isabelle: src/ZF/Nat_ZF.thy@0a35bee25c20 (annotated)

26056 6a0801279f4c Made theory names in ZF disjoint from HOL theory names to allow loading both developments krauss parents: diff changeset	1	(* Title: ZF/Nat.thy
6a0801279f4c Made theory names in ZF disjoint from HOL theory names to allow loading both developments krauss parents: diff changeset	2	ID: $Id$
6a0801279f4c Made theory names in ZF disjoint from HOL theory names to allow loading both developments krauss parents: diff changeset	3	Author: Lawrence C Paulson, Cambridge University Computer Laboratory
6a0801279f4c Made theory names in ZF disjoint from HOL theory names to allow loading both developments krauss parents: diff changeset	4	Copyright 1994 University of Cambridge
6a0801279f4c Made theory names in ZF disjoint from HOL theory names to allow loading both developments krauss parents: diff changeset	5
6a0801279f4c Made theory names in ZF disjoint from HOL theory names to allow loading both developments krauss parents: diff changeset	6	*)
6a0801279f4c Made theory names in ZF disjoint from HOL theory names to allow loading both developments krauss parents: diff changeset	7
6a0801279f4c Made theory names in ZF disjoint from HOL theory names to allow loading both developments krauss parents: diff changeset	8	header{The Natural numbers As a Least Fixed Point}
6a0801279f4c Made theory names in ZF disjoint from HOL theory names to allow loading both developments krauss parents: diff changeset	9
6a0801279f4c Made theory names in ZF disjoint from HOL theory names to allow loading both developments krauss parents: diff changeset	10	theory Nat_ZF imports OrdQuant Bool begin
6a0801279f4c Made theory names in ZF disjoint from HOL theory names to allow loading both developments krauss parents: diff changeset	11
6a0801279f4c Made theory names in ZF disjoint from HOL theory names to allow loading both developments krauss parents: diff changeset	12	definition
6a0801279f4c Made theory names in ZF disjoint from HOL theory names to allow loading both developments krauss parents: diff changeset	13	nat :: i where
6a0801279f4c Made theory names in ZF disjoint from HOL theory names to allow loading both developments krauss parents: diff changeset	14	"nat == lfp(Inf, %X. {0} Un {succ(i). i:X})"
6a0801279f4c Made theory names in ZF disjoint from HOL theory names to allow loading both developments krauss parents: diff changeset	15
6a0801279f4c Made theory names in ZF disjoint from HOL theory names to allow loading both developments krauss parents: diff changeset	16	definition
6a0801279f4c Made theory names in ZF disjoint from HOL theory names to allow loading both developments krauss parents: diff changeset	17	quasinat :: "i => o" where
6a0801279f4c Made theory names in ZF disjoint from HOL theory names to allow loading both developments krauss parents: diff changeset	18	"quasinat(n) == n=0 \| (\<exists>m. n = succ(m))"
6a0801279f4c Made theory names in ZF disjoint from HOL theory names to allow loading both developments krauss parents: diff changeset	19
6a0801279f4c Made theory names in ZF disjoint from HOL theory names to allow loading both developments krauss parents: diff changeset	20	definition
6a0801279f4c Made theory names in ZF disjoint from HOL theory names to allow loading both developments krauss parents: diff changeset	21	(Has an unconditional succ case, which is used in "recursor" below.)
6a0801279f4c Made theory names in ZF disjoint from HOL theory names to allow loading both developments krauss parents: diff changeset	22	nat_case :: "[i, i=>i, i]=>i" where
6a0801279f4c Made theory names in ZF disjoint from HOL theory names to allow loading both developments krauss parents: diff changeset	23	"nat_case(a,b,k) == THE y. k=0 & y=a \| (EX x. k=succ(x) & y=b(x))"
6a0801279f4c Made theory names in ZF disjoint from HOL theory names to allow loading both developments krauss parents: diff changeset	24
6a0801279f4c Made theory names in ZF disjoint from HOL theory names to allow loading both developments krauss parents: diff changeset	25	definition
6a0801279f4c Made theory names in ZF disjoint from HOL theory names to allow loading both developments krauss parents: diff changeset	26	nat_rec :: "[i, i, [i,i]=>i]=>i" where
6a0801279f4c Made theory names in ZF disjoint from HOL theory names to allow loading both developments krauss parents: diff changeset	27	"nat_rec(k,a,b) ==
6a0801279f4c Made theory names in ZF disjoint from HOL theory names to allow loading both developments krauss parents: diff changeset	28	wfrec(Memrel(nat), k, %n f. nat_case(a, %m. b(m, f`m), n))"
6a0801279f4c Made theory names in ZF disjoint from HOL theory names to allow loading both developments krauss parents: diff changeset	29
6a0801279f4c Made theory names in ZF disjoint from HOL theory names to allow loading both developments krauss parents: diff changeset	30	(Internalized relations on the naturals)
6a0801279f4c Made theory names in ZF disjoint from HOL theory names to allow loading both developments krauss parents: diff changeset	31
6a0801279f4c Made theory names in ZF disjoint from HOL theory names to allow loading both developments krauss parents: diff changeset	32	definition
6a0801279f4c Made theory names in ZF disjoint from HOL theory names to allow loading both developments krauss parents: diff changeset	33	Le :: i where
6a0801279f4c Made theory names in ZF disjoint from HOL theory names to allow loading both developments krauss parents: diff changeset	34	"Le == {<x,y>:nat*nat. x le y}"
6a0801279f4c Made theory names in ZF disjoint from HOL theory names to allow loading both developments krauss parents: diff changeset	35
6a0801279f4c Made theory names in ZF disjoint from HOL theory names to allow loading both developments krauss parents: diff changeset	36	definition
6a0801279f4c Made theory names in ZF disjoint from HOL theory names to allow loading both developments krauss parents: diff changeset	37	Lt :: i where
6a0801279f4c Made theory names in ZF disjoint from HOL theory names to allow loading both developments krauss parents: diff changeset	38	"Lt == {<x, y>:nat*nat. x < y}"
6a0801279f4c Made theory names in ZF disjoint from HOL theory names to allow loading both developments krauss parents: diff changeset	39
6a0801279f4c Made theory names in ZF disjoint from HOL theory names to allow loading both developments krauss parents: diff changeset	40	definition
6a0801279f4c Made theory names in ZF disjoint from HOL theory names to allow loading both developments krauss parents: diff changeset	41	Ge :: i where
6a0801279f4c Made theory names in ZF disjoint from HOL theory names to allow loading both developments krauss parents: diff changeset	42	"Ge == {<x,y>:nat*nat. y le x}"
6a0801279f4c Made theory names in ZF disjoint from HOL theory names to allow loading both developments krauss parents: diff changeset	43
6a0801279f4c Made theory names in ZF disjoint from HOL theory names to allow loading both developments krauss parents: diff changeset	44	definition
6a0801279f4c Made theory names in ZF disjoint from HOL theory names to allow loading both developments krauss parents: diff changeset	45	Gt :: i where
6a0801279f4c Made theory names in ZF disjoint from HOL theory names to allow loading both developments krauss parents: diff changeset	46	"Gt == {<x,y>:nat*nat. y < x}"
6a0801279f4c Made theory names in ZF disjoint from HOL theory names to allow loading both developments krauss parents: diff changeset	47
6a0801279f4c Made theory names in ZF disjoint from HOL theory names to allow loading both developments krauss parents: diff changeset	48	definition
6a0801279f4c Made theory names in ZF disjoint from HOL theory names to allow loading both developments krauss parents: diff changeset	49	greater_than :: "i=>i" where
6a0801279f4c Made theory names in ZF disjoint from HOL theory names to allow loading both developments krauss parents: diff changeset	50	"greater_than(n) == {i:nat. n < i}"
6a0801279f4c Made theory names in ZF disjoint from HOL theory names to allow loading both developments krauss parents: diff changeset	51
6a0801279f4c Made theory names in ZF disjoint from HOL theory names to allow loading both developments krauss parents: diff changeset	52	text{*No need for a less-than operator: a natural number is its list of
6a0801279f4c Made theory names in ZF disjoint from HOL theory names to allow loading both developments krauss parents: diff changeset	53	predecessors!*}
6a0801279f4c Made theory names in ZF disjoint from HOL theory names to allow loading both developments krauss parents: diff changeset	54
6a0801279f4c Made theory names in ZF disjoint from HOL theory names to allow loading both developments krauss parents: diff changeset	55
6a0801279f4c Made theory names in ZF disjoint from HOL theory names to allow loading both developments krauss parents: diff changeset	56	lemma nat_bnd_mono: "bnd_mono(Inf, %X. {0} Un {succ(i). i:X})"
6a0801279f4c Made theory names in ZF disjoint from HOL theory names to allow loading both developments krauss parents: diff changeset	57	apply (rule bnd_monoI)
6a0801279f4c Made theory names in ZF disjoint from HOL theory names to allow loading both developments krauss parents: diff changeset	58	apply (cut_tac infinity, blast, blast)
6a0801279f4c Made theory names in ZF disjoint from HOL theory names to allow loading both developments krauss parents: diff changeset	59	done
6a0801279f4c Made theory names in ZF disjoint from HOL theory names to allow loading both developments krauss parents: diff changeset	60
6a0801279f4c Made theory names in ZF disjoint from HOL theory names to allow loading both developments krauss parents: diff changeset	61	(* nat = {0} Un {succ(x). x:nat} *)
6a0801279f4c Made theory names in ZF disjoint from HOL theory names to allow loading both developments krauss parents: diff changeset	62	lemmas nat_unfold = nat_bnd_mono [THEN nat_def [THEN def_lfp_unfold], standard]
6a0801279f4c Made theory names in ZF disjoint from HOL theory names to allow loading both developments krauss parents: diff changeset	63
6a0801279f4c Made theory names in ZF disjoint from HOL theory names to allow loading both developments krauss parents: diff changeset	64	( Type checking of 0 and successor )
6a0801279f4c Made theory names in ZF disjoint from HOL theory names to allow loading both developments krauss parents: diff changeset	65
6a0801279f4c Made theory names in ZF disjoint from HOL theory names to allow loading both developments krauss parents: diff changeset	66	lemma nat_0I [iff,TC]: "0 : nat"
6a0801279f4c Made theory names in ZF disjoint from HOL theory names to allow loading both developments krauss parents: diff changeset	67	apply (subst nat_unfold)
6a0801279f4c Made theory names in ZF disjoint from HOL theory names to allow loading both developments krauss parents: diff changeset	68	apply (rule singletonI [THEN UnI1])
6a0801279f4c Made theory names in ZF disjoint from HOL theory names to allow loading both developments krauss parents: diff changeset	69	done
6a0801279f4c Made theory names in ZF disjoint from HOL theory names to allow loading both developments krauss parents: diff changeset	70
6a0801279f4c Made theory names in ZF disjoint from HOL theory names to allow loading both developments krauss parents: diff changeset	71	lemma nat_succI [intro!,TC]: "n : nat ==> succ(n) : nat"
6a0801279f4c Made theory names in ZF disjoint from HOL theory names to allow loading both developments krauss parents: diff changeset	72	apply (subst nat_unfold)
6a0801279f4c Made theory names in ZF disjoint from HOL theory names to allow loading both developments krauss parents: diff changeset	73	apply (erule RepFunI [THEN UnI2])
6a0801279f4c Made theory names in ZF disjoint from HOL theory names to allow loading both developments krauss parents: diff changeset	74	done
6a0801279f4c Made theory names in ZF disjoint from HOL theory names to allow loading both developments krauss parents: diff changeset	75
6a0801279f4c Made theory names in ZF disjoint from HOL theory names to allow loading both developments krauss parents: diff changeset	76	lemma nat_1I [iff,TC]: "1 : nat"
6a0801279f4c Made theory names in ZF disjoint from HOL theory names to allow loading both developments krauss parents: diff changeset	77	by (rule nat_0I [THEN nat_succI])
6a0801279f4c Made theory names in ZF disjoint from HOL theory names to allow loading both developments krauss parents: diff changeset	78
6a0801279f4c Made theory names in ZF disjoint from HOL theory names to allow loading both developments krauss parents: diff changeset	79	lemma nat_2I [iff,TC]: "2 : nat"
6a0801279f4c Made theory names in ZF disjoint from HOL theory names to allow loading both developments krauss parents: diff changeset	80	by (rule nat_1I [THEN nat_succI])
6a0801279f4c Made theory names in ZF disjoint from HOL theory names to allow loading both developments krauss parents: diff changeset	81
6a0801279f4c Made theory names in ZF disjoint from HOL theory names to allow loading both developments krauss parents: diff changeset	82	lemma bool_subset_nat: "bool <= nat"
6a0801279f4c Made theory names in ZF disjoint from HOL theory names to allow loading both developments krauss parents: diff changeset	83	by (blast elim!: boolE)
6a0801279f4c Made theory names in ZF disjoint from HOL theory names to allow loading both developments krauss parents: diff changeset	84
6a0801279f4c Made theory names in ZF disjoint from HOL theory names to allow loading both developments krauss parents: diff changeset	85	lemmas bool_into_nat = bool_subset_nat [THEN subsetD, standard]
6a0801279f4c Made theory names in ZF disjoint from HOL theory names to allow loading both developments krauss parents: diff changeset	86
6a0801279f4c Made theory names in ZF disjoint from HOL theory names to allow loading both developments krauss parents: diff changeset	87
6a0801279f4c Made theory names in ZF disjoint from HOL theory names to allow loading both developments krauss parents: diff changeset	88	subsection{Injectivity Properties and Induction}
6a0801279f4c Made theory names in ZF disjoint from HOL theory names to allow loading both developments krauss parents: diff changeset	89
6a0801279f4c Made theory names in ZF disjoint from HOL theory names to allow loading both developments krauss parents: diff changeset	90	(Mathematical induction)
6a0801279f4c Made theory names in ZF disjoint from HOL theory names to allow loading both developments krauss parents: diff changeset	91	lemma nat_induct [case_names 0 succ, induct set: nat]:
6a0801279f4c Made theory names in ZF disjoint from HOL theory names to allow loading both developments krauss parents: diff changeset	92	"[\| n: nat; P(0); !!x. [\| x: nat; P(x) \|] ==> P(succ(x)) \|] ==> P(n)"
6a0801279f4c Made theory names in ZF disjoint from HOL theory names to allow loading both developments krauss parents: diff changeset	93	by (erule def_induct [OF nat_def nat_bnd_mono], blast)
6a0801279f4c Made theory names in ZF disjoint from HOL theory names to allow loading both developments krauss parents: diff changeset	94
6a0801279f4c Made theory names in ZF disjoint from HOL theory names to allow loading both developments krauss parents: diff changeset	95	lemma natE:
6a0801279f4c Made theory names in ZF disjoint from HOL theory names to allow loading both developments krauss parents: diff changeset	96	"[\| n: nat; n=0 ==> P; !!x. [\| x: nat; n=succ(x) \|] ==> P \|] ==> P"
6a0801279f4c Made theory names in ZF disjoint from HOL theory names to allow loading both developments krauss parents: diff changeset	97	by (erule nat_unfold [THEN equalityD1, THEN subsetD, THEN UnE], auto)
6a0801279f4c Made theory names in ZF disjoint from HOL theory names to allow loading both developments krauss parents: diff changeset	98
6a0801279f4c Made theory names in ZF disjoint from HOL theory names to allow loading both developments krauss parents: diff changeset	99	lemma nat_into_Ord [simp]: "n: nat ==> Ord(n)"
6a0801279f4c Made theory names in ZF disjoint from HOL theory names to allow loading both developments krauss parents: diff changeset	100	by (erule nat_induct, auto)
6a0801279f4c Made theory names in ZF disjoint from HOL theory names to allow loading both developments krauss parents: diff changeset	101
6a0801279f4c Made theory names in ZF disjoint from HOL theory names to allow loading both developments krauss parents: diff changeset	102	(* i: nat ==> 0 le i; same thing as 0<succ(i) *)
6a0801279f4c Made theory names in ZF disjoint from HOL theory names to allow loading both developments krauss parents: diff changeset	103	lemmas nat_0_le = nat_into_Ord [THEN Ord_0_le, standard]
6a0801279f4c Made theory names in ZF disjoint from HOL theory names to allow loading both developments krauss parents: diff changeset	104
6a0801279f4c Made theory names in ZF disjoint from HOL theory names to allow loading both developments krauss parents: diff changeset	105	(* i: nat ==> i le i; same thing as i<succ(i) *)
6a0801279f4c Made theory names in ZF disjoint from HOL theory names to allow loading both developments krauss parents: diff changeset	106	lemmas nat_le_refl = nat_into_Ord [THEN le_refl, standard]
6a0801279f4c Made theory names in ZF disjoint from HOL theory names to allow loading both developments krauss parents: diff changeset	107
6a0801279f4c Made theory names in ZF disjoint from HOL theory names to allow loading both developments krauss parents: diff changeset	108	lemma Ord_nat [iff]: "Ord(nat)"
6a0801279f4c Made theory names in ZF disjoint from HOL theory names to allow loading both developments krauss parents: diff changeset	109	apply (rule OrdI)
6a0801279f4c Made theory names in ZF disjoint from HOL theory names to allow loading both developments krauss parents: diff changeset	110	apply (erule_tac [2] nat_into_Ord [THEN Ord_is_Transset])
6a0801279f4c Made theory names in ZF disjoint from HOL theory names to allow loading both developments krauss parents: diff changeset	111	apply (unfold Transset_def)
6a0801279f4c Made theory names in ZF disjoint from HOL theory names to allow loading both developments krauss parents: diff changeset	112	apply (rule ballI)
6a0801279f4c Made theory names in ZF disjoint from HOL theory names to allow loading both developments krauss parents: diff changeset	113	apply (erule nat_induct, auto)
6a0801279f4c Made theory names in ZF disjoint from HOL theory names to allow loading both developments krauss parents: diff changeset	114	done
6a0801279f4c Made theory names in ZF disjoint from HOL theory names to allow loading both developments krauss parents: diff changeset	115
6a0801279f4c Made theory names in ZF disjoint from HOL theory names to allow loading both developments krauss parents: diff changeset	116	lemma Limit_nat [iff]: "Limit(nat)"
6a0801279f4c Made theory names in ZF disjoint from HOL theory names to allow loading both developments krauss parents: diff changeset	117	apply (unfold Limit_def)
6a0801279f4c Made theory names in ZF disjoint from HOL theory names to allow loading both developments krauss parents: diff changeset	118	apply (safe intro!: ltI Ord_nat)
6a0801279f4c Made theory names in ZF disjoint from HOL theory names to allow loading both developments krauss parents: diff changeset	119	apply (erule ltD)
6a0801279f4c Made theory names in ZF disjoint from HOL theory names to allow loading both developments krauss parents: diff changeset	120	done
6a0801279f4c Made theory names in ZF disjoint from HOL theory names to allow loading both developments krauss parents: diff changeset	121
6a0801279f4c Made theory names in ZF disjoint from HOL theory names to allow loading both developments krauss parents: diff changeset	122	lemma naturals_not_limit: "a \<in> nat ==> ~ Limit(a)"
6a0801279f4c Made theory names in ZF disjoint from HOL theory names to allow loading both developments krauss parents: diff changeset	123	by (induct a rule: nat_induct, auto)
6a0801279f4c Made theory names in ZF disjoint from HOL theory names to allow loading both developments krauss parents: diff changeset	124
6a0801279f4c Made theory names in ZF disjoint from HOL theory names to allow loading both developments krauss parents: diff changeset	125	lemma succ_natD: "succ(i): nat ==> i: nat"
6a0801279f4c Made theory names in ZF disjoint from HOL theory names to allow loading both developments krauss parents: diff changeset	126	by (rule Ord_trans [OF succI1], auto)
6a0801279f4c Made theory names in ZF disjoint from HOL theory names to allow loading both developments krauss parents: diff changeset	127
6a0801279f4c Made theory names in ZF disjoint from HOL theory names to allow loading both developments krauss parents: diff changeset	128	lemma nat_succ_iff [iff]: "succ(n): nat <-> n: nat"
6a0801279f4c Made theory names in ZF disjoint from HOL theory names to allow loading both developments krauss parents: diff changeset	129	by (blast dest!: succ_natD)
6a0801279f4c Made theory names in ZF disjoint from HOL theory names to allow loading both developments krauss parents: diff changeset	130
6a0801279f4c Made theory names in ZF disjoint from HOL theory names to allow loading both developments krauss parents: diff changeset	131	lemma nat_le_Limit: "Limit(i) ==> nat le i"
6a0801279f4c Made theory names in ZF disjoint from HOL theory names to allow loading both developments krauss parents: diff changeset	132	apply (rule subset_imp_le)
6a0801279f4c Made theory names in ZF disjoint from HOL theory names to allow loading both developments krauss parents: diff changeset	133	apply (simp_all add: Limit_is_Ord)
6a0801279f4c Made theory names in ZF disjoint from HOL theory names to allow loading both developments krauss parents: diff changeset	134	apply (rule subsetI)
6a0801279f4c Made theory names in ZF disjoint from HOL theory names to allow loading both developments krauss parents: diff changeset	135	apply (erule nat_induct)
6a0801279f4c Made theory names in ZF disjoint from HOL theory names to allow loading both developments krauss parents: diff changeset	136	apply (erule Limit_has_0 [THEN ltD])
6a0801279f4c Made theory names in ZF disjoint from HOL theory names to allow loading both developments krauss parents: diff changeset	137	apply (blast intro: Limit_has_succ [THEN ltD] ltI Limit_is_Ord)
6a0801279f4c Made theory names in ZF disjoint from HOL theory names to allow loading both developments krauss parents: diff changeset	138	done
6a0801279f4c Made theory names in ZF disjoint from HOL theory names to allow loading both developments krauss parents: diff changeset	139
6a0801279f4c Made theory names in ZF disjoint from HOL theory names to allow loading both developments krauss parents: diff changeset	140	(* [\| succ(i): k; k: nat \|] ==> i: k *)
6a0801279f4c Made theory names in ZF disjoint from HOL theory names to allow loading both developments krauss parents: diff changeset	141	lemmas succ_in_naturalD = Ord_trans [OF succI1 _ nat_into_Ord]
6a0801279f4c Made theory names in ZF disjoint from HOL theory names to allow loading both developments krauss parents: diff changeset	142
6a0801279f4c Made theory names in ZF disjoint from HOL theory names to allow loading both developments krauss parents: diff changeset	143	lemma lt_nat_in_nat: "[\| m<n; n: nat \|] ==> m: nat"
6a0801279f4c Made theory names in ZF disjoint from HOL theory names to allow loading both developments krauss parents: diff changeset	144	apply (erule ltE)
6a0801279f4c Made theory names in ZF disjoint from HOL theory names to allow loading both developments krauss parents: diff changeset	145	apply (erule Ord_trans, assumption, simp)
6a0801279f4c Made theory names in ZF disjoint from HOL theory names to allow loading both developments krauss parents: diff changeset	146	done
6a0801279f4c Made theory names in ZF disjoint from HOL theory names to allow loading both developments krauss parents: diff changeset	147
6a0801279f4c Made theory names in ZF disjoint from HOL theory names to allow loading both developments krauss parents: diff changeset	148	lemma le_in_nat: "[\| m le n; n:nat \|] ==> m:nat"
6a0801279f4c Made theory names in ZF disjoint from HOL theory names to allow loading both developments krauss parents: diff changeset	149	by (blast dest!: lt_nat_in_nat)
6a0801279f4c Made theory names in ZF disjoint from HOL theory names to allow loading both developments krauss parents: diff changeset	150
6a0801279f4c Made theory names in ZF disjoint from HOL theory names to allow loading both developments krauss parents: diff changeset	151
6a0801279f4c Made theory names in ZF disjoint from HOL theory names to allow loading both developments krauss parents: diff changeset	152	subsection{Variations on Mathematical Induction}
6a0801279f4c Made theory names in ZF disjoint from HOL theory names to allow loading both developments krauss parents: diff changeset	153
6a0801279f4c Made theory names in ZF disjoint from HOL theory names to allow loading both developments krauss parents: diff changeset	154	(complete induction)
6a0801279f4c Made theory names in ZF disjoint from HOL theory names to allow loading both developments krauss parents: diff changeset	155
6a0801279f4c Made theory names in ZF disjoint from HOL theory names to allow loading both developments krauss parents: diff changeset	156	lemmas complete_induct = Ord_induct [OF _ Ord_nat, case_names less, consumes 1]
6a0801279f4c Made theory names in ZF disjoint from HOL theory names to allow loading both developments krauss parents: diff changeset	157
6a0801279f4c Made theory names in ZF disjoint from HOL theory names to allow loading both developments krauss parents: diff changeset	158	lemmas complete_induct_rule =
6a0801279f4c Made theory names in ZF disjoint from HOL theory names to allow loading both developments krauss parents: diff changeset	159	complete_induct [rule_format, case_names less, consumes 1]
6a0801279f4c Made theory names in ZF disjoint from HOL theory names to allow loading both developments krauss parents: diff changeset	160
6a0801279f4c Made theory names in ZF disjoint from HOL theory names to allow loading both developments krauss parents: diff changeset	161
6a0801279f4c Made theory names in ZF disjoint from HOL theory names to allow loading both developments krauss parents: diff changeset	162	lemma nat_induct_from_lemma [rule_format]:
6a0801279f4c Made theory names in ZF disjoint from HOL theory names to allow loading both developments krauss parents: diff changeset	163	"[\| n: nat; m: nat;
6a0801279f4c Made theory names in ZF disjoint from HOL theory names to allow loading both developments krauss parents: diff changeset	164	!!x. [\| x: nat; m le x; P(x) \|] ==> P(succ(x)) \|]
6a0801279f4c Made theory names in ZF disjoint from HOL theory names to allow loading both developments krauss parents: diff changeset	165	==> m le n --> P(m) --> P(n)"
6a0801279f4c Made theory names in ZF disjoint from HOL theory names to allow loading both developments krauss parents: diff changeset	166	apply (erule nat_induct)
6a0801279f4c Made theory names in ZF disjoint from HOL theory names to allow loading both developments krauss parents: diff changeset	167	apply (simp_all add: distrib_simps le0_iff le_succ_iff)
6a0801279f4c Made theory names in ZF disjoint from HOL theory names to allow loading both developments krauss parents: diff changeset	168	done
6a0801279f4c Made theory names in ZF disjoint from HOL theory names to allow loading both developments krauss parents: diff changeset	169
6a0801279f4c Made theory names in ZF disjoint from HOL theory names to allow loading both developments krauss parents: diff changeset	170	(Induction starting from m rather than 0)
6a0801279f4c Made theory names in ZF disjoint from HOL theory names to allow loading both developments krauss parents: diff changeset	171	lemma nat_induct_from:
6a0801279f4c Made theory names in ZF disjoint from HOL theory names to allow loading both developments krauss parents: diff changeset	172	"[\| m le n; m: nat; n: nat;
6a0801279f4c Made theory names in ZF disjoint from HOL theory names to allow loading both developments krauss parents: diff changeset	173	P(m);
6a0801279f4c Made theory names in ZF disjoint from HOL theory names to allow loading both developments krauss parents: diff changeset	174	!!x. [\| x: nat; m le x; P(x) \|] ==> P(succ(x)) \|]
6a0801279f4c Made theory names in ZF disjoint from HOL theory names to allow loading both developments krauss parents: diff changeset	175	==> P(n)"
6a0801279f4c Made theory names in ZF disjoint from HOL theory names to allow loading both developments krauss parents: diff changeset	176	apply (blast intro: nat_induct_from_lemma)
6a0801279f4c Made theory names in ZF disjoint from HOL theory names to allow loading both developments krauss parents: diff changeset	177	done
6a0801279f4c Made theory names in ZF disjoint from HOL theory names to allow loading both developments krauss parents: diff changeset	178
6a0801279f4c Made theory names in ZF disjoint from HOL theory names to allow loading both developments krauss parents: diff changeset	179	(Induction suitable for subtraction and less-than)
6a0801279f4c Made theory names in ZF disjoint from HOL theory names to allow loading both developments krauss parents: diff changeset	180	lemma diff_induct [case_names 0 0_succ succ_succ, consumes 2]:
6a0801279f4c Made theory names in ZF disjoint from HOL theory names to allow loading both developments krauss parents: diff changeset	181	"[\| m: nat; n: nat;
6a0801279f4c Made theory names in ZF disjoint from HOL theory names to allow loading both developments krauss parents: diff changeset	182	!!x. x: nat ==> P(x,0);
6a0801279f4c Made theory names in ZF disjoint from HOL theory names to allow loading both developments krauss parents: diff changeset	183	!!y. y: nat ==> P(0,succ(y));
6a0801279f4c Made theory names in ZF disjoint from HOL theory names to allow loading both developments krauss parents: diff changeset	184	!!x y. [\| x: nat; y: nat; P(x,y) \|] ==> P(succ(x),succ(y)) \|]
6a0801279f4c Made theory names in ZF disjoint from HOL theory names to allow loading both developments krauss parents: diff changeset	185	==> P(m,n)"
6a0801279f4c Made theory names in ZF disjoint from HOL theory names to allow loading both developments krauss parents: diff changeset	186	apply (erule_tac x = m in rev_bspec)
6a0801279f4c Made theory names in ZF disjoint from HOL theory names to allow loading both developments krauss parents: diff changeset	187	apply (erule nat_induct, simp)
6a0801279f4c Made theory names in ZF disjoint from HOL theory names to allow loading both developments krauss parents: diff changeset	188	apply (rule ballI)
6a0801279f4c Made theory names in ZF disjoint from HOL theory names to allow loading both developments krauss parents: diff changeset	189	apply (rename_tac i j)
6a0801279f4c Made theory names in ZF disjoint from HOL theory names to allow loading both developments krauss parents: diff changeset	190	apply (erule_tac n=j in nat_induct, auto)
6a0801279f4c Made theory names in ZF disjoint from HOL theory names to allow loading both developments krauss parents: diff changeset	191	done
6a0801279f4c Made theory names in ZF disjoint from HOL theory names to allow loading both developments krauss parents: diff changeset	192
6a0801279f4c Made theory names in ZF disjoint from HOL theory names to allow loading both developments krauss parents: diff changeset	193
6a0801279f4c Made theory names in ZF disjoint from HOL theory names to allow loading both developments krauss parents: diff changeset	194	( Induction principle analogous to trancl_induct )
6a0801279f4c Made theory names in ZF disjoint from HOL theory names to allow loading both developments krauss parents: diff changeset	195
6a0801279f4c Made theory names in ZF disjoint from HOL theory names to allow loading both developments krauss parents: diff changeset	196	lemma succ_lt_induct_lemma [rule_format]:
6a0801279f4c Made theory names in ZF disjoint from HOL theory names to allow loading both developments krauss parents: diff changeset	197	"m: nat ==> P(m,succ(m)) --> (ALL x: nat. P(m,x) --> P(m,succ(x))) -->
6a0801279f4c Made theory names in ZF disjoint from HOL theory names to allow loading both developments krauss parents: diff changeset	198	(ALL n:nat. m<n --> P(m,n))"
6a0801279f4c Made theory names in ZF disjoint from HOL theory names to allow loading both developments krauss parents: diff changeset	199	apply (erule nat_induct)
6a0801279f4c Made theory names in ZF disjoint from HOL theory names to allow loading both developments krauss parents: diff changeset	200	apply (intro impI, rule nat_induct [THEN ballI])
6a0801279f4c Made theory names in ZF disjoint from HOL theory names to allow loading both developments krauss parents: diff changeset	201	prefer 4 apply (intro impI, rule nat_induct [THEN ballI])
6a0801279f4c Made theory names in ZF disjoint from HOL theory names to allow loading both developments krauss parents: diff changeset	202	apply (auto simp add: le_iff)
6a0801279f4c Made theory names in ZF disjoint from HOL theory names to allow loading both developments krauss parents: diff changeset	203	done
6a0801279f4c Made theory names in ZF disjoint from HOL theory names to allow loading both developments krauss parents: diff changeset	204
6a0801279f4c Made theory names in ZF disjoint from HOL theory names to allow loading both developments krauss parents: diff changeset	205	lemma succ_lt_induct:
6a0801279f4c Made theory names in ZF disjoint from HOL theory names to allow loading both developments krauss parents: diff changeset	206	"[\| m<n; n: nat;
6a0801279f4c Made theory names in ZF disjoint from HOL theory names to allow loading both developments krauss parents: diff changeset	207	P(m,succ(m));
6a0801279f4c Made theory names in ZF disjoint from HOL theory names to allow loading both developments krauss parents: diff changeset	208	!!x. [\| x: nat; P(m,x) \|] ==> P(m,succ(x)) \|]
6a0801279f4c Made theory names in ZF disjoint from HOL theory names to allow loading both developments krauss parents: diff changeset	209	==> P(m,n)"
6a0801279f4c Made theory names in ZF disjoint from HOL theory names to allow loading both developments krauss parents: diff changeset	210	by (blast intro: succ_lt_induct_lemma lt_nat_in_nat)
6a0801279f4c Made theory names in ZF disjoint from HOL theory names to allow loading both developments krauss parents: diff changeset	211
6a0801279f4c Made theory names in ZF disjoint from HOL theory names to allow loading both developments krauss parents: diff changeset	212	subsection{quasinat: to allow a case-split rule for @{term nat_case}}
6a0801279f4c Made theory names in ZF disjoint from HOL theory names to allow loading both developments krauss parents: diff changeset	213
6a0801279f4c Made theory names in ZF disjoint from HOL theory names to allow loading both developments krauss parents: diff changeset	214	text{True if the argument is zero or any successor}
6a0801279f4c Made theory names in ZF disjoint from HOL theory names to allow loading both developments krauss parents: diff changeset	215	lemma [iff]: "quasinat(0)"
6a0801279f4c Made theory names in ZF disjoint from HOL theory names to allow loading both developments krauss parents: diff changeset	216	by (simp add: quasinat_def)
6a0801279f4c Made theory names in ZF disjoint from HOL theory names to allow loading both developments krauss parents: diff changeset	217
6a0801279f4c Made theory names in ZF disjoint from HOL theory names to allow loading both developments krauss parents: diff changeset	218	lemma [iff]: "quasinat(succ(x))"
6a0801279f4c Made theory names in ZF disjoint from HOL theory names to allow loading both developments krauss parents: diff changeset	219	by (simp add: quasinat_def)
6a0801279f4c Made theory names in ZF disjoint from HOL theory names to allow loading both developments krauss parents: diff changeset	220
6a0801279f4c Made theory names in ZF disjoint from HOL theory names to allow loading both developments krauss parents: diff changeset	221	lemma nat_imp_quasinat: "n \<in> nat ==> quasinat(n)"
6a0801279f4c Made theory names in ZF disjoint from HOL theory names to allow loading both developments krauss parents: diff changeset	222	by (erule natE, simp_all)
6a0801279f4c Made theory names in ZF disjoint from HOL theory names to allow loading both developments krauss parents: diff changeset	223
6a0801279f4c Made theory names in ZF disjoint from HOL theory names to allow loading both developments krauss parents: diff changeset	224	lemma non_nat_case: "~ quasinat(x) ==> nat_case(a,b,x) = 0"
6a0801279f4c Made theory names in ZF disjoint from HOL theory names to allow loading both developments krauss parents: diff changeset	225	by (simp add: quasinat_def nat_case_def)
6a0801279f4c Made theory names in ZF disjoint from HOL theory names to allow loading both developments krauss parents: diff changeset	226
6a0801279f4c Made theory names in ZF disjoint from HOL theory names to allow loading both developments krauss parents: diff changeset	227	lemma nat_cases_disj: "k=0 \| (\<exists>y. k = succ(y)) \| ~ quasinat(k)"
6a0801279f4c Made theory names in ZF disjoint from HOL theory names to allow loading both developments krauss parents: diff changeset	228	apply (case_tac "k=0", simp)
6a0801279f4c Made theory names in ZF disjoint from HOL theory names to allow loading both developments krauss parents: diff changeset	229	apply (case_tac "\<exists>m. k = succ(m)")
6a0801279f4c Made theory names in ZF disjoint from HOL theory names to allow loading both developments krauss parents: diff changeset	230	apply (simp_all add: quasinat_def)
6a0801279f4c Made theory names in ZF disjoint from HOL theory names to allow loading both developments krauss parents: diff changeset	231	done
6a0801279f4c Made theory names in ZF disjoint from HOL theory names to allow loading both developments krauss parents: diff changeset	232
6a0801279f4c Made theory names in ZF disjoint from HOL theory names to allow loading both developments krauss parents: diff changeset	233	lemma nat_cases:
6a0801279f4c Made theory names in ZF disjoint from HOL theory names to allow loading both developments krauss parents: diff changeset	234	"[\|k=0 ==> P; !!y. k = succ(y) ==> P; ~ quasinat(k) ==> P\|] ==> P"
6a0801279f4c Made theory names in ZF disjoint from HOL theory names to allow loading both developments krauss parents: diff changeset	235	by (insert nat_cases_disj [of k], blast)
6a0801279f4c Made theory names in ZF disjoint from HOL theory names to allow loading both developments krauss parents: diff changeset	236
6a0801279f4c Made theory names in ZF disjoint from HOL theory names to allow loading both developments krauss parents: diff changeset	237	( nat_case )
6a0801279f4c Made theory names in ZF disjoint from HOL theory names to allow loading both developments krauss parents: diff changeset	238
6a0801279f4c Made theory names in ZF disjoint from HOL theory names to allow loading both developments krauss parents: diff changeset	239	lemma nat_case_0 [simp]: "nat_case(a,b,0) = a"
6a0801279f4c Made theory names in ZF disjoint from HOL theory names to allow loading both developments krauss parents: diff changeset	240	by (simp add: nat_case_def)
6a0801279f4c Made theory names in ZF disjoint from HOL theory names to allow loading both developments krauss parents: diff changeset	241
6a0801279f4c Made theory names in ZF disjoint from HOL theory names to allow loading both developments krauss parents: diff changeset	242	lemma nat_case_succ [simp]: "nat_case(a,b,succ(n)) = b(n)"
6a0801279f4c Made theory names in ZF disjoint from HOL theory names to allow loading both developments krauss parents: diff changeset	243	by (simp add: nat_case_def)
6a0801279f4c Made theory names in ZF disjoint from HOL theory names to allow loading both developments krauss parents: diff changeset	244
6a0801279f4c Made theory names in ZF disjoint from HOL theory names to allow loading both developments krauss parents: diff changeset	245	lemma nat_case_type [TC]:
6a0801279f4c Made theory names in ZF disjoint from HOL theory names to allow loading both developments krauss parents: diff changeset	246	"[\| n: nat; a: C(0); !!m. m: nat ==> b(m): C(succ(m)) \|]
6a0801279f4c Made theory names in ZF disjoint from HOL theory names to allow loading both developments krauss parents: diff changeset	247	==> nat_case(a,b,n) : C(n)";
6a0801279f4c Made theory names in ZF disjoint from HOL theory names to allow loading both developments krauss parents: diff changeset	248	by (erule nat_induct, auto)
6a0801279f4c Made theory names in ZF disjoint from HOL theory names to allow loading both developments krauss parents: diff changeset	249
6a0801279f4c Made theory names in ZF disjoint from HOL theory names to allow loading both developments krauss parents: diff changeset	250	lemma split_nat_case:
6a0801279f4c Made theory names in ZF disjoint from HOL theory names to allow loading both developments krauss parents: diff changeset	251	"P(nat_case(a,b,k)) <->
6a0801279f4c Made theory names in ZF disjoint from HOL theory names to allow loading both developments krauss parents: diff changeset	252	((k=0 --> P(a)) & (\<forall>x. k=succ(x) --> P(b(x))) & (~ quasinat(k) \<longrightarrow> P(0)))"
6a0801279f4c Made theory names in ZF disjoint from HOL theory names to allow loading both developments krauss parents: diff changeset	253	apply (rule nat_cases [of k])
6a0801279f4c Made theory names in ZF disjoint from HOL theory names to allow loading both developments krauss parents: diff changeset	254	apply (auto simp add: non_nat_case)
6a0801279f4c Made theory names in ZF disjoint from HOL theory names to allow loading both developments krauss parents: diff changeset	255	done
6a0801279f4c Made theory names in ZF disjoint from HOL theory names to allow loading both developments krauss parents: diff changeset	256
6a0801279f4c Made theory names in ZF disjoint from HOL theory names to allow loading both developments krauss parents: diff changeset	257
6a0801279f4c Made theory names in ZF disjoint from HOL theory names to allow loading both developments krauss parents: diff changeset	258	subsection{Recursion on the Natural Numbers}
6a0801279f4c Made theory names in ZF disjoint from HOL theory names to allow loading both developments krauss parents: diff changeset	259
6a0801279f4c Made theory names in ZF disjoint from HOL theory names to allow loading both developments krauss parents: diff changeset	260	(** nat_rec is used to define eclose and transrec, then becomes obsolete.
6a0801279f4c Made theory names in ZF disjoint from HOL theory names to allow loading both developments krauss parents: diff changeset	261	The operator rec, from arith.thy, has fewer typing conditions **)
6a0801279f4c Made theory names in ZF disjoint from HOL theory names to allow loading both developments krauss parents: diff changeset	262
6a0801279f4c Made theory names in ZF disjoint from HOL theory names to allow loading both developments krauss parents: diff changeset	263	lemma nat_rec_0: "nat_rec(0,a,b) = a"
6a0801279f4c Made theory names in ZF disjoint from HOL theory names to allow loading both developments krauss parents: diff changeset	264	apply (rule nat_rec_def [THEN def_wfrec, THEN trans])
6a0801279f4c Made theory names in ZF disjoint from HOL theory names to allow loading both developments krauss parents: diff changeset	265	apply (rule wf_Memrel)
6a0801279f4c Made theory names in ZF disjoint from HOL theory names to allow loading both developments krauss parents: diff changeset	266	apply (rule nat_case_0)
6a0801279f4c Made theory names in ZF disjoint from HOL theory names to allow loading both developments krauss parents: diff changeset	267	done
6a0801279f4c Made theory names in ZF disjoint from HOL theory names to allow loading both developments krauss parents: diff changeset	268
6a0801279f4c Made theory names in ZF disjoint from HOL theory names to allow loading both developments krauss parents: diff changeset	269	lemma nat_rec_succ: "m: nat ==> nat_rec(succ(m),a,b) = b(m, nat_rec(m,a,b))"
6a0801279f4c Made theory names in ZF disjoint from HOL theory names to allow loading both developments krauss parents: diff changeset	270	apply (rule nat_rec_def [THEN def_wfrec, THEN trans])
6a0801279f4c Made theory names in ZF disjoint from HOL theory names to allow loading both developments krauss parents: diff changeset	271	apply (rule wf_Memrel)
6a0801279f4c Made theory names in ZF disjoint from HOL theory names to allow loading both developments krauss parents: diff changeset	272	apply (simp add: vimage_singleton_iff)
6a0801279f4c Made theory names in ZF disjoint from HOL theory names to allow loading both developments krauss parents: diff changeset	273	done
6a0801279f4c Made theory names in ZF disjoint from HOL theory names to allow loading both developments krauss parents: diff changeset	274
6a0801279f4c Made theory names in ZF disjoint from HOL theory names to allow loading both developments krauss parents: diff changeset	275	( The union of two natural numbers is a natural number -- their maximum )
6a0801279f4c Made theory names in ZF disjoint from HOL theory names to allow loading both developments krauss parents: diff changeset	276
6a0801279f4c Made theory names in ZF disjoint from HOL theory names to allow loading both developments krauss parents: diff changeset	277	lemma Un_nat_type [TC]: "[\| i: nat; j: nat \|] ==> i Un j: nat"
6a0801279f4c Made theory names in ZF disjoint from HOL theory names to allow loading both developments krauss parents: diff changeset	278	apply (rule Un_least_lt [THEN ltD])
6a0801279f4c Made theory names in ZF disjoint from HOL theory names to allow loading both developments krauss parents: diff changeset	279	apply (simp_all add: lt_def)
6a0801279f4c Made theory names in ZF disjoint from HOL theory names to allow loading both developments krauss parents: diff changeset	280	done
6a0801279f4c Made theory names in ZF disjoint from HOL theory names to allow loading both developments krauss parents: diff changeset	281
6a0801279f4c Made theory names in ZF disjoint from HOL theory names to allow loading both developments krauss parents: diff changeset	282	lemma Int_nat_type [TC]: "[\| i: nat; j: nat \|] ==> i Int j: nat"
6a0801279f4c Made theory names in ZF disjoint from HOL theory names to allow loading both developments krauss parents: diff changeset	283	apply (rule Int_greatest_lt [THEN ltD])
6a0801279f4c Made theory names in ZF disjoint from HOL theory names to allow loading both developments krauss parents: diff changeset	284	apply (simp_all add: lt_def)
6a0801279f4c Made theory names in ZF disjoint from HOL theory names to allow loading both developments krauss parents: diff changeset	285	done
6a0801279f4c Made theory names in ZF disjoint from HOL theory names to allow loading both developments krauss parents: diff changeset	286
6a0801279f4c Made theory names in ZF disjoint from HOL theory names to allow loading both developments krauss parents: diff changeset	287	(needed to simplify unions over nat)
6a0801279f4c Made theory names in ZF disjoint from HOL theory names to allow loading both developments krauss parents: diff changeset	288	lemma nat_nonempty [simp]: "nat ~= 0"
6a0801279f4c Made theory names in ZF disjoint from HOL theory names to allow loading both developments krauss parents: diff changeset	289	by blast
6a0801279f4c Made theory names in ZF disjoint from HOL theory names to allow loading both developments krauss parents: diff changeset	290
6a0801279f4c Made theory names in ZF disjoint from HOL theory names to allow loading both developments krauss parents: diff changeset	291	text{A natural number is the set of its predecessors}
6a0801279f4c Made theory names in ZF disjoint from HOL theory names to allow loading both developments krauss parents: diff changeset	292	lemma nat_eq_Collect_lt: "i \<in> nat ==> {j\<in>nat. j<i} = i"
6a0801279f4c Made theory names in ZF disjoint from HOL theory names to allow loading both developments krauss parents: diff changeset	293	apply (rule equalityI)
6a0801279f4c Made theory names in ZF disjoint from HOL theory names to allow loading both developments krauss parents: diff changeset	294	apply (blast dest: ltD)
6a0801279f4c Made theory names in ZF disjoint from HOL theory names to allow loading both developments krauss parents: diff changeset	295	apply (auto simp add: Ord_mem_iff_lt)
6a0801279f4c Made theory names in ZF disjoint from HOL theory names to allow loading both developments krauss parents: diff changeset	296	apply (blast intro: lt_trans)
6a0801279f4c Made theory names in ZF disjoint from HOL theory names to allow loading both developments krauss parents: diff changeset	297	done
6a0801279f4c Made theory names in ZF disjoint from HOL theory names to allow loading both developments krauss parents: diff changeset	298
6a0801279f4c Made theory names in ZF disjoint from HOL theory names to allow loading both developments krauss parents: diff changeset	299	lemma Le_iff [iff]: "<x,y> : Le <-> x le y & x : nat & y : nat"
6a0801279f4c Made theory names in ZF disjoint from HOL theory names to allow loading both developments krauss parents: diff changeset	300	by (force simp add: Le_def)
6a0801279f4c Made theory names in ZF disjoint from HOL theory names to allow loading both developments krauss parents: diff changeset	301
6a0801279f4c Made theory names in ZF disjoint from HOL theory names to allow loading both developments krauss parents: diff changeset	302	end

author	nipkow
	Sun, 22 Feb 2009 17:25:28 +0100
changeset 30056	0a35bee25c20
parent 26056	6a0801279f4c
child 32960	69916a850301
permissions	-rw-r--r--