insert a (UN x:C. B x) = (if C={} then {a} else (UN x:C. insert a (B x)))"
b681a3cb0beb new UN/INT simprules paulson parents: 13858 diff changeset	2005	"!!A B C. (UN x:C. A x) Un B = (if C={} then B else (UN x:C. A x Un B))"
b681a3cb0beb new UN/INT simprules paulson parents: 13858 diff changeset	2006	"!!A B C. A Un (UN x:C. B x) = (if C={} then A else (UN x:C. A Un B x))"
b681a3cb0beb new UN/INT simprules paulson parents: 13858 diff changeset	2007	"!!A B C. ((UN x:C. A x) Int B) = (UN x:C. A x Int B)"
b681a3cb0beb new UN/INT simprules paulson parents: 13858 diff changeset	2008	"!!A B C. (A Int (UN x:C. B x)) = (UN x:C. A Int B x)"
b681a3cb0beb new UN/INT simprules paulson parents: 13858 diff changeset	2009	"!!A B C. ((UN x:C. A x) - B) = (UN x:C. A x - B)"
b681a3cb0beb new UN/INT simprules paulson parents: 13858 diff changeset	2010	"!!A B C. (A - (INT x:C. B x)) = (UN x:C. A - B x)"
b681a3cb0beb new UN/INT simprules paulson parents: 13858 diff changeset	2011	"!!A B. (UN y:A. UN x:y. B x) = (UN x: Union A. B x)"
b681a3cb0beb new UN/INT simprules paulson parents: 13858 diff changeset	2012	"!!A B C. (UN x:A. UN z: B(x). C z) = (UN z: UNION A B. C z)"
b681a3cb0beb new UN/INT simprules paulson parents: 13858 diff changeset	2013	"!!A B f. (UN a:A. B (f a)) = (UN x:f`A. B x)"
b681a3cb0beb new UN/INT simprules paulson parents: 13858 diff changeset	2014	by auto
b681a3cb0beb new UN/INT simprules paulson parents: 13858 diff changeset	2015
b681a3cb0beb new UN/INT simprules paulson parents: 13858 diff changeset	2016	lemma INT_extend_simps:
b681a3cb0beb new UN/INT simprules paulson parents: 13858 diff changeset	2017	"!!A B C. (INT x:C. A x) Int B = (if C={} then B else (INT x:C. A x Int B))"
b681a3cb0beb new UN/INT simprules paulson parents: 13858 diff changeset	2018	"!!A B C. A Int (INT x:C. B x) = (if C={} then A else (INT x:C. A Int B x))"
b681a3cb0beb new UN/INT simprules paulson parents: 13858 diff changeset	2019	"!!A B C. (INT x:C. A x) - B = (if C={} then UNIV-B else (INT x:C. A x - B))"
b681a3cb0beb new UN/INT simprules paulson parents: 13858 diff changeset	2020	"!!A B C. A - (UN x:C. B x) = (if C={} then A else (INT x:C. A - B x))"
b681a3cb0beb new UN/INT simprules paulson parents: 13858 diff changeset	2021	"!!a B C. insert a (INT x:C. B x) = (INT x:C. insert a (B x))"
b681a3cb0beb new UN/INT simprules paulson parents: 13858 diff changeset	2022	"!!A B C. ((INT x:C. A x) Un B) = (INT x:C. A x Un B)"
b681a3cb0beb new UN/INT simprules paulson parents: 13858 diff changeset	2023	"!!A B C. A Un (INT x:C. B x) = (INT x:C. A Un B x)"
b681a3cb0beb new UN/INT simprules paulson parents: 13858 diff changeset	2024	"!!A B. (INT y:A. INT x:y. B x) = (INT x: Union A. B x)"
b681a3cb0beb new UN/INT simprules paulson parents: 13858 diff changeset	2025	"!!A B C. (INT x:A. INT z: B(x). C z) = (INT z: UNION A B. C z)"
b681a3cb0beb new UN/INT simprules paulson parents: 13858 diff changeset	2026	"!!A B f. (INT a:A. B (f a)) = (INT x:f`A. B x)"
b681a3cb0beb new UN/INT simprules paulson parents: 13858 diff changeset	2027	by auto
b681a3cb0beb new UN/INT simprules paulson parents: 13858 diff changeset	2028
b681a3cb0beb new UN/INT simprules paulson parents: 13858 diff changeset	2029
12897 f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	2030	subsubsection {* Monotonicity of various operations *}
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	2031
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	2032	lemma image_mono: "A \<subseteq> B ==> f`A \<subseteq> f`B"
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	2033	by blast
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	2034
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	2035	lemma Pow_mono: "A \<subseteq> B ==> Pow A \<subseteq> Pow B"
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	2036	by blast
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	2037
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	2038	lemma Union_mono: "A \<subseteq> B ==> \<Union>A \<subseteq> \<Union>B"
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	2039	by blast
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	2040
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	2041	lemma Inter_anti_mono: "B \<subseteq> A ==> \<Inter>A \<subseteq> \<Inter>B"
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	2042	by blast
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	2043
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	2044	lemma UN_mono:
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	2045	"A \<subseteq> B ==> (!!x. x \<in> A ==> f x \<subseteq> g x) ==>
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	2046	(\<Union>x\<in>A. f x) \<subseteq> (\<Union>x\<in>B. g x)"
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	2047	by (blast dest: subsetD)
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	2048
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	2049	lemma INT_anti_mono:
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	2050	"B \<subseteq> A ==> (!!x. x \<in> A ==> f x \<subseteq> g x) ==>
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	2051	(\<Inter>x\<in>A. f x) \<subseteq> (\<Inter>x\<in>A. g x)"
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	2052	-- {* The last inclusion is POSITIVE! *}
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	2053	by (blast dest: subsetD)
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	2054
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	2055	lemma insert_mono: "C \<subseteq> D ==> insert a C \<subseteq> insert a D"
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	2056	by blast
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	2057
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	2058	lemma Un_mono: "A \<subseteq> C ==> B \<subseteq> D ==> A \<union> B \<subseteq> C \<union> D"
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	2059	by blast
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	2060
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	2061	lemma Int_mono: "A \<subseteq> C ==> B \<subseteq> D ==> A \<inter> B \<subseteq> C \<inter> D"
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	2062	by blast
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	2063
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	2064	lemma Diff_mono: "A \<subseteq> C ==> D \<subseteq> B ==> A - B \<subseteq> C - D"
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	2065	by blast
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	2066
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	2067	lemma Compl_anti_mono: "A \<subseteq> B ==> -B \<subseteq> -A"
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	2068	by blast
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	2069
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	2070	text {* \medskip Monotonicity of implications. *}
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	2071
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	2072	lemma in_mono: "A \<subseteq> B ==> x \<in> A --> x \<in> B"
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	2073	apply (rule impI)
14208 144f45277d5a misc tidying paulson parents: 14098 diff changeset	2074	apply (erule subsetD, assumption)
12897 f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	2075	done
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	2076
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	2077	lemma conj_mono: "P1 --> Q1 ==> P2 --> Q2 ==> (P1 & P2) --> (Q1 & Q2)"
17589 58eeffd73be1 renamed rules to iprover nipkow parents: 17508 diff changeset	2078	by iprover
12897 f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	2079
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	2080	lemma disj_mono: "P1 --> Q1 ==> P2 --> Q2 ==> (P1 \| P2) --> (Q1 \| Q2)"
17589 58eeffd73be1 renamed rules to iprover nipkow parents: 17508 diff changeset	2081	by iprover
12897 f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	2082
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	2083	lemma imp_mono: "Q1 --> P1 ==> P2 --> Q2 ==> (P1 --> P2) --> (Q1 --> Q2)"
17589 58eeffd73be1 renamed rules to iprover nipkow parents: 17508 diff changeset	2084	by iprover
12897 f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	2085
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	2086	lemma imp_refl: "P --> P" ..
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	2087
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	2088	lemma ex_mono: "(!!x. P x --> Q x) ==> (EX x. P x) --> (EX x. Q x)"
17589 58eeffd73be1 renamed rules to iprover nipkow parents: 17508 diff changeset	2089	by iprover
12897 f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	2090
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	2091	lemma all_mono: "(!!x. P x --> Q x) ==> (ALL x. P x) --> (ALL x. Q x)"
17589 58eeffd73be1 renamed rules to iprover nipkow parents: 17508 diff changeset	2092	by iprover
12897 f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	2093
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	2094	lemma Collect_mono: "(!!x. P x --> Q x) ==> Collect P \<subseteq> Collect Q"
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	2095	by blast
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	2096
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	2097	lemma Int_Collect_mono:
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	2098	"A \<subseteq> B ==> (!!x. x \<in> A ==> P x --> Q x) ==> A \<inter> Collect P \<subseteq> B \<inter> Collect Q"
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	2099	by blast
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	2100
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	2101	lemmas basic_monos =
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	2102	subset_refl imp_refl disj_mono conj_mono
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	2103	ex_mono Collect_mono in_mono
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	2104
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	2105	lemma eq_to_mono: "a = b ==> c = d ==> b --> d ==> a --> c"
17589 58eeffd73be1 renamed rules to iprover nipkow parents: 17508 diff changeset	2106	by iprover
12897 f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	2107
f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	2108	lemma eq_to_mono2: "a = b ==> c = d ==> ~ b --> ~ d ==> ~ a --> ~ c"
17589 58eeffd73be1 renamed rules to iprover nipkow parents: 17508 diff changeset	2109	by iprover
11979 0a3dace545c5 converted theory "Set"; wenzelm parents: 11752 diff changeset	2110
12020 a24373086908 theory Calculation move to Set; wenzelm parents: 11982 diff changeset	2111
30531 ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	2112	subsection {* Inverse image of a function *}
12257 e3f7d6fb55d7 theory Inverse_Image converted and moved to Set; wenzelm parents: 12114 diff changeset	2113
e3f7d6fb55d7 theory Inverse_Image converted and moved to Set; wenzelm parents: 12114 diff changeset	2114	constdefs
e3f7d6fb55d7 theory Inverse_Image converted and moved to Set; wenzelm parents: 12114 diff changeset	2115	vimage :: "('a => 'b) => 'b set => 'a set" (infixr "-`" 90)
28562 4e74209f113e `code func` now just `code` haftmann parents: 27824 diff changeset	2116	[code del]: "f -` B == {x. f x : B}"
12257 e3f7d6fb55d7 theory Inverse_Image converted and moved to Set; wenzelm parents: 12114 diff changeset	2117
30531 ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	2118
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	2119	subsubsection {* Basic rules *}
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	2120
12257 e3f7d6fb55d7 theory Inverse_Image converted and moved to Set; wenzelm parents: 12114 diff changeset	2121	lemma vimage_eq [simp]: "(a : f -` B) = (f a : B)"
e3f7d6fb55d7 theory Inverse_Image converted and moved to Set; wenzelm parents: 12114 diff changeset	2122	by (unfold vimage_def) blast
e3f7d6fb55d7 theory Inverse_Image converted and moved to Set; wenzelm parents: 12114 diff changeset	2123
e3f7d6fb55d7 theory Inverse_Image converted and moved to Set; wenzelm parents: 12114 diff changeset	2124	lemma vimage_singleton_eq: "(a : f -` {b}) = (f a = b)"
e3f7d6fb55d7 theory Inverse_Image converted and moved to Set; wenzelm parents: 12114 diff changeset	2125	by simp
e3f7d6fb55d7 theory Inverse_Image converted and moved to Set; wenzelm parents: 12114 diff changeset	2126
e3f7d6fb55d7 theory Inverse_Image converted and moved to Set; wenzelm parents: 12114 diff changeset	2127	lemma vimageI [intro]: "f a = b ==> b:B ==> a : f -` B"
e3f7d6fb55d7 theory Inverse_Image converted and moved to Set; wenzelm parents: 12114 diff changeset	2128	by (unfold vimage_def) blast
e3f7d6fb55d7 theory Inverse_Image converted and moved to Set; wenzelm parents: 12114 diff changeset	2129
e3f7d6fb55d7 theory Inverse_Image converted and moved to Set; wenzelm parents: 12114 diff changeset	2130	lemma vimageI2: "f a : A ==> a : f -` A"
e3f7d6fb55d7 theory Inverse_Image converted and moved to Set; wenzelm parents: 12114 diff changeset	2131	by (unfold vimage_def) fast
e3f7d6fb55d7 theory Inverse_Image converted and moved to Set; wenzelm parents: 12114 diff changeset	2132
e3f7d6fb55d7 theory Inverse_Image converted and moved to Set; wenzelm parents: 12114 diff changeset	2133	lemma vimageE [elim!]: "a: f -` B ==> (!!x. f a = x ==> x:B ==> P) ==> P"
e3f7d6fb55d7 theory Inverse_Image converted and moved to Set; wenzelm parents: 12114 diff changeset	2134	by (unfold vimage_def) blast
e3f7d6fb55d7 theory Inverse_Image converted and moved to Set; wenzelm parents: 12114 diff changeset	2135
e3f7d6fb55d7 theory Inverse_Image converted and moved to Set; wenzelm parents: 12114 diff changeset	2136	lemma vimageD: "a : f -` A ==> f a : A"
e3f7d6fb55d7 theory Inverse_Image converted and moved to Set; wenzelm parents: 12114 diff changeset	2137	by (unfold vimage_def) fast
e3f7d6fb55d7 theory Inverse_Image converted and moved to Set; wenzelm parents: 12114 diff changeset	2138
30531 ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	2139
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	2140	subsubsection {* Equations *}
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	2141
12257 e3f7d6fb55d7 theory Inverse_Image converted and moved to Set; wenzelm parents: 12114 diff changeset	2142	lemma vimage_empty [simp]: "f -` {} = {}"
e3f7d6fb55d7 theory Inverse_Image converted and moved to Set; wenzelm parents: 12114 diff changeset	2143	by blast
e3f7d6fb55d7 theory Inverse_Image converted and moved to Set; wenzelm parents: 12114 diff changeset	2144
e3f7d6fb55d7 theory Inverse_Image converted and moved to Set; wenzelm parents: 12114 diff changeset	2145	lemma vimage_Compl: "f -` (-A) = -(f -` A)"
e3f7d6fb55d7 theory Inverse_Image converted and moved to Set; wenzelm parents: 12114 diff changeset	2146	by blast
e3f7d6fb55d7 theory Inverse_Image converted and moved to Set; wenzelm parents: 12114 diff changeset	2147
e3f7d6fb55d7 theory Inverse_Image converted and moved to Set; wenzelm parents: 12114 diff changeset	2148	lemma vimage_Un [simp]: "f -` (A Un B) = (f -` A) Un (f -` B)"
e3f7d6fb55d7 theory Inverse_Image converted and moved to Set; wenzelm parents: 12114 diff changeset	2149	by blast
e3f7d6fb55d7 theory Inverse_Image converted and moved to Set; wenzelm parents: 12114 diff changeset	2150
e3f7d6fb55d7 theory Inverse_Image converted and moved to Set; wenzelm parents: 12114 diff changeset	2151	lemma vimage_Int [simp]: "f -` (A Int B) = (f -` A) Int (f -` B)"
e3f7d6fb55d7 theory Inverse_Image converted and moved to Set; wenzelm parents: 12114 diff changeset	2152	by fast
e3f7d6fb55d7 theory Inverse_Image converted and moved to Set; wenzelm parents: 12114 diff changeset	2153
e3f7d6fb55d7 theory Inverse_Image converted and moved to Set; wenzelm parents: 12114 diff changeset	2154	lemma vimage_Union: "f -` (Union A) = (UN X:A. f -` X)"
e3f7d6fb55d7 theory Inverse_Image converted and moved to Set; wenzelm parents: 12114 diff changeset	2155	by blast
e3f7d6fb55d7 theory Inverse_Image converted and moved to Set; wenzelm parents: 12114 diff changeset	2156
e3f7d6fb55d7 theory Inverse_Image converted and moved to Set; wenzelm parents: 12114 diff changeset	2157	lemma vimage_UN: "f-`(UN x:A. B x) = (UN x:A. f -` B x)"
e3f7d6fb55d7 theory Inverse_Image converted and moved to Set; wenzelm parents: 12114 diff changeset	2158	by blast
e3f7d6fb55d7 theory Inverse_Image converted and moved to Set; wenzelm parents: 12114 diff changeset	2159
e3f7d6fb55d7 theory Inverse_Image converted and moved to Set; wenzelm parents: 12114 diff changeset	2160	lemma vimage_INT: "f-`(INT x:A. B x) = (INT x:A. f -` B x)"
e3f7d6fb55d7 theory Inverse_Image converted and moved to Set; wenzelm parents: 12114 diff changeset	2161	by blast
e3f7d6fb55d7 theory Inverse_Image converted and moved to Set; wenzelm parents: 12114 diff changeset	2162
e3f7d6fb55d7 theory Inverse_Image converted and moved to Set; wenzelm parents: 12114 diff changeset	2163	lemma vimage_Collect_eq [simp]: "f -` Collect P = {y. P (f y)}"
e3f7d6fb55d7 theory Inverse_Image converted and moved to Set; wenzelm parents: 12114 diff changeset	2164	by blast
e3f7d6fb55d7 theory Inverse_Image converted and moved to Set; wenzelm parents: 12114 diff changeset	2165
e3f7d6fb55d7 theory Inverse_Image converted and moved to Set; wenzelm parents: 12114 diff changeset	2166	lemma vimage_Collect: "(!!x. P (f x) = Q x) ==> f -` (Collect P) = Collect Q"
e3f7d6fb55d7 theory Inverse_Image converted and moved to Set; wenzelm parents: 12114 diff changeset	2167	by blast
e3f7d6fb55d7 theory Inverse_Image converted and moved to Set; wenzelm parents: 12114 diff changeset	2168
e3f7d6fb55d7 theory Inverse_Image converted and moved to Set; wenzelm parents: 12114 diff changeset	2169	lemma vimage_insert: "f-`(insert a B) = (f-`{a}) Un (f-`B)"
e3f7d6fb55d7 theory Inverse_Image converted and moved to Set; wenzelm parents: 12114 diff changeset	2170	-- {* NOT suitable for rewriting because of the recurrence of @{term "{a}"}. *}
e3f7d6fb55d7 theory Inverse_Image converted and moved to Set; wenzelm parents: 12114 diff changeset	2171	by blast
e3f7d6fb55d7 theory Inverse_Image converted and moved to Set; wenzelm parents: 12114 diff changeset	2172
e3f7d6fb55d7 theory Inverse_Image converted and moved to Set; wenzelm parents: 12114 diff changeset	2173	lemma vimage_Diff: "f -` (A - B) = (f -` A) - (f -` B)"
e3f7d6fb55d7 theory Inverse_Image converted and moved to Set; wenzelm parents: 12114 diff changeset	2174	by blast
e3f7d6fb55d7 theory Inverse_Image converted and moved to Set; wenzelm parents: 12114 diff changeset	2175
e3f7d6fb55d7 theory Inverse_Image converted and moved to Set; wenzelm parents: 12114 diff changeset	2176	lemma vimage_UNIV [simp]: "f -` UNIV = UNIV"
e3f7d6fb55d7 theory Inverse_Image converted and moved to Set; wenzelm parents: 12114 diff changeset	2177	by blast
e3f7d6fb55d7 theory Inverse_Image converted and moved to Set; wenzelm parents: 12114 diff changeset	2178
e3f7d6fb55d7 theory Inverse_Image converted and moved to Set; wenzelm parents: 12114 diff changeset	2179	lemma vimage_eq_UN: "f-`B = (UN y: B. f-`{y})"
e3f7d6fb55d7 theory Inverse_Image converted and moved to Set; wenzelm parents: 12114 diff changeset	2180	-- {* NOT suitable for rewriting *}
e3f7d6fb55d7 theory Inverse_Image converted and moved to Set; wenzelm parents: 12114 diff changeset	2181	by blast
e3f7d6fb55d7 theory Inverse_Image converted and moved to Set; wenzelm parents: 12114 diff changeset	2182
12897 f4d10ad0ea7b converted/deleted equalities.ML, mono.ML, subset.ML (see Set.thy); wenzelm parents: 12633 diff changeset	2183	lemma vimage_mono: "A \<subseteq> B ==> f -` A \<subseteq> f -` B"
12257 e3f7d6fb55d7 theory Inverse_Image converted and moved to Set; wenzelm parents: 12114 diff changeset	2184	-- {* monotonicity *}
e3f7d6fb55d7 theory Inverse_Image converted and moved to Set; wenzelm parents: 12114 diff changeset	2185	by blast
e3f7d6fb55d7 theory Inverse_Image converted and moved to Set; wenzelm parents: 12114 diff changeset	2186
26150 f6bd8686b71e moved some set lemmas from Set.thy here haftmann parents: 25965 diff changeset	2187	lemma vimage_image_eq [noatp]: "f -` (f ` A) = {y. EX x:A. f x = f y}"
f6bd8686b71e moved some set lemmas from Set.thy here haftmann parents: 25965 diff changeset	2188	by (blast intro: sym)
f6bd8686b71e moved some set lemmas from Set.thy here haftmann parents: 25965 diff changeset	2189
f6bd8686b71e moved some set lemmas from Set.thy here haftmann parents: 25965 diff changeset	2190	lemma image_vimage_subset: "f ` (f -` A) <= A"
f6bd8686b71e moved some set lemmas from Set.thy here haftmann parents: 25965 diff changeset	2191	by blast
f6bd8686b71e moved some set lemmas from Set.thy here haftmann parents: 25965 diff changeset	2192
f6bd8686b71e moved some set lemmas from Set.thy here haftmann parents: 25965 diff changeset	2193	lemma image_vimage_eq [simp]: "f ` (f -` A) = A Int range f"
f6bd8686b71e moved some set lemmas from Set.thy here haftmann parents: 25965 diff changeset	2194	by blast
f6bd8686b71e moved some set lemmas from Set.thy here haftmann parents: 25965 diff changeset	2195
f6bd8686b71e moved some set lemmas from Set.thy here haftmann parents: 25965 diff changeset	2196	lemma image_Int_subset: "f`(A Int B) <= f`A Int f`B"
f6bd8686b71e moved some set lemmas from Set.thy here haftmann parents: 25965 diff changeset	2197	by blast
f6bd8686b71e moved some set lemmas from Set.thy here haftmann parents: 25965 diff changeset	2198
f6bd8686b71e moved some set lemmas from Set.thy here haftmann parents: 25965 diff changeset	2199	lemma image_diff_subset: "f`A - f`B <= f`(A - B)"
f6bd8686b71e moved some set lemmas from Set.thy here haftmann parents: 25965 diff changeset	2200	by blast
f6bd8686b71e moved some set lemmas from Set.thy here haftmann parents: 25965 diff changeset	2201
f6bd8686b71e moved some set lemmas from Set.thy here haftmann parents: 25965 diff changeset	2202	lemma image_UN: "(f ` (UNION A B)) = (UN x:A.(f ` (B x)))"
f6bd8686b71e moved some set lemmas from Set.thy here haftmann parents: 25965 diff changeset	2203	by blast
f6bd8686b71e moved some set lemmas from Set.thy here haftmann parents: 25965 diff changeset	2204
12257 e3f7d6fb55d7 theory Inverse_Image converted and moved to Set; wenzelm parents: 12114 diff changeset	2205
30531 ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	2206	subsection {* Getting the Contents of a Singleton Set *}
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	2207
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	2208	definition contents :: "'a set \<Rightarrow> 'a" where
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	2209	[code del]: "contents X = (THE x. X = {x})"
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	2210
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	2211	lemma contents_eq [simp]: "contents {x} = x"
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	2212	by (simp add: contents_def)
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	2213
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	2214
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	2215	subsection {* Transitivity rules for calculational reasoning *}
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	2216
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	2217	lemma set_rev_mp: "x:A ==> A \<subseteq> B ==> x:B"
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	2218	by (rule subsetD)
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	2219
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	2220	lemma set_mp: "A \<subseteq> B ==> x:A ==> x:B"
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	2221	by (rule subsetD)
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	2222
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	2223	lemmas basic_trans_rules [trans] =
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	2224	order_trans_rules set_rev_mp set_mp
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	2225
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	2226
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	2227	subsection {* Least value operator *}
26800 dcf1dfc915a7 - Now uses Orderings as parent theory berghofe parents: 26732 diff changeset	2228
dcf1dfc915a7 - Now uses Orderings as parent theory berghofe parents: 26732 diff changeset	2229	lemma Least_mono:
dcf1dfc915a7 - Now uses Orderings as parent theory berghofe parents: 26732 diff changeset	2230	"mono (f::'a::order => 'b::order) ==> EX x:S. ALL y:S. x <= y
dcf1dfc915a7 - Now uses Orderings as parent theory berghofe parents: 26732 diff changeset	2231	==> (LEAST y. y : f ` S) = f (LEAST x. x : S)"
dcf1dfc915a7 - Now uses Orderings as parent theory berghofe parents: 26732 diff changeset	2232	-- {* Courtesy of Stephan Merz *}
dcf1dfc915a7 - Now uses Orderings as parent theory berghofe parents: 26732 diff changeset	2233	apply clarify
dcf1dfc915a7 - Now uses Orderings as parent theory berghofe parents: 26732 diff changeset	2234	apply (erule_tac P = "%x. x : S" in LeastI2_order, fast)
dcf1dfc915a7 - Now uses Orderings as parent theory berghofe parents: 26732 diff changeset	2235	apply (rule LeastI2_order)
dcf1dfc915a7 - Now uses Orderings as parent theory berghofe parents: 26732 diff changeset	2236	apply (auto elim: monoD intro!: order_antisym)
dcf1dfc915a7 - Now uses Orderings as parent theory berghofe parents: 26732 diff changeset	2237	done
dcf1dfc915a7 - Now uses Orderings as parent theory berghofe parents: 26732 diff changeset	2238
24420 9fa337721689 made sets executable haftmann parents: 24331 diff changeset	2239
30531 ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	2240	subsection {* Rudimentary code generation *}
27824 97d2a3797ce0 rudimentary code setup for set operations haftmann parents: 27418 diff changeset	2241
28562 4e74209f113e `code func` now just `code` haftmann parents: 27824 diff changeset	2242	lemma empty_code [code]: "{} x \<longleftrightarrow> False"
27824 97d2a3797ce0 rudimentary code setup for set operations haftmann parents: 27418 diff changeset	2243	unfolding empty_def Collect_def ..
97d2a3797ce0 rudimentary code setup for set operations haftmann parents: 27418 diff changeset	2244
28562 4e74209f113e `code func` now just `code` haftmann parents: 27824 diff changeset	2245	lemma UNIV_code [code]: "UNIV x \<longleftrightarrow> True"
27824 97d2a3797ce0 rudimentary code setup for set operations haftmann parents: 27418 diff changeset	2246	unfolding UNIV_def Collect_def ..
97d2a3797ce0 rudimentary code setup for set operations haftmann parents: 27418 diff changeset	2247
28562 4e74209f113e `code func` now just `code` haftmann parents: 27824 diff changeset	2248	lemma insert_code [code]: "insert y A x \<longleftrightarrow> y = x \<or> A x"
27824 97d2a3797ce0 rudimentary code setup for set operations haftmann parents: 27418 diff changeset	2249	unfolding insert_def Collect_def mem_def Un_def by auto
97d2a3797ce0 rudimentary code setup for set operations haftmann parents: 27418 diff changeset	2250
28562 4e74209f113e `code func` now just `code` haftmann parents: 27824 diff changeset	2251	lemma inter_code [code]: "(A \<inter> B) x \<longleftrightarrow> A x \<and> B x"
27824 97d2a3797ce0 rudimentary code setup for set operations haftmann parents: 27418 diff changeset	2252	unfolding Int_def Collect_def mem_def ..
97d2a3797ce0 rudimentary code setup for set operations haftmann parents: 27418 diff changeset	2253
28562 4e74209f113e `code func` now just `code` haftmann parents: 27824 diff changeset	2254	lemma union_code [code]: "(A \<union> B) x \<longleftrightarrow> A x \<or> B x"
27824 97d2a3797ce0 rudimentary code setup for set operations haftmann parents: 27418 diff changeset	2255	unfolding Un_def Collect_def mem_def ..
97d2a3797ce0 rudimentary code setup for set operations haftmann parents: 27418 diff changeset	2256
28562 4e74209f113e `code func` now just `code` haftmann parents: 27824 diff changeset	2257	lemma vimage_code [code]: "(f -` A) x = A (f x)"
27824 97d2a3797ce0 rudimentary code setup for set operations haftmann parents: 27418 diff changeset	2258	unfolding vimage_def Collect_def mem_def ..
97d2a3797ce0 rudimentary code setup for set operations haftmann parents: 27418 diff changeset	2259
97d2a3797ce0 rudimentary code setup for set operations haftmann parents: 27418 diff changeset	2260
30531 ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	2261	subsection {* Complete lattices *}
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	2262
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	2263	notation
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	2264	less_eq (infix "\<sqsubseteq>" 50) and
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	2265	less (infix "\<sqsubset>" 50) and
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	2266	inf (infixl "\<sqinter>" 70) and
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	2267	sup (infixl "\<squnion>" 65)
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	2268
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	2269	class complete_lattice = lattice + bot + top +
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	2270	fixes Inf :: "'a set \<Rightarrow> 'a" ("\<Sqinter>_" [900] 900)
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	2271	and Sup :: "'a set \<Rightarrow> 'a" ("\<Squnion>_" [900] 900)
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	2272	assumes Inf_lower: "x \<in> A \<Longrightarrow> \<Sqinter>A \<sqsubseteq> x"
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	2273	and Inf_greatest: "(\<And>x. x \<in> A \<Longrightarrow> z \<sqsubseteq> x) \<Longrightarrow> z \<sqsubseteq> \<Sqinter>A"
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	2274	assumes Sup_upper: "x \<in> A \<Longrightarrow> x \<sqsubseteq> \<Squnion>A"
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	2275	and Sup_least: "(\<And>x. x \<in> A \<Longrightarrow> x \<sqsubseteq> z) \<Longrightarrow> \<Squnion>A \<sqsubseteq> z"
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	2276	begin
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	2277
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	2278	lemma Inf_Sup: "\<Sqinter>A = \<Squnion>{b. \<forall>a \<in> A. b \<le> a}"
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	2279	by (auto intro: antisym Inf_lower Inf_greatest Sup_upper Sup_least)
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	2280
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	2281	lemma Sup_Inf: "\<Squnion>A = \<Sqinter>{b. \<forall>a \<in> A. a \<le> b}"
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	2282	by (auto intro: antisym Inf_lower Inf_greatest Sup_upper Sup_least)
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	2283
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	2284	lemma Inf_Univ: "\<Sqinter>UNIV = \<Squnion>{}"
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	2285	unfolding Sup_Inf by auto
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	2286
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	2287	lemma Sup_Univ: "\<Squnion>UNIV = \<Sqinter>{}"
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	2288	unfolding Inf_Sup by auto
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	2289
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	2290	lemma Inf_insert: "\<Sqinter>insert a A = a \<sqinter> \<Sqinter>A"
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	2291	by (auto intro: antisym Inf_greatest Inf_lower)
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	2292
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	2293	lemma Sup_insert: "\<Squnion>insert a A = a \<squnion> \<Squnion>A"
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	2294	by (auto intro: antisym Sup_least Sup_upper)
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	2295
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	2296	lemma Inf_singleton [simp]:
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	2297	"\<Sqinter>{a} = a"
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	2298	by (auto intro: antisym Inf_lower Inf_greatest)
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	2299
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	2300	lemma Sup_singleton [simp]:
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	2301	"\<Squnion>{a} = a"
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	2302	by (auto intro: antisym Sup_upper Sup_least)
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	2303
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	2304	lemma Inf_insert_simp:
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	2305	"\<Sqinter>insert a A = (if A = {} then a else a \<sqinter> \<Sqinter>A)"
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	2306	by (cases "A = {}") (simp_all, simp add: Inf_insert)
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	2307
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	2308	lemma Sup_insert_simp:
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	2309	"\<Squnion>insert a A = (if A = {} then a else a \<squnion> \<Squnion>A)"
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	2310	by (cases "A = {}") (simp_all, simp add: Sup_insert)
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	2311
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	2312	lemma Inf_binary:
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	2313	"\<Sqinter>{a, b} = a \<sqinter> b"
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	2314	by (simp add: Inf_insert_simp)
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	2315
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	2316	lemma Sup_binary:
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	2317	"\<Squnion>{a, b} = a \<squnion> b"
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	2318	by (simp add: Sup_insert_simp)
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	2319
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	2320	lemma bot_def:
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	2321	"bot = \<Squnion>{}"
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	2322	by (auto intro: antisym Sup_least)
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	2323
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	2324	lemma top_def:
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	2325	"top = \<Sqinter>{}"
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	2326	by (auto intro: antisym Inf_greatest)
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	2327
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	2328	lemma sup_bot [simp]:
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	2329	"x \<squnion> bot = x"
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	2330	using bot_least [of x] by (simp add: le_iff_sup sup_commute)
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	2331
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	2332	lemma inf_top [simp]:
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	2333	"x \<sqinter> top = x"
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	2334	using top_greatest [of x] by (simp add: le_iff_inf inf_commute)
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	2335
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	2336	definition SUPR :: "'b set \<Rightarrow> ('b \<Rightarrow> 'a) \<Rightarrow> 'a" where
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	2337	"SUPR A f == \<Squnion> (f ` A)"
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	2338
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	2339	definition INFI :: "'b set \<Rightarrow> ('b \<Rightarrow> 'a) \<Rightarrow> 'a" where
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	2340	"INFI A f == \<Sqinter> (f ` A)"
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	2341
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	2342	end
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	2343
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	2344	syntax
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	2345	"_SUP1" :: "pttrns => 'b => 'b" ("(3SUP _./ _)" [0, 10] 10)
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	2346	"_SUP" :: "pttrn => 'a set => 'b => 'b" ("(3SUP _:_./ _)" [0, 10] 10)
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	2347	"_INF1" :: "pttrns => 'b => 'b" ("(3INF _./ _)" [0, 10] 10)
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	2348	"_INF" :: "pttrn => 'a set => 'b => 'b" ("(3INF _:_./ _)" [0, 10] 10)
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	2349
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	2350	translations
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	2351	"SUP x y. B" == "SUP x. SUP y. B"
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	2352	"SUP x. B" == "CONST SUPR CONST UNIV (%x. B)"
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	2353	"SUP x. B" == "SUP x:CONST UNIV. B"
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	2354	"SUP x:A. B" == "CONST SUPR A (%x. B)"
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	2355	"INF x y. B" == "INF x. INF y. B"
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	2356	"INF x. B" == "CONST INFI CONST UNIV (%x. B)"
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	2357	"INF x. B" == "INF x:CONST UNIV. B"
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	2358	"INF x:A. B" == "CONST INFI A (%x. B)"
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	2359
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	2360	(* To avoid eta-contraction of body: *)
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	2361	print_translation {*
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	2362	let
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	2363	fun btr' syn (A :: Abs abs :: ts) =
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	2364	let val (x,t) = atomic_abs_tr' abs
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	2365	in list_comb (Syntax.const syn $ x $ A $ t, ts) end
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	2366	val const_syntax_name = Sign.const_syntax_name @{theory} o fst o dest_Const
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	2367	in
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	2368	[(const_syntax_name @{term SUPR}, btr' "_SUP"),(const_syntax_name @{term "INFI"}, btr' "_INF")]
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	2369	end
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	2370	*}
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	2371
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	2372	context complete_lattice
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	2373	begin
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	2374
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	2375	lemma le_SUPI: "i : A \<Longrightarrow> M i \<le> (SUP i:A. M i)"
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	2376	by (auto simp add: SUPR_def intro: Sup_upper)
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	2377
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	2378	lemma SUP_leI: "(\<And>i. i : A \<Longrightarrow> M i \<le> u) \<Longrightarrow> (SUP i:A. M i) \<le> u"
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	2379	by (auto simp add: SUPR_def intro: Sup_least)
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	2380
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	2381	lemma INF_leI: "i : A \<Longrightarrow> (INF i:A. M i) \<le> M i"
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	2382	by (auto simp add: INFI_def intro: Inf_lower)
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	2383
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	2384	lemma le_INFI: "(\<And>i. i : A \<Longrightarrow> u \<le> M i) \<Longrightarrow> u \<le> (INF i:A. M i)"
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	2385	by (auto simp add: INFI_def intro: Inf_greatest)
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	2386
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	2387	lemma SUP_const[simp]: "A \<noteq> {} \<Longrightarrow> (SUP i:A. M) = M"
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	2388	by (auto intro: antisym SUP_leI le_SUPI)
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	2389
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	2390	lemma INF_const[simp]: "A \<noteq> {} \<Longrightarrow> (INF i:A. M) = M"
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	2391	by (auto intro: antisym INF_leI le_INFI)
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	2392
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	2393	end
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	2394
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	2395
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	2396	subsection {* Bool as complete lattice *}
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	2397
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	2398	instantiation bool :: complete_lattice
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	2399	begin
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	2400
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	2401	definition
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	2402	Inf_bool_def: "\<Sqinter>A \<longleftrightarrow> (\<forall>x\<in>A. x)"
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	2403
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	2404	definition
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	2405	Sup_bool_def: "\<Squnion>A \<longleftrightarrow> (\<exists>x\<in>A. x)"
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	2406
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	2407	instance
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	2408	by intro_classes (auto simp add: Inf_bool_def Sup_bool_def le_bool_def)
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	2409
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	2410	end
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	2411
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	2412	lemma Inf_empty_bool [simp]:
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	2413	"\<Sqinter>{}"
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	2414	unfolding Inf_bool_def by auto
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	2415
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	2416	lemma not_Sup_empty_bool [simp]:
30814 10dc9bc264b7 tuned; wenzelm parents: 30596 diff changeset	2417	"\<not> \<Squnion>{}"
30531 ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	2418	unfolding Sup_bool_def by auto
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	2419
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	2420
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	2421	subsection {* Fun as complete lattice *}
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	2422
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	2423	instantiation "fun" :: (type, complete_lattice) complete_lattice
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	2424	begin
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	2425
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	2426	definition
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	2427	Inf_fun_def [code del]: "\<Sqinter>A = (\<lambda>x. \<Sqinter>{y. \<exists>f\<in>A. y = f x})"
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	2428
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	2429	definition
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	2430	Sup_fun_def [code del]: "\<Squnion>A = (\<lambda>x. \<Squnion>{y. \<exists>f\<in>A. y = f x})"
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	2431
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	2432	instance
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	2433	by intro_classes
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	2434	(auto simp add: Inf_fun_def Sup_fun_def le_fun_def
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	2435	intro: Inf_lower Sup_upper Inf_greatest Sup_least)
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	2436
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	2437	end
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	2438
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	2439	lemma Inf_empty_fun:
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	2440	"\<Sqinter>{} = (\<lambda>_. \<Sqinter>{})"
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	2441	by rule (auto simp add: Inf_fun_def)
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	2442
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	2443	lemma Sup_empty_fun:
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	2444	"\<Squnion>{} = (\<lambda>_. \<Squnion>{})"
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	2445	by rule (auto simp add: Sup_fun_def)
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	2446
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	2447
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	2448	subsection {* Set as lattice *}
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	2449
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	2450	lemma inf_set_eq: "A \<sqinter> B = A \<inter> B"
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	2451	apply (rule subset_antisym)
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	2452	apply (rule Int_greatest)
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	2453	apply (rule inf_le1)
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	2454	apply (rule inf_le2)
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	2455	apply (rule inf_greatest)
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	2456	apply (rule Int_lower1)
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	2457	apply (rule Int_lower2)
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	2458	done
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	2459
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	2460	lemma sup_set_eq: "A \<squnion> B = A \<union> B"
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	2461	apply (rule subset_antisym)
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	2462	apply (rule sup_least)
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	2463	apply (rule Un_upper1)
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	2464	apply (rule Un_upper2)
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	2465	apply (rule Un_least)
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	2466	apply (rule sup_ge1)
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	2467	apply (rule sup_ge2)
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	2468	done
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	2469
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	2470	lemma mono_Int: "mono f \<Longrightarrow> f (A \<inter> B) \<subseteq> f A \<inter> f B"
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	2471	apply (fold inf_set_eq sup_set_eq)
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	2472	apply (erule mono_inf)
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	2473	done
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	2474
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	2475	lemma mono_Un: "mono f \<Longrightarrow> f A \<union> f B \<subseteq> f (A \<union> B)"
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	2476	apply (fold inf_set_eq sup_set_eq)
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	2477	apply (erule mono_sup)
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	2478	done
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	2479
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	2480	lemma Inf_set_eq: "\<Sqinter>S = \<Inter>S"
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	2481	apply (rule subset_antisym)
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	2482	apply (rule Inter_greatest)
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	2483	apply (erule Inf_lower)
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	2484	apply (rule Inf_greatest)
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	2485	apply (erule Inter_lower)
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	2486	done
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	2487
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	2488	lemma Sup_set_eq: "\<Squnion>S = \<Union>S"
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	2489	apply (rule subset_antisym)
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	2490	apply (rule Sup_least)
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	2491	apply (erule Union_upper)
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	2492	apply (rule Union_least)
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	2493	apply (erule Sup_upper)
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	2494	done
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	2495
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	2496	lemma top_set_eq: "top = UNIV"
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	2497	by (iprover intro!: subset_antisym subset_UNIV top_greatest)
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	2498
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	2499	lemma bot_set_eq: "bot = {}"
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	2500	by (iprover intro!: subset_antisym empty_subsetI bot_least)
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	2501
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	2502	no_notation
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	2503	less_eq (infix "\<sqsubseteq>" 50) and
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	2504	less (infix "\<sqsubset>" 50) and
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	2505	inf (infixl "\<sqinter>" 70) and
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	2506	sup (infixl "\<squnion>" 65) and
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	2507	Inf ("\<Sqinter>_" [900] 900) and
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	2508	Sup ("\<Squnion>_" [900] 900)
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	2509
ab3d61baf66a reverted to old version of Set.thy -- strange effects have to be traced first haftmann parents: 30352 diff changeset	2510
30596 140b22f22071 tuned some theorem and attribute bindings haftmann parents: 30531 diff changeset	2511	subsection {* Misc theorem and ML bindings *}
140b22f22071 tuned some theorem and attribute bindings haftmann parents: 30531 diff changeset	2512
140b22f22071 tuned some theorem and attribute bindings haftmann parents: 30531 diff changeset	2513	lemmas equalityI = subset_antisym
140b22f22071 tuned some theorem and attribute bindings haftmann parents: 30531 diff changeset	2514	lemmas mem_simps =
140b22f22071 tuned some theorem and attribute bindings haftmann parents: 30531 diff changeset	2515	insert_iff empty_iff Un_iff Int_iff Compl_iff Diff_iff
140b22f22071 tuned some theorem and attribute bindings haftmann parents: 30531 diff changeset	2516	mem_Collect_eq UN_iff Union_iff INT_iff Inter_iff
140b22f22071 tuned some theorem and attribute bindings haftmann parents: 30531 diff changeset	2517	-- {* Each of these has ALREADY been added @{text "[simp]"} above. *}
21669 c68717c16013 removed legacy ML bindings; wenzelm parents: 21549 diff changeset	2518
c68717c16013 removed legacy ML bindings; wenzelm parents: 21549 diff changeset	2519	ML {*
22139 539a63b98f76 tuned ML setup; wenzelm parents: 21833 diff changeset	2520	val Ball_def = @{thm Ball_def}
539a63b98f76 tuned ML setup; wenzelm parents: 21833 diff changeset	2521	val Bex_def = @{thm Bex_def}
539a63b98f76 tuned ML setup; wenzelm parents: 21833 diff changeset	2522	val CollectD = @{thm CollectD}
539a63b98f76 tuned ML setup; wenzelm parents: 21833 diff changeset	2523	val CollectE = @{thm CollectE}
539a63b98f76 tuned ML setup; wenzelm parents: 21833 diff changeset	2524	val CollectI = @{thm CollectI}
539a63b98f76 tuned ML setup; wenzelm parents: 21833 diff changeset	2525	val Collect_conj_eq = @{thm Collect_conj_eq}
539a63b98f76 tuned ML setup; wenzelm parents: 21833 diff changeset	2526	val Collect_mem_eq = @{thm Collect_mem_eq}
539a63b98f76 tuned ML setup; wenzelm parents: 21833 diff changeset	2527	val IntD1 = @{thm IntD1}
539a63b98f76 tuned ML setup; wenzelm parents: 21833 diff changeset	2528	val IntD2 = @{thm IntD2}
539a63b98f76 tuned ML setup; wenzelm parents: 21833 diff changeset	2529	val IntE = @{thm IntE}
539a63b98f76 tuned ML setup; wenzelm parents: 21833 diff changeset	2530	val IntI = @{thm IntI}
539a63b98f76 tuned ML setup; wenzelm parents: 21833 diff changeset	2531	val Int_Collect = @{thm Int_Collect}
539a63b98f76 tuned ML setup; wenzelm parents: 21833 diff changeset	2532	val UNIV_I = @{thm UNIV_I}
539a63b98f76 tuned ML setup; wenzelm parents: 21833 diff changeset	2533	val UNIV_witness = @{thm UNIV_witness}
539a63b98f76 tuned ML setup; wenzelm parents: 21833 diff changeset	2534	val UnE = @{thm UnE}
539a63b98f76 tuned ML setup; wenzelm parents: 21833 diff changeset	2535	val UnI1 = @{thm UnI1}
539a63b98f76 tuned ML setup; wenzelm parents: 21833 diff changeset	2536	val UnI2 = @{thm UnI2}
539a63b98f76 tuned ML setup; wenzelm parents: 21833 diff changeset	2537	val ballE = @{thm ballE}
539a63b98f76 tuned ML setup; wenzelm parents: 21833 diff changeset	2538	val ballI = @{thm ballI}
539a63b98f76 tuned ML setup; wenzelm parents: 21833 diff changeset	2539	val bexCI = @{thm bexCI}
539a63b98f76 tuned ML setup; wenzelm parents: 21833 diff changeset	2540	val bexE = @{thm bexE}
539a63b98f76 tuned ML setup; wenzelm parents: 21833 diff changeset	2541	val bexI = @{thm bexI}
539a63b98f76 tuned ML setup; wenzelm parents: 21833 diff changeset	2542	val bex_triv = @{thm bex_triv}
539a63b98f76 tuned ML setup; wenzelm parents: 21833 diff changeset	2543	val bspec = @{thm bspec}
539a63b98f76 tuned ML setup; wenzelm parents: 21833 diff changeset	2544	val contra_subsetD = @{thm contra_subsetD}
539a63b98f76 tuned ML setup; wenzelm parents: 21833 diff changeset	2545	val distinct_lemma = @{thm distinct_lemma}
539a63b98f76 tuned ML setup; wenzelm parents: 21833 diff changeset	2546	val eq_to_mono = @{thm eq_to_mono}
539a63b98f76 tuned ML setup; wenzelm parents: 21833 diff changeset	2547	val eq_to_mono2 = @{thm eq_to_mono2}
539a63b98f76 tuned ML setup; wenzelm parents: 21833 diff changeset	2548	val equalityCE = @{thm equalityCE}
539a63b98f76 tuned ML setup; wenzelm parents: 21833 diff changeset	2549	val equalityD1 = @{thm equalityD1}
539a63b98f76 tuned ML setup; wenzelm parents: 21833 diff changeset	2550	val equalityD2 = @{thm equalityD2}
539a63b98f76 tuned ML setup; wenzelm parents: 21833 diff changeset	2551	val equalityE = @{thm equalityE}
539a63b98f76 tuned ML setup; wenzelm parents: 21833 diff changeset	2552	val equalityI = @{thm equalityI}
539a63b98f76 tuned ML setup; wenzelm parents: 21833 diff changeset	2553	val imageE = @{thm imageE}
539a63b98f76 tuned ML setup; wenzelm parents: 21833 diff changeset	2554	val imageI = @{thm imageI}
539a63b98f76 tuned ML setup; wenzelm parents: 21833 diff changeset	2555	val image_Un = @{thm image_Un}
539a63b98f76 tuned ML setup; wenzelm parents: 21833 diff changeset	2556	val image_insert = @{thm image_insert}
539a63b98f76 tuned ML setup; wenzelm parents: 21833 diff changeset	2557	val insert_commute = @{thm insert_commute}
539a63b98f76 tuned ML setup; wenzelm parents: 21833 diff changeset	2558	val insert_iff = @{thm insert_iff}
539a63b98f76 tuned ML setup; wenzelm parents: 21833 diff changeset	2559	val mem_Collect_eq = @{thm mem_Collect_eq}
539a63b98f76 tuned ML setup; wenzelm parents: 21833 diff changeset	2560	val rangeE = @{thm rangeE}
539a63b98f76 tuned ML setup; wenzelm parents: 21833 diff changeset	2561	val rangeI = @{thm rangeI}
539a63b98f76 tuned ML setup; wenzelm parents: 21833 diff changeset	2562	val range_eqI = @{thm range_eqI}
539a63b98f76 tuned ML setup; wenzelm parents: 21833 diff changeset	2563	val subsetCE = @{thm subsetCE}
539a63b98f76 tuned ML setup; wenzelm parents: 21833 diff changeset	2564	val subsetD = @{thm subsetD}
539a63b98f76 tuned ML setup; wenzelm parents: 21833 diff changeset	2565	val subsetI = @{thm subsetI}
539a63b98f76 tuned ML setup; wenzelm parents: 21833 diff changeset	2566	val subset_refl = @{thm subset_refl}
539a63b98f76 tuned ML setup; wenzelm parents: 21833 diff changeset	2567	val subset_trans = @{thm subset_trans}
539a63b98f76 tuned ML setup; wenzelm parents: 21833 diff changeset	2568	val vimageD = @{thm vimageD}
539a63b98f76 tuned ML setup; wenzelm parents: 21833 diff changeset	2569	val vimageE = @{thm vimageE}
539a63b98f76 tuned ML setup; wenzelm parents: 21833 diff changeset	2570	val vimageI = @{thm vimageI}
539a63b98f76 tuned ML setup; wenzelm parents: 21833 diff changeset	2571	val vimageI2 = @{thm vimageI2}
539a63b98f76 tuned ML setup; wenzelm parents: 21833 diff changeset	2572	val vimage_Collect = @{thm vimage_Collect}
539a63b98f76 tuned ML setup; wenzelm parents: 21833 diff changeset	2573	val vimage_Int = @{thm vimage_Int}
539a63b98f76 tuned ML setup; wenzelm parents: 21833 diff changeset	2574	val vimage_Un = @{thm vimage_Un}
21669 c68717c16013 removed legacy ML bindings; wenzelm parents: 21549 diff changeset	2575	*}
c68717c16013 removed legacy ML bindings; wenzelm parents: 21549 diff changeset	2576
11979 0a3dace545c5 converted theory "Set"; wenzelm parents: 11752 diff changeset	2577	end

author	nipkow
	Thu, 04 Jun 2009 19:44:06 +0200
changeset 31441	428e4caf2299
parent 31197	c1c163ec6c44
child 31461	d54b743b52a3
permissions	-rw-r--r--