isabelle: src/HOL/Predicate.thy@95f66b234086 (annotated)

22259 476604be7d88 New theory for converting between predicates and sets. berghofe parents: diff changeset	1	(* Title: HOL/Predicate.thy
30328 ab47f43f7581 added enumeration of predicates haftmann parents: 26797 diff changeset	2	Author: Stefan Berghofer and Lukas Bulwahn and Florian Haftmann, TU Muenchen
22259 476604be7d88 New theory for converting between predicates and sets. berghofe parents: diff changeset	3	*)
476604be7d88 New theory for converting between predicates and sets. berghofe parents: diff changeset	4
30328 ab47f43f7581 added enumeration of predicates haftmann parents: 26797 diff changeset	5	header {* Predicates as relations and enumerations *}
22259 476604be7d88 New theory for converting between predicates and sets. berghofe parents: diff changeset	6
476604be7d88 New theory for converting between predicates and sets. berghofe parents: diff changeset	7	theory Predicate
23708 b5eb0b4dd17d clarified import haftmann parents: 23389 diff changeset	8	imports Inductive Relation
22259 476604be7d88 New theory for converting between predicates and sets. berghofe parents: diff changeset	9	begin
476604be7d88 New theory for converting between predicates and sets. berghofe parents: diff changeset	10
30328 ab47f43f7581 added enumeration of predicates haftmann parents: 26797 diff changeset	11	notation
ab47f43f7581 added enumeration of predicates haftmann parents: 26797 diff changeset	12	inf (infixl "\<sqinter>" 70) and
ab47f43f7581 added enumeration of predicates haftmann parents: 26797 diff changeset	13	sup (infixl "\<squnion>" 65) and
ab47f43f7581 added enumeration of predicates haftmann parents: 26797 diff changeset	14	Inf ("\<Sqinter>_" [900] 900) and
ab47f43f7581 added enumeration of predicates haftmann parents: 26797 diff changeset	15	Sup ("\<Squnion>_" [900] 900) and
ab47f43f7581 added enumeration of predicates haftmann parents: 26797 diff changeset	16	top ("\<top>") and
ab47f43f7581 added enumeration of predicates haftmann parents: 26797 diff changeset	17	bot ("\<bottom>")
ab47f43f7581 added enumeration of predicates haftmann parents: 26797 diff changeset	18
ab47f43f7581 added enumeration of predicates haftmann parents: 26797 diff changeset	19
ab47f43f7581 added enumeration of predicates haftmann parents: 26797 diff changeset	20	subsection {* Predicates as (complete) lattices *}
ab47f43f7581 added enumeration of predicates haftmann parents: 26797 diff changeset	21
ab47f43f7581 added enumeration of predicates haftmann parents: 26797 diff changeset	22	subsubsection {* @{const sup} on @{typ bool} *}
ab47f43f7581 added enumeration of predicates haftmann parents: 26797 diff changeset	23
ab47f43f7581 added enumeration of predicates haftmann parents: 26797 diff changeset	24	lemma sup_boolI1:
ab47f43f7581 added enumeration of predicates haftmann parents: 26797 diff changeset	25	"P \<Longrightarrow> P \<squnion> Q"
ab47f43f7581 added enumeration of predicates haftmann parents: 26797 diff changeset	26	by (simp add: sup_bool_eq)
ab47f43f7581 added enumeration of predicates haftmann parents: 26797 diff changeset	27
ab47f43f7581 added enumeration of predicates haftmann parents: 26797 diff changeset	28	lemma sup_boolI2:
ab47f43f7581 added enumeration of predicates haftmann parents: 26797 diff changeset	29	"Q \<Longrightarrow> P \<squnion> Q"
ab47f43f7581 added enumeration of predicates haftmann parents: 26797 diff changeset	30	by (simp add: sup_bool_eq)
ab47f43f7581 added enumeration of predicates haftmann parents: 26797 diff changeset	31
ab47f43f7581 added enumeration of predicates haftmann parents: 26797 diff changeset	32	lemma sup_boolE:
ab47f43f7581 added enumeration of predicates haftmann parents: 26797 diff changeset	33	"P \<squnion> Q \<Longrightarrow> (P \<Longrightarrow> R) \<Longrightarrow> (Q \<Longrightarrow> R) \<Longrightarrow> R"
ab47f43f7581 added enumeration of predicates haftmann parents: 26797 diff changeset	34	by (auto simp add: sup_bool_eq)
ab47f43f7581 added enumeration of predicates haftmann parents: 26797 diff changeset	35
ab47f43f7581 added enumeration of predicates haftmann parents: 26797 diff changeset	36
ab47f43f7581 added enumeration of predicates haftmann parents: 26797 diff changeset	37	subsubsection {* Equality and Subsets *}
22259 476604be7d88 New theory for converting between predicates and sets. berghofe parents: diff changeset	38
26797 a6cb51c314f2 - Added mem_def and predicate1I in some of the proofs berghofe parents: 24345 diff changeset	39	lemma pred_equals_eq: "((\<lambda>x. x \<in> R) = (\<lambda>x. x \<in> S)) = (R = S)"
a6cb51c314f2 - Added mem_def and predicate1I in some of the proofs berghofe parents: 24345 diff changeset	40	by (simp add: mem_def)
22259 476604be7d88 New theory for converting between predicates and sets. berghofe parents: diff changeset	41
23741 1801a921df13 - Moved infrastructure for converting between sets and predicates berghofe parents: 23708 diff changeset	42	lemma pred_equals_eq2 [pred_set_conv]: "((\<lambda>x y. (x, y) \<in> R) = (\<lambda>x y. (x, y) \<in> S)) = (R = S)"
26797 a6cb51c314f2 - Added mem_def and predicate1I in some of the proofs berghofe parents: 24345 diff changeset	43	by (simp add: expand_fun_eq mem_def)
22259 476604be7d88 New theory for converting between predicates and sets. berghofe parents: diff changeset	44
26797 a6cb51c314f2 - Added mem_def and predicate1I in some of the proofs berghofe parents: 24345 diff changeset	45	lemma pred_subset_eq: "((\<lambda>x. x \<in> R) <= (\<lambda>x. x \<in> S)) = (R <= S)"
a6cb51c314f2 - Added mem_def and predicate1I in some of the proofs berghofe parents: 24345 diff changeset	46	by (simp add: mem_def)
22259 476604be7d88 New theory for converting between predicates and sets. berghofe parents: diff changeset	47
23741 1801a921df13 - Moved infrastructure for converting between sets and predicates berghofe parents: 23708 diff changeset	48	lemma pred_subset_eq2 [pred_set_conv]: "((\<lambda>x y. (x, y) \<in> R) <= (\<lambda>x y. (x, y) \<in> S)) = (R <= S)"
22259 476604be7d88 New theory for converting between predicates and sets. berghofe parents: diff changeset	49	by fast
476604be7d88 New theory for converting between predicates and sets. berghofe parents: diff changeset	50
23741 1801a921df13 - Moved infrastructure for converting between sets and predicates berghofe parents: 23708 diff changeset	51
30328 ab47f43f7581 added enumeration of predicates haftmann parents: 26797 diff changeset	52	subsubsection {* Top and bottom elements *}
23741 1801a921df13 - Moved infrastructure for converting between sets and predicates berghofe parents: 23708 diff changeset	53
1801a921df13 - Moved infrastructure for converting between sets and predicates berghofe parents: 23708 diff changeset	54	lemma top1I [intro!]: "top x"
1801a921df13 - Moved infrastructure for converting between sets and predicates berghofe parents: 23708 diff changeset	55	by (simp add: top_fun_eq top_bool_eq)
22259 476604be7d88 New theory for converting between predicates and sets. berghofe parents: diff changeset	56
23741 1801a921df13 - Moved infrastructure for converting between sets and predicates berghofe parents: 23708 diff changeset	57	lemma top2I [intro!]: "top x y"
1801a921df13 - Moved infrastructure for converting between sets and predicates berghofe parents: 23708 diff changeset	58	by (simp add: top_fun_eq top_bool_eq)
1801a921df13 - Moved infrastructure for converting between sets and predicates berghofe parents: 23708 diff changeset	59
1801a921df13 - Moved infrastructure for converting between sets and predicates berghofe parents: 23708 diff changeset	60	lemma bot1E [elim!]: "bot x \<Longrightarrow> P"
1801a921df13 - Moved infrastructure for converting between sets and predicates berghofe parents: 23708 diff changeset	61	by (simp add: bot_fun_eq bot_bool_eq)
1801a921df13 - Moved infrastructure for converting between sets and predicates berghofe parents: 23708 diff changeset	62
1801a921df13 - Moved infrastructure for converting between sets and predicates berghofe parents: 23708 diff changeset	63	lemma bot2E [elim!]: "bot x y \<Longrightarrow> P"
1801a921df13 - Moved infrastructure for converting between sets and predicates berghofe parents: 23708 diff changeset	64	by (simp add: bot_fun_eq bot_bool_eq)
22259 476604be7d88 New theory for converting between predicates and sets. berghofe parents: diff changeset	65
476604be7d88 New theory for converting between predicates and sets. berghofe parents: diff changeset	66
30328 ab47f43f7581 added enumeration of predicates haftmann parents: 26797 diff changeset	67	subsubsection {* The empty set *}
23741 1801a921df13 - Moved infrastructure for converting between sets and predicates berghofe parents: 23708 diff changeset	68
1801a921df13 - Moved infrastructure for converting between sets and predicates berghofe parents: 23708 diff changeset	69	lemma bot_empty_eq: "bot = (\<lambda>x. x \<in> {})"
1801a921df13 - Moved infrastructure for converting between sets and predicates berghofe parents: 23708 diff changeset	70	by (auto simp add: expand_fun_eq)
22259 476604be7d88 New theory for converting between predicates and sets. berghofe parents: diff changeset	71
23741 1801a921df13 - Moved infrastructure for converting between sets and predicates berghofe parents: 23708 diff changeset	72	lemma bot_empty_eq2: "bot = (\<lambda>x y. (x, y) \<in> {})"
1801a921df13 - Moved infrastructure for converting between sets and predicates berghofe parents: 23708 diff changeset	73	by (auto simp add: expand_fun_eq)
22259 476604be7d88 New theory for converting between predicates and sets. berghofe parents: diff changeset	74
23741 1801a921df13 - Moved infrastructure for converting between sets and predicates berghofe parents: 23708 diff changeset	75
30328 ab47f43f7581 added enumeration of predicates haftmann parents: 26797 diff changeset	76	subsubsection {* Binary union *}
22259 476604be7d88 New theory for converting between predicates and sets. berghofe parents: diff changeset	77
22422 ee19cdb07528 stepping towards uniform lattice theory development in HOL haftmann parents: 22259 diff changeset	78	lemma sup1_iff [simp]: "sup A B x \<longleftrightarrow> A x \| B x"
ee19cdb07528 stepping towards uniform lattice theory development in HOL haftmann parents: 22259 diff changeset	79	by (simp add: sup_fun_eq sup_bool_eq)
22259 476604be7d88 New theory for converting between predicates and sets. berghofe parents: diff changeset	80
22422 ee19cdb07528 stepping towards uniform lattice theory development in HOL haftmann parents: 22259 diff changeset	81	lemma sup2_iff [simp]: "sup A B x y \<longleftrightarrow> A x y \| B x y"
ee19cdb07528 stepping towards uniform lattice theory development in HOL haftmann parents: 22259 diff changeset	82	by (simp add: sup_fun_eq sup_bool_eq)
22259 476604be7d88 New theory for converting between predicates and sets. berghofe parents: diff changeset	83
23741 1801a921df13 - Moved infrastructure for converting between sets and predicates berghofe parents: 23708 diff changeset	84	lemma sup_Un_eq [pred_set_conv]: "sup (\<lambda>x. x \<in> R) (\<lambda>x. x \<in> S) = (\<lambda>x. x \<in> R \<union> S)"
1801a921df13 - Moved infrastructure for converting between sets and predicates berghofe parents: 23708 diff changeset	85	by (simp add: expand_fun_eq)
1801a921df13 - Moved infrastructure for converting between sets and predicates berghofe parents: 23708 diff changeset	86
1801a921df13 - Moved infrastructure for converting between sets and predicates berghofe parents: 23708 diff changeset	87	lemma sup_Un_eq2 [pred_set_conv]: "sup (\<lambda>x y. (x, y) \<in> R) (\<lambda>x y. (x, y) \<in> S) = (\<lambda>x y. (x, y) \<in> R \<union> S)"
1801a921df13 - Moved infrastructure for converting between sets and predicates berghofe parents: 23708 diff changeset	88	by (simp add: expand_fun_eq)
1801a921df13 - Moved infrastructure for converting between sets and predicates berghofe parents: 23708 diff changeset	89
22422 ee19cdb07528 stepping towards uniform lattice theory development in HOL haftmann parents: 22259 diff changeset	90	lemma sup1I1 [elim?]: "A x \<Longrightarrow> sup A B x"
22259 476604be7d88 New theory for converting between predicates and sets. berghofe parents: diff changeset	91	by simp
476604be7d88 New theory for converting between predicates and sets. berghofe parents: diff changeset	92
22422 ee19cdb07528 stepping towards uniform lattice theory development in HOL haftmann parents: 22259 diff changeset	93	lemma sup2I1 [elim?]: "A x y \<Longrightarrow> sup A B x y"
22259 476604be7d88 New theory for converting between predicates and sets. berghofe parents: diff changeset	94	by simp
476604be7d88 New theory for converting between predicates and sets. berghofe parents: diff changeset	95
23741 1801a921df13 - Moved infrastructure for converting between sets and predicates berghofe parents: 23708 diff changeset	96	lemma sup1I2 [elim?]: "B x \<Longrightarrow> sup A B x"
22259 476604be7d88 New theory for converting between predicates and sets. berghofe parents: diff changeset	97	by simp
476604be7d88 New theory for converting between predicates and sets. berghofe parents: diff changeset	98
23741 1801a921df13 - Moved infrastructure for converting between sets and predicates berghofe parents: 23708 diff changeset	99	lemma sup2I2 [elim?]: "B x y \<Longrightarrow> sup A B x y"
22259 476604be7d88 New theory for converting between predicates and sets. berghofe parents: diff changeset	100	by simp
476604be7d88 New theory for converting between predicates and sets. berghofe parents: diff changeset	101
476604be7d88 New theory for converting between predicates and sets. berghofe parents: diff changeset	102	text {*
476604be7d88 New theory for converting between predicates and sets. berghofe parents: diff changeset	103	\medskip Classical introduction rule: no commitment to @{text A} vs
476604be7d88 New theory for converting between predicates and sets. berghofe parents: diff changeset	104	@{text B}.
476604be7d88 New theory for converting between predicates and sets. berghofe parents: diff changeset	105	*}
476604be7d88 New theory for converting between predicates and sets. berghofe parents: diff changeset	106
22422 ee19cdb07528 stepping towards uniform lattice theory development in HOL haftmann parents: 22259 diff changeset	107	lemma sup1CI [intro!]: "(~ B x ==> A x) ==> sup A B x"
22259 476604be7d88 New theory for converting between predicates and sets. berghofe parents: diff changeset	108	by auto
476604be7d88 New theory for converting between predicates and sets. berghofe parents: diff changeset	109
22422 ee19cdb07528 stepping towards uniform lattice theory development in HOL haftmann parents: 22259 diff changeset	110	lemma sup2CI [intro!]: "(~ B x y ==> A x y) ==> sup A B x y"
22259 476604be7d88 New theory for converting between predicates and sets. berghofe parents: diff changeset	111	by auto
476604be7d88 New theory for converting between predicates and sets. berghofe parents: diff changeset	112
22422 ee19cdb07528 stepping towards uniform lattice theory development in HOL haftmann parents: 22259 diff changeset	113	lemma sup1E [elim!]: "sup A B x ==> (A x ==> P) ==> (B x ==> P) ==> P"
22259 476604be7d88 New theory for converting between predicates and sets. berghofe parents: diff changeset	114	by simp iprover
476604be7d88 New theory for converting between predicates and sets. berghofe parents: diff changeset	115
22422 ee19cdb07528 stepping towards uniform lattice theory development in HOL haftmann parents: 22259 diff changeset	116	lemma sup2E [elim!]: "sup A B x y ==> (A x y ==> P) ==> (B x y ==> P) ==> P"
22259 476604be7d88 New theory for converting between predicates and sets. berghofe parents: diff changeset	117	by simp iprover
476604be7d88 New theory for converting between predicates and sets. berghofe parents: diff changeset	118
476604be7d88 New theory for converting between predicates and sets. berghofe parents: diff changeset	119
30328 ab47f43f7581 added enumeration of predicates haftmann parents: 26797 diff changeset	120	subsubsection {* Binary intersection *}
22259 476604be7d88 New theory for converting between predicates and sets. berghofe parents: diff changeset	121
22422 ee19cdb07528 stepping towards uniform lattice theory development in HOL haftmann parents: 22259 diff changeset	122	lemma inf1_iff [simp]: "inf A B x \<longleftrightarrow> A x \<and> B x"
ee19cdb07528 stepping towards uniform lattice theory development in HOL haftmann parents: 22259 diff changeset	123	by (simp add: inf_fun_eq inf_bool_eq)
22259 476604be7d88 New theory for converting between predicates and sets. berghofe parents: diff changeset	124
22422 ee19cdb07528 stepping towards uniform lattice theory development in HOL haftmann parents: 22259 diff changeset	125	lemma inf2_iff [simp]: "inf A B x y \<longleftrightarrow> A x y \<and> B x y"
ee19cdb07528 stepping towards uniform lattice theory development in HOL haftmann parents: 22259 diff changeset	126	by (simp add: inf_fun_eq inf_bool_eq)
22259 476604be7d88 New theory for converting between predicates and sets. berghofe parents: diff changeset	127
23741 1801a921df13 - Moved infrastructure for converting between sets and predicates berghofe parents: 23708 diff changeset	128	lemma inf_Int_eq [pred_set_conv]: "inf (\<lambda>x. x \<in> R) (\<lambda>x. x \<in> S) = (\<lambda>x. x \<in> R \<inter> S)"
1801a921df13 - Moved infrastructure for converting between sets and predicates berghofe parents: 23708 diff changeset	129	by (simp add: expand_fun_eq)
1801a921df13 - Moved infrastructure for converting between sets and predicates berghofe parents: 23708 diff changeset	130
1801a921df13 - Moved infrastructure for converting between sets and predicates berghofe parents: 23708 diff changeset	131	lemma inf_Int_eq2 [pred_set_conv]: "inf (\<lambda>x y. (x, y) \<in> R) (\<lambda>x y. (x, y) \<in> S) = (\<lambda>x y. (x, y) \<in> R \<inter> S)"
1801a921df13 - Moved infrastructure for converting between sets and predicates berghofe parents: 23708 diff changeset	132	by (simp add: expand_fun_eq)
1801a921df13 - Moved infrastructure for converting between sets and predicates berghofe parents: 23708 diff changeset	133
22422 ee19cdb07528 stepping towards uniform lattice theory development in HOL haftmann parents: 22259 diff changeset	134	lemma inf1I [intro!]: "A x ==> B x ==> inf A B x"
22259 476604be7d88 New theory for converting between predicates and sets. berghofe parents: diff changeset	135	by simp
476604be7d88 New theory for converting between predicates and sets. berghofe parents: diff changeset	136
22422 ee19cdb07528 stepping towards uniform lattice theory development in HOL haftmann parents: 22259 diff changeset	137	lemma inf2I [intro!]: "A x y ==> B x y ==> inf A B x y"
22259 476604be7d88 New theory for converting between predicates and sets. berghofe parents: diff changeset	138	by simp
476604be7d88 New theory for converting between predicates and sets. berghofe parents: diff changeset	139
22422 ee19cdb07528 stepping towards uniform lattice theory development in HOL haftmann parents: 22259 diff changeset	140	lemma inf1D1: "inf A B x ==> A x"
22259 476604be7d88 New theory for converting between predicates and sets. berghofe parents: diff changeset	141	by simp
476604be7d88 New theory for converting between predicates and sets. berghofe parents: diff changeset	142
22422 ee19cdb07528 stepping towards uniform lattice theory development in HOL haftmann parents: 22259 diff changeset	143	lemma inf2D1: "inf A B x y ==> A x y"
22259 476604be7d88 New theory for converting between predicates and sets. berghofe parents: diff changeset	144	by simp
476604be7d88 New theory for converting between predicates and sets. berghofe parents: diff changeset	145
22422 ee19cdb07528 stepping towards uniform lattice theory development in HOL haftmann parents: 22259 diff changeset	146	lemma inf1D2: "inf A B x ==> B x"
22259 476604be7d88 New theory for converting between predicates and sets. berghofe parents: diff changeset	147	by simp
476604be7d88 New theory for converting between predicates and sets. berghofe parents: diff changeset	148
22422 ee19cdb07528 stepping towards uniform lattice theory development in HOL haftmann parents: 22259 diff changeset	149	lemma inf2D2: "inf A B x y ==> B x y"
22259 476604be7d88 New theory for converting between predicates and sets. berghofe parents: diff changeset	150	by simp
476604be7d88 New theory for converting between predicates and sets. berghofe parents: diff changeset	151
22422 ee19cdb07528 stepping towards uniform lattice theory development in HOL haftmann parents: 22259 diff changeset	152	lemma inf1E [elim!]: "inf A B x ==> (A x ==> B x ==> P) ==> P"
22259 476604be7d88 New theory for converting between predicates and sets. berghofe parents: diff changeset	153	by simp
476604be7d88 New theory for converting between predicates and sets. berghofe parents: diff changeset	154
22422 ee19cdb07528 stepping towards uniform lattice theory development in HOL haftmann parents: 22259 diff changeset	155	lemma inf2E [elim!]: "inf A B x y ==> (A x y ==> B x y ==> P) ==> P"
22259 476604be7d88 New theory for converting between predicates and sets. berghofe parents: diff changeset	156	by simp
476604be7d88 New theory for converting between predicates and sets. berghofe parents: diff changeset	157
476604be7d88 New theory for converting between predicates and sets. berghofe parents: diff changeset	158
30328 ab47f43f7581 added enumeration of predicates haftmann parents: 26797 diff changeset	159	subsubsection {* Unions of families *}
22259 476604be7d88 New theory for converting between predicates and sets. berghofe parents: diff changeset	160
22430 6a56bf1b3a64 Generalized version of SUP and INF (with index set). berghofe parents: 22422 diff changeset	161	lemma SUP1_iff [simp]: "(SUP x:A. B x) b = (EX x:A. B x b)"
24345 86a3557a9ebb Sup now explicit parameter of complete_lattice haftmann parents: 23741 diff changeset	162	by (simp add: SUPR_def Sup_fun_def Sup_bool_def) blast
22430 6a56bf1b3a64 Generalized version of SUP and INF (with index set). berghofe parents: 22422 diff changeset	163
6a56bf1b3a64 Generalized version of SUP and INF (with index set). berghofe parents: 22422 diff changeset	164	lemma SUP2_iff [simp]: "(SUP x:A. B x) b c = (EX x:A. B x b c)"
24345 86a3557a9ebb Sup now explicit parameter of complete_lattice haftmann parents: 23741 diff changeset	165	by (simp add: SUPR_def Sup_fun_def Sup_bool_def) blast
22259 476604be7d88 New theory for converting between predicates and sets. berghofe parents: diff changeset	166
22430 6a56bf1b3a64 Generalized version of SUP and INF (with index set). berghofe parents: 22422 diff changeset	167	lemma SUP1_I [intro]: "a : A ==> B a b ==> (SUP x:A. B x) b"
6a56bf1b3a64 Generalized version of SUP and INF (with index set). berghofe parents: 22422 diff changeset	168	by auto
22259 476604be7d88 New theory for converting between predicates and sets. berghofe parents: diff changeset	169
22430 6a56bf1b3a64 Generalized version of SUP and INF (with index set). berghofe parents: 22422 diff changeset	170	lemma SUP2_I [intro]: "a : A ==> B a b c ==> (SUP x:A. B x) b c"
6a56bf1b3a64 Generalized version of SUP and INF (with index set). berghofe parents: 22422 diff changeset	171	by auto
6a56bf1b3a64 Generalized version of SUP and INF (with index set). berghofe parents: 22422 diff changeset	172
6a56bf1b3a64 Generalized version of SUP and INF (with index set). berghofe parents: 22422 diff changeset	173	lemma SUP1_E [elim!]: "(SUP x:A. B x) b ==> (!!x. x : A ==> B x b ==> R) ==> R"
6a56bf1b3a64 Generalized version of SUP and INF (with index set). berghofe parents: 22422 diff changeset	174	by auto
6a56bf1b3a64 Generalized version of SUP and INF (with index set). berghofe parents: 22422 diff changeset	175
6a56bf1b3a64 Generalized version of SUP and INF (with index set). berghofe parents: 22422 diff changeset	176	lemma SUP2_E [elim!]: "(SUP x:A. B x) b c ==> (!!x. x : A ==> B x b c ==> R) ==> R"
22259 476604be7d88 New theory for converting between predicates and sets. berghofe parents: diff changeset	177	by auto
476604be7d88 New theory for converting between predicates and sets. berghofe parents: diff changeset	178
23741 1801a921df13 - Moved infrastructure for converting between sets and predicates berghofe parents: 23708 diff changeset	179	lemma SUP_UN_eq: "(SUP i. (\<lambda>x. x \<in> r i)) = (\<lambda>x. x \<in> (UN i. r i))"
1801a921df13 - Moved infrastructure for converting between sets and predicates berghofe parents: 23708 diff changeset	180	by (simp add: expand_fun_eq)
22430 6a56bf1b3a64 Generalized version of SUP and INF (with index set). berghofe parents: 22422 diff changeset	181
23741 1801a921df13 - Moved infrastructure for converting between sets and predicates berghofe parents: 23708 diff changeset	182	lemma SUP_UN_eq2: "(SUP i. (\<lambda>x y. (x, y) \<in> r i)) = (\<lambda>x y. (x, y) \<in> (UN i. r i))"
1801a921df13 - Moved infrastructure for converting between sets and predicates berghofe parents: 23708 diff changeset	183	by (simp add: expand_fun_eq)
22430 6a56bf1b3a64 Generalized version of SUP and INF (with index set). berghofe parents: 22422 diff changeset	184
23741 1801a921df13 - Moved infrastructure for converting between sets and predicates berghofe parents: 23708 diff changeset	185
30328 ab47f43f7581 added enumeration of predicates haftmann parents: 26797 diff changeset	186	subsubsection {* Intersections of families *}
22430 6a56bf1b3a64 Generalized version of SUP and INF (with index set). berghofe parents: 22422 diff changeset	187
6a56bf1b3a64 Generalized version of SUP and INF (with index set). berghofe parents: 22422 diff changeset	188	lemma INF1_iff [simp]: "(INF x:A. B x) b = (ALL x:A. B x b)"
6a56bf1b3a64 Generalized version of SUP and INF (with index set). berghofe parents: 22422 diff changeset	189	by (simp add: INFI_def Inf_fun_def Inf_bool_def) blast
6a56bf1b3a64 Generalized version of SUP and INF (with index set). berghofe parents: 22422 diff changeset	190
6a56bf1b3a64 Generalized version of SUP and INF (with index set). berghofe parents: 22422 diff changeset	191	lemma INF2_iff [simp]: "(INF x:A. B x) b c = (ALL x:A. B x b c)"
6a56bf1b3a64 Generalized version of SUP and INF (with index set). berghofe parents: 22422 diff changeset	192	by (simp add: INFI_def Inf_fun_def Inf_bool_def) blast
6a56bf1b3a64 Generalized version of SUP and INF (with index set). berghofe parents: 22422 diff changeset	193
6a56bf1b3a64 Generalized version of SUP and INF (with index set). berghofe parents: 22422 diff changeset	194	lemma INF1_I [intro!]: "(!!x. x : A ==> B x b) ==> (INF x:A. B x) b"
22259 476604be7d88 New theory for converting between predicates and sets. berghofe parents: diff changeset	195	by auto
476604be7d88 New theory for converting between predicates and sets. berghofe parents: diff changeset	196
22430 6a56bf1b3a64 Generalized version of SUP and INF (with index set). berghofe parents: 22422 diff changeset	197	lemma INF2_I [intro!]: "(!!x. x : A ==> B x b c) ==> (INF x:A. B x) b c"
6a56bf1b3a64 Generalized version of SUP and INF (with index set). berghofe parents: 22422 diff changeset	198	by auto
6a56bf1b3a64 Generalized version of SUP and INF (with index set). berghofe parents: 22422 diff changeset	199
6a56bf1b3a64 Generalized version of SUP and INF (with index set). berghofe parents: 22422 diff changeset	200	lemma INF1_D [elim]: "(INF x:A. B x) b ==> a : A ==> B a b"
6a56bf1b3a64 Generalized version of SUP and INF (with index set). berghofe parents: 22422 diff changeset	201	by auto
22259 476604be7d88 New theory for converting between predicates and sets. berghofe parents: diff changeset	202
22430 6a56bf1b3a64 Generalized version of SUP and INF (with index set). berghofe parents: 22422 diff changeset	203	lemma INF2_D [elim]: "(INF x:A. B x) b c ==> a : A ==> B a b c"
6a56bf1b3a64 Generalized version of SUP and INF (with index set). berghofe parents: 22422 diff changeset	204	by auto
6a56bf1b3a64 Generalized version of SUP and INF (with index set). berghofe parents: 22422 diff changeset	205
6a56bf1b3a64 Generalized version of SUP and INF (with index set). berghofe parents: 22422 diff changeset	206	lemma INF1_E [elim]: "(INF x:A. B x) b ==> (B a b ==> R) ==> (a ~: A ==> R) ==> R"
6a56bf1b3a64 Generalized version of SUP and INF (with index set). berghofe parents: 22422 diff changeset	207	by auto
6a56bf1b3a64 Generalized version of SUP and INF (with index set). berghofe parents: 22422 diff changeset	208
6a56bf1b3a64 Generalized version of SUP and INF (with index set). berghofe parents: 22422 diff changeset	209	lemma INF2_E [elim]: "(INF x:A. B x) b c ==> (B a b c ==> R) ==> (a ~: A ==> R) ==> R"
6a56bf1b3a64 Generalized version of SUP and INF (with index set). berghofe parents: 22422 diff changeset	210	by auto
22259 476604be7d88 New theory for converting between predicates and sets. berghofe parents: diff changeset	211
23741 1801a921df13 - Moved infrastructure for converting between sets and predicates berghofe parents: 23708 diff changeset	212	lemma INF_INT_eq: "(INF i. (\<lambda>x. x \<in> r i)) = (\<lambda>x. x \<in> (INT i. r i))"
1801a921df13 - Moved infrastructure for converting between sets and predicates berghofe parents: 23708 diff changeset	213	by (simp add: expand_fun_eq)
1801a921df13 - Moved infrastructure for converting between sets and predicates berghofe parents: 23708 diff changeset	214
1801a921df13 - Moved infrastructure for converting between sets and predicates berghofe parents: 23708 diff changeset	215	lemma INF_INT_eq2: "(INF i. (\<lambda>x y. (x, y) \<in> r i)) = (\<lambda>x y. (x, y) \<in> (INT i. r i))"
1801a921df13 - Moved infrastructure for converting between sets and predicates berghofe parents: 23708 diff changeset	216	by (simp add: expand_fun_eq)
1801a921df13 - Moved infrastructure for converting between sets and predicates berghofe parents: 23708 diff changeset	217
22259 476604be7d88 New theory for converting between predicates and sets. berghofe parents: diff changeset	218
30328 ab47f43f7581 added enumeration of predicates haftmann parents: 26797 diff changeset	219	subsection {* Predicates as relations *}
ab47f43f7581 added enumeration of predicates haftmann parents: 26797 diff changeset	220
ab47f43f7581 added enumeration of predicates haftmann parents: 26797 diff changeset	221	subsubsection {* Composition *}
22259 476604be7d88 New theory for converting between predicates and sets. berghofe parents: diff changeset	222
23741 1801a921df13 - Moved infrastructure for converting between sets and predicates berghofe parents: 23708 diff changeset	223	inductive
22259 476604be7d88 New theory for converting between predicates and sets. berghofe parents: diff changeset	224	pred_comp :: "['b => 'c => bool, 'a => 'b => bool] => 'a => 'c => bool"
476604be7d88 New theory for converting between predicates and sets. berghofe parents: diff changeset	225	(infixr "OO" 75)
476604be7d88 New theory for converting between predicates and sets. berghofe parents: diff changeset	226	for r :: "'b => 'c => bool" and s :: "'a => 'b => bool"
476604be7d88 New theory for converting between predicates and sets. berghofe parents: diff changeset	227	where
476604be7d88 New theory for converting between predicates and sets. berghofe parents: diff changeset	228	pred_compI [intro]: "s a b ==> r b c ==> (r OO s) a c"
476604be7d88 New theory for converting between predicates and sets. berghofe parents: diff changeset	229
23741 1801a921df13 - Moved infrastructure for converting between sets and predicates berghofe parents: 23708 diff changeset	230	inductive_cases pred_compE [elim!]: "(r OO s) a c"
22259 476604be7d88 New theory for converting between predicates and sets. berghofe parents: diff changeset	231
476604be7d88 New theory for converting between predicates and sets. berghofe parents: diff changeset	232	lemma pred_comp_rel_comp_eq [pred_set_conv]:
23741 1801a921df13 - Moved infrastructure for converting between sets and predicates berghofe parents: 23708 diff changeset	233	"((\<lambda>x y. (x, y) \<in> r) OO (\<lambda>x y. (x, y) \<in> s)) = (\<lambda>x y. (x, y) \<in> r O s)"
22259 476604be7d88 New theory for converting between predicates and sets. berghofe parents: diff changeset	234	by (auto simp add: expand_fun_eq elim: pred_compE)
476604be7d88 New theory for converting between predicates and sets. berghofe parents: diff changeset	235
476604be7d88 New theory for converting between predicates and sets. berghofe parents: diff changeset	236
30328 ab47f43f7581 added enumeration of predicates haftmann parents: 26797 diff changeset	237	subsubsection {* Converse *}
22259 476604be7d88 New theory for converting between predicates and sets. berghofe parents: diff changeset	238
23741 1801a921df13 - Moved infrastructure for converting between sets and predicates berghofe parents: 23708 diff changeset	239	inductive
22259 476604be7d88 New theory for converting between predicates and sets. berghofe parents: diff changeset	240	conversep :: "('a => 'b => bool) => 'b => 'a => bool"
476604be7d88 New theory for converting between predicates and sets. berghofe parents: diff changeset	241	("(_^--1)" [1000] 1000)
476604be7d88 New theory for converting between predicates and sets. berghofe parents: diff changeset	242	for r :: "'a => 'b => bool"
476604be7d88 New theory for converting between predicates and sets. berghofe parents: diff changeset	243	where
476604be7d88 New theory for converting between predicates and sets. berghofe parents: diff changeset	244	conversepI: "r a b ==> r^--1 b a"
476604be7d88 New theory for converting between predicates and sets. berghofe parents: diff changeset	245
476604be7d88 New theory for converting between predicates and sets. berghofe parents: diff changeset	246	notation (xsymbols)
476604be7d88 New theory for converting between predicates and sets. berghofe parents: diff changeset	247	conversep ("(_\<inverse>\<inverse>)" [1000] 1000)
476604be7d88 New theory for converting between predicates and sets. berghofe parents: diff changeset	248
476604be7d88 New theory for converting between predicates and sets. berghofe parents: diff changeset	249	lemma conversepD:
476604be7d88 New theory for converting between predicates and sets. berghofe parents: diff changeset	250	assumes ab: "r^--1 a b"
476604be7d88 New theory for converting between predicates and sets. berghofe parents: diff changeset	251	shows "r b a" using ab
476604be7d88 New theory for converting between predicates and sets. berghofe parents: diff changeset	252	by cases simp
476604be7d88 New theory for converting between predicates and sets. berghofe parents: diff changeset	253
476604be7d88 New theory for converting between predicates and sets. berghofe parents: diff changeset	254	lemma conversep_iff [iff]: "r^--1 a b = r b a"
476604be7d88 New theory for converting between predicates and sets. berghofe parents: diff changeset	255	by (iprover intro: conversepI dest: conversepD)
476604be7d88 New theory for converting between predicates and sets. berghofe parents: diff changeset	256
476604be7d88 New theory for converting between predicates and sets. berghofe parents: diff changeset	257	lemma conversep_converse_eq [pred_set_conv]:
23741 1801a921df13 - Moved infrastructure for converting between sets and predicates berghofe parents: 23708 diff changeset	258	"(\<lambda>x y. (x, y) \<in> r)^--1 = (\<lambda>x y. (x, y) \<in> r^-1)"
22259 476604be7d88 New theory for converting between predicates and sets. berghofe parents: diff changeset	259	by (auto simp add: expand_fun_eq)
476604be7d88 New theory for converting between predicates and sets. berghofe parents: diff changeset	260
476604be7d88 New theory for converting between predicates and sets. berghofe parents: diff changeset	261	lemma conversep_conversep [simp]: "(r^--1)^--1 = r"
476604be7d88 New theory for converting between predicates and sets. berghofe parents: diff changeset	262	by (iprover intro: order_antisym conversepI dest: conversepD)
476604be7d88 New theory for converting between predicates and sets. berghofe parents: diff changeset	263
476604be7d88 New theory for converting between predicates and sets. berghofe parents: diff changeset	264	lemma converse_pred_comp: "(r OO s)^--1 = s^--1 OO r^--1"
476604be7d88 New theory for converting between predicates and sets. berghofe parents: diff changeset	265	by (iprover intro: order_antisym conversepI pred_compI
476604be7d88 New theory for converting between predicates and sets. berghofe parents: diff changeset	266	elim: pred_compE dest: conversepD)
476604be7d88 New theory for converting between predicates and sets. berghofe parents: diff changeset	267
22422 ee19cdb07528 stepping towards uniform lattice theory development in HOL haftmann parents: 22259 diff changeset	268	lemma converse_meet: "(inf r s)^--1 = inf r^--1 s^--1"
ee19cdb07528 stepping towards uniform lattice theory development in HOL haftmann parents: 22259 diff changeset	269	by (simp add: inf_fun_eq inf_bool_eq)
22259 476604be7d88 New theory for converting between predicates and sets. berghofe parents: diff changeset	270	(iprover intro: conversepI ext dest: conversepD)
476604be7d88 New theory for converting between predicates and sets. berghofe parents: diff changeset	271
22422 ee19cdb07528 stepping towards uniform lattice theory development in HOL haftmann parents: 22259 diff changeset	272	lemma converse_join: "(sup r s)^--1 = sup r^--1 s^--1"
ee19cdb07528 stepping towards uniform lattice theory development in HOL haftmann parents: 22259 diff changeset	273	by (simp add: sup_fun_eq sup_bool_eq)
22259 476604be7d88 New theory for converting between predicates and sets. berghofe parents: diff changeset	274	(iprover intro: conversepI ext dest: conversepD)
476604be7d88 New theory for converting between predicates and sets. berghofe parents: diff changeset	275
476604be7d88 New theory for converting between predicates and sets. berghofe parents: diff changeset	276	lemma conversep_noteq [simp]: "(op ~=)^--1 = op ~="
476604be7d88 New theory for converting between predicates and sets. berghofe parents: diff changeset	277	by (auto simp add: expand_fun_eq)
476604be7d88 New theory for converting between predicates and sets. berghofe parents: diff changeset	278
476604be7d88 New theory for converting between predicates and sets. berghofe parents: diff changeset	279	lemma conversep_eq [simp]: "(op =)^--1 = op ="
476604be7d88 New theory for converting between predicates and sets. berghofe parents: diff changeset	280	by (auto simp add: expand_fun_eq)
476604be7d88 New theory for converting between predicates and sets. berghofe parents: diff changeset	281
476604be7d88 New theory for converting between predicates and sets. berghofe parents: diff changeset	282
30328 ab47f43f7581 added enumeration of predicates haftmann parents: 26797 diff changeset	283	subsubsection {* Domain *}
22259 476604be7d88 New theory for converting between predicates and sets. berghofe parents: diff changeset	284
23741 1801a921df13 - Moved infrastructure for converting between sets and predicates berghofe parents: 23708 diff changeset	285	inductive
22259 476604be7d88 New theory for converting between predicates and sets. berghofe parents: diff changeset	286	DomainP :: "('a => 'b => bool) => 'a => bool"
476604be7d88 New theory for converting between predicates and sets. berghofe parents: diff changeset	287	for r :: "'a => 'b => bool"
476604be7d88 New theory for converting between predicates and sets. berghofe parents: diff changeset	288	where
476604be7d88 New theory for converting between predicates and sets. berghofe parents: diff changeset	289	DomainPI [intro]: "r a b ==> DomainP r a"
476604be7d88 New theory for converting between predicates and sets. berghofe parents: diff changeset	290
23741 1801a921df13 - Moved infrastructure for converting between sets and predicates berghofe parents: 23708 diff changeset	291	inductive_cases DomainPE [elim!]: "DomainP r a"
22259 476604be7d88 New theory for converting between predicates and sets. berghofe parents: diff changeset	292
23741 1801a921df13 - Moved infrastructure for converting between sets and predicates berghofe parents: 23708 diff changeset	293	lemma DomainP_Domain_eq [pred_set_conv]: "DomainP (\<lambda>x y. (x, y) \<in> r) = (\<lambda>x. x \<in> Domain r)"
26797 a6cb51c314f2 - Added mem_def and predicate1I in some of the proofs berghofe parents: 24345 diff changeset	294	by (blast intro!: Orderings.order_antisym predicate1I)
22259 476604be7d88 New theory for converting between predicates and sets. berghofe parents: diff changeset	295
476604be7d88 New theory for converting between predicates and sets. berghofe parents: diff changeset	296
30328 ab47f43f7581 added enumeration of predicates haftmann parents: 26797 diff changeset	297	subsubsection {* Range *}
22259 476604be7d88 New theory for converting between predicates and sets. berghofe parents: diff changeset	298
23741 1801a921df13 - Moved infrastructure for converting between sets and predicates berghofe parents: 23708 diff changeset	299	inductive
22259 476604be7d88 New theory for converting between predicates and sets. berghofe parents: diff changeset	300	RangeP :: "('a => 'b => bool) => 'b => bool"
476604be7d88 New theory for converting between predicates and sets. berghofe parents: diff changeset	301	for r :: "'a => 'b => bool"
476604be7d88 New theory for converting between predicates and sets. berghofe parents: diff changeset	302	where
476604be7d88 New theory for converting between predicates and sets. berghofe parents: diff changeset	303	RangePI [intro]: "r a b ==> RangeP r b"
476604be7d88 New theory for converting between predicates and sets. berghofe parents: diff changeset	304
23741 1801a921df13 - Moved infrastructure for converting between sets and predicates berghofe parents: 23708 diff changeset	305	inductive_cases RangePE [elim!]: "RangeP r b"
22259 476604be7d88 New theory for converting between predicates and sets. berghofe parents: diff changeset	306
23741 1801a921df13 - Moved infrastructure for converting between sets and predicates berghofe parents: 23708 diff changeset	307	lemma RangeP_Range_eq [pred_set_conv]: "RangeP (\<lambda>x y. (x, y) \<in> r) = (\<lambda>x. x \<in> Range r)"
26797 a6cb51c314f2 - Added mem_def and predicate1I in some of the proofs berghofe parents: 24345 diff changeset	308	by (blast intro!: Orderings.order_antisym predicate1I)
22259 476604be7d88 New theory for converting between predicates and sets. berghofe parents: diff changeset	309
476604be7d88 New theory for converting between predicates and sets. berghofe parents: diff changeset	310
30328 ab47f43f7581 added enumeration of predicates haftmann parents: 26797 diff changeset	311	subsubsection {* Inverse image *}
22259 476604be7d88 New theory for converting between predicates and sets. berghofe parents: diff changeset	312
476604be7d88 New theory for converting between predicates and sets. berghofe parents: diff changeset	313	definition
476604be7d88 New theory for converting between predicates and sets. berghofe parents: diff changeset	314	inv_imagep :: "('b => 'b => bool) => ('a => 'b) => 'a => 'a => bool" where
476604be7d88 New theory for converting between predicates and sets. berghofe parents: diff changeset	315	"inv_imagep r f == %x y. r (f x) (f y)"
476604be7d88 New theory for converting between predicates and sets. berghofe parents: diff changeset	316
23741 1801a921df13 - Moved infrastructure for converting between sets and predicates berghofe parents: 23708 diff changeset	317	lemma [pred_set_conv]: "inv_imagep (\<lambda>x y. (x, y) \<in> r) f = (\<lambda>x y. (x, y) \<in> inv_image r f)"
22259 476604be7d88 New theory for converting between predicates and sets. berghofe parents: diff changeset	318	by (simp add: inv_image_def inv_imagep_def)
476604be7d88 New theory for converting between predicates and sets. berghofe parents: diff changeset	319
476604be7d88 New theory for converting between predicates and sets. berghofe parents: diff changeset	320	lemma in_inv_imagep [simp]: "inv_imagep r f x y = r (f x) (f y)"
476604be7d88 New theory for converting between predicates and sets. berghofe parents: diff changeset	321	by (simp add: inv_imagep_def)
476604be7d88 New theory for converting between predicates and sets. berghofe parents: diff changeset	322
476604be7d88 New theory for converting between predicates and sets. berghofe parents: diff changeset	323
30328 ab47f43f7581 added enumeration of predicates haftmann parents: 26797 diff changeset	324	subsubsection {* Powerset *}
23741 1801a921df13 - Moved infrastructure for converting between sets and predicates berghofe parents: 23708 diff changeset	325
1801a921df13 - Moved infrastructure for converting between sets and predicates berghofe parents: 23708 diff changeset	326	definition Powp :: "('a \<Rightarrow> bool) \<Rightarrow> 'a set \<Rightarrow> bool" where
1801a921df13 - Moved infrastructure for converting between sets and predicates berghofe parents: 23708 diff changeset	327	"Powp A == \<lambda>B. \<forall>x \<in> B. A x"
1801a921df13 - Moved infrastructure for converting between sets and predicates berghofe parents: 23708 diff changeset	328
1801a921df13 - Moved infrastructure for converting between sets and predicates berghofe parents: 23708 diff changeset	329	lemma Powp_Pow_eq [pred_set_conv]: "Powp (\<lambda>x. x \<in> A) = (\<lambda>x. x \<in> Pow A)"
1801a921df13 - Moved infrastructure for converting between sets and predicates berghofe parents: 23708 diff changeset	330	by (auto simp add: Powp_def expand_fun_eq)
1801a921df13 - Moved infrastructure for converting between sets and predicates berghofe parents: 23708 diff changeset	331
26797 a6cb51c314f2 - Added mem_def and predicate1I in some of the proofs berghofe parents: 24345 diff changeset	332	lemmas Powp_mono [mono] = Pow_mono [to_pred pred_subset_eq]
a6cb51c314f2 - Added mem_def and predicate1I in some of the proofs berghofe parents: 24345 diff changeset	333
23741 1801a921df13 - Moved infrastructure for converting between sets and predicates berghofe parents: 23708 diff changeset	334
30328 ab47f43f7581 added enumeration of predicates haftmann parents: 26797 diff changeset	335	subsubsection {* Properties of relations *}
22259 476604be7d88 New theory for converting between predicates and sets. berghofe parents: diff changeset	336
476604be7d88 New theory for converting between predicates and sets. berghofe parents: diff changeset	337	abbreviation antisymP :: "('a => 'a => bool) => bool" where
23741 1801a921df13 - Moved infrastructure for converting between sets and predicates berghofe parents: 23708 diff changeset	338	"antisymP r == antisym {(x, y). r x y}"
22259 476604be7d88 New theory for converting between predicates and sets. berghofe parents: diff changeset	339
476604be7d88 New theory for converting between predicates and sets. berghofe parents: diff changeset	340	abbreviation transP :: "('a => 'a => bool) => bool" where
23741 1801a921df13 - Moved infrastructure for converting between sets and predicates berghofe parents: 23708 diff changeset	341	"transP r == trans {(x, y). r x y}"
22259 476604be7d88 New theory for converting between predicates and sets. berghofe parents: diff changeset	342
476604be7d88 New theory for converting between predicates and sets. berghofe parents: diff changeset	343	abbreviation single_valuedP :: "('a => 'b => bool) => bool" where
23741 1801a921df13 - Moved infrastructure for converting between sets and predicates berghofe parents: 23708 diff changeset	344	"single_valuedP r == single_valued {(x, y). r x y}"
22259 476604be7d88 New theory for converting between predicates and sets. berghofe parents: diff changeset	345
30328 ab47f43f7581 added enumeration of predicates haftmann parents: 26797 diff changeset	346
ab47f43f7581 added enumeration of predicates haftmann parents: 26797 diff changeset	347	subsection {* Predicates as enumerations *}
ab47f43f7581 added enumeration of predicates haftmann parents: 26797 diff changeset	348
ab47f43f7581 added enumeration of predicates haftmann parents: 26797 diff changeset	349	subsubsection {* The type of predicate enumerations (a monad) *}
ab47f43f7581 added enumeration of predicates haftmann parents: 26797 diff changeset	350
ab47f43f7581 added enumeration of predicates haftmann parents: 26797 diff changeset	351	datatype 'a pred = Pred "'a \<Rightarrow> bool"
ab47f43f7581 added enumeration of predicates haftmann parents: 26797 diff changeset	352
ab47f43f7581 added enumeration of predicates haftmann parents: 26797 diff changeset	353	primrec eval :: "'a pred \<Rightarrow> 'a \<Rightarrow> bool" where
ab47f43f7581 added enumeration of predicates haftmann parents: 26797 diff changeset	354	eval_pred: "eval (Pred f) = f"
ab47f43f7581 added enumeration of predicates haftmann parents: 26797 diff changeset	355
ab47f43f7581 added enumeration of predicates haftmann parents: 26797 diff changeset	356	lemma Pred_eval [simp]:
ab47f43f7581 added enumeration of predicates haftmann parents: 26797 diff changeset	357	"Pred (eval x) = x"
ab47f43f7581 added enumeration of predicates haftmann parents: 26797 diff changeset	358	by (cases x) simp
ab47f43f7581 added enumeration of predicates haftmann parents: 26797 diff changeset	359
ab47f43f7581 added enumeration of predicates haftmann parents: 26797 diff changeset	360	lemma eval_inject: "eval x = eval y \<longleftrightarrow> x = y"
ab47f43f7581 added enumeration of predicates haftmann parents: 26797 diff changeset	361	by (cases x) auto
ab47f43f7581 added enumeration of predicates haftmann parents: 26797 diff changeset	362
ab47f43f7581 added enumeration of predicates haftmann parents: 26797 diff changeset	363	definition single :: "'a \<Rightarrow> 'a pred" where
ab47f43f7581 added enumeration of predicates haftmann parents: 26797 diff changeset	364	"single x = Pred ((op =) x)"
ab47f43f7581 added enumeration of predicates haftmann parents: 26797 diff changeset	365
ab47f43f7581 added enumeration of predicates haftmann parents: 26797 diff changeset	366	definition bind :: "'a pred \<Rightarrow> ('a \<Rightarrow> 'b pred) \<Rightarrow> 'b pred" (infixl "\<guillemotright>=" 70) where
ab47f43f7581 added enumeration of predicates haftmann parents: 26797 diff changeset	367	"P \<guillemotright>= f = Pred (\<lambda>x. (\<exists>y. eval P y \<and> eval (f y) x))"
ab47f43f7581 added enumeration of predicates haftmann parents: 26797 diff changeset	368
ab47f43f7581 added enumeration of predicates haftmann parents: 26797 diff changeset	369	instantiation pred :: (type) complete_lattice
ab47f43f7581 added enumeration of predicates haftmann parents: 26797 diff changeset	370	begin
ab47f43f7581 added enumeration of predicates haftmann parents: 26797 diff changeset	371
ab47f43f7581 added enumeration of predicates haftmann parents: 26797 diff changeset	372	definition
ab47f43f7581 added enumeration of predicates haftmann parents: 26797 diff changeset	373	"P \<le> Q \<longleftrightarrow> eval P \<le> eval Q"
ab47f43f7581 added enumeration of predicates haftmann parents: 26797 diff changeset	374
ab47f43f7581 added enumeration of predicates haftmann parents: 26797 diff changeset	375	definition
ab47f43f7581 added enumeration of predicates haftmann parents: 26797 diff changeset	376	"P < Q \<longleftrightarrow> eval P < eval Q"
ab47f43f7581 added enumeration of predicates haftmann parents: 26797 diff changeset	377
ab47f43f7581 added enumeration of predicates haftmann parents: 26797 diff changeset	378	definition
ab47f43f7581 added enumeration of predicates haftmann parents: 26797 diff changeset	379	"\<bottom> = Pred \<bottom>"
ab47f43f7581 added enumeration of predicates haftmann parents: 26797 diff changeset	380
ab47f43f7581 added enumeration of predicates haftmann parents: 26797 diff changeset	381	definition
ab47f43f7581 added enumeration of predicates haftmann parents: 26797 diff changeset	382	"\<top> = Pred \<top>"
ab47f43f7581 added enumeration of predicates haftmann parents: 26797 diff changeset	383
ab47f43f7581 added enumeration of predicates haftmann parents: 26797 diff changeset	384	definition
ab47f43f7581 added enumeration of predicates haftmann parents: 26797 diff changeset	385	"P \<sqinter> Q = Pred (eval P \<sqinter> eval Q)"
ab47f43f7581 added enumeration of predicates haftmann parents: 26797 diff changeset	386
ab47f43f7581 added enumeration of predicates haftmann parents: 26797 diff changeset	387	definition
ab47f43f7581 added enumeration of predicates haftmann parents: 26797 diff changeset	388	"P \<squnion> Q = Pred (eval P \<squnion> eval Q)"
ab47f43f7581 added enumeration of predicates haftmann parents: 26797 diff changeset	389
ab47f43f7581 added enumeration of predicates haftmann parents: 26797 diff changeset	390	definition
ab47f43f7581 added enumeration of predicates haftmann parents: 26797 diff changeset	391	"\<Sqinter>A = Pred (INFI A eval)"
ab47f43f7581 added enumeration of predicates haftmann parents: 26797 diff changeset	392
ab47f43f7581 added enumeration of predicates haftmann parents: 26797 diff changeset	393	definition
ab47f43f7581 added enumeration of predicates haftmann parents: 26797 diff changeset	394	"\<Squnion>A = Pred (SUPR A eval)"
ab47f43f7581 added enumeration of predicates haftmann parents: 26797 diff changeset	395
ab47f43f7581 added enumeration of predicates haftmann parents: 26797 diff changeset	396	instance by default
ab47f43f7581 added enumeration of predicates haftmann parents: 26797 diff changeset	397	(auto simp add: less_eq_pred_def less_pred_def
ab47f43f7581 added enumeration of predicates haftmann parents: 26797 diff changeset	398	inf_pred_def sup_pred_def bot_pred_def top_pred_def
ab47f43f7581 added enumeration of predicates haftmann parents: 26797 diff changeset	399	Inf_pred_def Sup_pred_def,
ab47f43f7581 added enumeration of predicates haftmann parents: 26797 diff changeset	400	auto simp add: le_fun_def less_fun_def le_bool_def less_bool_def
ab47f43f7581 added enumeration of predicates haftmann parents: 26797 diff changeset	401	eval_inject mem_def)
ab47f43f7581 added enumeration of predicates haftmann parents: 26797 diff changeset	402
22259 476604be7d88 New theory for converting between predicates and sets. berghofe parents: diff changeset	403	end
30328 ab47f43f7581 added enumeration of predicates haftmann parents: 26797 diff changeset	404
ab47f43f7581 added enumeration of predicates haftmann parents: 26797 diff changeset	405	lemma bind_bind:
ab47f43f7581 added enumeration of predicates haftmann parents: 26797 diff changeset	406	"(P \<guillemotright>= Q) \<guillemotright>= R = P \<guillemotright>= (\<lambda>x. Q x \<guillemotright>= R)"
ab47f43f7581 added enumeration of predicates haftmann parents: 26797 diff changeset	407	by (auto simp add: bind_def expand_fun_eq)
ab47f43f7581 added enumeration of predicates haftmann parents: 26797 diff changeset	408
ab47f43f7581 added enumeration of predicates haftmann parents: 26797 diff changeset	409	lemma bind_single:
ab47f43f7581 added enumeration of predicates haftmann parents: 26797 diff changeset	410	"P \<guillemotright>= single = P"
ab47f43f7581 added enumeration of predicates haftmann parents: 26797 diff changeset	411	by (simp add: bind_def single_def)
ab47f43f7581 added enumeration of predicates haftmann parents: 26797 diff changeset	412
ab47f43f7581 added enumeration of predicates haftmann parents: 26797 diff changeset	413	lemma single_bind:
ab47f43f7581 added enumeration of predicates haftmann parents: 26797 diff changeset	414	"single x \<guillemotright>= P = P x"
ab47f43f7581 added enumeration of predicates haftmann parents: 26797 diff changeset	415	by (simp add: bind_def single_def)
ab47f43f7581 added enumeration of predicates haftmann parents: 26797 diff changeset	416
ab47f43f7581 added enumeration of predicates haftmann parents: 26797 diff changeset	417	lemma bottom_bind:
ab47f43f7581 added enumeration of predicates haftmann parents: 26797 diff changeset	418	"\<bottom> \<guillemotright>= P = \<bottom>"
ab47f43f7581 added enumeration of predicates haftmann parents: 26797 diff changeset	419	by (auto simp add: bot_pred_def bind_def expand_fun_eq)
ab47f43f7581 added enumeration of predicates haftmann parents: 26797 diff changeset	420
ab47f43f7581 added enumeration of predicates haftmann parents: 26797 diff changeset	421	lemma sup_bind:
ab47f43f7581 added enumeration of predicates haftmann parents: 26797 diff changeset	422	"(P \<squnion> Q) \<guillemotright>= R = P \<guillemotright>= R \<squnion> Q \<guillemotright>= R"
ab47f43f7581 added enumeration of predicates haftmann parents: 26797 diff changeset	423	by (auto simp add: bind_def sup_pred_def expand_fun_eq)
ab47f43f7581 added enumeration of predicates haftmann parents: 26797 diff changeset	424
ab47f43f7581 added enumeration of predicates haftmann parents: 26797 diff changeset	425	lemma Sup_bind: "(\<Squnion>A \<guillemotright>= f) = \<Squnion>((\<lambda>x. x \<guillemotright>= f) ` A)"
ab47f43f7581 added enumeration of predicates haftmann parents: 26797 diff changeset	426	by (auto simp add: bind_def Sup_pred_def expand_fun_eq)
ab47f43f7581 added enumeration of predicates haftmann parents: 26797 diff changeset	427
ab47f43f7581 added enumeration of predicates haftmann parents: 26797 diff changeset	428	lemma pred_iffI:
ab47f43f7581 added enumeration of predicates haftmann parents: 26797 diff changeset	429	assumes "\<And>x. eval A x \<Longrightarrow> eval B x"
ab47f43f7581 added enumeration of predicates haftmann parents: 26797 diff changeset	430	and "\<And>x. eval B x \<Longrightarrow> eval A x"
ab47f43f7581 added enumeration of predicates haftmann parents: 26797 diff changeset	431	shows "A = B"
ab47f43f7581 added enumeration of predicates haftmann parents: 26797 diff changeset	432	proof -
ab47f43f7581 added enumeration of predicates haftmann parents: 26797 diff changeset	433	from assms have "\<And>x. eval A x \<longleftrightarrow> eval B x" by blast
ab47f43f7581 added enumeration of predicates haftmann parents: 26797 diff changeset	434	then show ?thesis by (cases A, cases B) (simp add: expand_fun_eq)
ab47f43f7581 added enumeration of predicates haftmann parents: 26797 diff changeset	435	qed
ab47f43f7581 added enumeration of predicates haftmann parents: 26797 diff changeset	436
ab47f43f7581 added enumeration of predicates haftmann parents: 26797 diff changeset	437	lemma singleI: "eval (single x) x"
ab47f43f7581 added enumeration of predicates haftmann parents: 26797 diff changeset	438	unfolding single_def by simp
ab47f43f7581 added enumeration of predicates haftmann parents: 26797 diff changeset	439
ab47f43f7581 added enumeration of predicates haftmann parents: 26797 diff changeset	440	lemma singleI_unit: "eval (single ()) x"
ab47f43f7581 added enumeration of predicates haftmann parents: 26797 diff changeset	441	by simp (rule singleI)
ab47f43f7581 added enumeration of predicates haftmann parents: 26797 diff changeset	442
ab47f43f7581 added enumeration of predicates haftmann parents: 26797 diff changeset	443	lemma singleE: "eval (single x) y \<Longrightarrow> (y = x \<Longrightarrow> P) \<Longrightarrow> P"
ab47f43f7581 added enumeration of predicates haftmann parents: 26797 diff changeset	444	unfolding single_def by simp
ab47f43f7581 added enumeration of predicates haftmann parents: 26797 diff changeset	445
ab47f43f7581 added enumeration of predicates haftmann parents: 26797 diff changeset	446	lemma singleE': "eval (single x) y \<Longrightarrow> (x = y \<Longrightarrow> P) \<Longrightarrow> P"
ab47f43f7581 added enumeration of predicates haftmann parents: 26797 diff changeset	447	by (erule singleE) simp
ab47f43f7581 added enumeration of predicates haftmann parents: 26797 diff changeset	448
ab47f43f7581 added enumeration of predicates haftmann parents: 26797 diff changeset	449	lemma bindI: "eval P x \<Longrightarrow> eval (Q x) y \<Longrightarrow> eval (P \<guillemotright>= Q) y"
ab47f43f7581 added enumeration of predicates haftmann parents: 26797 diff changeset	450	unfolding bind_def by auto
ab47f43f7581 added enumeration of predicates haftmann parents: 26797 diff changeset	451
ab47f43f7581 added enumeration of predicates haftmann parents: 26797 diff changeset	452	lemma bindE: "eval (R \<guillemotright>= Q) y \<Longrightarrow> (\<And>x. eval R x \<Longrightarrow> eval (Q x) y \<Longrightarrow> P) \<Longrightarrow> P"
ab47f43f7581 added enumeration of predicates haftmann parents: 26797 diff changeset	453	unfolding bind_def by auto
ab47f43f7581 added enumeration of predicates haftmann parents: 26797 diff changeset	454
ab47f43f7581 added enumeration of predicates haftmann parents: 26797 diff changeset	455	lemma botE: "eval \<bottom> x \<Longrightarrow> P"
ab47f43f7581 added enumeration of predicates haftmann parents: 26797 diff changeset	456	unfolding bot_pred_def by auto
ab47f43f7581 added enumeration of predicates haftmann parents: 26797 diff changeset	457
ab47f43f7581 added enumeration of predicates haftmann parents: 26797 diff changeset	458	lemma supI1: "eval A x \<Longrightarrow> eval (A \<squnion> B) x"
ab47f43f7581 added enumeration of predicates haftmann parents: 26797 diff changeset	459	unfolding sup_pred_def by simp
ab47f43f7581 added enumeration of predicates haftmann parents: 26797 diff changeset	460
ab47f43f7581 added enumeration of predicates haftmann parents: 26797 diff changeset	461	lemma supI2: "eval B x \<Longrightarrow> eval (A \<squnion> B) x"
ab47f43f7581 added enumeration of predicates haftmann parents: 26797 diff changeset	462	unfolding sup_pred_def by simp
ab47f43f7581 added enumeration of predicates haftmann parents: 26797 diff changeset	463
ab47f43f7581 added enumeration of predicates haftmann parents: 26797 diff changeset	464	lemma supE: "eval (A \<squnion> B) x \<Longrightarrow> (eval A x \<Longrightarrow> P) \<Longrightarrow> (eval B x \<Longrightarrow> P) \<Longrightarrow> P"
ab47f43f7581 added enumeration of predicates haftmann parents: 26797 diff changeset	465	unfolding sup_pred_def by auto
ab47f43f7581 added enumeration of predicates haftmann parents: 26797 diff changeset	466
ab47f43f7581 added enumeration of predicates haftmann parents: 26797 diff changeset	467
ab47f43f7581 added enumeration of predicates haftmann parents: 26797 diff changeset	468	subsubsection {* Derived operations *}
ab47f43f7581 added enumeration of predicates haftmann parents: 26797 diff changeset	469
ab47f43f7581 added enumeration of predicates haftmann parents: 26797 diff changeset	470	definition if_pred :: "bool \<Rightarrow> unit pred" where
ab47f43f7581 added enumeration of predicates haftmann parents: 26797 diff changeset	471	if_pred_eq: "if_pred b = (if b then single () else \<bottom>)"
ab47f43f7581 added enumeration of predicates haftmann parents: 26797 diff changeset	472
ab47f43f7581 added enumeration of predicates haftmann parents: 26797 diff changeset	473	definition not_pred :: "unit pred \<Rightarrow> unit pred" where
ab47f43f7581 added enumeration of predicates haftmann parents: 26797 diff changeset	474	not_pred_eq: "not_pred P = (if eval P () then \<bottom> else single ())"
ab47f43f7581 added enumeration of predicates haftmann parents: 26797 diff changeset	475
ab47f43f7581 added enumeration of predicates haftmann parents: 26797 diff changeset	476	lemma if_predI: "P \<Longrightarrow> eval (if_pred P) ()"
ab47f43f7581 added enumeration of predicates haftmann parents: 26797 diff changeset	477	unfolding if_pred_eq by (auto intro: singleI)
ab47f43f7581 added enumeration of predicates haftmann parents: 26797 diff changeset	478
ab47f43f7581 added enumeration of predicates haftmann parents: 26797 diff changeset	479	lemma if_predE: "eval (if_pred b) x \<Longrightarrow> (b \<Longrightarrow> x = () \<Longrightarrow> P) \<Longrightarrow> P"
ab47f43f7581 added enumeration of predicates haftmann parents: 26797 diff changeset	480	unfolding if_pred_eq by (cases b) (auto elim: botE)
ab47f43f7581 added enumeration of predicates haftmann parents: 26797 diff changeset	481
ab47f43f7581 added enumeration of predicates haftmann parents: 26797 diff changeset	482	lemma not_predI: "\<not> P \<Longrightarrow> eval (not_pred (Pred (\<lambda>u. P))) ()"
ab47f43f7581 added enumeration of predicates haftmann parents: 26797 diff changeset	483	unfolding not_pred_eq eval_pred by (auto intro: singleI)
ab47f43f7581 added enumeration of predicates haftmann parents: 26797 diff changeset	484
ab47f43f7581 added enumeration of predicates haftmann parents: 26797 diff changeset	485	lemma not_predI': "\<not> eval P () \<Longrightarrow> eval (not_pred P) ()"
ab47f43f7581 added enumeration of predicates haftmann parents: 26797 diff changeset	486	unfolding not_pred_eq by (auto intro: singleI)
ab47f43f7581 added enumeration of predicates haftmann parents: 26797 diff changeset	487
ab47f43f7581 added enumeration of predicates haftmann parents: 26797 diff changeset	488	lemma not_predE: "eval (not_pred (Pred (\<lambda>u. P))) x \<Longrightarrow> (\<not> P \<Longrightarrow> thesis) \<Longrightarrow> thesis"
ab47f43f7581 added enumeration of predicates haftmann parents: 26797 diff changeset	489	unfolding not_pred_eq
ab47f43f7581 added enumeration of predicates haftmann parents: 26797 diff changeset	490	by (auto split: split_if_asm elim: botE)
ab47f43f7581 added enumeration of predicates haftmann parents: 26797 diff changeset	491
ab47f43f7581 added enumeration of predicates haftmann parents: 26797 diff changeset	492	lemma not_predE': "eval (not_pred P) x \<Longrightarrow> (\<not> eval P x \<Longrightarrow> thesis) \<Longrightarrow> thesis"
ab47f43f7581 added enumeration of predicates haftmann parents: 26797 diff changeset	493	unfolding not_pred_eq
ab47f43f7581 added enumeration of predicates haftmann parents: 26797 diff changeset	494	by (auto split: split_if_asm elim: botE)
ab47f43f7581 added enumeration of predicates haftmann parents: 26797 diff changeset	495
ab47f43f7581 added enumeration of predicates haftmann parents: 26797 diff changeset	496
ab47f43f7581 added enumeration of predicates haftmann parents: 26797 diff changeset	497	subsubsection {* Implementation *}
ab47f43f7581 added enumeration of predicates haftmann parents: 26797 diff changeset	498
ab47f43f7581 added enumeration of predicates haftmann parents: 26797 diff changeset	499	datatype 'a seq = Empty \| Insert "'a" "'a pred" \| Join "'a pred" "'a seq"
ab47f43f7581 added enumeration of predicates haftmann parents: 26797 diff changeset	500
ab47f43f7581 added enumeration of predicates haftmann parents: 26797 diff changeset	501	primrec pred_of_seq :: "'a seq \<Rightarrow> 'a pred" where
ab47f43f7581 added enumeration of predicates haftmann parents: 26797 diff changeset	502	"pred_of_seq Empty = \<bottom>"
ab47f43f7581 added enumeration of predicates haftmann parents: 26797 diff changeset	503	\| "pred_of_seq (Insert x P) = single x \<squnion> P"
ab47f43f7581 added enumeration of predicates haftmann parents: 26797 diff changeset	504	\| "pred_of_seq (Join P xq) = P \<squnion> pred_of_seq xq"
ab47f43f7581 added enumeration of predicates haftmann parents: 26797 diff changeset	505
ab47f43f7581 added enumeration of predicates haftmann parents: 26797 diff changeset	506	definition Seq :: "(unit \<Rightarrow> 'a seq) \<Rightarrow> 'a pred" where
ab47f43f7581 added enumeration of predicates haftmann parents: 26797 diff changeset	507	"Seq f = pred_of_seq (f ())"
ab47f43f7581 added enumeration of predicates haftmann parents: 26797 diff changeset	508
ab47f43f7581 added enumeration of predicates haftmann parents: 26797 diff changeset	509	code_datatype Seq
ab47f43f7581 added enumeration of predicates haftmann parents: 26797 diff changeset	510
ab47f43f7581 added enumeration of predicates haftmann parents: 26797 diff changeset	511	primrec member :: "'a seq \<Rightarrow> 'a \<Rightarrow> bool" where
ab47f43f7581 added enumeration of predicates haftmann parents: 26797 diff changeset	512	"member Empty x \<longleftrightarrow> False"
ab47f43f7581 added enumeration of predicates haftmann parents: 26797 diff changeset	513	\| "member (Insert y P) x \<longleftrightarrow> x = y \<or> eval P x"
ab47f43f7581 added enumeration of predicates haftmann parents: 26797 diff changeset	514	\| "member (Join P xq) x \<longleftrightarrow> eval P x \<or> member xq x"
ab47f43f7581 added enumeration of predicates haftmann parents: 26797 diff changeset	515
ab47f43f7581 added enumeration of predicates haftmann parents: 26797 diff changeset	516	lemma eval_member:
ab47f43f7581 added enumeration of predicates haftmann parents: 26797 diff changeset	517	"member xq = eval (pred_of_seq xq)"
ab47f43f7581 added enumeration of predicates haftmann parents: 26797 diff changeset	518	proof (induct xq)
ab47f43f7581 added enumeration of predicates haftmann parents: 26797 diff changeset	519	case Empty show ?case
ab47f43f7581 added enumeration of predicates haftmann parents: 26797 diff changeset	520	by (auto simp add: expand_fun_eq elim: botE)
ab47f43f7581 added enumeration of predicates haftmann parents: 26797 diff changeset	521	next
ab47f43f7581 added enumeration of predicates haftmann parents: 26797 diff changeset	522	case Insert show ?case
ab47f43f7581 added enumeration of predicates haftmann parents: 26797 diff changeset	523	by (auto simp add: expand_fun_eq elim: supE singleE intro: supI1 supI2 singleI)
ab47f43f7581 added enumeration of predicates haftmann parents: 26797 diff changeset	524	next
ab47f43f7581 added enumeration of predicates haftmann parents: 26797 diff changeset	525	case Join then show ?case
ab47f43f7581 added enumeration of predicates haftmann parents: 26797 diff changeset	526	by (auto simp add: expand_fun_eq elim: supE intro: supI1 supI2)
ab47f43f7581 added enumeration of predicates haftmann parents: 26797 diff changeset	527	qed
ab47f43f7581 added enumeration of predicates haftmann parents: 26797 diff changeset	528
ab47f43f7581 added enumeration of predicates haftmann parents: 26797 diff changeset	529	lemma eval_code [code]: "eval (Seq f) = member (f ())"
ab47f43f7581 added enumeration of predicates haftmann parents: 26797 diff changeset	530	unfolding Seq_def by (rule sym, rule eval_member)
ab47f43f7581 added enumeration of predicates haftmann parents: 26797 diff changeset	531
ab47f43f7581 added enumeration of predicates haftmann parents: 26797 diff changeset	532	lemma single_code [code]:
ab47f43f7581 added enumeration of predicates haftmann parents: 26797 diff changeset	533	"single x = Seq (\<lambda>u. Insert x \<bottom>)"
ab47f43f7581 added enumeration of predicates haftmann parents: 26797 diff changeset	534	unfolding Seq_def by simp
ab47f43f7581 added enumeration of predicates haftmann parents: 26797 diff changeset	535
ab47f43f7581 added enumeration of predicates haftmann parents: 26797 diff changeset	536	primrec "apply" :: "('a \<Rightarrow> 'b Predicate.pred) \<Rightarrow> 'a seq \<Rightarrow> 'b seq" where
ab47f43f7581 added enumeration of predicates haftmann parents: 26797 diff changeset	537	"apply f Empty = Empty"
ab47f43f7581 added enumeration of predicates haftmann parents: 26797 diff changeset	538	\| "apply f (Insert x P) = Join (f x) (Join (P \<guillemotright>= f) Empty)"
ab47f43f7581 added enumeration of predicates haftmann parents: 26797 diff changeset	539	\| "apply f (Join P xq) = Join (P \<guillemotright>= f) (apply f xq)"
ab47f43f7581 added enumeration of predicates haftmann parents: 26797 diff changeset	540
ab47f43f7581 added enumeration of predicates haftmann parents: 26797 diff changeset	541	lemma apply_bind:
ab47f43f7581 added enumeration of predicates haftmann parents: 26797 diff changeset	542	"pred_of_seq (apply f xq) = pred_of_seq xq \<guillemotright>= f"
ab47f43f7581 added enumeration of predicates haftmann parents: 26797 diff changeset	543	proof (induct xq)
ab47f43f7581 added enumeration of predicates haftmann parents: 26797 diff changeset	544	case Empty show ?case
ab47f43f7581 added enumeration of predicates haftmann parents: 26797 diff changeset	545	by (simp add: bottom_bind)
ab47f43f7581 added enumeration of predicates haftmann parents: 26797 diff changeset	546	next
ab47f43f7581 added enumeration of predicates haftmann parents: 26797 diff changeset	547	case Insert show ?case
ab47f43f7581 added enumeration of predicates haftmann parents: 26797 diff changeset	548	by (simp add: single_bind sup_bind)
ab47f43f7581 added enumeration of predicates haftmann parents: 26797 diff changeset	549	next
ab47f43f7581 added enumeration of predicates haftmann parents: 26797 diff changeset	550	case Join then show ?case
ab47f43f7581 added enumeration of predicates haftmann parents: 26797 diff changeset	551	by (simp add: sup_bind)
ab47f43f7581 added enumeration of predicates haftmann parents: 26797 diff changeset	552	qed
ab47f43f7581 added enumeration of predicates haftmann parents: 26797 diff changeset	553
ab47f43f7581 added enumeration of predicates haftmann parents: 26797 diff changeset	554	lemma bind_code [code]:
ab47f43f7581 added enumeration of predicates haftmann parents: 26797 diff changeset	555	"Seq g \<guillemotright>= f = Seq (\<lambda>u. apply f (g ()))"
ab47f43f7581 added enumeration of predicates haftmann parents: 26797 diff changeset	556	unfolding Seq_def by (rule sym, rule apply_bind)
ab47f43f7581 added enumeration of predicates haftmann parents: 26797 diff changeset	557
ab47f43f7581 added enumeration of predicates haftmann parents: 26797 diff changeset	558	lemma bot_set_code [code]:
ab47f43f7581 added enumeration of predicates haftmann parents: 26797 diff changeset	559	"\<bottom> = Seq (\<lambda>u. Empty)"
ab47f43f7581 added enumeration of predicates haftmann parents: 26797 diff changeset	560	unfolding Seq_def by simp
ab47f43f7581 added enumeration of predicates haftmann parents: 26797 diff changeset	561
30376 e8cc806a3755 refined enumeration implementation haftmann parents: 30328 diff changeset	562	primrec adjunct :: "'a pred \<Rightarrow> 'a seq \<Rightarrow> 'a seq" where
e8cc806a3755 refined enumeration implementation haftmann parents: 30328 diff changeset	563	"adjunct P Empty = Join P Empty"
e8cc806a3755 refined enumeration implementation haftmann parents: 30328 diff changeset	564	\| "adjunct P (Insert x Q) = Insert x (Q \<squnion> P)"
e8cc806a3755 refined enumeration implementation haftmann parents: 30328 diff changeset	565	\| "adjunct P (Join Q xq) = Join Q (adjunct P xq)"
e8cc806a3755 refined enumeration implementation haftmann parents: 30328 diff changeset	566
e8cc806a3755 refined enumeration implementation haftmann parents: 30328 diff changeset	567	lemma adjunct_sup:
e8cc806a3755 refined enumeration implementation haftmann parents: 30328 diff changeset	568	"pred_of_seq (adjunct P xq) = P \<squnion> pred_of_seq xq"
e8cc806a3755 refined enumeration implementation haftmann parents: 30328 diff changeset	569	by (induct xq) (simp_all add: sup_assoc sup_commute sup_left_commute)
e8cc806a3755 refined enumeration implementation haftmann parents: 30328 diff changeset	570
30328 ab47f43f7581 added enumeration of predicates haftmann parents: 26797 diff changeset	571	lemma sup_code [code]:
ab47f43f7581 added enumeration of predicates haftmann parents: 26797 diff changeset	572	"Seq f \<squnion> Seq g = Seq (\<lambda>u. case f ()
ab47f43f7581 added enumeration of predicates haftmann parents: 26797 diff changeset	573	of Empty \<Rightarrow> g ()
ab47f43f7581 added enumeration of predicates haftmann parents: 26797 diff changeset	574	\| Insert x P \<Rightarrow> Insert x (P \<squnion> Seq g)
30376 e8cc806a3755 refined enumeration implementation haftmann parents: 30328 diff changeset	575	\| Join P xq \<Rightarrow> adjunct (Seq g) (Join P xq))"
30328 ab47f43f7581 added enumeration of predicates haftmann parents: 26797 diff changeset	576	proof (cases "f ()")
ab47f43f7581 added enumeration of predicates haftmann parents: 26797 diff changeset	577	case Empty
ab47f43f7581 added enumeration of predicates haftmann parents: 26797 diff changeset	578	thus ?thesis
30376 e8cc806a3755 refined enumeration implementation haftmann parents: 30328 diff changeset	579	unfolding Seq_def by (simp add: sup_commute [of "\<bottom>"] sup_bot)
30328 ab47f43f7581 added enumeration of predicates haftmann parents: 26797 diff changeset	580	next
ab47f43f7581 added enumeration of predicates haftmann parents: 26797 diff changeset	581	case Insert
ab47f43f7581 added enumeration of predicates haftmann parents: 26797 diff changeset	582	thus ?thesis
ab47f43f7581 added enumeration of predicates haftmann parents: 26797 diff changeset	583	unfolding Seq_def by (simp add: sup_assoc)
ab47f43f7581 added enumeration of predicates haftmann parents: 26797 diff changeset	584	next
ab47f43f7581 added enumeration of predicates haftmann parents: 26797 diff changeset	585	case Join
ab47f43f7581 added enumeration of predicates haftmann parents: 26797 diff changeset	586	thus ?thesis
30376 e8cc806a3755 refined enumeration implementation haftmann parents: 30328 diff changeset	587	unfolding Seq_def
e8cc806a3755 refined enumeration implementation haftmann parents: 30328 diff changeset	588	by (simp add: adjunct_sup sup_assoc sup_commute sup_left_commute)
30328 ab47f43f7581 added enumeration of predicates haftmann parents: 26797 diff changeset	589	qed
ab47f43f7581 added enumeration of predicates haftmann parents: 26797 diff changeset	590
30430 42ea5d85edcc explicit code equations for some rarely used pred operations haftmann parents: 30378 diff changeset	591	primrec contained :: "'a seq \<Rightarrow> 'a pred \<Rightarrow> bool" where
42ea5d85edcc explicit code equations for some rarely used pred operations haftmann parents: 30378 diff changeset	592	"contained Empty Q \<longleftrightarrow> True"
42ea5d85edcc explicit code equations for some rarely used pred operations haftmann parents: 30378 diff changeset	593	\| "contained (Insert x P) Q \<longleftrightarrow> eval Q x \<and> P \<le> Q"
42ea5d85edcc explicit code equations for some rarely used pred operations haftmann parents: 30378 diff changeset	594	\| "contained (Join P xq) Q \<longleftrightarrow> P \<le> Q \<and> contained xq Q"
42ea5d85edcc explicit code equations for some rarely used pred operations haftmann parents: 30378 diff changeset	595
42ea5d85edcc explicit code equations for some rarely used pred operations haftmann parents: 30378 diff changeset	596	lemma single_less_eq_eval:
42ea5d85edcc explicit code equations for some rarely used pred operations haftmann parents: 30378 diff changeset	597	"single x \<le> P \<longleftrightarrow> eval P x"
42ea5d85edcc explicit code equations for some rarely used pred operations haftmann parents: 30378 diff changeset	598	by (auto simp add: single_def less_eq_pred_def mem_def)
42ea5d85edcc explicit code equations for some rarely used pred operations haftmann parents: 30378 diff changeset	599
42ea5d85edcc explicit code equations for some rarely used pred operations haftmann parents: 30378 diff changeset	600	lemma contained_less_eq:
42ea5d85edcc explicit code equations for some rarely used pred operations haftmann parents: 30378 diff changeset	601	"contained xq Q \<longleftrightarrow> pred_of_seq xq \<le> Q"
42ea5d85edcc explicit code equations for some rarely used pred operations haftmann parents: 30378 diff changeset	602	by (induct xq) (simp_all add: single_less_eq_eval)
42ea5d85edcc explicit code equations for some rarely used pred operations haftmann parents: 30378 diff changeset	603
42ea5d85edcc explicit code equations for some rarely used pred operations haftmann parents: 30378 diff changeset	604	lemma less_eq_pred_code [code]:
42ea5d85edcc explicit code equations for some rarely used pred operations haftmann parents: 30378 diff changeset	605	"Seq f \<le> Q = (case f ()
42ea5d85edcc explicit code equations for some rarely used pred operations haftmann parents: 30378 diff changeset	606	of Empty \<Rightarrow> True
42ea5d85edcc explicit code equations for some rarely used pred operations haftmann parents: 30378 diff changeset	607	\| Insert x P \<Rightarrow> eval Q x \<and> P \<le> Q
42ea5d85edcc explicit code equations for some rarely used pred operations haftmann parents: 30378 diff changeset	608	\| Join P xq \<Rightarrow> P \<le> Q \<and> contained xq Q)"
42ea5d85edcc explicit code equations for some rarely used pred operations haftmann parents: 30378 diff changeset	609	by (cases "f ()")
42ea5d85edcc explicit code equations for some rarely used pred operations haftmann parents: 30378 diff changeset	610	(simp_all add: Seq_def single_less_eq_eval contained_less_eq)
42ea5d85edcc explicit code equations for some rarely used pred operations haftmann parents: 30378 diff changeset	611
42ea5d85edcc explicit code equations for some rarely used pred operations haftmann parents: 30378 diff changeset	612	lemma eq_pred_code [code]:
42ea5d85edcc explicit code equations for some rarely used pred operations haftmann parents: 30378 diff changeset	613	fixes P Q :: "'a::eq pred"
42ea5d85edcc explicit code equations for some rarely used pred operations haftmann parents: 30378 diff changeset	614	shows "eq_class.eq P Q \<longleftrightarrow> P \<le> Q \<and> Q \<le> P"
42ea5d85edcc explicit code equations for some rarely used pred operations haftmann parents: 30378 diff changeset	615	unfolding eq by auto
42ea5d85edcc explicit code equations for some rarely used pred operations haftmann parents: 30378 diff changeset	616
42ea5d85edcc explicit code equations for some rarely used pred operations haftmann parents: 30378 diff changeset	617	lemma [code]:
42ea5d85edcc explicit code equations for some rarely used pred operations haftmann parents: 30378 diff changeset	618	"pred_case f P = f (eval P)"
42ea5d85edcc explicit code equations for some rarely used pred operations haftmann parents: 30378 diff changeset	619	by (cases P) simp
42ea5d85edcc explicit code equations for some rarely used pred operations haftmann parents: 30378 diff changeset	620
42ea5d85edcc explicit code equations for some rarely used pred operations haftmann parents: 30378 diff changeset	621	lemma [code]:
42ea5d85edcc explicit code equations for some rarely used pred operations haftmann parents: 30378 diff changeset	622	"pred_rec f P = f (eval P)"
42ea5d85edcc explicit code equations for some rarely used pred operations haftmann parents: 30378 diff changeset	623	by (cases P) simp
30328 ab47f43f7581 added enumeration of predicates haftmann parents: 26797 diff changeset	624
31105 95f66b234086 added general preprocessing of equality in predicates for code generation bulwahn parents: 30430 diff changeset	625	inductive eq :: "'a \<Rightarrow> 'a \<Rightarrow> bool" where "eq x x"
95f66b234086 added general preprocessing of equality in predicates for code generation bulwahn parents: 30430 diff changeset	626
95f66b234086 added general preprocessing of equality in predicates for code generation bulwahn parents: 30430 diff changeset	627	lemma eq_is_eq: "eq x y \<equiv> (x = y)"
95f66b234086 added general preprocessing of equality in predicates for code generation bulwahn parents: 30430 diff changeset	628	by (rule eq_reflection) (auto intro: eq.intros elim: eq.cases)
95f66b234086 added general preprocessing of equality in predicates for code generation bulwahn parents: 30430 diff changeset	629
30328 ab47f43f7581 added enumeration of predicates haftmann parents: 26797 diff changeset	630	no_notation
ab47f43f7581 added enumeration of predicates haftmann parents: 26797 diff changeset	631	inf (infixl "\<sqinter>" 70) and
ab47f43f7581 added enumeration of predicates haftmann parents: 26797 diff changeset	632	sup (infixl "\<squnion>" 65) and
ab47f43f7581 added enumeration of predicates haftmann parents: 26797 diff changeset	633	Inf ("\<Sqinter>_" [900] 900) and
ab47f43f7581 added enumeration of predicates haftmann parents: 26797 diff changeset	634	Sup ("\<Squnion>_" [900] 900) and
ab47f43f7581 added enumeration of predicates haftmann parents: 26797 diff changeset	635	top ("\<top>") and
ab47f43f7581 added enumeration of predicates haftmann parents: 26797 diff changeset	636	bot ("\<bottom>") and
ab47f43f7581 added enumeration of predicates haftmann parents: 26797 diff changeset	637	bind (infixl "\<guillemotright>=" 70)
ab47f43f7581 added enumeration of predicates haftmann parents: 26797 diff changeset	638
ab47f43f7581 added enumeration of predicates haftmann parents: 26797 diff changeset	639	hide (open) type pred seq
30378 e0247e990702 dropped eq_pred haftmann parents: 30376 diff changeset	640	hide (open) const Pred eval single bind if_pred not_pred
31105 95f66b234086 added general preprocessing of equality in predicates for code generation bulwahn parents: 30430 diff changeset	641	Empty Insert Join Seq member pred_of_seq "apply" adjunct eq
30328 ab47f43f7581 added enumeration of predicates haftmann parents: 26797 diff changeset	642
ab47f43f7581 added enumeration of predicates haftmann parents: 26797 diff changeset	643	end

author	bulwahn
	Wed, 22 Apr 2009 11:10:23 +0200
changeset 31105	95f66b234086
parent 30430	42ea5d85edcc
child 31106	9a1178204dc0
permissions	-rw-r--r--