isabelle: src/HOL/ex/Transfer_Int_Nat.thy@a4d81cdebf8b (annotated)

47654 f7df7104d13e new example theory for transfer package huffman parents: diff changeset	1	(* Title: HOL/ex/Transfer_Int_Nat.thy
f7df7104d13e new example theory for transfer package huffman parents: diff changeset	2	Author: Brian Huffman, TU Muenchen
f7df7104d13e new example theory for transfer package huffman parents: diff changeset	3	*)
f7df7104d13e new example theory for transfer package huffman parents: diff changeset	4
f7df7104d13e new example theory for transfer package huffman parents: diff changeset	5	header {* Using the transfer method between nat and int *}
f7df7104d13e new example theory for transfer package huffman parents: diff changeset	6
f7df7104d13e new example theory for transfer package huffman parents: diff changeset	7	theory Transfer_Int_Nat
f7df7104d13e new example theory for transfer package huffman parents: diff changeset	8	imports GCD "~~/src/HOL/Library/Quotient_List"
f7df7104d13e new example theory for transfer package huffman parents: diff changeset	9	begin
f7df7104d13e new example theory for transfer package huffman parents: diff changeset	10
f7df7104d13e new example theory for transfer package huffman parents: diff changeset	11	subsection {* Correspondence relation *}
f7df7104d13e new example theory for transfer package huffman parents: diff changeset	12
f7df7104d13e new example theory for transfer package huffman parents: diff changeset	13	definition ZN :: "int \<Rightarrow> nat \<Rightarrow> bool"
f7df7104d13e new example theory for transfer package huffman parents: diff changeset	14	where "ZN = (\<lambda>z n. z = of_nat n)"
f7df7104d13e new example theory for transfer package huffman parents: diff changeset	15
51956 a4d81cdebf8b better support for domains in Lifting/Transfer = replace Domainp T by the actual invariant in a transferred goal kuncar parents: 47654 diff changeset	16	subsection {* Transfer domain rules *}
a4d81cdebf8b better support for domains in Lifting/Transfer = replace Domainp T by the actual invariant in a transferred goal kuncar parents: 47654 diff changeset	17
a4d81cdebf8b better support for domains in Lifting/Transfer = replace Domainp T by the actual invariant in a transferred goal kuncar parents: 47654 diff changeset	18	lemma Domainp_ZN [transfer_domain_rule]: "Domainp ZN = (\<lambda>x. x \<ge> 0)"
a4d81cdebf8b better support for domains in Lifting/Transfer = replace Domainp T by the actual invariant in a transferred goal kuncar parents: 47654 diff changeset	19	unfolding ZN_def Domainp_iff[abs_def] by (auto intro: zero_le_imp_eq_int)
a4d81cdebf8b better support for domains in Lifting/Transfer = replace Domainp T by the actual invariant in a transferred goal kuncar parents: 47654 diff changeset	20
47654 f7df7104d13e new example theory for transfer package huffman parents: diff changeset	21	subsection {* Transfer rules *}
f7df7104d13e new example theory for transfer package huffman parents: diff changeset	22
f7df7104d13e new example theory for transfer package huffman parents: diff changeset	23	lemma bi_unique_ZN [transfer_rule]: "bi_unique ZN"
f7df7104d13e new example theory for transfer package huffman parents: diff changeset	24	unfolding ZN_def bi_unique_def by simp
f7df7104d13e new example theory for transfer package huffman parents: diff changeset	25
f7df7104d13e new example theory for transfer package huffman parents: diff changeset	26	lemma right_total_ZN [transfer_rule]: "right_total ZN"
f7df7104d13e new example theory for transfer package huffman parents: diff changeset	27	unfolding ZN_def right_total_def by simp
f7df7104d13e new example theory for transfer package huffman parents: diff changeset	28
f7df7104d13e new example theory for transfer package huffman parents: diff changeset	29	lemma ZN_0 [transfer_rule]: "ZN 0 0"
f7df7104d13e new example theory for transfer package huffman parents: diff changeset	30	unfolding ZN_def by simp
f7df7104d13e new example theory for transfer package huffman parents: diff changeset	31
f7df7104d13e new example theory for transfer package huffman parents: diff changeset	32	lemma ZN_1 [transfer_rule]: "ZN 1 1"
f7df7104d13e new example theory for transfer package huffman parents: diff changeset	33	unfolding ZN_def by simp
f7df7104d13e new example theory for transfer package huffman parents: diff changeset	34
f7df7104d13e new example theory for transfer package huffman parents: diff changeset	35	lemma ZN_add [transfer_rule]: "(ZN ===> ZN ===> ZN) (op +) (op +)"
f7df7104d13e new example theory for transfer package huffman parents: diff changeset	36	unfolding fun_rel_def ZN_def by simp
f7df7104d13e new example theory for transfer package huffman parents: diff changeset	37
f7df7104d13e new example theory for transfer package huffman parents: diff changeset	38	lemma ZN_mult [transfer_rule]: "(ZN ===> ZN ===> ZN) (op ) (op )"
f7df7104d13e new example theory for transfer package huffman parents: diff changeset	39	unfolding fun_rel_def ZN_def by (simp add: int_mult)
f7df7104d13e new example theory for transfer package huffman parents: diff changeset	40
f7df7104d13e new example theory for transfer package huffman parents: diff changeset	41	lemma ZN_diff [transfer_rule]: "(ZN ===> ZN ===> ZN) tsub (op -)"
f7df7104d13e new example theory for transfer package huffman parents: diff changeset	42	unfolding fun_rel_def ZN_def tsub_def by (simp add: zdiff_int)
f7df7104d13e new example theory for transfer package huffman parents: diff changeset	43
f7df7104d13e new example theory for transfer package huffman parents: diff changeset	44	lemma ZN_power [transfer_rule]: "(ZN ===> op = ===> ZN) (op ^) (op ^)"
f7df7104d13e new example theory for transfer package huffman parents: diff changeset	45	unfolding fun_rel_def ZN_def by (simp add: int_power)
f7df7104d13e new example theory for transfer package huffman parents: diff changeset	46
f7df7104d13e new example theory for transfer package huffman parents: diff changeset	47	lemma ZN_nat_id [transfer_rule]: "(ZN ===> op =) nat id"
f7df7104d13e new example theory for transfer package huffman parents: diff changeset	48	unfolding fun_rel_def ZN_def by simp
f7df7104d13e new example theory for transfer package huffman parents: diff changeset	49
f7df7104d13e new example theory for transfer package huffman parents: diff changeset	50	lemma ZN_id_int [transfer_rule]: "(ZN ===> op =) id int"
f7df7104d13e new example theory for transfer package huffman parents: diff changeset	51	unfolding fun_rel_def ZN_def by simp
f7df7104d13e new example theory for transfer package huffman parents: diff changeset	52
f7df7104d13e new example theory for transfer package huffman parents: diff changeset	53	lemma ZN_All [transfer_rule]:
f7df7104d13e new example theory for transfer package huffman parents: diff changeset	54	"((ZN ===> op =) ===> op =) (Ball {0..}) All"
f7df7104d13e new example theory for transfer package huffman parents: diff changeset	55	unfolding fun_rel_def ZN_def by (auto dest: zero_le_imp_eq_int)
f7df7104d13e new example theory for transfer package huffman parents: diff changeset	56
f7df7104d13e new example theory for transfer package huffman parents: diff changeset	57	lemma ZN_transfer_forall [transfer_rule]:
f7df7104d13e new example theory for transfer package huffman parents: diff changeset	58	"((ZN ===> op =) ===> op =) (transfer_bforall (\<lambda>x. 0 \<le> x)) transfer_forall"
f7df7104d13e new example theory for transfer package huffman parents: diff changeset	59	unfolding transfer_forall_def transfer_bforall_def
f7df7104d13e new example theory for transfer package huffman parents: diff changeset	60	unfolding fun_rel_def ZN_def by (auto dest: zero_le_imp_eq_int)
f7df7104d13e new example theory for transfer package huffman parents: diff changeset	61
f7df7104d13e new example theory for transfer package huffman parents: diff changeset	62	lemma ZN_Ex [transfer_rule]: "((ZN ===> op =) ===> op =) (Bex {0..}) Ex"
f7df7104d13e new example theory for transfer package huffman parents: diff changeset	63	unfolding fun_rel_def ZN_def Bex_def atLeast_iff
f7df7104d13e new example theory for transfer package huffman parents: diff changeset	64	by (metis zero_le_imp_eq_int zero_zle_int)
f7df7104d13e new example theory for transfer package huffman parents: diff changeset	65
f7df7104d13e new example theory for transfer package huffman parents: diff changeset	66	lemma ZN_le [transfer_rule]: "(ZN ===> ZN ===> op =) (op \<le>) (op \<le>)"
f7df7104d13e new example theory for transfer package huffman parents: diff changeset	67	unfolding fun_rel_def ZN_def by simp
f7df7104d13e new example theory for transfer package huffman parents: diff changeset	68
f7df7104d13e new example theory for transfer package huffman parents: diff changeset	69	lemma ZN_less [transfer_rule]: "(ZN ===> ZN ===> op =) (op <) (op <)"
f7df7104d13e new example theory for transfer package huffman parents: diff changeset	70	unfolding fun_rel_def ZN_def by simp
f7df7104d13e new example theory for transfer package huffman parents: diff changeset	71
f7df7104d13e new example theory for transfer package huffman parents: diff changeset	72	lemma ZN_eq [transfer_rule]: "(ZN ===> ZN ===> op =) (op =) (op =)"
f7df7104d13e new example theory for transfer package huffman parents: diff changeset	73	unfolding fun_rel_def ZN_def by simp
f7df7104d13e new example theory for transfer package huffman parents: diff changeset	74
f7df7104d13e new example theory for transfer package huffman parents: diff changeset	75	lemma ZN_Suc [transfer_rule]: "(ZN ===> ZN) (\<lambda>x. x + 1) Suc"
f7df7104d13e new example theory for transfer package huffman parents: diff changeset	76	unfolding fun_rel_def ZN_def by simp
f7df7104d13e new example theory for transfer package huffman parents: diff changeset	77
f7df7104d13e new example theory for transfer package huffman parents: diff changeset	78	lemma ZN_numeral [transfer_rule]:
f7df7104d13e new example theory for transfer package huffman parents: diff changeset	79	"(op = ===> ZN) numeral numeral"
f7df7104d13e new example theory for transfer package huffman parents: diff changeset	80	unfolding fun_rel_def ZN_def by simp
f7df7104d13e new example theory for transfer package huffman parents: diff changeset	81
f7df7104d13e new example theory for transfer package huffman parents: diff changeset	82	lemma ZN_dvd [transfer_rule]: "(ZN ===> ZN ===> op =) (op dvd) (op dvd)"
f7df7104d13e new example theory for transfer package huffman parents: diff changeset	83	unfolding fun_rel_def ZN_def by (simp add: zdvd_int)
f7df7104d13e new example theory for transfer package huffman parents: diff changeset	84
f7df7104d13e new example theory for transfer package huffman parents: diff changeset	85	lemma ZN_div [transfer_rule]: "(ZN ===> ZN ===> ZN) (op div) (op div)"
f7df7104d13e new example theory for transfer package huffman parents: diff changeset	86	unfolding fun_rel_def ZN_def by (simp add: zdiv_int)
f7df7104d13e new example theory for transfer package huffman parents: diff changeset	87
f7df7104d13e new example theory for transfer package huffman parents: diff changeset	88	lemma ZN_mod [transfer_rule]: "(ZN ===> ZN ===> ZN) (op mod) (op mod)"
f7df7104d13e new example theory for transfer package huffman parents: diff changeset	89	unfolding fun_rel_def ZN_def by (simp add: zmod_int)
f7df7104d13e new example theory for transfer package huffman parents: diff changeset	90
f7df7104d13e new example theory for transfer package huffman parents: diff changeset	91	lemma ZN_gcd [transfer_rule]: "(ZN ===> ZN ===> ZN) gcd gcd"
f7df7104d13e new example theory for transfer package huffman parents: diff changeset	92	unfolding fun_rel_def ZN_def by (simp add: transfer_int_nat_gcd)
f7df7104d13e new example theory for transfer package huffman parents: diff changeset	93
f7df7104d13e new example theory for transfer package huffman parents: diff changeset	94	text {* For derived operations, we can use the @{text "transfer_prover"}
f7df7104d13e new example theory for transfer package huffman parents: diff changeset	95	method to help generate transfer rules. *}
f7df7104d13e new example theory for transfer package huffman parents: diff changeset	96
f7df7104d13e new example theory for transfer package huffman parents: diff changeset	97	lemma ZN_listsum [transfer_rule]: "(list_all2 ZN ===> ZN) listsum listsum"
f7df7104d13e new example theory for transfer package huffman parents: diff changeset	98	unfolding listsum_def [abs_def] by transfer_prover
f7df7104d13e new example theory for transfer package huffman parents: diff changeset	99
f7df7104d13e new example theory for transfer package huffman parents: diff changeset	100	subsection {* Transfer examples *}
f7df7104d13e new example theory for transfer package huffman parents: diff changeset	101
f7df7104d13e new example theory for transfer package huffman parents: diff changeset	102	lemma
f7df7104d13e new example theory for transfer package huffman parents: diff changeset	103	assumes "\<And>i::int. 0 \<le> i \<Longrightarrow> i + 0 = i"
f7df7104d13e new example theory for transfer package huffman parents: diff changeset	104	shows "\<And>i::nat. i + 0 = i"
f7df7104d13e new example theory for transfer package huffman parents: diff changeset	105	apply transfer
f7df7104d13e new example theory for transfer package huffman parents: diff changeset	106	apply fact
f7df7104d13e new example theory for transfer package huffman parents: diff changeset	107	done
f7df7104d13e new example theory for transfer package huffman parents: diff changeset	108
f7df7104d13e new example theory for transfer package huffman parents: diff changeset	109	lemma
f7df7104d13e new example theory for transfer package huffman parents: diff changeset	110	assumes "\<And>i k::int. \<lbrakk>0 \<le> i; 0 \<le> k; i < k\<rbrakk> \<Longrightarrow> \<exists>j\<in>{0..}. i + j = k"
f7df7104d13e new example theory for transfer package huffman parents: diff changeset	111	shows "\<And>i k::nat. i < k \<Longrightarrow> \<exists>j. i + j = k"
f7df7104d13e new example theory for transfer package huffman parents: diff changeset	112	apply transfer
f7df7104d13e new example theory for transfer package huffman parents: diff changeset	113	apply fact
f7df7104d13e new example theory for transfer package huffman parents: diff changeset	114	done
f7df7104d13e new example theory for transfer package huffman parents: diff changeset	115
f7df7104d13e new example theory for transfer package huffman parents: diff changeset	116	lemma
f7df7104d13e new example theory for transfer package huffman parents: diff changeset	117	assumes "\<forall>x\<in>{0::int..}. \<forall>y\<in>{0..}. x * y div y = x"
f7df7104d13e new example theory for transfer package huffman parents: diff changeset	118	shows "\<forall>x y :: nat. x * y div y = x"
f7df7104d13e new example theory for transfer package huffman parents: diff changeset	119	apply transfer
f7df7104d13e new example theory for transfer package huffman parents: diff changeset	120	apply fact
f7df7104d13e new example theory for transfer package huffman parents: diff changeset	121	done
f7df7104d13e new example theory for transfer package huffman parents: diff changeset	122
f7df7104d13e new example theory for transfer package huffman parents: diff changeset	123	lemma
f7df7104d13e new example theory for transfer package huffman parents: diff changeset	124	assumes "\<And>m n::int. \<lbrakk>0 \<le> m; 0 \<le> n; m * n = 0\<rbrakk> \<Longrightarrow> m = 0 \<or> n = 0"
f7df7104d13e new example theory for transfer package huffman parents: diff changeset	125	shows "m * n = (0::nat) \<Longrightarrow> m = 0 \<or> n = 0"
f7df7104d13e new example theory for transfer package huffman parents: diff changeset	126	apply transfer
f7df7104d13e new example theory for transfer package huffman parents: diff changeset	127	apply fact
f7df7104d13e new example theory for transfer package huffman parents: diff changeset	128	done
f7df7104d13e new example theory for transfer package huffman parents: diff changeset	129
f7df7104d13e new example theory for transfer package huffman parents: diff changeset	130	lemma
f7df7104d13e new example theory for transfer package huffman parents: diff changeset	131	assumes "\<forall>x\<in>{0::int..}. \<exists>y\<in>{0..}. \<exists>z\<in>{0..}. x + 3 * y = 5 * z"
f7df7104d13e new example theory for transfer package huffman parents: diff changeset	132	shows "\<forall>x::nat. \<exists>y z. x + 3 * y = 5 * z"
f7df7104d13e new example theory for transfer package huffman parents: diff changeset	133	apply transfer
f7df7104d13e new example theory for transfer package huffman parents: diff changeset	134	apply fact
f7df7104d13e new example theory for transfer package huffman parents: diff changeset	135	done
f7df7104d13e new example theory for transfer package huffman parents: diff changeset	136
f7df7104d13e new example theory for transfer package huffman parents: diff changeset	137	text {* The @{text "fixing"} option prevents generalization over the free
f7df7104d13e new example theory for transfer package huffman parents: diff changeset	138	variable @{text "n"}, allowing the local transfer rule to be used. *}
f7df7104d13e new example theory for transfer package huffman parents: diff changeset	139
f7df7104d13e new example theory for transfer package huffman parents: diff changeset	140	lemma
f7df7104d13e new example theory for transfer package huffman parents: diff changeset	141	assumes [transfer_rule]: "ZN x n"
f7df7104d13e new example theory for transfer package huffman parents: diff changeset	142	assumes "\<forall>i\<in>{0..}. i < x \<longrightarrow> 2 * i < 3 * x"
f7df7104d13e new example theory for transfer package huffman parents: diff changeset	143	shows "\<forall>i. i < n \<longrightarrow> 2 * i < 3 * n"
f7df7104d13e new example theory for transfer package huffman parents: diff changeset	144	apply (transfer fixing: n)
f7df7104d13e new example theory for transfer package huffman parents: diff changeset	145	apply fact
f7df7104d13e new example theory for transfer package huffman parents: diff changeset	146	done
f7df7104d13e new example theory for transfer package huffman parents: diff changeset	147
f7df7104d13e new example theory for transfer package huffman parents: diff changeset	148	lemma
f7df7104d13e new example theory for transfer package huffman parents: diff changeset	149	assumes "gcd (2^i) (3^j) = (1::int)"
f7df7104d13e new example theory for transfer package huffman parents: diff changeset	150	shows "gcd (2^i) (3^j) = (1::nat)"
f7df7104d13e new example theory for transfer package huffman parents: diff changeset	151	apply (transfer fixing: i j)
f7df7104d13e new example theory for transfer package huffman parents: diff changeset	152	apply fact
f7df7104d13e new example theory for transfer package huffman parents: diff changeset	153	done
f7df7104d13e new example theory for transfer package huffman parents: diff changeset	154
f7df7104d13e new example theory for transfer package huffman parents: diff changeset	155	lemma
f7df7104d13e new example theory for transfer package huffman parents: diff changeset	156	assumes "\<And>x y z::int. \<lbrakk>0 \<le> x; 0 \<le> y; 0 \<le> z\<rbrakk> \<Longrightarrow>
f7df7104d13e new example theory for transfer package huffman parents: diff changeset	157	listsum [x, y, z] = 0 \<longleftrightarrow> list_all (\<lambda>x. x = 0) [x, y, z]"
f7df7104d13e new example theory for transfer package huffman parents: diff changeset	158	shows "listsum [x, y, z] = (0::nat) \<longleftrightarrow> list_all (\<lambda>x. x = 0) [x, y, z]"
f7df7104d13e new example theory for transfer package huffman parents: diff changeset	159	apply transfer
f7df7104d13e new example theory for transfer package huffman parents: diff changeset	160	apply fact
f7df7104d13e new example theory for transfer package huffman parents: diff changeset	161	done
f7df7104d13e new example theory for transfer package huffman parents: diff changeset	162
51956 a4d81cdebf8b better support for domains in Lifting/Transfer = replace Domainp T by the actual invariant in a transferred goal kuncar parents: 47654 diff changeset	163	text {* Quantifiers over higher types (e.g. @{text "nat list"}) are
a4d81cdebf8b better support for domains in Lifting/Transfer = replace Domainp T by the actual invariant in a transferred goal kuncar parents: 47654 diff changeset	164	transferred to a readable formula thanks to the transfer domain rule @{thm Domainp_ZN} *}
47654 f7df7104d13e new example theory for transfer package huffman parents: diff changeset	165
f7df7104d13e new example theory for transfer package huffman parents: diff changeset	166	lemma
51956 a4d81cdebf8b better support for domains in Lifting/Transfer = replace Domainp T by the actual invariant in a transferred goal kuncar parents: 47654 diff changeset	167	assumes "\<And>xs::int list. list_all (\<lambda>x. x \<ge> 0) xs \<Longrightarrow>
47654 f7df7104d13e new example theory for transfer package huffman parents: diff changeset	168	(listsum xs = 0) = list_all (\<lambda>x. x = 0) xs"
f7df7104d13e new example theory for transfer package huffman parents: diff changeset	169	shows "listsum xs = (0::nat) \<longleftrightarrow> list_all (\<lambda>x. x = 0) xs"
f7df7104d13e new example theory for transfer package huffman parents: diff changeset	170	apply transfer
f7df7104d13e new example theory for transfer package huffman parents: diff changeset	171	apply fact
f7df7104d13e new example theory for transfer package huffman parents: diff changeset	172	done
f7df7104d13e new example theory for transfer package huffman parents: diff changeset	173
f7df7104d13e new example theory for transfer package huffman parents: diff changeset	174	text {* Equality on a higher type can be transferred if the relations
f7df7104d13e new example theory for transfer package huffman parents: diff changeset	175	involved are bi-unique. *}
f7df7104d13e new example theory for transfer package huffman parents: diff changeset	176
f7df7104d13e new example theory for transfer package huffman parents: diff changeset	177	lemma
51956 a4d81cdebf8b better support for domains in Lifting/Transfer = replace Domainp T by the actual invariant in a transferred goal kuncar parents: 47654 diff changeset	178	assumes "\<And>xs\<Colon>int list. \<lbrakk>list_all (\<lambda>x. x \<ge> 0) xs; xs \<noteq> []\<rbrakk> \<Longrightarrow>
47654 f7df7104d13e new example theory for transfer package huffman parents: diff changeset	179	listsum xs < listsum (map (\<lambda>x. x + 1) xs)"
f7df7104d13e new example theory for transfer package huffman parents: diff changeset	180	shows "xs \<noteq> [] \<Longrightarrow> listsum xs < listsum (map Suc xs)"
f7df7104d13e new example theory for transfer package huffman parents: diff changeset	181	apply transfer
f7df7104d13e new example theory for transfer package huffman parents: diff changeset	182	apply fact
f7df7104d13e new example theory for transfer package huffman parents: diff changeset	183	done
f7df7104d13e new example theory for transfer package huffman parents: diff changeset	184
f7df7104d13e new example theory for transfer package huffman parents: diff changeset	185	end

author	kuncar
	Mon, 13 May 2013 13:59:04 +0200
changeset 51956	a4d81cdebf8b
parent 47654	f7df7104d13e
child 52360	ac7ac2b242a2
permissions	-rw-r--r--