isabelle: src/HOL/Word/Misc_Typedef.thy@d7728f65b353 (annotated)

24333 e77ea0ea7f2c * HOL-Word: kleing parents: diff changeset	1	(*
e77ea0ea7f2c * HOL-Word: kleing parents: diff changeset	2	Author: Jeremy Dawson and Gerwin Klein, NICTA
e77ea0ea7f2c * HOL-Word: kleing parents: diff changeset	3
e77ea0ea7f2c * HOL-Word: kleing parents: diff changeset	4	consequences of type definition theorems,
e77ea0ea7f2c * HOL-Word: kleing parents: diff changeset	5	and of extended type definition theorems
e77ea0ea7f2c * HOL-Word: kleing parents: diff changeset	6	*)
24350 4d74f37c6367 headers for document generation huffman parents: 24333 diff changeset	7
4d74f37c6367 headers for document generation huffman parents: 24333 diff changeset	8	header {* Type Definition Theorems *}
4d74f37c6367 headers for document generation huffman parents: 24333 diff changeset	9
37655 f4d616d41a59 more speaking theory names haftmann parents: 30971 diff changeset	10	theory Misc_Typedef
26560 d2fc9a18ee8a tuned haftmann parents: 25262 diff changeset	11	imports Main
d2fc9a18ee8a tuned haftmann parents: 25262 diff changeset	12	begin
24333 e77ea0ea7f2c * HOL-Word: kleing parents: diff changeset	13
25262 d0928156e326 Added reference to Jeremy Dawson's paper on the word library. kleing parents: 24350 diff changeset	14	section "More lemmas about normal type definitions"
d0928156e326 Added reference to Jeremy Dawson's paper on the word library. kleing parents: 24350 diff changeset	15
24333 e77ea0ea7f2c * HOL-Word: kleing parents: diff changeset	16	lemma
e77ea0ea7f2c * HOL-Word: kleing parents: diff changeset	17	tdD1: "type_definition Rep Abs A \<Longrightarrow> \<forall>x. Rep x \<in> A" and
e77ea0ea7f2c * HOL-Word: kleing parents: diff changeset	18	tdD2: "type_definition Rep Abs A \<Longrightarrow> \<forall>x. Abs (Rep x) = x" and
e77ea0ea7f2c * HOL-Word: kleing parents: diff changeset	19	tdD3: "type_definition Rep Abs A \<Longrightarrow> \<forall>y. y \<in> A \<longrightarrow> Rep (Abs y) = y"
e77ea0ea7f2c * HOL-Word: kleing parents: diff changeset	20	by (auto simp: type_definition_def)
e77ea0ea7f2c * HOL-Word: kleing parents: diff changeset	21
e77ea0ea7f2c * HOL-Word: kleing parents: diff changeset	22	lemma td_nat_int:
e77ea0ea7f2c * HOL-Word: kleing parents: diff changeset	23	"type_definition int nat (Collect (op <= 0))"
e77ea0ea7f2c * HOL-Word: kleing parents: diff changeset	24	unfolding type_definition_def by auto
e77ea0ea7f2c * HOL-Word: kleing parents: diff changeset	25
e77ea0ea7f2c * HOL-Word: kleing parents: diff changeset	26	context type_definition
e77ea0ea7f2c * HOL-Word: kleing parents: diff changeset	27	begin
e77ea0ea7f2c * HOL-Word: kleing parents: diff changeset	28
e77ea0ea7f2c * HOL-Word: kleing parents: diff changeset	29	lemmas Rep' [iff] = Rep [simplified] (* if A is given as Collect .. *)
e77ea0ea7f2c * HOL-Word: kleing parents: diff changeset	30
e77ea0ea7f2c * HOL-Word: kleing parents: diff changeset	31	declare Rep_inverse [simp] Rep_inject [simp]
e77ea0ea7f2c * HOL-Word: kleing parents: diff changeset	32
e77ea0ea7f2c * HOL-Word: kleing parents: diff changeset	33	lemma Abs_eqD: "Abs x = Abs y ==> x \<in> A ==> y \<in> A ==> x = y"
e77ea0ea7f2c * HOL-Word: kleing parents: diff changeset	34	by (simp add: Abs_inject)
e77ea0ea7f2c * HOL-Word: kleing parents: diff changeset	35
e77ea0ea7f2c * HOL-Word: kleing parents: diff changeset	36	lemma Abs_inverse':
e77ea0ea7f2c * HOL-Word: kleing parents: diff changeset	37	"r : A ==> Abs r = a ==> Rep a = r"
e77ea0ea7f2c * HOL-Word: kleing parents: diff changeset	38	by (safe elim!: Abs_inverse)
e77ea0ea7f2c * HOL-Word: kleing parents: diff changeset	39
e77ea0ea7f2c * HOL-Word: kleing parents: diff changeset	40	lemma Rep_comp_inverse:
e77ea0ea7f2c * HOL-Word: kleing parents: diff changeset	41	"Rep o f = g ==> Abs o g = f"
e77ea0ea7f2c * HOL-Word: kleing parents: diff changeset	42	using Rep_inverse by (auto intro: ext)
e77ea0ea7f2c * HOL-Word: kleing parents: diff changeset	43
e77ea0ea7f2c * HOL-Word: kleing parents: diff changeset	44	lemma Rep_eqD [elim!]: "Rep x = Rep y ==> x = y"
e77ea0ea7f2c * HOL-Word: kleing parents: diff changeset	45	by simp
e77ea0ea7f2c * HOL-Word: kleing parents: diff changeset	46
e77ea0ea7f2c * HOL-Word: kleing parents: diff changeset	47	lemma Rep_inverse': "Rep a = r ==> Abs r = a"
e77ea0ea7f2c * HOL-Word: kleing parents: diff changeset	48	by (safe intro!: Rep_inverse)
e77ea0ea7f2c * HOL-Word: kleing parents: diff changeset	49
e77ea0ea7f2c * HOL-Word: kleing parents: diff changeset	50	lemma comp_Abs_inverse:
e77ea0ea7f2c * HOL-Word: kleing parents: diff changeset	51	"f o Abs = g ==> g o Rep = f"
e77ea0ea7f2c * HOL-Word: kleing parents: diff changeset	52	using Rep_inverse by (auto intro: ext)
e77ea0ea7f2c * HOL-Word: kleing parents: diff changeset	53
e77ea0ea7f2c * HOL-Word: kleing parents: diff changeset	54	lemma set_Rep:
e77ea0ea7f2c * HOL-Word: kleing parents: diff changeset	55	"A = range Rep"
39302 d7728f65b353 renamed lemmas: ext_iff -> fun_eq_iff, set_ext_iff -> set_eq_iff, set_ext -> set_eqI nipkow parents: 37655 diff changeset	56	proof (rule set_eqI)
24333 e77ea0ea7f2c * HOL-Word: kleing parents: diff changeset	57	fix x
e77ea0ea7f2c * HOL-Word: kleing parents: diff changeset	58	show "(x \<in> A) = (x \<in> range Rep)"
e77ea0ea7f2c * HOL-Word: kleing parents: diff changeset	59	by (auto dest: Abs_inverse [of x, symmetric])
e77ea0ea7f2c * HOL-Word: kleing parents: diff changeset	60	qed
e77ea0ea7f2c * HOL-Word: kleing parents: diff changeset	61
e77ea0ea7f2c * HOL-Word: kleing parents: diff changeset	62	lemma set_Rep_Abs: "A = range (Rep o Abs)"
39302 d7728f65b353 renamed lemmas: ext_iff -> fun_eq_iff, set_ext_iff -> set_eq_iff, set_ext -> set_eqI nipkow parents: 37655 diff changeset	63	proof (rule set_eqI)
24333 e77ea0ea7f2c * HOL-Word: kleing parents: diff changeset	64	fix x
e77ea0ea7f2c * HOL-Word: kleing parents: diff changeset	65	show "(x \<in> A) = (x \<in> range (Rep o Abs))"
e77ea0ea7f2c * HOL-Word: kleing parents: diff changeset	66	by (auto dest: Abs_inverse [of x, symmetric])
e77ea0ea7f2c * HOL-Word: kleing parents: diff changeset	67	qed
e77ea0ea7f2c * HOL-Word: kleing parents: diff changeset	68
e77ea0ea7f2c * HOL-Word: kleing parents: diff changeset	69	lemma Abs_inj_on: "inj_on Abs A"
e77ea0ea7f2c * HOL-Word: kleing parents: diff changeset	70	unfolding inj_on_def
e77ea0ea7f2c * HOL-Word: kleing parents: diff changeset	71	by (auto dest: Abs_inject [THEN iffD1])
e77ea0ea7f2c * HOL-Word: kleing parents: diff changeset	72
e77ea0ea7f2c * HOL-Word: kleing parents: diff changeset	73	lemma image: "Abs ` A = UNIV"
e77ea0ea7f2c * HOL-Word: kleing parents: diff changeset	74	by (auto intro!: image_eqI)
e77ea0ea7f2c * HOL-Word: kleing parents: diff changeset	75
e77ea0ea7f2c * HOL-Word: kleing parents: diff changeset	76	lemmas td_thm = type_definition_axioms
e77ea0ea7f2c * HOL-Word: kleing parents: diff changeset	77
e77ea0ea7f2c * HOL-Word: kleing parents: diff changeset	78	lemma fns1:
e77ea0ea7f2c * HOL-Word: kleing parents: diff changeset	79	"Rep o fa = fr o Rep \| fa o Abs = Abs o fr ==> Abs o fr o Rep = fa"
e77ea0ea7f2c * HOL-Word: kleing parents: diff changeset	80	by (auto dest: Rep_comp_inverse elim: comp_Abs_inverse simp: o_assoc)
e77ea0ea7f2c * HOL-Word: kleing parents: diff changeset	81
e77ea0ea7f2c * HOL-Word: kleing parents: diff changeset	82	lemmas fns1a = disjI1 [THEN fns1]
e77ea0ea7f2c * HOL-Word: kleing parents: diff changeset	83	lemmas fns1b = disjI2 [THEN fns1]
e77ea0ea7f2c * HOL-Word: kleing parents: diff changeset	84
e77ea0ea7f2c * HOL-Word: kleing parents: diff changeset	85	lemma fns4:
e77ea0ea7f2c * HOL-Word: kleing parents: diff changeset	86	"Rep o fa o Abs = fr ==>
e77ea0ea7f2c * HOL-Word: kleing parents: diff changeset	87	Rep o fa = fr o Rep & fa o Abs = Abs o fr"
e77ea0ea7f2c * HOL-Word: kleing parents: diff changeset	88	by (auto intro!: ext)
e77ea0ea7f2c * HOL-Word: kleing parents: diff changeset	89
e77ea0ea7f2c * HOL-Word: kleing parents: diff changeset	90	end
e77ea0ea7f2c * HOL-Word: kleing parents: diff changeset	91
30729 461ee3e49ad3 interpretation/interpret: prefixes are mandatory by default; wenzelm parents: 29631 diff changeset	92	interpretation nat_int: type_definition int nat "Collect (op <= 0)"
24333 e77ea0ea7f2c * HOL-Word: kleing parents: diff changeset	93	by (rule td_nat_int)
e77ea0ea7f2c * HOL-Word: kleing parents: diff changeset	94
27138 63fdfcf6c7a3 proper deletion of nat cases/induct rules from type_definition; wenzelm parents: 27135 diff changeset	95	declare
63fdfcf6c7a3 proper deletion of nat cases/induct rules from type_definition; wenzelm parents: 27135 diff changeset	96	nat_int.Rep_cases [cases del]
63fdfcf6c7a3 proper deletion of nat cases/induct rules from type_definition; wenzelm parents: 27135 diff changeset	97	nat_int.Abs_cases [cases del]
63fdfcf6c7a3 proper deletion of nat cases/induct rules from type_definition; wenzelm parents: 27135 diff changeset	98	nat_int.Rep_induct [induct del]
63fdfcf6c7a3 proper deletion of nat cases/induct rules from type_definition; wenzelm parents: 27135 diff changeset	99	nat_int.Abs_induct [induct del]
24333 e77ea0ea7f2c * HOL-Word: kleing parents: diff changeset	100
e77ea0ea7f2c * HOL-Word: kleing parents: diff changeset	101
24350 4d74f37c6367 headers for document generation huffman parents: 24333 diff changeset	102	subsection "Extended form of type definition predicate"
24333 e77ea0ea7f2c * HOL-Word: kleing parents: diff changeset	103
e77ea0ea7f2c * HOL-Word: kleing parents: diff changeset	104	lemma td_conds:
e77ea0ea7f2c * HOL-Word: kleing parents: diff changeset	105	"norm o norm = norm ==> (fr o norm = norm o fr) =
e77ea0ea7f2c * HOL-Word: kleing parents: diff changeset	106	(norm o fr o norm = fr o norm & norm o fr o norm = norm o fr)"
e77ea0ea7f2c * HOL-Word: kleing parents: diff changeset	107	apply safe
e77ea0ea7f2c * HOL-Word: kleing parents: diff changeset	108	apply (simp_all add: o_assoc [symmetric])
e77ea0ea7f2c * HOL-Word: kleing parents: diff changeset	109	apply (simp_all add: o_assoc)
e77ea0ea7f2c * HOL-Word: kleing parents: diff changeset	110	done
e77ea0ea7f2c * HOL-Word: kleing parents: diff changeset	111
e77ea0ea7f2c * HOL-Word: kleing parents: diff changeset	112	lemma fn_comm_power:
30971 7fbebf75b3ef funpow and relpow with shared "^^" syntax haftmann parents: 30952 diff changeset	113	"fa o tr = tr o fr ==> fa ^^ n o tr = tr o fr ^^ n"
24333 e77ea0ea7f2c * HOL-Word: kleing parents: diff changeset	114	apply (rule ext)
e77ea0ea7f2c * HOL-Word: kleing parents: diff changeset	115	apply (induct n)
e77ea0ea7f2c * HOL-Word: kleing parents: diff changeset	116	apply (auto dest: fun_cong)
e77ea0ea7f2c * HOL-Word: kleing parents: diff changeset	117	done
e77ea0ea7f2c * HOL-Word: kleing parents: diff changeset	118
e77ea0ea7f2c * HOL-Word: kleing parents: diff changeset	119	lemmas fn_comm_power' =
e77ea0ea7f2c * HOL-Word: kleing parents: diff changeset	120	ext [THEN fn_comm_power, THEN fun_cong, unfolded o_def, standard]
e77ea0ea7f2c * HOL-Word: kleing parents: diff changeset	121
e77ea0ea7f2c * HOL-Word: kleing parents: diff changeset	122
e77ea0ea7f2c * HOL-Word: kleing parents: diff changeset	123	locale td_ext = type_definition +
e77ea0ea7f2c * HOL-Word: kleing parents: diff changeset	124	fixes norm
e77ea0ea7f2c * HOL-Word: kleing parents: diff changeset	125	assumes eq_norm: "\<And>x. Rep (Abs x) = norm x"
e77ea0ea7f2c * HOL-Word: kleing parents: diff changeset	126	begin
e77ea0ea7f2c * HOL-Word: kleing parents: diff changeset	127
e77ea0ea7f2c * HOL-Word: kleing parents: diff changeset	128	lemma Abs_norm [simp]:
e77ea0ea7f2c * HOL-Word: kleing parents: diff changeset	129	"Abs (norm x) = Abs x"
e77ea0ea7f2c * HOL-Word: kleing parents: diff changeset	130	using eq_norm [of x] by (auto elim: Rep_inverse')
e77ea0ea7f2c * HOL-Word: kleing parents: diff changeset	131
e77ea0ea7f2c * HOL-Word: kleing parents: diff changeset	132	lemma td_th:
e77ea0ea7f2c * HOL-Word: kleing parents: diff changeset	133	"g o Abs = f ==> f (Rep x) = g x"
e77ea0ea7f2c * HOL-Word: kleing parents: diff changeset	134	by (drule comp_Abs_inverse [symmetric]) simp
e77ea0ea7f2c * HOL-Word: kleing parents: diff changeset	135
e77ea0ea7f2c * HOL-Word: kleing parents: diff changeset	136	lemma eq_norm': "Rep o Abs = norm"
e77ea0ea7f2c * HOL-Word: kleing parents: diff changeset	137	by (auto simp: eq_norm intro!: ext)
e77ea0ea7f2c * HOL-Word: kleing parents: diff changeset	138
e77ea0ea7f2c * HOL-Word: kleing parents: diff changeset	139	lemma norm_Rep [simp]: "norm (Rep x) = Rep x"
e77ea0ea7f2c * HOL-Word: kleing parents: diff changeset	140	by (auto simp: eq_norm' intro: td_th)
e77ea0ea7f2c * HOL-Word: kleing parents: diff changeset	141
e77ea0ea7f2c * HOL-Word: kleing parents: diff changeset	142	lemmas td = td_thm
e77ea0ea7f2c * HOL-Word: kleing parents: diff changeset	143
e77ea0ea7f2c * HOL-Word: kleing parents: diff changeset	144	lemma set_iff_norm: "w : A <-> w = norm w"
e77ea0ea7f2c * HOL-Word: kleing parents: diff changeset	145	by (auto simp: set_Rep_Abs eq_norm' eq_norm [symmetric])
e77ea0ea7f2c * HOL-Word: kleing parents: diff changeset	146
e77ea0ea7f2c * HOL-Word: kleing parents: diff changeset	147	lemma inverse_norm:
e77ea0ea7f2c * HOL-Word: kleing parents: diff changeset	148	"(Abs n = w) = (Rep w = norm n)"
e77ea0ea7f2c * HOL-Word: kleing parents: diff changeset	149	apply (rule iffI)
e77ea0ea7f2c * HOL-Word: kleing parents: diff changeset	150	apply (clarsimp simp add: eq_norm)
e77ea0ea7f2c * HOL-Word: kleing parents: diff changeset	151	apply (simp add: eq_norm' [symmetric])
e77ea0ea7f2c * HOL-Word: kleing parents: diff changeset	152	done
e77ea0ea7f2c * HOL-Word: kleing parents: diff changeset	153
e77ea0ea7f2c * HOL-Word: kleing parents: diff changeset	154	lemma norm_eq_iff:
e77ea0ea7f2c * HOL-Word: kleing parents: diff changeset	155	"(norm x = norm y) = (Abs x = Abs y)"
e77ea0ea7f2c * HOL-Word: kleing parents: diff changeset	156	by (simp add: eq_norm' [symmetric])
e77ea0ea7f2c * HOL-Word: kleing parents: diff changeset	157
e77ea0ea7f2c * HOL-Word: kleing parents: diff changeset	158	lemma norm_comps:
e77ea0ea7f2c * HOL-Word: kleing parents: diff changeset	159	"Abs o norm = Abs"
e77ea0ea7f2c * HOL-Word: kleing parents: diff changeset	160	"norm o Rep = Rep"
e77ea0ea7f2c * HOL-Word: kleing parents: diff changeset	161	"norm o norm = norm"
e77ea0ea7f2c * HOL-Word: kleing parents: diff changeset	162	by (auto simp: eq_norm' [symmetric] o_def)
e77ea0ea7f2c * HOL-Word: kleing parents: diff changeset	163
e77ea0ea7f2c * HOL-Word: kleing parents: diff changeset	164	lemmas norm_norm [simp] = norm_comps
e77ea0ea7f2c * HOL-Word: kleing parents: diff changeset	165
e77ea0ea7f2c * HOL-Word: kleing parents: diff changeset	166	lemma fns5:
e77ea0ea7f2c * HOL-Word: kleing parents: diff changeset	167	"Rep o fa o Abs = fr ==>
e77ea0ea7f2c * HOL-Word: kleing parents: diff changeset	168	fr o norm = fr & norm o fr = fr"
e77ea0ea7f2c * HOL-Word: kleing parents: diff changeset	169	by (fold eq_norm') (auto intro!: ext)
e77ea0ea7f2c * HOL-Word: kleing parents: diff changeset	170
e77ea0ea7f2c * HOL-Word: kleing parents: diff changeset	171	(* following give conditions for converses to td_fns1
e77ea0ea7f2c * HOL-Word: kleing parents: diff changeset	172	the condition (norm o fr o norm = fr o norm) says that
e77ea0ea7f2c * HOL-Word: kleing parents: diff changeset	173	fr takes normalised arguments to normalised results,
e77ea0ea7f2c * HOL-Word: kleing parents: diff changeset	174	(norm o fr o norm = norm o fr) says that fr
e77ea0ea7f2c * HOL-Word: kleing parents: diff changeset	175	takes norm-equivalent arguments to norm-equivalent results,
e77ea0ea7f2c * HOL-Word: kleing parents: diff changeset	176	(fr o norm = fr) says that fr
e77ea0ea7f2c * HOL-Word: kleing parents: diff changeset	177	takes norm-equivalent arguments to the same result, and
e77ea0ea7f2c * HOL-Word: kleing parents: diff changeset	178	(norm o fr = fr) says that fr takes any argument to a normalised result
e77ea0ea7f2c * HOL-Word: kleing parents: diff changeset	179	*)
e77ea0ea7f2c * HOL-Word: kleing parents: diff changeset	180	lemma fns2:
e77ea0ea7f2c * HOL-Word: kleing parents: diff changeset	181	"Abs o fr o Rep = fa ==>
e77ea0ea7f2c * HOL-Word: kleing parents: diff changeset	182	(norm o fr o norm = fr o norm) = (Rep o fa = fr o Rep)"
e77ea0ea7f2c * HOL-Word: kleing parents: diff changeset	183	apply (fold eq_norm')
e77ea0ea7f2c * HOL-Word: kleing parents: diff changeset	184	apply safe
e77ea0ea7f2c * HOL-Word: kleing parents: diff changeset	185	prefer 2
e77ea0ea7f2c * HOL-Word: kleing parents: diff changeset	186	apply (simp add: o_assoc)
e77ea0ea7f2c * HOL-Word: kleing parents: diff changeset	187	apply (rule ext)
e77ea0ea7f2c * HOL-Word: kleing parents: diff changeset	188	apply (drule_tac x="Rep x" in fun_cong)
e77ea0ea7f2c * HOL-Word: kleing parents: diff changeset	189	apply auto
e77ea0ea7f2c * HOL-Word: kleing parents: diff changeset	190	done
e77ea0ea7f2c * HOL-Word: kleing parents: diff changeset	191
e77ea0ea7f2c * HOL-Word: kleing parents: diff changeset	192	lemma fns3:
e77ea0ea7f2c * HOL-Word: kleing parents: diff changeset	193	"Abs o fr o Rep = fa ==>
e77ea0ea7f2c * HOL-Word: kleing parents: diff changeset	194	(norm o fr o norm = norm o fr) = (fa o Abs = Abs o fr)"
e77ea0ea7f2c * HOL-Word: kleing parents: diff changeset	195	apply (fold eq_norm')
e77ea0ea7f2c * HOL-Word: kleing parents: diff changeset	196	apply safe
e77ea0ea7f2c * HOL-Word: kleing parents: diff changeset	197	prefer 2
e77ea0ea7f2c * HOL-Word: kleing parents: diff changeset	198	apply (simp add: o_assoc [symmetric])
e77ea0ea7f2c * HOL-Word: kleing parents: diff changeset	199	apply (rule ext)
e77ea0ea7f2c * HOL-Word: kleing parents: diff changeset	200	apply (drule fun_cong)
e77ea0ea7f2c * HOL-Word: kleing parents: diff changeset	201	apply simp
e77ea0ea7f2c * HOL-Word: kleing parents: diff changeset	202	done
e77ea0ea7f2c * HOL-Word: kleing parents: diff changeset	203
e77ea0ea7f2c * HOL-Word: kleing parents: diff changeset	204	lemma fns:
e77ea0ea7f2c * HOL-Word: kleing parents: diff changeset	205	"fr o norm = norm o fr ==>
e77ea0ea7f2c * HOL-Word: kleing parents: diff changeset	206	(fa o Abs = Abs o fr) = (Rep o fa = fr o Rep)"
e77ea0ea7f2c * HOL-Word: kleing parents: diff changeset	207	apply safe
e77ea0ea7f2c * HOL-Word: kleing parents: diff changeset	208	apply (frule fns1b)
e77ea0ea7f2c * HOL-Word: kleing parents: diff changeset	209	prefer 2
e77ea0ea7f2c * HOL-Word: kleing parents: diff changeset	210	apply (frule fns1a)
e77ea0ea7f2c * HOL-Word: kleing parents: diff changeset	211	apply (rule fns3 [THEN iffD1])
e77ea0ea7f2c * HOL-Word: kleing parents: diff changeset	212	prefer 3
e77ea0ea7f2c * HOL-Word: kleing parents: diff changeset	213	apply (rule fns2 [THEN iffD1])
e77ea0ea7f2c * HOL-Word: kleing parents: diff changeset	214	apply (simp_all add: o_assoc [symmetric])
e77ea0ea7f2c * HOL-Word: kleing parents: diff changeset	215	apply (simp_all add: o_assoc)
e77ea0ea7f2c * HOL-Word: kleing parents: diff changeset	216	done
e77ea0ea7f2c * HOL-Word: kleing parents: diff changeset	217
e77ea0ea7f2c * HOL-Word: kleing parents: diff changeset	218	lemma range_norm:
e77ea0ea7f2c * HOL-Word: kleing parents: diff changeset	219	"range (Rep o Abs) = A"
e77ea0ea7f2c * HOL-Word: kleing parents: diff changeset	220	by (simp add: set_Rep_Abs)
e77ea0ea7f2c * HOL-Word: kleing parents: diff changeset	221
e77ea0ea7f2c * HOL-Word: kleing parents: diff changeset	222	end
e77ea0ea7f2c * HOL-Word: kleing parents: diff changeset	223
e77ea0ea7f2c * HOL-Word: kleing parents: diff changeset	224	lemmas td_ext_def' =
e77ea0ea7f2c * HOL-Word: kleing parents: diff changeset	225	td_ext_def [unfolded type_definition_def td_ext_axioms_def]
e77ea0ea7f2c * HOL-Word: kleing parents: diff changeset	226
e77ea0ea7f2c * HOL-Word: kleing parents: diff changeset	227	end
e77ea0ea7f2c * HOL-Word: kleing parents: diff changeset	228

author	nipkow
	Mon, 13 Sep 2010 11:13:15 +0200
changeset 39302	d7728f65b353
parent 37655	f4d616d41a59
child 44939	5930d35c976d
permissions	-rw-r--r--