isabelle: src/HOL/Library/Old_Datatype.thy@a7394aa4d21c (annotated)

58372 bfd497f2f4c2 moved 'old_datatype' out of 'Main' (but put it in 'HOL-Proofs' because of the inductive realizer) blanchet parents: 58305 diff changeset	1	(* Title: HOL/Library/Old_Datatype.thy
20819 cb6ae81dd0be merged with theory Datatype_Universe; wenzelm parents: 20798 diff changeset	2	Author: Lawrence C Paulson, Cambridge University Computer Laboratory
11954 3d1780208bf3 made new-style theory; wenzelm parents: 10212 diff changeset	3	Author: Stefan Berghofer and Markus Wenzel, TU Muenchen
5181 4ba3787d9709 New theory Datatype. Needed as an ancestor when defining datatypes. berghofe parents: diff changeset	4	*)
4ba3787d9709 New theory Datatype. Needed as an ancestor when defining datatypes. berghofe parents: diff changeset	5
60500 903bb1495239 isabelle update_cartouches; wenzelm parents: 58881 diff changeset	6	section \<open>Old Datatype package: constructing datatypes from Cartesian Products and Disjoint Sums\<close>
11954 3d1780208bf3 made new-style theory; wenzelm parents: 10212 diff changeset	7
58112 8081087096ad renamed modules defining old datatypes, as a step towards having 'datatype_new' take 'datatype's place blanchet parents: 55642 diff changeset	8	theory Old_Datatype
58372 bfd497f2f4c2 moved 'old_datatype' out of 'Main' (but put it in 'HOL-Proofs' because of the inductive realizer) blanchet parents: 58305 diff changeset	9	imports "../Main"
58305 57752a91eec4 renamed 'datatype' to 'old_datatype'; 'datatype' is now alias for 'datatype_new' blanchet parents: 58182 diff changeset	10	keywords "old_datatype" :: thy_decl
15131 c69542757a4d New theory header syntax. nipkow parents: 14981 diff changeset	11	begin
11954 3d1780208bf3 made new-style theory; wenzelm parents: 10212 diff changeset	12
58377 c6f93b8d2d8e moved old 'size' generator together with 'old_datatype' blanchet parents: 58376 diff changeset	13	ML_file "~~/src/HOL/Tools/datatype_realizer.ML"
c6f93b8d2d8e moved old 'size' generator together with 'old_datatype' blanchet parents: 58376 diff changeset	14
c6f93b8d2d8e moved old 'size' generator together with 'old_datatype' blanchet parents: 58376 diff changeset	15
60500 903bb1495239 isabelle update_cartouches; wenzelm parents: 58881 diff changeset	16	subsection \<open>The datatype universe\<close>
33959 2afc55e8ed27 bootstrap datatype_rep_proofs in Datatype.thy (avoids unchecked dynamic name references) haftmann parents: 33633 diff changeset	17
45694 4a8743618257 prefer typedef without extra definition and alternative name; wenzelm parents: 45607 diff changeset	18	definition "Node = {p. EX f x k. p = (f :: nat => 'b + nat, x ::'a + nat) & f k = Inr 0}"
4a8743618257 prefer typedef without extra definition and alternative name; wenzelm parents: 45607 diff changeset	19
49834 b27bbb021df1 discontinued obsolete typedef (open) syntax; wenzelm parents: 48891 diff changeset	20	typedef ('a, 'b) node = "Node :: ((nat => 'b + nat) * ('a + nat)) set"
45694 4a8743618257 prefer typedef without extra definition and alternative name; wenzelm parents: 45607 diff changeset	21	morphisms Rep_Node Abs_Node
4a8743618257 prefer typedef without extra definition and alternative name; wenzelm parents: 45607 diff changeset	22	unfolding Node_def by auto
20819 cb6ae81dd0be merged with theory Datatype_Universe; wenzelm parents: 20798 diff changeset	23
61585 a9599d3d7610 isabelle update_cartouches -c -t; wenzelm parents: 60500 diff changeset	24	text\<open>Datatypes will be represented by sets of type \<open>node\<close>\<close>
20819 cb6ae81dd0be merged with theory Datatype_Universe; wenzelm parents: 20798 diff changeset	25
42163 392fd6c4669c renewing specifications in HOL: replacing types by type_synonym bulwahn parents: 41505 diff changeset	26	type_synonym 'a item = "('a, unit) node set"
392fd6c4669c renewing specifications in HOL: replacing types by type_synonym bulwahn parents: 41505 diff changeset	27	type_synonym ('a, 'b) dtree = "('a, 'b) node set"
20819 cb6ae81dd0be merged with theory Datatype_Universe; wenzelm parents: 20798 diff changeset	28
62145 5b946c81dfbf eliminated old defs; wenzelm parents: 61952 diff changeset	29	definition Push :: "[('b + nat), nat => ('b + nat)] => (nat => ('b + nat))"
5b946c81dfbf eliminated old defs; wenzelm parents: 61952 diff changeset	30	(crude "lists" of nats -- needed for the constructions)
5b946c81dfbf eliminated old defs; wenzelm parents: 61952 diff changeset	31	where "Push == (%b h. case_nat b h)"
20819 cb6ae81dd0be merged with theory Datatype_Universe; wenzelm parents: 20798 diff changeset	32
62145 5b946c81dfbf eliminated old defs; wenzelm parents: 61952 diff changeset	33	definition Push_Node :: "[('b + nat), ('a, 'b) node] => ('a, 'b) node"
5b946c81dfbf eliminated old defs; wenzelm parents: 61952 diff changeset	34	where "Push_Node == (%n x. Abs_Node (apfst (Push n) (Rep_Node x)))"
20819 cb6ae81dd0be merged with theory Datatype_Universe; wenzelm parents: 20798 diff changeset	35
cb6ae81dd0be merged with theory Datatype_Universe; wenzelm parents: 20798 diff changeset	36
62145 5b946c81dfbf eliminated old defs; wenzelm parents: 61952 diff changeset	37	( operations on S-expressions -- sets of nodes )
20819 cb6ae81dd0be merged with theory Datatype_Universe; wenzelm parents: 20798 diff changeset	38
62145 5b946c81dfbf eliminated old defs; wenzelm parents: 61952 diff changeset	39	(S-expression constructors)
5b946c81dfbf eliminated old defs; wenzelm parents: 61952 diff changeset	40	definition Atom :: "('a + nat) => ('a, 'b) dtree"
5b946c81dfbf eliminated old defs; wenzelm parents: 61952 diff changeset	41	where "Atom == (%x. {Abs_Node((%k. Inr 0, x))})"
5b946c81dfbf eliminated old defs; wenzelm parents: 61952 diff changeset	42	definition Scons :: "[('a, 'b) dtree, ('a, 'b) dtree] => ('a, 'b) dtree"
5b946c81dfbf eliminated old defs; wenzelm parents: 61952 diff changeset	43	where "Scons M N == (Push_Node (Inr 1) ` M) Un (Push_Node (Inr (Suc 1)) ` N)"
20819 cb6ae81dd0be merged with theory Datatype_Universe; wenzelm parents: 20798 diff changeset	44
62145 5b946c81dfbf eliminated old defs; wenzelm parents: 61952 diff changeset	45	(Leaf nodes, with arbitrary or nat labels)
5b946c81dfbf eliminated old defs; wenzelm parents: 61952 diff changeset	46	definition Leaf :: "'a => ('a, 'b) dtree"
5b946c81dfbf eliminated old defs; wenzelm parents: 61952 diff changeset	47	where "Leaf == Atom o Inl"
5b946c81dfbf eliminated old defs; wenzelm parents: 61952 diff changeset	48	definition Numb :: "nat => ('a, 'b) dtree"
5b946c81dfbf eliminated old defs; wenzelm parents: 61952 diff changeset	49	where "Numb == Atom o Inr"
20819 cb6ae81dd0be merged with theory Datatype_Universe; wenzelm parents: 20798 diff changeset	50
62145 5b946c81dfbf eliminated old defs; wenzelm parents: 61952 diff changeset	51	(Injections of the "disjoint sum")
5b946c81dfbf eliminated old defs; wenzelm parents: 61952 diff changeset	52	definition In0 :: "('a, 'b) dtree => ('a, 'b) dtree"
5b946c81dfbf eliminated old defs; wenzelm parents: 61952 diff changeset	53	where "In0(M) == Scons (Numb 0) M"
5b946c81dfbf eliminated old defs; wenzelm parents: 61952 diff changeset	54	definition In1 :: "('a, 'b) dtree => ('a, 'b) dtree"
5b946c81dfbf eliminated old defs; wenzelm parents: 61952 diff changeset	55	where "In1(M) == Scons (Numb 1) M"
20819 cb6ae81dd0be merged with theory Datatype_Universe; wenzelm parents: 20798 diff changeset	56
62145 5b946c81dfbf eliminated old defs; wenzelm parents: 61952 diff changeset	57	(Function spaces)
5b946c81dfbf eliminated old defs; wenzelm parents: 61952 diff changeset	58	definition Lim :: "('b => ('a, 'b) dtree) => ('a, 'b) dtree"
5b946c81dfbf eliminated old defs; wenzelm parents: 61952 diff changeset	59	where "Lim f == \<Union>{z. ? x. z = Push_Node (Inl x) ` (f x)}"
20819 cb6ae81dd0be merged with theory Datatype_Universe; wenzelm parents: 20798 diff changeset	60
62145 5b946c81dfbf eliminated old defs; wenzelm parents: 61952 diff changeset	61	(the set of nodes with depth less than k)
5b946c81dfbf eliminated old defs; wenzelm parents: 61952 diff changeset	62	definition ndepth :: "('a, 'b) node => nat"
5b946c81dfbf eliminated old defs; wenzelm parents: 61952 diff changeset	63	where "ndepth(n) == (%(f,x). LEAST k. f k = Inr 0) (Rep_Node n)"
5b946c81dfbf eliminated old defs; wenzelm parents: 61952 diff changeset	64	definition ntrunc :: "[nat, ('a, 'b) dtree] => ('a, 'b) dtree"
5b946c81dfbf eliminated old defs; wenzelm parents: 61952 diff changeset	65	where "ntrunc k N == {n. n:N & ndepth(n)<k}"
20819 cb6ae81dd0be merged with theory Datatype_Universe; wenzelm parents: 20798 diff changeset	66
62145 5b946c81dfbf eliminated old defs; wenzelm parents: 61952 diff changeset	67	(products and sums for the "universe")
5b946c81dfbf eliminated old defs; wenzelm parents: 61952 diff changeset	68	definition uprod :: "[('a, 'b) dtree set, ('a, 'b) dtree set]=> ('a, 'b) dtree set"
5b946c81dfbf eliminated old defs; wenzelm parents: 61952 diff changeset	69	where "uprod A B == UN x:A. UN y:B. { Scons x y }"
5b946c81dfbf eliminated old defs; wenzelm parents: 61952 diff changeset	70	definition usum :: "[('a, 'b) dtree set, ('a, 'b) dtree set]=> ('a, 'b) dtree set"
5b946c81dfbf eliminated old defs; wenzelm parents: 61952 diff changeset	71	where "usum A B == In0`A Un In1`B"
20819 cb6ae81dd0be merged with theory Datatype_Universe; wenzelm parents: 20798 diff changeset	72
62145 5b946c81dfbf eliminated old defs; wenzelm parents: 61952 diff changeset	73	(the corresponding eliminators)
5b946c81dfbf eliminated old defs; wenzelm parents: 61952 diff changeset	74	definition Split :: "[[('a, 'b) dtree, ('a, 'b) dtree]=>'c, ('a, 'b) dtree] => 'c"
5b946c81dfbf eliminated old defs; wenzelm parents: 61952 diff changeset	75	where "Split c M == THE u. EX x y. M = Scons x y & u = c x y"
20819 cb6ae81dd0be merged with theory Datatype_Universe; wenzelm parents: 20798 diff changeset	76
62145 5b946c81dfbf eliminated old defs; wenzelm parents: 61952 diff changeset	77	definition Case :: "[[('a, 'b) dtree]=>'c, [('a, 'b) dtree]=>'c, ('a, 'b) dtree] => 'c"
5b946c81dfbf eliminated old defs; wenzelm parents: 61952 diff changeset	78	where "Case c d M == THE u. (EX x . M = In0(x) & u = c(x)) \| (EX y . M = In1(y) & u = d(y))"
20819 cb6ae81dd0be merged with theory Datatype_Universe; wenzelm parents: 20798 diff changeset	79
cb6ae81dd0be merged with theory Datatype_Universe; wenzelm parents: 20798 diff changeset	80
62145 5b946c81dfbf eliminated old defs; wenzelm parents: 61952 diff changeset	81	( equality for the "universe" )
20819 cb6ae81dd0be merged with theory Datatype_Universe; wenzelm parents: 20798 diff changeset	82
62145 5b946c81dfbf eliminated old defs; wenzelm parents: 61952 diff changeset	83	definition dprod :: "[(('a, 'b) dtree * ('a, 'b) dtree)set, (('a, 'b) dtree * ('a, 'b) dtree)set]
5b946c81dfbf eliminated old defs; wenzelm parents: 61952 diff changeset	84	=> (('a, 'b) dtree * ('a, 'b) dtree)set"
5b946c81dfbf eliminated old defs; wenzelm parents: 61952 diff changeset	85	where "dprod r s == UN (x,x'):r. UN (y,y'):s. {(Scons x y, Scons x' y')}"
20819 cb6ae81dd0be merged with theory Datatype_Universe; wenzelm parents: 20798 diff changeset	86
62145 5b946c81dfbf eliminated old defs; wenzelm parents: 61952 diff changeset	87	definition dsum :: "[(('a, 'b) dtree * ('a, 'b) dtree)set, (('a, 'b) dtree * ('a, 'b) dtree)set]
5b946c81dfbf eliminated old defs; wenzelm parents: 61952 diff changeset	88	=> (('a, 'b) dtree * ('a, 'b) dtree)set"
5b946c81dfbf eliminated old defs; wenzelm parents: 61952 diff changeset	89	where "dsum r s == (UN (x,x'):r. {(In0(x),In0(x'))}) Un (UN (y,y'):s. {(In1(y),In1(y'))})"
20819 cb6ae81dd0be merged with theory Datatype_Universe; wenzelm parents: 20798 diff changeset	90
cb6ae81dd0be merged with theory Datatype_Universe; wenzelm parents: 20798 diff changeset	91
cb6ae81dd0be merged with theory Datatype_Universe; wenzelm parents: 20798 diff changeset	92	lemma apfst_convE:
cb6ae81dd0be merged with theory Datatype_Universe; wenzelm parents: 20798 diff changeset	93	"[\| q = apfst f p; !!x y. [\| p = (x,y); q = (f(x),y) \|] ==> R
cb6ae81dd0be merged with theory Datatype_Universe; wenzelm parents: 20798 diff changeset	94	\|] ==> R"
cb6ae81dd0be merged with theory Datatype_Universe; wenzelm parents: 20798 diff changeset	95	by (force simp add: apfst_def)
cb6ae81dd0be merged with theory Datatype_Universe; wenzelm parents: 20798 diff changeset	96
cb6ae81dd0be merged with theory Datatype_Universe; wenzelm parents: 20798 diff changeset	97	( Push -- an injection, analogous to Cons on lists )
cb6ae81dd0be merged with theory Datatype_Universe; wenzelm parents: 20798 diff changeset	98
cb6ae81dd0be merged with theory Datatype_Universe; wenzelm parents: 20798 diff changeset	99	lemma Push_inject1: "Push i f = Push j g ==> i=j"
39302 d7728f65b353 renamed lemmas: ext_iff -> fun_eq_iff, set_ext_iff -> set_eq_iff, set_ext -> set_eqI nipkow parents: 39198 diff changeset	100	apply (simp add: Push_def fun_eq_iff)
20819 cb6ae81dd0be merged with theory Datatype_Universe; wenzelm parents: 20798 diff changeset	101	apply (drule_tac x=0 in spec, simp)
cb6ae81dd0be merged with theory Datatype_Universe; wenzelm parents: 20798 diff changeset	102	done
cb6ae81dd0be merged with theory Datatype_Universe; wenzelm parents: 20798 diff changeset	103
cb6ae81dd0be merged with theory Datatype_Universe; wenzelm parents: 20798 diff changeset	104	lemma Push_inject2: "Push i f = Push j g ==> f=g"
39302 d7728f65b353 renamed lemmas: ext_iff -> fun_eq_iff, set_ext_iff -> set_eq_iff, set_ext -> set_eqI nipkow parents: 39198 diff changeset	105	apply (auto simp add: Push_def fun_eq_iff)
20819 cb6ae81dd0be merged with theory Datatype_Universe; wenzelm parents: 20798 diff changeset	106	apply (drule_tac x="Suc x" in spec, simp)
cb6ae81dd0be merged with theory Datatype_Universe; wenzelm parents: 20798 diff changeset	107	done
cb6ae81dd0be merged with theory Datatype_Universe; wenzelm parents: 20798 diff changeset	108
cb6ae81dd0be merged with theory Datatype_Universe; wenzelm parents: 20798 diff changeset	109	lemma Push_inject:
cb6ae81dd0be merged with theory Datatype_Universe; wenzelm parents: 20798 diff changeset	110	"[\| Push i f =Push j g; [\| i=j; f=g \|] ==> P \|] ==> P"
cb6ae81dd0be merged with theory Datatype_Universe; wenzelm parents: 20798 diff changeset	111	by (blast dest: Push_inject1 Push_inject2)
cb6ae81dd0be merged with theory Datatype_Universe; wenzelm parents: 20798 diff changeset	112
cb6ae81dd0be merged with theory Datatype_Universe; wenzelm parents: 20798 diff changeset	113	lemma Push_neq_K0: "Push (Inr (Suc k)) f = (%z. Inr 0) ==> P"
39302 d7728f65b353 renamed lemmas: ext_iff -> fun_eq_iff, set_ext_iff -> set_eq_iff, set_ext -> set_eqI nipkow parents: 39198 diff changeset	114	by (auto simp add: Push_def fun_eq_iff split: nat.split_asm)
20819 cb6ae81dd0be merged with theory Datatype_Universe; wenzelm parents: 20798 diff changeset	115
45607 16b4f5774621 eliminated obsolete "standard"; wenzelm parents: 42163 diff changeset	116	lemmas Abs_Node_inj = Abs_Node_inject [THEN [2] rev_iffD1]
20819 cb6ae81dd0be merged with theory Datatype_Universe; wenzelm parents: 20798 diff changeset	117
cb6ae81dd0be merged with theory Datatype_Universe; wenzelm parents: 20798 diff changeset	118
cb6ae81dd0be merged with theory Datatype_Universe; wenzelm parents: 20798 diff changeset	119	(* Introduction rules for Node *)
cb6ae81dd0be merged with theory Datatype_Universe; wenzelm parents: 20798 diff changeset	120
cb6ae81dd0be merged with theory Datatype_Universe; wenzelm parents: 20798 diff changeset	121	lemma Node_K0_I: "(%k. Inr 0, a) : Node"
cb6ae81dd0be merged with theory Datatype_Universe; wenzelm parents: 20798 diff changeset	122	by (simp add: Node_def)
cb6ae81dd0be merged with theory Datatype_Universe; wenzelm parents: 20798 diff changeset	123
cb6ae81dd0be merged with theory Datatype_Universe; wenzelm parents: 20798 diff changeset	124	lemma Node_Push_I: "p: Node ==> apfst (Push i) p : Node"
cb6ae81dd0be merged with theory Datatype_Universe; wenzelm parents: 20798 diff changeset	125	apply (simp add: Node_def Push_def)
55642 63beb38e9258 adapted to renaming of datatype 'cases' and 'recs' to 'case' and 'rec' blanchet parents: 55417 diff changeset	126	apply (fast intro!: apfst_conv nat.case(2)[THEN trans])
20819 cb6ae81dd0be merged with theory Datatype_Universe; wenzelm parents: 20798 diff changeset	127	done
cb6ae81dd0be merged with theory Datatype_Universe; wenzelm parents: 20798 diff changeset	128
cb6ae81dd0be merged with theory Datatype_Universe; wenzelm parents: 20798 diff changeset	129
60500 903bb1495239 isabelle update_cartouches; wenzelm parents: 58881 diff changeset	130	subsection\<open>Freeness: Distinctness of Constructors\<close>
20819 cb6ae81dd0be merged with theory Datatype_Universe; wenzelm parents: 20798 diff changeset	131
cb6ae81dd0be merged with theory Datatype_Universe; wenzelm parents: 20798 diff changeset	132	( Scons vs Atom )
cb6ae81dd0be merged with theory Datatype_Universe; wenzelm parents: 20798 diff changeset	133
cb6ae81dd0be merged with theory Datatype_Universe; wenzelm parents: 20798 diff changeset	134	lemma Scons_not_Atom [iff]: "Scons M N \<noteq> Atom(a)"
35216 7641e8d831d2 get rid of many duplicate simp rule warnings huffman parents: 33968 diff changeset	135	unfolding Atom_def Scons_def Push_Node_def One_nat_def
7641e8d831d2 get rid of many duplicate simp rule warnings huffman parents: 33968 diff changeset	136	by (blast intro: Node_K0_I Rep_Node [THEN Node_Push_I]
20819 cb6ae81dd0be merged with theory Datatype_Universe; wenzelm parents: 20798 diff changeset	137	dest!: Abs_Node_inj
cb6ae81dd0be merged with theory Datatype_Universe; wenzelm parents: 20798 diff changeset	138	elim!: apfst_convE sym [THEN Push_neq_K0])
cb6ae81dd0be merged with theory Datatype_Universe; wenzelm parents: 20798 diff changeset	139
45607 16b4f5774621 eliminated obsolete "standard"; wenzelm parents: 42163 diff changeset	140	lemmas Atom_not_Scons [iff] = Scons_not_Atom [THEN not_sym]
21407 af60523da908 reduced verbosity haftmann parents: 21404 diff changeset	141
20819 cb6ae81dd0be merged with theory Datatype_Universe; wenzelm parents: 20798 diff changeset	142
cb6ae81dd0be merged with theory Datatype_Universe; wenzelm parents: 20798 diff changeset	143	(* Injectiveness *)
cb6ae81dd0be merged with theory Datatype_Universe; wenzelm parents: 20798 diff changeset	144
cb6ae81dd0be merged with theory Datatype_Universe; wenzelm parents: 20798 diff changeset	145	( Atomic nodes )
cb6ae81dd0be merged with theory Datatype_Universe; wenzelm parents: 20798 diff changeset	146
cb6ae81dd0be merged with theory Datatype_Universe; wenzelm parents: 20798 diff changeset	147	lemma inj_Atom: "inj(Atom)"
cb6ae81dd0be merged with theory Datatype_Universe; wenzelm parents: 20798 diff changeset	148	apply (simp add: Atom_def)
cb6ae81dd0be merged with theory Datatype_Universe; wenzelm parents: 20798 diff changeset	149	apply (blast intro!: inj_onI Node_K0_I dest!: Abs_Node_inj)
cb6ae81dd0be merged with theory Datatype_Universe; wenzelm parents: 20798 diff changeset	150	done
45607 16b4f5774621 eliminated obsolete "standard"; wenzelm parents: 42163 diff changeset	151	lemmas Atom_inject = inj_Atom [THEN injD]
20819 cb6ae81dd0be merged with theory Datatype_Universe; wenzelm parents: 20798 diff changeset	152
cb6ae81dd0be merged with theory Datatype_Universe; wenzelm parents: 20798 diff changeset	153	lemma Atom_Atom_eq [iff]: "(Atom(a)=Atom(b)) = (a=b)"
cb6ae81dd0be merged with theory Datatype_Universe; wenzelm parents: 20798 diff changeset	154	by (blast dest!: Atom_inject)
cb6ae81dd0be merged with theory Datatype_Universe; wenzelm parents: 20798 diff changeset	155
cb6ae81dd0be merged with theory Datatype_Universe; wenzelm parents: 20798 diff changeset	156	lemma inj_Leaf: "inj(Leaf)"
cb6ae81dd0be merged with theory Datatype_Universe; wenzelm parents: 20798 diff changeset	157	apply (simp add: Leaf_def o_def)
cb6ae81dd0be merged with theory Datatype_Universe; wenzelm parents: 20798 diff changeset	158	apply (rule inj_onI)
cb6ae81dd0be merged with theory Datatype_Universe; wenzelm parents: 20798 diff changeset	159	apply (erule Atom_inject [THEN Inl_inject])
cb6ae81dd0be merged with theory Datatype_Universe; wenzelm parents: 20798 diff changeset	160	done
cb6ae81dd0be merged with theory Datatype_Universe; wenzelm parents: 20798 diff changeset	161
45607 16b4f5774621 eliminated obsolete "standard"; wenzelm parents: 42163 diff changeset	162	lemmas Leaf_inject [dest!] = inj_Leaf [THEN injD]
20819 cb6ae81dd0be merged with theory Datatype_Universe; wenzelm parents: 20798 diff changeset	163
cb6ae81dd0be merged with theory Datatype_Universe; wenzelm parents: 20798 diff changeset	164	lemma inj_Numb: "inj(Numb)"
cb6ae81dd0be merged with theory Datatype_Universe; wenzelm parents: 20798 diff changeset	165	apply (simp add: Numb_def o_def)
cb6ae81dd0be merged with theory Datatype_Universe; wenzelm parents: 20798 diff changeset	166	apply (rule inj_onI)
cb6ae81dd0be merged with theory Datatype_Universe; wenzelm parents: 20798 diff changeset	167	apply (erule Atom_inject [THEN Inr_inject])
cb6ae81dd0be merged with theory Datatype_Universe; wenzelm parents: 20798 diff changeset	168	done
cb6ae81dd0be merged with theory Datatype_Universe; wenzelm parents: 20798 diff changeset	169
45607 16b4f5774621 eliminated obsolete "standard"; wenzelm parents: 42163 diff changeset	170	lemmas Numb_inject [dest!] = inj_Numb [THEN injD]
20819 cb6ae81dd0be merged with theory Datatype_Universe; wenzelm parents: 20798 diff changeset	171
cb6ae81dd0be merged with theory Datatype_Universe; wenzelm parents: 20798 diff changeset	172
cb6ae81dd0be merged with theory Datatype_Universe; wenzelm parents: 20798 diff changeset	173	( Injectiveness of Push_Node )
cb6ae81dd0be merged with theory Datatype_Universe; wenzelm parents: 20798 diff changeset	174
cb6ae81dd0be merged with theory Datatype_Universe; wenzelm parents: 20798 diff changeset	175	lemma Push_Node_inject:
cb6ae81dd0be merged with theory Datatype_Universe; wenzelm parents: 20798 diff changeset	176	"[\| Push_Node i m =Push_Node j n; [\| i=j; m=n \|] ==> P
cb6ae81dd0be merged with theory Datatype_Universe; wenzelm parents: 20798 diff changeset	177	\|] ==> P"
cb6ae81dd0be merged with theory Datatype_Universe; wenzelm parents: 20798 diff changeset	178	apply (simp add: Push_Node_def)
cb6ae81dd0be merged with theory Datatype_Universe; wenzelm parents: 20798 diff changeset	179	apply (erule Abs_Node_inj [THEN apfst_convE])
cb6ae81dd0be merged with theory Datatype_Universe; wenzelm parents: 20798 diff changeset	180	apply (rule Rep_Node [THEN Node_Push_I])+
cb6ae81dd0be merged with theory Datatype_Universe; wenzelm parents: 20798 diff changeset	181	apply (erule sym [THEN apfst_convE])
cb6ae81dd0be merged with theory Datatype_Universe; wenzelm parents: 20798 diff changeset	182	apply (blast intro: Rep_Node_inject [THEN iffD1] trans sym elim!: Push_inject)
cb6ae81dd0be merged with theory Datatype_Universe; wenzelm parents: 20798 diff changeset	183	done
cb6ae81dd0be merged with theory Datatype_Universe; wenzelm parents: 20798 diff changeset	184
cb6ae81dd0be merged with theory Datatype_Universe; wenzelm parents: 20798 diff changeset	185
cb6ae81dd0be merged with theory Datatype_Universe; wenzelm parents: 20798 diff changeset	186	( Injectiveness of Scons )
cb6ae81dd0be merged with theory Datatype_Universe; wenzelm parents: 20798 diff changeset	187
cb6ae81dd0be merged with theory Datatype_Universe; wenzelm parents: 20798 diff changeset	188	lemma Scons_inject_lemma1: "Scons M N <= Scons M' N' ==> M<=M'"
35216 7641e8d831d2 get rid of many duplicate simp rule warnings huffman parents: 33968 diff changeset	189	unfolding Scons_def One_nat_def
7641e8d831d2 get rid of many duplicate simp rule warnings huffman parents: 33968 diff changeset	190	by (blast dest!: Push_Node_inject)
20819 cb6ae81dd0be merged with theory Datatype_Universe; wenzelm parents: 20798 diff changeset	191
cb6ae81dd0be merged with theory Datatype_Universe; wenzelm parents: 20798 diff changeset	192	lemma Scons_inject_lemma2: "Scons M N <= Scons M' N' ==> N<=N'"
35216 7641e8d831d2 get rid of many duplicate simp rule warnings huffman parents: 33968 diff changeset	193	unfolding Scons_def One_nat_def
7641e8d831d2 get rid of many duplicate simp rule warnings huffman parents: 33968 diff changeset	194	by (blast dest!: Push_Node_inject)
20819 cb6ae81dd0be merged with theory Datatype_Universe; wenzelm parents: 20798 diff changeset	195
cb6ae81dd0be merged with theory Datatype_Universe; wenzelm parents: 20798 diff changeset	196	lemma Scons_inject1: "Scons M N = Scons M' N' ==> M=M'"
cb6ae81dd0be merged with theory Datatype_Universe; wenzelm parents: 20798 diff changeset	197	apply (erule equalityE)
cb6ae81dd0be merged with theory Datatype_Universe; wenzelm parents: 20798 diff changeset	198	apply (iprover intro: equalityI Scons_inject_lemma1)
cb6ae81dd0be merged with theory Datatype_Universe; wenzelm parents: 20798 diff changeset	199	done
cb6ae81dd0be merged with theory Datatype_Universe; wenzelm parents: 20798 diff changeset	200
cb6ae81dd0be merged with theory Datatype_Universe; wenzelm parents: 20798 diff changeset	201	lemma Scons_inject2: "Scons M N = Scons M' N' ==> N=N'"
cb6ae81dd0be merged with theory Datatype_Universe; wenzelm parents: 20798 diff changeset	202	apply (erule equalityE)
cb6ae81dd0be merged with theory Datatype_Universe; wenzelm parents: 20798 diff changeset	203	apply (iprover intro: equalityI Scons_inject_lemma2)
cb6ae81dd0be merged with theory Datatype_Universe; wenzelm parents: 20798 diff changeset	204	done
cb6ae81dd0be merged with theory Datatype_Universe; wenzelm parents: 20798 diff changeset	205
cb6ae81dd0be merged with theory Datatype_Universe; wenzelm parents: 20798 diff changeset	206	lemma Scons_inject:
cb6ae81dd0be merged with theory Datatype_Universe; wenzelm parents: 20798 diff changeset	207	"[\| Scons M N = Scons M' N'; [\| M=M'; N=N' \|] ==> P \|] ==> P"
cb6ae81dd0be merged with theory Datatype_Universe; wenzelm parents: 20798 diff changeset	208	by (iprover dest: Scons_inject1 Scons_inject2)
cb6ae81dd0be merged with theory Datatype_Universe; wenzelm parents: 20798 diff changeset	209
cb6ae81dd0be merged with theory Datatype_Universe; wenzelm parents: 20798 diff changeset	210	lemma Scons_Scons_eq [iff]: "(Scons M N = Scons M' N') = (M=M' & N=N')"
cb6ae81dd0be merged with theory Datatype_Universe; wenzelm parents: 20798 diff changeset	211	by (blast elim!: Scons_inject)
cb6ae81dd0be merged with theory Datatype_Universe; wenzelm parents: 20798 diff changeset	212
cb6ae81dd0be merged with theory Datatype_Universe; wenzelm parents: 20798 diff changeset	213	(* Distinctness involving Leaf and Numb *)
cb6ae81dd0be merged with theory Datatype_Universe; wenzelm parents: 20798 diff changeset	214
cb6ae81dd0be merged with theory Datatype_Universe; wenzelm parents: 20798 diff changeset	215	( Scons vs Leaf )
cb6ae81dd0be merged with theory Datatype_Universe; wenzelm parents: 20798 diff changeset	216
cb6ae81dd0be merged with theory Datatype_Universe; wenzelm parents: 20798 diff changeset	217	lemma Scons_not_Leaf [iff]: "Scons M N \<noteq> Leaf(a)"
35216 7641e8d831d2 get rid of many duplicate simp rule warnings huffman parents: 33968 diff changeset	218	unfolding Leaf_def o_def by (rule Scons_not_Atom)
20819 cb6ae81dd0be merged with theory Datatype_Universe; wenzelm parents: 20798 diff changeset	219
45607 16b4f5774621 eliminated obsolete "standard"; wenzelm parents: 42163 diff changeset	220	lemmas Leaf_not_Scons [iff] = Scons_not_Leaf [THEN not_sym]
20819 cb6ae81dd0be merged with theory Datatype_Universe; wenzelm parents: 20798 diff changeset	221
cb6ae81dd0be merged with theory Datatype_Universe; wenzelm parents: 20798 diff changeset	222	( Scons vs Numb )
cb6ae81dd0be merged with theory Datatype_Universe; wenzelm parents: 20798 diff changeset	223
cb6ae81dd0be merged with theory Datatype_Universe; wenzelm parents: 20798 diff changeset	224	lemma Scons_not_Numb [iff]: "Scons M N \<noteq> Numb(k)"
35216 7641e8d831d2 get rid of many duplicate simp rule warnings huffman parents: 33968 diff changeset	225	unfolding Numb_def o_def by (rule Scons_not_Atom)
20819 cb6ae81dd0be merged with theory Datatype_Universe; wenzelm parents: 20798 diff changeset	226
45607 16b4f5774621 eliminated obsolete "standard"; wenzelm parents: 42163 diff changeset	227	lemmas Numb_not_Scons [iff] = Scons_not_Numb [THEN not_sym]
20819 cb6ae81dd0be merged with theory Datatype_Universe; wenzelm parents: 20798 diff changeset	228
cb6ae81dd0be merged with theory Datatype_Universe; wenzelm parents: 20798 diff changeset	229
cb6ae81dd0be merged with theory Datatype_Universe; wenzelm parents: 20798 diff changeset	230	( Leaf vs Numb )
cb6ae81dd0be merged with theory Datatype_Universe; wenzelm parents: 20798 diff changeset	231
cb6ae81dd0be merged with theory Datatype_Universe; wenzelm parents: 20798 diff changeset	232	lemma Leaf_not_Numb [iff]: "Leaf(a) \<noteq> Numb(k)"
cb6ae81dd0be merged with theory Datatype_Universe; wenzelm parents: 20798 diff changeset	233	by (simp add: Leaf_def Numb_def)
cb6ae81dd0be merged with theory Datatype_Universe; wenzelm parents: 20798 diff changeset	234
45607 16b4f5774621 eliminated obsolete "standard"; wenzelm parents: 42163 diff changeset	235	lemmas Numb_not_Leaf [iff] = Leaf_not_Numb [THEN not_sym]
20819 cb6ae81dd0be merged with theory Datatype_Universe; wenzelm parents: 20798 diff changeset	236
cb6ae81dd0be merged with theory Datatype_Universe; wenzelm parents: 20798 diff changeset	237
cb6ae81dd0be merged with theory Datatype_Universe; wenzelm parents: 20798 diff changeset	238	(* ndepth -- the depth of a node *)
cb6ae81dd0be merged with theory Datatype_Universe; wenzelm parents: 20798 diff changeset	239
cb6ae81dd0be merged with theory Datatype_Universe; wenzelm parents: 20798 diff changeset	240	lemma ndepth_K0: "ndepth (Abs_Node(%k. Inr 0, x)) = 0"
cb6ae81dd0be merged with theory Datatype_Universe; wenzelm parents: 20798 diff changeset	241	by (simp add: ndepth_def Node_K0_I [THEN Abs_Node_inverse] Least_equality)
cb6ae81dd0be merged with theory Datatype_Universe; wenzelm parents: 20798 diff changeset	242
cb6ae81dd0be merged with theory Datatype_Universe; wenzelm parents: 20798 diff changeset	243	lemma ndepth_Push_Node_aux:
55415 05f5fdb8d093 renamed 'nat_{case,rec}' to '{case,rec}_nat' blanchet parents: 54398 diff changeset	244	"case_nat (Inr (Suc i)) f k = Inr 0 --> Suc(LEAST x. f x = Inr 0) <= k"
20819 cb6ae81dd0be merged with theory Datatype_Universe; wenzelm parents: 20798 diff changeset	245	apply (induct_tac "k", auto)
cb6ae81dd0be merged with theory Datatype_Universe; wenzelm parents: 20798 diff changeset	246	apply (erule Least_le)
cb6ae81dd0be merged with theory Datatype_Universe; wenzelm parents: 20798 diff changeset	247	done
cb6ae81dd0be merged with theory Datatype_Universe; wenzelm parents: 20798 diff changeset	248
cb6ae81dd0be merged with theory Datatype_Universe; wenzelm parents: 20798 diff changeset	249	lemma ndepth_Push_Node:
cb6ae81dd0be merged with theory Datatype_Universe; wenzelm parents: 20798 diff changeset	250	"ndepth (Push_Node (Inr (Suc i)) n) = Suc(ndepth(n))"
cb6ae81dd0be merged with theory Datatype_Universe; wenzelm parents: 20798 diff changeset	251	apply (insert Rep_Node [of n, unfolded Node_def])
cb6ae81dd0be merged with theory Datatype_Universe; wenzelm parents: 20798 diff changeset	252	apply (auto simp add: ndepth_def Push_Node_def
cb6ae81dd0be merged with theory Datatype_Universe; wenzelm parents: 20798 diff changeset	253	Rep_Node [THEN Node_Push_I, THEN Abs_Node_inverse])
cb6ae81dd0be merged with theory Datatype_Universe; wenzelm parents: 20798 diff changeset	254	apply (rule Least_equality)
cb6ae81dd0be merged with theory Datatype_Universe; wenzelm parents: 20798 diff changeset	255	apply (auto simp add: Push_def ndepth_Push_Node_aux)
cb6ae81dd0be merged with theory Datatype_Universe; wenzelm parents: 20798 diff changeset	256	apply (erule LeastI)
cb6ae81dd0be merged with theory Datatype_Universe; wenzelm parents: 20798 diff changeset	257	done
cb6ae81dd0be merged with theory Datatype_Universe; wenzelm parents: 20798 diff changeset	258
cb6ae81dd0be merged with theory Datatype_Universe; wenzelm parents: 20798 diff changeset	259
cb6ae81dd0be merged with theory Datatype_Universe; wenzelm parents: 20798 diff changeset	260	(* ntrunc applied to the various node sets *)
cb6ae81dd0be merged with theory Datatype_Universe; wenzelm parents: 20798 diff changeset	261
cb6ae81dd0be merged with theory Datatype_Universe; wenzelm parents: 20798 diff changeset	262	lemma ntrunc_0 [simp]: "ntrunc 0 M = {}"
cb6ae81dd0be merged with theory Datatype_Universe; wenzelm parents: 20798 diff changeset	263	by (simp add: ntrunc_def)
cb6ae81dd0be merged with theory Datatype_Universe; wenzelm parents: 20798 diff changeset	264
cb6ae81dd0be merged with theory Datatype_Universe; wenzelm parents: 20798 diff changeset	265	lemma ntrunc_Atom [simp]: "ntrunc (Suc k) (Atom a) = Atom(a)"
cb6ae81dd0be merged with theory Datatype_Universe; wenzelm parents: 20798 diff changeset	266	by (auto simp add: Atom_def ntrunc_def ndepth_K0)
cb6ae81dd0be merged with theory Datatype_Universe; wenzelm parents: 20798 diff changeset	267
cb6ae81dd0be merged with theory Datatype_Universe; wenzelm parents: 20798 diff changeset	268	lemma ntrunc_Leaf [simp]: "ntrunc (Suc k) (Leaf a) = Leaf(a)"
35216 7641e8d831d2 get rid of many duplicate simp rule warnings huffman parents: 33968 diff changeset	269	unfolding Leaf_def o_def by (rule ntrunc_Atom)
20819 cb6ae81dd0be merged with theory Datatype_Universe; wenzelm parents: 20798 diff changeset	270
cb6ae81dd0be merged with theory Datatype_Universe; wenzelm parents: 20798 diff changeset	271	lemma ntrunc_Numb [simp]: "ntrunc (Suc k) (Numb i) = Numb(i)"
35216 7641e8d831d2 get rid of many duplicate simp rule warnings huffman parents: 33968 diff changeset	272	unfolding Numb_def o_def by (rule ntrunc_Atom)
20819 cb6ae81dd0be merged with theory Datatype_Universe; wenzelm parents: 20798 diff changeset	273
cb6ae81dd0be merged with theory Datatype_Universe; wenzelm parents: 20798 diff changeset	274	lemma ntrunc_Scons [simp]:
cb6ae81dd0be merged with theory Datatype_Universe; wenzelm parents: 20798 diff changeset	275	"ntrunc (Suc k) (Scons M N) = Scons (ntrunc k M) (ntrunc k N)"
35216 7641e8d831d2 get rid of many duplicate simp rule warnings huffman parents: 33968 diff changeset	276	unfolding Scons_def ntrunc_def One_nat_def
7641e8d831d2 get rid of many duplicate simp rule warnings huffman parents: 33968 diff changeset	277	by (auto simp add: ndepth_Push_Node)
20819 cb6ae81dd0be merged with theory Datatype_Universe; wenzelm parents: 20798 diff changeset	278
cb6ae81dd0be merged with theory Datatype_Universe; wenzelm parents: 20798 diff changeset	279
cb6ae81dd0be merged with theory Datatype_Universe; wenzelm parents: 20798 diff changeset	280
cb6ae81dd0be merged with theory Datatype_Universe; wenzelm parents: 20798 diff changeset	281	( Injection nodes )
cb6ae81dd0be merged with theory Datatype_Universe; wenzelm parents: 20798 diff changeset	282
cb6ae81dd0be merged with theory Datatype_Universe; wenzelm parents: 20798 diff changeset	283	lemma ntrunc_one_In0 [simp]: "ntrunc (Suc 0) (In0 M) = {}"
cb6ae81dd0be merged with theory Datatype_Universe; wenzelm parents: 20798 diff changeset	284	apply (simp add: In0_def)
cb6ae81dd0be merged with theory Datatype_Universe; wenzelm parents: 20798 diff changeset	285	apply (simp add: Scons_def)
cb6ae81dd0be merged with theory Datatype_Universe; wenzelm parents: 20798 diff changeset	286	done
cb6ae81dd0be merged with theory Datatype_Universe; wenzelm parents: 20798 diff changeset	287
cb6ae81dd0be merged with theory Datatype_Universe; wenzelm parents: 20798 diff changeset	288	lemma ntrunc_In0 [simp]: "ntrunc (Suc(Suc k)) (In0 M) = In0 (ntrunc (Suc k) M)"
cb6ae81dd0be merged with theory Datatype_Universe; wenzelm parents: 20798 diff changeset	289	by (simp add: In0_def)
cb6ae81dd0be merged with theory Datatype_Universe; wenzelm parents: 20798 diff changeset	290
cb6ae81dd0be merged with theory Datatype_Universe; wenzelm parents: 20798 diff changeset	291	lemma ntrunc_one_In1 [simp]: "ntrunc (Suc 0) (In1 M) = {}"
cb6ae81dd0be merged with theory Datatype_Universe; wenzelm parents: 20798 diff changeset	292	apply (simp add: In1_def)
cb6ae81dd0be merged with theory Datatype_Universe; wenzelm parents: 20798 diff changeset	293	apply (simp add: Scons_def)
cb6ae81dd0be merged with theory Datatype_Universe; wenzelm parents: 20798 diff changeset	294	done
cb6ae81dd0be merged with theory Datatype_Universe; wenzelm parents: 20798 diff changeset	295
cb6ae81dd0be merged with theory Datatype_Universe; wenzelm parents: 20798 diff changeset	296	lemma ntrunc_In1 [simp]: "ntrunc (Suc(Suc k)) (In1 M) = In1 (ntrunc (Suc k) M)"
cb6ae81dd0be merged with theory Datatype_Universe; wenzelm parents: 20798 diff changeset	297	by (simp add: In1_def)
cb6ae81dd0be merged with theory Datatype_Universe; wenzelm parents: 20798 diff changeset	298
cb6ae81dd0be merged with theory Datatype_Universe; wenzelm parents: 20798 diff changeset	299
60500 903bb1495239 isabelle update_cartouches; wenzelm parents: 58881 diff changeset	300	subsection\<open>Set Constructions\<close>
20819 cb6ae81dd0be merged with theory Datatype_Universe; wenzelm parents: 20798 diff changeset	301
cb6ae81dd0be merged with theory Datatype_Universe; wenzelm parents: 20798 diff changeset	302
cb6ae81dd0be merged with theory Datatype_Universe; wenzelm parents: 20798 diff changeset	303	(* Cartesian Product *)
cb6ae81dd0be merged with theory Datatype_Universe; wenzelm parents: 20798 diff changeset	304
cb6ae81dd0be merged with theory Datatype_Universe; wenzelm parents: 20798 diff changeset	305	lemma uprodI [intro!]: "[\| M:A; N:B \|] ==> Scons M N : uprod A B"
cb6ae81dd0be merged with theory Datatype_Universe; wenzelm parents: 20798 diff changeset	306	by (simp add: uprod_def)
cb6ae81dd0be merged with theory Datatype_Universe; wenzelm parents: 20798 diff changeset	307
cb6ae81dd0be merged with theory Datatype_Universe; wenzelm parents: 20798 diff changeset	308	(The general elimination rule)
cb6ae81dd0be merged with theory Datatype_Universe; wenzelm parents: 20798 diff changeset	309	lemma uprodE [elim!]:
cb6ae81dd0be merged with theory Datatype_Universe; wenzelm parents: 20798 diff changeset	310	"[\| c : uprod A B;
cb6ae81dd0be merged with theory Datatype_Universe; wenzelm parents: 20798 diff changeset	311	!!x y. [\| x:A; y:B; c = Scons x y \|] ==> P
cb6ae81dd0be merged with theory Datatype_Universe; wenzelm parents: 20798 diff changeset	312	\|] ==> P"
cb6ae81dd0be merged with theory Datatype_Universe; wenzelm parents: 20798 diff changeset	313	by (auto simp add: uprod_def)
cb6ae81dd0be merged with theory Datatype_Universe; wenzelm parents: 20798 diff changeset	314
cb6ae81dd0be merged with theory Datatype_Universe; wenzelm parents: 20798 diff changeset	315
cb6ae81dd0be merged with theory Datatype_Universe; wenzelm parents: 20798 diff changeset	316	(Elimination of a pair -- introduces no eigenvariables)
cb6ae81dd0be merged with theory Datatype_Universe; wenzelm parents: 20798 diff changeset	317	lemma uprodE2: "[\| Scons M N : uprod A B; [\| M:A; N:B \|] ==> P \|] ==> P"
cb6ae81dd0be merged with theory Datatype_Universe; wenzelm parents: 20798 diff changeset	318	by (auto simp add: uprod_def)
cb6ae81dd0be merged with theory Datatype_Universe; wenzelm parents: 20798 diff changeset	319
cb6ae81dd0be merged with theory Datatype_Universe; wenzelm parents: 20798 diff changeset	320
cb6ae81dd0be merged with theory Datatype_Universe; wenzelm parents: 20798 diff changeset	321	(* Disjoint Sum *)
cb6ae81dd0be merged with theory Datatype_Universe; wenzelm parents: 20798 diff changeset	322
cb6ae81dd0be merged with theory Datatype_Universe; wenzelm parents: 20798 diff changeset	323	lemma usum_In0I [intro]: "M:A ==> In0(M) : usum A B"
cb6ae81dd0be merged with theory Datatype_Universe; wenzelm parents: 20798 diff changeset	324	by (simp add: usum_def)
cb6ae81dd0be merged with theory Datatype_Universe; wenzelm parents: 20798 diff changeset	325
cb6ae81dd0be merged with theory Datatype_Universe; wenzelm parents: 20798 diff changeset	326	lemma usum_In1I [intro]: "N:B ==> In1(N) : usum A B"
cb6ae81dd0be merged with theory Datatype_Universe; wenzelm parents: 20798 diff changeset	327	by (simp add: usum_def)
cb6ae81dd0be merged with theory Datatype_Universe; wenzelm parents: 20798 diff changeset	328
cb6ae81dd0be merged with theory Datatype_Universe; wenzelm parents: 20798 diff changeset	329	lemma usumE [elim!]:
cb6ae81dd0be merged with theory Datatype_Universe; wenzelm parents: 20798 diff changeset	330	"[\| u : usum A B;
cb6ae81dd0be merged with theory Datatype_Universe; wenzelm parents: 20798 diff changeset	331	!!x. [\| x:A; u=In0(x) \|] ==> P;
cb6ae81dd0be merged with theory Datatype_Universe; wenzelm parents: 20798 diff changeset	332	!!y. [\| y:B; u=In1(y) \|] ==> P
cb6ae81dd0be merged with theory Datatype_Universe; wenzelm parents: 20798 diff changeset	333	\|] ==> P"
cb6ae81dd0be merged with theory Datatype_Universe; wenzelm parents: 20798 diff changeset	334	by (auto simp add: usum_def)
cb6ae81dd0be merged with theory Datatype_Universe; wenzelm parents: 20798 diff changeset	335
cb6ae81dd0be merged with theory Datatype_Universe; wenzelm parents: 20798 diff changeset	336
cb6ae81dd0be merged with theory Datatype_Universe; wenzelm parents: 20798 diff changeset	337	( Injection )
cb6ae81dd0be merged with theory Datatype_Universe; wenzelm parents: 20798 diff changeset	338
cb6ae81dd0be merged with theory Datatype_Universe; wenzelm parents: 20798 diff changeset	339	lemma In0_not_In1 [iff]: "In0(M) \<noteq> In1(N)"
35216 7641e8d831d2 get rid of many duplicate simp rule warnings huffman parents: 33968 diff changeset	340	unfolding In0_def In1_def One_nat_def by auto
20819 cb6ae81dd0be merged with theory Datatype_Universe; wenzelm parents: 20798 diff changeset	341
45607 16b4f5774621 eliminated obsolete "standard"; wenzelm parents: 42163 diff changeset	342	lemmas In1_not_In0 [iff] = In0_not_In1 [THEN not_sym]
20819 cb6ae81dd0be merged with theory Datatype_Universe; wenzelm parents: 20798 diff changeset	343
cb6ae81dd0be merged with theory Datatype_Universe; wenzelm parents: 20798 diff changeset	344	lemma In0_inject: "In0(M) = In0(N) ==> M=N"
cb6ae81dd0be merged with theory Datatype_Universe; wenzelm parents: 20798 diff changeset	345	by (simp add: In0_def)
cb6ae81dd0be merged with theory Datatype_Universe; wenzelm parents: 20798 diff changeset	346
cb6ae81dd0be merged with theory Datatype_Universe; wenzelm parents: 20798 diff changeset	347	lemma In1_inject: "In1(M) = In1(N) ==> M=N"
cb6ae81dd0be merged with theory Datatype_Universe; wenzelm parents: 20798 diff changeset	348	by (simp add: In1_def)
cb6ae81dd0be merged with theory Datatype_Universe; wenzelm parents: 20798 diff changeset	349
cb6ae81dd0be merged with theory Datatype_Universe; wenzelm parents: 20798 diff changeset	350	lemma In0_eq [iff]: "(In0 M = In0 N) = (M=N)"
cb6ae81dd0be merged with theory Datatype_Universe; wenzelm parents: 20798 diff changeset	351	by (blast dest!: In0_inject)
cb6ae81dd0be merged with theory Datatype_Universe; wenzelm parents: 20798 diff changeset	352
cb6ae81dd0be merged with theory Datatype_Universe; wenzelm parents: 20798 diff changeset	353	lemma In1_eq [iff]: "(In1 M = In1 N) = (M=N)"
cb6ae81dd0be merged with theory Datatype_Universe; wenzelm parents: 20798 diff changeset	354	by (blast dest!: In1_inject)
cb6ae81dd0be merged with theory Datatype_Universe; wenzelm parents: 20798 diff changeset	355
cb6ae81dd0be merged with theory Datatype_Universe; wenzelm parents: 20798 diff changeset	356	lemma inj_In0: "inj In0"
cb6ae81dd0be merged with theory Datatype_Universe; wenzelm parents: 20798 diff changeset	357	by (blast intro!: inj_onI)
cb6ae81dd0be merged with theory Datatype_Universe; wenzelm parents: 20798 diff changeset	358
cb6ae81dd0be merged with theory Datatype_Universe; wenzelm parents: 20798 diff changeset	359	lemma inj_In1: "inj In1"
cb6ae81dd0be merged with theory Datatype_Universe; wenzelm parents: 20798 diff changeset	360	by (blast intro!: inj_onI)
cb6ae81dd0be merged with theory Datatype_Universe; wenzelm parents: 20798 diff changeset	361
cb6ae81dd0be merged with theory Datatype_Universe; wenzelm parents: 20798 diff changeset	362
cb6ae81dd0be merged with theory Datatype_Universe; wenzelm parents: 20798 diff changeset	363	(* Function spaces *)
cb6ae81dd0be merged with theory Datatype_Universe; wenzelm parents: 20798 diff changeset	364
cb6ae81dd0be merged with theory Datatype_Universe; wenzelm parents: 20798 diff changeset	365	lemma Lim_inject: "Lim f = Lim g ==> f = g"
cb6ae81dd0be merged with theory Datatype_Universe; wenzelm parents: 20798 diff changeset	366	apply (simp add: Lim_def)
cb6ae81dd0be merged with theory Datatype_Universe; wenzelm parents: 20798 diff changeset	367	apply (rule ext)
cb6ae81dd0be merged with theory Datatype_Universe; wenzelm parents: 20798 diff changeset	368	apply (blast elim!: Push_Node_inject)
cb6ae81dd0be merged with theory Datatype_Universe; wenzelm parents: 20798 diff changeset	369	done
cb6ae81dd0be merged with theory Datatype_Universe; wenzelm parents: 20798 diff changeset	370
cb6ae81dd0be merged with theory Datatype_Universe; wenzelm parents: 20798 diff changeset	371
cb6ae81dd0be merged with theory Datatype_Universe; wenzelm parents: 20798 diff changeset	372	(* proving equality of sets and functions using ntrunc *)
cb6ae81dd0be merged with theory Datatype_Universe; wenzelm parents: 20798 diff changeset	373
cb6ae81dd0be merged with theory Datatype_Universe; wenzelm parents: 20798 diff changeset	374	lemma ntrunc_subsetI: "ntrunc k M <= M"
cb6ae81dd0be merged with theory Datatype_Universe; wenzelm parents: 20798 diff changeset	375	by (auto simp add: ntrunc_def)
cb6ae81dd0be merged with theory Datatype_Universe; wenzelm parents: 20798 diff changeset	376
cb6ae81dd0be merged with theory Datatype_Universe; wenzelm parents: 20798 diff changeset	377	lemma ntrunc_subsetD: "(!!k. ntrunc k M <= N) ==> M<=N"
cb6ae81dd0be merged with theory Datatype_Universe; wenzelm parents: 20798 diff changeset	378	by (auto simp add: ntrunc_def)
cb6ae81dd0be merged with theory Datatype_Universe; wenzelm parents: 20798 diff changeset	379
cb6ae81dd0be merged with theory Datatype_Universe; wenzelm parents: 20798 diff changeset	380	(A generalized form of the take-lemma)
cb6ae81dd0be merged with theory Datatype_Universe; wenzelm parents: 20798 diff changeset	381	lemma ntrunc_equality: "(!!k. ntrunc k M = ntrunc k N) ==> M=N"
cb6ae81dd0be merged with theory Datatype_Universe; wenzelm parents: 20798 diff changeset	382	apply (rule equalityI)
cb6ae81dd0be merged with theory Datatype_Universe; wenzelm parents: 20798 diff changeset	383	apply (rule_tac [!] ntrunc_subsetD)
cb6ae81dd0be merged with theory Datatype_Universe; wenzelm parents: 20798 diff changeset	384	apply (rule_tac [!] ntrunc_subsetI [THEN [2] subset_trans], auto)
cb6ae81dd0be merged with theory Datatype_Universe; wenzelm parents: 20798 diff changeset	385	done
cb6ae81dd0be merged with theory Datatype_Universe; wenzelm parents: 20798 diff changeset	386
cb6ae81dd0be merged with theory Datatype_Universe; wenzelm parents: 20798 diff changeset	387	lemma ntrunc_o_equality:
cb6ae81dd0be merged with theory Datatype_Universe; wenzelm parents: 20798 diff changeset	388	"[\| !!k. (ntrunc(k) o h1) = (ntrunc(k) o h2) \|] ==> h1=h2"
cb6ae81dd0be merged with theory Datatype_Universe; wenzelm parents: 20798 diff changeset	389	apply (rule ntrunc_equality [THEN ext])
39302 d7728f65b353 renamed lemmas: ext_iff -> fun_eq_iff, set_ext_iff -> set_eq_iff, set_ext -> set_eqI nipkow parents: 39198 diff changeset	390	apply (simp add: fun_eq_iff)
20819 cb6ae81dd0be merged with theory Datatype_Universe; wenzelm parents: 20798 diff changeset	391	done
cb6ae81dd0be merged with theory Datatype_Universe; wenzelm parents: 20798 diff changeset	392
cb6ae81dd0be merged with theory Datatype_Universe; wenzelm parents: 20798 diff changeset	393
cb6ae81dd0be merged with theory Datatype_Universe; wenzelm parents: 20798 diff changeset	394	(* Monotonicity *)
cb6ae81dd0be merged with theory Datatype_Universe; wenzelm parents: 20798 diff changeset	395
cb6ae81dd0be merged with theory Datatype_Universe; wenzelm parents: 20798 diff changeset	396	lemma uprod_mono: "[\| A<=A'; B<=B' \|] ==> uprod A B <= uprod A' B'"
cb6ae81dd0be merged with theory Datatype_Universe; wenzelm parents: 20798 diff changeset	397	by (simp add: uprod_def, blast)
cb6ae81dd0be merged with theory Datatype_Universe; wenzelm parents: 20798 diff changeset	398
cb6ae81dd0be merged with theory Datatype_Universe; wenzelm parents: 20798 diff changeset	399	lemma usum_mono: "[\| A<=A'; B<=B' \|] ==> usum A B <= usum A' B'"
cb6ae81dd0be merged with theory Datatype_Universe; wenzelm parents: 20798 diff changeset	400	by (simp add: usum_def, blast)
cb6ae81dd0be merged with theory Datatype_Universe; wenzelm parents: 20798 diff changeset	401
cb6ae81dd0be merged with theory Datatype_Universe; wenzelm parents: 20798 diff changeset	402	lemma Scons_mono: "[\| M<=M'; N<=N' \|] ==> Scons M N <= Scons M' N'"
cb6ae81dd0be merged with theory Datatype_Universe; wenzelm parents: 20798 diff changeset	403	by (simp add: Scons_def, blast)
cb6ae81dd0be merged with theory Datatype_Universe; wenzelm parents: 20798 diff changeset	404
cb6ae81dd0be merged with theory Datatype_Universe; wenzelm parents: 20798 diff changeset	405	lemma In0_mono: "M<=N ==> In0(M) <= In0(N)"
35216 7641e8d831d2 get rid of many duplicate simp rule warnings huffman parents: 33968 diff changeset	406	by (simp add: In0_def Scons_mono)
20819 cb6ae81dd0be merged with theory Datatype_Universe; wenzelm parents: 20798 diff changeset	407
cb6ae81dd0be merged with theory Datatype_Universe; wenzelm parents: 20798 diff changeset	408	lemma In1_mono: "M<=N ==> In1(M) <= In1(N)"
35216 7641e8d831d2 get rid of many duplicate simp rule warnings huffman parents: 33968 diff changeset	409	by (simp add: In1_def Scons_mono)
20819 cb6ae81dd0be merged with theory Datatype_Universe; wenzelm parents: 20798 diff changeset	410
cb6ae81dd0be merged with theory Datatype_Universe; wenzelm parents: 20798 diff changeset	411
cb6ae81dd0be merged with theory Datatype_Universe; wenzelm parents: 20798 diff changeset	412	(* Split and Case *)
cb6ae81dd0be merged with theory Datatype_Universe; wenzelm parents: 20798 diff changeset	413
cb6ae81dd0be merged with theory Datatype_Universe; wenzelm parents: 20798 diff changeset	414	lemma Split [simp]: "Split c (Scons M N) = c M N"
cb6ae81dd0be merged with theory Datatype_Universe; wenzelm parents: 20798 diff changeset	415	by (simp add: Split_def)
cb6ae81dd0be merged with theory Datatype_Universe; wenzelm parents: 20798 diff changeset	416
cb6ae81dd0be merged with theory Datatype_Universe; wenzelm parents: 20798 diff changeset	417	lemma Case_In0 [simp]: "Case c d (In0 M) = c(M)"
cb6ae81dd0be merged with theory Datatype_Universe; wenzelm parents: 20798 diff changeset	418	by (simp add: Case_def)
cb6ae81dd0be merged with theory Datatype_Universe; wenzelm parents: 20798 diff changeset	419
cb6ae81dd0be merged with theory Datatype_Universe; wenzelm parents: 20798 diff changeset	420	lemma Case_In1 [simp]: "Case c d (In1 N) = d(N)"
cb6ae81dd0be merged with theory Datatype_Universe; wenzelm parents: 20798 diff changeset	421	by (simp add: Case_def)
cb6ae81dd0be merged with theory Datatype_Universe; wenzelm parents: 20798 diff changeset	422
cb6ae81dd0be merged with theory Datatype_Universe; wenzelm parents: 20798 diff changeset	423
cb6ae81dd0be merged with theory Datatype_Universe; wenzelm parents: 20798 diff changeset	424
cb6ae81dd0be merged with theory Datatype_Universe; wenzelm parents: 20798 diff changeset	425	(** UN x. B(x) rules **)
cb6ae81dd0be merged with theory Datatype_Universe; wenzelm parents: 20798 diff changeset	426
cb6ae81dd0be merged with theory Datatype_Universe; wenzelm parents: 20798 diff changeset	427	lemma ntrunc_UN1: "ntrunc k (UN x. f(x)) = (UN x. ntrunc k (f x))"
cb6ae81dd0be merged with theory Datatype_Universe; wenzelm parents: 20798 diff changeset	428	by (simp add: ntrunc_def, blast)
cb6ae81dd0be merged with theory Datatype_Universe; wenzelm parents: 20798 diff changeset	429
cb6ae81dd0be merged with theory Datatype_Universe; wenzelm parents: 20798 diff changeset	430	lemma Scons_UN1_x: "Scons (UN x. f x) M = (UN x. Scons (f x) M)"
cb6ae81dd0be merged with theory Datatype_Universe; wenzelm parents: 20798 diff changeset	431	by (simp add: Scons_def, blast)
cb6ae81dd0be merged with theory Datatype_Universe; wenzelm parents: 20798 diff changeset	432
cb6ae81dd0be merged with theory Datatype_Universe; wenzelm parents: 20798 diff changeset	433	lemma Scons_UN1_y: "Scons M (UN x. f x) = (UN x. Scons M (f x))"
cb6ae81dd0be merged with theory Datatype_Universe; wenzelm parents: 20798 diff changeset	434	by (simp add: Scons_def, blast)
cb6ae81dd0be merged with theory Datatype_Universe; wenzelm parents: 20798 diff changeset	435
cb6ae81dd0be merged with theory Datatype_Universe; wenzelm parents: 20798 diff changeset	436	lemma In0_UN1: "In0(UN x. f(x)) = (UN x. In0(f(x)))"
cb6ae81dd0be merged with theory Datatype_Universe; wenzelm parents: 20798 diff changeset	437	by (simp add: In0_def Scons_UN1_y)
cb6ae81dd0be merged with theory Datatype_Universe; wenzelm parents: 20798 diff changeset	438
cb6ae81dd0be merged with theory Datatype_Universe; wenzelm parents: 20798 diff changeset	439	lemma In1_UN1: "In1(UN x. f(x)) = (UN x. In1(f(x)))"
cb6ae81dd0be merged with theory Datatype_Universe; wenzelm parents: 20798 diff changeset	440	by (simp add: In1_def Scons_UN1_y)
cb6ae81dd0be merged with theory Datatype_Universe; wenzelm parents: 20798 diff changeset	441
cb6ae81dd0be merged with theory Datatype_Universe; wenzelm parents: 20798 diff changeset	442
cb6ae81dd0be merged with theory Datatype_Universe; wenzelm parents: 20798 diff changeset	443	(* Equality for Cartesian Product *)
cb6ae81dd0be merged with theory Datatype_Universe; wenzelm parents: 20798 diff changeset	444
cb6ae81dd0be merged with theory Datatype_Universe; wenzelm parents: 20798 diff changeset	445	lemma dprodI [intro!]:
cb6ae81dd0be merged with theory Datatype_Universe; wenzelm parents: 20798 diff changeset	446	"[\| (M,M'):r; (N,N'):s \|] ==> (Scons M N, Scons M' N') : dprod r s"
cb6ae81dd0be merged with theory Datatype_Universe; wenzelm parents: 20798 diff changeset	447	by (auto simp add: dprod_def)
cb6ae81dd0be merged with theory Datatype_Universe; wenzelm parents: 20798 diff changeset	448
cb6ae81dd0be merged with theory Datatype_Universe; wenzelm parents: 20798 diff changeset	449	(The general elimination rule)
cb6ae81dd0be merged with theory Datatype_Universe; wenzelm parents: 20798 diff changeset	450	lemma dprodE [elim!]:
cb6ae81dd0be merged with theory Datatype_Universe; wenzelm parents: 20798 diff changeset	451	"[\| c : dprod r s;
cb6ae81dd0be merged with theory Datatype_Universe; wenzelm parents: 20798 diff changeset	452	!!x y x' y'. [\| (x,x') : r; (y,y') : s;
cb6ae81dd0be merged with theory Datatype_Universe; wenzelm parents: 20798 diff changeset	453	c = (Scons x y, Scons x' y') \|] ==> P
cb6ae81dd0be merged with theory Datatype_Universe; wenzelm parents: 20798 diff changeset	454	\|] ==> P"
cb6ae81dd0be merged with theory Datatype_Universe; wenzelm parents: 20798 diff changeset	455	by (auto simp add: dprod_def)
cb6ae81dd0be merged with theory Datatype_Universe; wenzelm parents: 20798 diff changeset	456
cb6ae81dd0be merged with theory Datatype_Universe; wenzelm parents: 20798 diff changeset	457
cb6ae81dd0be merged with theory Datatype_Universe; wenzelm parents: 20798 diff changeset	458	(* Equality for Disjoint Sum *)
cb6ae81dd0be merged with theory Datatype_Universe; wenzelm parents: 20798 diff changeset	459
cb6ae81dd0be merged with theory Datatype_Universe; wenzelm parents: 20798 diff changeset	460	lemma dsum_In0I [intro]: "(M,M'):r ==> (In0(M), In0(M')) : dsum r s"
cb6ae81dd0be merged with theory Datatype_Universe; wenzelm parents: 20798 diff changeset	461	by (auto simp add: dsum_def)
cb6ae81dd0be merged with theory Datatype_Universe; wenzelm parents: 20798 diff changeset	462
cb6ae81dd0be merged with theory Datatype_Universe; wenzelm parents: 20798 diff changeset	463	lemma dsum_In1I [intro]: "(N,N'):s ==> (In1(N), In1(N')) : dsum r s"
cb6ae81dd0be merged with theory Datatype_Universe; wenzelm parents: 20798 diff changeset	464	by (auto simp add: dsum_def)
cb6ae81dd0be merged with theory Datatype_Universe; wenzelm parents: 20798 diff changeset	465
cb6ae81dd0be merged with theory Datatype_Universe; wenzelm parents: 20798 diff changeset	466	lemma dsumE [elim!]:
cb6ae81dd0be merged with theory Datatype_Universe; wenzelm parents: 20798 diff changeset	467	"[\| w : dsum r s;
cb6ae81dd0be merged with theory Datatype_Universe; wenzelm parents: 20798 diff changeset	468	!!x x'. [\| (x,x') : r; w = (In0(x), In0(x')) \|] ==> P;
cb6ae81dd0be merged with theory Datatype_Universe; wenzelm parents: 20798 diff changeset	469	!!y y'. [\| (y,y') : s; w = (In1(y), In1(y')) \|] ==> P
cb6ae81dd0be merged with theory Datatype_Universe; wenzelm parents: 20798 diff changeset	470	\|] ==> P"
cb6ae81dd0be merged with theory Datatype_Universe; wenzelm parents: 20798 diff changeset	471	by (auto simp add: dsum_def)
cb6ae81dd0be merged with theory Datatype_Universe; wenzelm parents: 20798 diff changeset	472
cb6ae81dd0be merged with theory Datatype_Universe; wenzelm parents: 20798 diff changeset	473
cb6ae81dd0be merged with theory Datatype_Universe; wenzelm parents: 20798 diff changeset	474	(* Monotonicity *)
cb6ae81dd0be merged with theory Datatype_Universe; wenzelm parents: 20798 diff changeset	475
cb6ae81dd0be merged with theory Datatype_Universe; wenzelm parents: 20798 diff changeset	476	lemma dprod_mono: "[\| r<=r'; s<=s' \|] ==> dprod r s <= dprod r' s'"
cb6ae81dd0be merged with theory Datatype_Universe; wenzelm parents: 20798 diff changeset	477	by blast
cb6ae81dd0be merged with theory Datatype_Universe; wenzelm parents: 20798 diff changeset	478
cb6ae81dd0be merged with theory Datatype_Universe; wenzelm parents: 20798 diff changeset	479	lemma dsum_mono: "[\| r<=r'; s<=s' \|] ==> dsum r s <= dsum r' s'"
cb6ae81dd0be merged with theory Datatype_Universe; wenzelm parents: 20798 diff changeset	480	by blast
cb6ae81dd0be merged with theory Datatype_Universe; wenzelm parents: 20798 diff changeset	481
cb6ae81dd0be merged with theory Datatype_Universe; wenzelm parents: 20798 diff changeset	482
cb6ae81dd0be merged with theory Datatype_Universe; wenzelm parents: 20798 diff changeset	483	(* Bounding theorems *)
cb6ae81dd0be merged with theory Datatype_Universe; wenzelm parents: 20798 diff changeset	484
61943 7fba644ed827 discontinued ASCII replacement syntax <>; wenzelm* parents: 61585 diff changeset	485	lemma dprod_Sigma: "(dprod (A \<times> B) (C \<times> D)) <= (uprod A C) \<times> (uprod B D)"
20819 cb6ae81dd0be merged with theory Datatype_Universe; wenzelm parents: 20798 diff changeset	486	by blast
cb6ae81dd0be merged with theory Datatype_Universe; wenzelm parents: 20798 diff changeset	487
45607 16b4f5774621 eliminated obsolete "standard"; wenzelm parents: 42163 diff changeset	488	lemmas dprod_subset_Sigma = subset_trans [OF dprod_mono dprod_Sigma]
20819 cb6ae81dd0be merged with theory Datatype_Universe; wenzelm parents: 20798 diff changeset	489
cb6ae81dd0be merged with theory Datatype_Universe; wenzelm parents: 20798 diff changeset	490	(Dependent version)
cb6ae81dd0be merged with theory Datatype_Universe; wenzelm parents: 20798 diff changeset	491	lemma dprod_subset_Sigma2:
58112 8081087096ad renamed modules defining old datatypes, as a step towards having 'datatype_new' take 'datatype's place blanchet parents: 55642 diff changeset	492	"(dprod (Sigma A B) (Sigma C D)) <= Sigma (uprod A C) (Split (%x y. uprod (B x) (D y)))"
20819 cb6ae81dd0be merged with theory Datatype_Universe; wenzelm parents: 20798 diff changeset	493	by auto
cb6ae81dd0be merged with theory Datatype_Universe; wenzelm parents: 20798 diff changeset	494
61943 7fba644ed827 discontinued ASCII replacement syntax <>; wenzelm* parents: 61585 diff changeset	495	lemma dsum_Sigma: "(dsum (A \<times> B) (C \<times> D)) <= (usum A C) \<times> (usum B D)"
20819 cb6ae81dd0be merged with theory Datatype_Universe; wenzelm parents: 20798 diff changeset	496	by blast
cb6ae81dd0be merged with theory Datatype_Universe; wenzelm parents: 20798 diff changeset	497
45607 16b4f5774621 eliminated obsolete "standard"; wenzelm parents: 42163 diff changeset	498	lemmas dsum_subset_Sigma = subset_trans [OF dsum_mono dsum_Sigma]
20819 cb6ae81dd0be merged with theory Datatype_Universe; wenzelm parents: 20798 diff changeset	499
cb6ae81dd0be merged with theory Datatype_Universe; wenzelm parents: 20798 diff changeset	500
58157 c376c43c346c moved old datatype material around blanchet parents: 58112 diff changeset	501	(* Domain theorems *)
c376c43c346c moved old datatype material around blanchet parents: 58112 diff changeset	502
c376c43c346c moved old datatype material around blanchet parents: 58112 diff changeset	503	lemma Domain_dprod [simp]: "Domain (dprod r s) = uprod (Domain r) (Domain s)"
c376c43c346c moved old datatype material around blanchet parents: 58112 diff changeset	504	by auto
c376c43c346c moved old datatype material around blanchet parents: 58112 diff changeset	505
c376c43c346c moved old datatype material around blanchet parents: 58112 diff changeset	506	lemma Domain_dsum [simp]: "Domain (dsum r s) = usum (Domain r) (Domain s)"
c376c43c346c moved old datatype material around blanchet parents: 58112 diff changeset	507	by auto
c376c43c346c moved old datatype material around blanchet parents: 58112 diff changeset	508
c376c43c346c moved old datatype material around blanchet parents: 58112 diff changeset	509
60500 903bb1495239 isabelle update_cartouches; wenzelm parents: 58881 diff changeset	510	text \<open>hides popular names\<close>
36176 3fe7e97ccca8 replaced generic 'hide' command by more conventional 'hide_class', 'hide_type', 'hide_const', 'hide_fact' -- frees some popular keywords; wenzelm parents: 35216 diff changeset	511	hide_type (open) node item
3fe7e97ccca8 replaced generic 'hide' command by more conventional 'hide_class', 'hide_type', 'hide_const', 'hide_fact' -- frees some popular keywords; wenzelm parents: 35216 diff changeset	512	hide_const (open) Push Node Atom Leaf Numb Lim Split Case
20819 cb6ae81dd0be merged with theory Datatype_Universe; wenzelm parents: 20798 diff changeset	513
58372 bfd497f2f4c2 moved 'old_datatype' out of 'Main' (but put it in 'HOL-Proofs' because of the inductive realizer) blanchet parents: 58305 diff changeset	514	ML_file "~~/src/HOL/Tools/Old_Datatype/old_datatype.ML"
bfd497f2f4c2 moved 'old_datatype' out of 'Main' (but put it in 'HOL-Proofs' because of the inductive realizer) blanchet parents: 58305 diff changeset	515	ML_file "~~/src/HOL/Tools/inductive_realizer.ML"
13635 c41e88151b54 Added functions Suml and Sumr which are useful for constructing berghofe parents: 12918 diff changeset	516
5181 4ba3787d9709 New theory Datatype. Needed as an ancestor when defining datatypes. berghofe parents: diff changeset	517	end

author	wenzelm
	Wed, 08 Mar 2017 10:50:59 +0100
changeset 65151	a7394aa4d21c
parent 62145	5b946c81dfbf
child 65513	587433a18053
permissions	-rw-r--r--