isabelle: src/HOL/Transfer.thy@8ae6f86a3477 (annotated)

47325 ec6187036495 new transfer proof method huffman parents: diff changeset	1	(* Title: HOL/Transfer.thy
ec6187036495 new transfer proof method huffman parents: diff changeset	2	Author: Brian Huffman, TU Muenchen
51956 a4d81cdebf8b better support for domains in Lifting/Transfer = replace Domainp T by the actual invariant in a transferred goal kuncar parents: 51955 diff changeset	3	Author: Ondrej Kuncar, TU Muenchen
47325 ec6187036495 new transfer proof method huffman parents: diff changeset	4	*)
ec6187036495 new transfer proof method huffman parents: diff changeset	5
ec6187036495 new transfer proof method huffman parents: diff changeset	6	header {* Generic theorem transfer using relations *}
ec6187036495 new transfer proof method huffman parents: diff changeset	7
ec6187036495 new transfer proof method huffman parents: diff changeset	8	theory Transfer
51112 da97167e03f7 abandoned theory Plain haftmann parents: 49975 diff changeset	9	imports Hilbert_Choice
47325 ec6187036495 new transfer proof method huffman parents: diff changeset	10	begin
ec6187036495 new transfer proof method huffman parents: diff changeset	11
ec6187036495 new transfer proof method huffman parents: diff changeset	12	subsection {* Relator for function space *}
ec6187036495 new transfer proof method huffman parents: diff changeset	13
ec6187036495 new transfer proof method huffman parents: diff changeset	14	definition
53011 aeee0a4be6cf introduce locale with syntax for fun_rel and map_fun and make thus ===> and ---> local kuncar parents: 52358 diff changeset	15	fun_rel :: "('a \<Rightarrow> 'c \<Rightarrow> bool) \<Rightarrow> ('b \<Rightarrow> 'd \<Rightarrow> bool) \<Rightarrow> ('a \<Rightarrow> 'b) \<Rightarrow> ('c \<Rightarrow> 'd) \<Rightarrow> bool"
47325 ec6187036495 new transfer proof method huffman parents: diff changeset	16	where
ec6187036495 new transfer proof method huffman parents: diff changeset	17	"fun_rel A B = (\<lambda>f g. \<forall>x y. A x y \<longrightarrow> B (f x) (g y))"
ec6187036495 new transfer proof method huffman parents: diff changeset	18
53011 aeee0a4be6cf introduce locale with syntax for fun_rel and map_fun and make thus ===> and ---> local kuncar parents: 52358 diff changeset	19	locale lifting_syntax
aeee0a4be6cf introduce locale with syntax for fun_rel and map_fun and make thus ===> and ---> local kuncar parents: 52358 diff changeset	20	begin
aeee0a4be6cf introduce locale with syntax for fun_rel and map_fun and make thus ===> and ---> local kuncar parents: 52358 diff changeset	21	notation fun_rel (infixr "===>" 55)
aeee0a4be6cf introduce locale with syntax for fun_rel and map_fun and make thus ===> and ---> local kuncar parents: 52358 diff changeset	22	notation map_fun (infixr "--->" 55)
aeee0a4be6cf introduce locale with syntax for fun_rel and map_fun and make thus ===> and ---> local kuncar parents: 52358 diff changeset	23	end
aeee0a4be6cf introduce locale with syntax for fun_rel and map_fun and make thus ===> and ---> local kuncar parents: 52358 diff changeset	24
aeee0a4be6cf introduce locale with syntax for fun_rel and map_fun and make thus ===> and ---> local kuncar parents: 52358 diff changeset	25	context
aeee0a4be6cf introduce locale with syntax for fun_rel and map_fun and make thus ===> and ---> local kuncar parents: 52358 diff changeset	26	begin
aeee0a4be6cf introduce locale with syntax for fun_rel and map_fun and make thus ===> and ---> local kuncar parents: 52358 diff changeset	27	interpretation lifting_syntax .
aeee0a4be6cf introduce locale with syntax for fun_rel and map_fun and make thus ===> and ---> local kuncar parents: 52358 diff changeset	28
47325 ec6187036495 new transfer proof method huffman parents: diff changeset	29	lemma fun_relI [intro]:
ec6187036495 new transfer proof method huffman parents: diff changeset	30	assumes "\<And>x y. A x y \<Longrightarrow> B (f x) (g y)"
ec6187036495 new transfer proof method huffman parents: diff changeset	31	shows "(A ===> B) f g"
ec6187036495 new transfer proof method huffman parents: diff changeset	32	using assms by (simp add: fun_rel_def)
ec6187036495 new transfer proof method huffman parents: diff changeset	33
ec6187036495 new transfer proof method huffman parents: diff changeset	34	lemma fun_relD:
ec6187036495 new transfer proof method huffman parents: diff changeset	35	assumes "(A ===> B) f g" and "A x y"
ec6187036495 new transfer proof method huffman parents: diff changeset	36	shows "B (f x) (g y)"
ec6187036495 new transfer proof method huffman parents: diff changeset	37	using assms by (simp add: fun_rel_def)
ec6187036495 new transfer proof method huffman parents: diff changeset	38
47937 70375fa2679d generate abs_eq, use it as a code equation for total quotients; no_abs_code renamed to no_code; added no_code for quotient_type command kuncar parents: 47924 diff changeset	39	lemma fun_relD2:
70375fa2679d generate abs_eq, use it as a code equation for total quotients; no_abs_code renamed to no_code; added no_code for quotient_type command kuncar parents: 47924 diff changeset	40	assumes "(A ===> B) f g" and "A x x"
70375fa2679d generate abs_eq, use it as a code equation for total quotients; no_abs_code renamed to no_code; added no_code for quotient_type command kuncar parents: 47924 diff changeset	41	shows "B (f x) (g x)"
70375fa2679d generate abs_eq, use it as a code equation for total quotients; no_abs_code renamed to no_code; added no_code for quotient_type command kuncar parents: 47924 diff changeset	42	using assms unfolding fun_rel_def by auto
70375fa2679d generate abs_eq, use it as a code equation for total quotients; no_abs_code renamed to no_code; added no_code for quotient_type command kuncar parents: 47924 diff changeset	43
47325 ec6187036495 new transfer proof method huffman parents: diff changeset	44	lemma fun_relE:
ec6187036495 new transfer proof method huffman parents: diff changeset	45	assumes "(A ===> B) f g" and "A x y"
ec6187036495 new transfer proof method huffman parents: diff changeset	46	obtains "B (f x) (g y)"
ec6187036495 new transfer proof method huffman parents: diff changeset	47	using assms by (simp add: fun_rel_def)
ec6187036495 new transfer proof method huffman parents: diff changeset	48
ec6187036495 new transfer proof method huffman parents: diff changeset	49	lemma fun_rel_eq:
ec6187036495 new transfer proof method huffman parents: diff changeset	50	shows "((op =) ===> (op =)) = (op =)"
ec6187036495 new transfer proof method huffman parents: diff changeset	51	by (auto simp add: fun_eq_iff elim: fun_relE)
ec6187036495 new transfer proof method huffman parents: diff changeset	52
ec6187036495 new transfer proof method huffman parents: diff changeset	53	lemma fun_rel_eq_rel:
ec6187036495 new transfer proof method huffman parents: diff changeset	54	shows "((op =) ===> R) = (\<lambda>f g. \<forall>x. R (f x) (g x))"
ec6187036495 new transfer proof method huffman parents: diff changeset	55	by (simp add: fun_rel_def)
ec6187036495 new transfer proof method huffman parents: diff changeset	56
ec6187036495 new transfer proof method huffman parents: diff changeset	57
ec6187036495 new transfer proof method huffman parents: diff changeset	58	subsection {* Transfer method *}
ec6187036495 new transfer proof method huffman parents: diff changeset	59
47789 71a526ee569a implement transfer tactic with more scalable forward proof methods huffman parents: 47684 diff changeset	60	text {* Explicit tag for relation membership allows for
71a526ee569a implement transfer tactic with more scalable forward proof methods huffman parents: 47684 diff changeset	61	backward proof methods. *}
47325 ec6187036495 new transfer proof method huffman parents: diff changeset	62
ec6187036495 new transfer proof method huffman parents: diff changeset	63	definition Rel :: "('a \<Rightarrow> 'b \<Rightarrow> bool) \<Rightarrow> 'a \<Rightarrow> 'b \<Rightarrow> bool"
ec6187036495 new transfer proof method huffman parents: diff changeset	64	where "Rel r \<equiv> r"
ec6187036495 new transfer proof method huffman parents: diff changeset	65
49975 faf4afed009f transfer package: more flexible handling of equality relations using is_equality predicate huffman parents: 48891 diff changeset	66	text {* Handling of equality relations *}
faf4afed009f transfer package: more flexible handling of equality relations using is_equality predicate huffman parents: 48891 diff changeset	67
faf4afed009f transfer package: more flexible handling of equality relations using is_equality predicate huffman parents: 48891 diff changeset	68	definition is_equality :: "('a \<Rightarrow> 'a \<Rightarrow> bool) \<Rightarrow> bool"
faf4afed009f transfer package: more flexible handling of equality relations using is_equality predicate huffman parents: 48891 diff changeset	69	where "is_equality R \<longleftrightarrow> R = (op =)"
faf4afed009f transfer package: more flexible handling of equality relations using is_equality predicate huffman parents: 48891 diff changeset	70
51437 8739f8abbecb fixing transfer tactic - unfold fully identity relation by using relator_eq kuncar parents: 51112 diff changeset	71	lemma is_equality_eq: "is_equality (op =)"
8739f8abbecb fixing transfer tactic - unfold fully identity relation by using relator_eq kuncar parents: 51112 diff changeset	72	unfolding is_equality_def by simp
8739f8abbecb fixing transfer tactic - unfold fully identity relation by using relator_eq kuncar parents: 51112 diff changeset	73
52354 acb4f932dd24 implement 'transferred' attribute for transfer package, with support for monotonicity of !!/==> huffman parents: 51956 diff changeset	74	text {* Reverse implication for monotonicity rules *}
acb4f932dd24 implement 'transferred' attribute for transfer package, with support for monotonicity of !!/==> huffman parents: 51956 diff changeset	75
acb4f932dd24 implement 'transferred' attribute for transfer package, with support for monotonicity of !!/==> huffman parents: 51956 diff changeset	76	definition rev_implies where
acb4f932dd24 implement 'transferred' attribute for transfer package, with support for monotonicity of !!/==> huffman parents: 51956 diff changeset	77	"rev_implies x y \<longleftrightarrow> (y \<longrightarrow> x)"
acb4f932dd24 implement 'transferred' attribute for transfer package, with support for monotonicity of !!/==> huffman parents: 51956 diff changeset	78
47325 ec6187036495 new transfer proof method huffman parents: diff changeset	79	text {* Handling of meta-logic connectives *}
ec6187036495 new transfer proof method huffman parents: diff changeset	80
ec6187036495 new transfer proof method huffman parents: diff changeset	81	definition transfer_forall where
ec6187036495 new transfer proof method huffman parents: diff changeset	82	"transfer_forall \<equiv> All"
ec6187036495 new transfer proof method huffman parents: diff changeset	83
ec6187036495 new transfer proof method huffman parents: diff changeset	84	definition transfer_implies where
ec6187036495 new transfer proof method huffman parents: diff changeset	85	"transfer_implies \<equiv> op \<longrightarrow>"
ec6187036495 new transfer proof method huffman parents: diff changeset	86
47355 3d9d98e0f1a4 add bounded quantifier constant transfer_bforall, whose definition is unfolded after transfer huffman parents: 47325 diff changeset	87	definition transfer_bforall :: "('a \<Rightarrow> bool) \<Rightarrow> ('a \<Rightarrow> bool) \<Rightarrow> bool"
3d9d98e0f1a4 add bounded quantifier constant transfer_bforall, whose definition is unfolded after transfer huffman parents: 47325 diff changeset	88	where "transfer_bforall \<equiv> (\<lambda>P Q. \<forall>x. P x \<longrightarrow> Q x)"
3d9d98e0f1a4 add bounded quantifier constant transfer_bforall, whose definition is unfolded after transfer huffman parents: 47325 diff changeset	89
47325 ec6187036495 new transfer proof method huffman parents: diff changeset	90	lemma transfer_forall_eq: "(\<And>x. P x) \<equiv> Trueprop (transfer_forall (\<lambda>x. P x))"
ec6187036495 new transfer proof method huffman parents: diff changeset	91	unfolding atomize_all transfer_forall_def ..
ec6187036495 new transfer proof method huffman parents: diff changeset	92
ec6187036495 new transfer proof method huffman parents: diff changeset	93	lemma transfer_implies_eq: "(A \<Longrightarrow> B) \<equiv> Trueprop (transfer_implies A B)"
ec6187036495 new transfer proof method huffman parents: diff changeset	94	unfolding atomize_imp transfer_implies_def ..
ec6187036495 new transfer proof method huffman parents: diff changeset	95
47355 3d9d98e0f1a4 add bounded quantifier constant transfer_bforall, whose definition is unfolded after transfer huffman parents: 47325 diff changeset	96	lemma transfer_bforall_unfold:
3d9d98e0f1a4 add bounded quantifier constant transfer_bforall, whose definition is unfolded after transfer huffman parents: 47325 diff changeset	97	"Trueprop (transfer_bforall P (\<lambda>x. Q x)) \<equiv> (\<And>x. P x \<Longrightarrow> Q x)"
3d9d98e0f1a4 add bounded quantifier constant transfer_bforall, whose definition is unfolded after transfer huffman parents: 47325 diff changeset	98	unfolding transfer_bforall_def atomize_imp atomize_all ..
3d9d98e0f1a4 add bounded quantifier constant transfer_bforall, whose definition is unfolded after transfer huffman parents: 47325 diff changeset	99
47658 7631f6f7873d enable variant of transfer method that proves an implication instead of an equivalence huffman parents: 47637 diff changeset	100	lemma transfer_start: "\<lbrakk>P; Rel (op =) P Q\<rbrakk> \<Longrightarrow> Q"
47325 ec6187036495 new transfer proof method huffman parents: diff changeset	101	unfolding Rel_def by simp
ec6187036495 new transfer proof method huffman parents: diff changeset	102
47658 7631f6f7873d enable variant of transfer method that proves an implication instead of an equivalence huffman parents: 47637 diff changeset	103	lemma transfer_start': "\<lbrakk>P; Rel (op \<longrightarrow>) P Q\<rbrakk> \<Longrightarrow> Q"
47325 ec6187036495 new transfer proof method huffman parents: diff changeset	104	unfolding Rel_def by simp
ec6187036495 new transfer proof method huffman parents: diff changeset	105
47635 ebb79474262c rename 'correspondence' method to 'transfer_prover' huffman parents: 47627 diff changeset	106	lemma transfer_prover_start: "\<lbrakk>x = x'; Rel R x' y\<rbrakk> \<Longrightarrow> Rel R x y"
47618 1568dadd598a make correspondence tactic more robust by replacing lhs with schematic variable before applying intro rules huffman parents: 47612 diff changeset	107	by simp
1568dadd598a make correspondence tactic more robust by replacing lhs with schematic variable before applying intro rules huffman parents: 47612 diff changeset	108
52358 f4c4bcb0d564 implement 'untransferred' attribute, which is like 'transferred' but works in the opposite direction huffman parents: 52354 diff changeset	109	lemma untransfer_start: "\<lbrakk>Q; Rel (op =) P Q\<rbrakk> \<Longrightarrow> P"
f4c4bcb0d564 implement 'untransferred' attribute, which is like 'transferred' but works in the opposite direction huffman parents: 52354 diff changeset	110	unfolding Rel_def by simp
f4c4bcb0d564 implement 'untransferred' attribute, which is like 'transferred' but works in the opposite direction huffman parents: 52354 diff changeset	111
47325 ec6187036495 new transfer proof method huffman parents: diff changeset	112	lemma Rel_eq_refl: "Rel (op =) x x"
ec6187036495 new transfer proof method huffman parents: diff changeset	113	unfolding Rel_def ..
ec6187036495 new transfer proof method huffman parents: diff changeset	114
47789 71a526ee569a implement transfer tactic with more scalable forward proof methods huffman parents: 47684 diff changeset	115	lemma Rel_app:
47523 1bf0e92c1ca0 make transfer method more deterministic by using SOLVED' on some subgoals huffman parents: 47503 diff changeset	116	assumes "Rel (A ===> B) f g" and "Rel A x y"
47789 71a526ee569a implement transfer tactic with more scalable forward proof methods huffman parents: 47684 diff changeset	117	shows "Rel B (f x) (g y)"
71a526ee569a implement transfer tactic with more scalable forward proof methods huffman parents: 47684 diff changeset	118	using assms unfolding Rel_def fun_rel_def by fast
47523 1bf0e92c1ca0 make transfer method more deterministic by using SOLVED' on some subgoals huffman parents: 47503 diff changeset	119
47789 71a526ee569a implement transfer tactic with more scalable forward proof methods huffman parents: 47684 diff changeset	120	lemma Rel_abs:
47523 1bf0e92c1ca0 make transfer method more deterministic by using SOLVED' on some subgoals huffman parents: 47503 diff changeset	121	assumes "\<And>x y. Rel A x y \<Longrightarrow> Rel B (f x) (g y)"
47789 71a526ee569a implement transfer tactic with more scalable forward proof methods huffman parents: 47684 diff changeset	122	shows "Rel (A ===> B) (\<lambda>x. f x) (\<lambda>y. g y)"
71a526ee569a implement transfer tactic with more scalable forward proof methods huffman parents: 47684 diff changeset	123	using assms unfolding Rel_def fun_rel_def by fast
47523 1bf0e92c1ca0 make transfer method more deterministic by using SOLVED' on some subgoals huffman parents: 47503 diff changeset	124
53011 aeee0a4be6cf introduce locale with syntax for fun_rel and map_fun and make thus ===> and ---> local kuncar parents: 52358 diff changeset	125	end
aeee0a4be6cf introduce locale with syntax for fun_rel and map_fun and make thus ===> and ---> local kuncar parents: 52358 diff changeset	126
48891 c0eafbd55de3 prefer ML_file over old uses; wenzelm parents: 47937 diff changeset	127	ML_file "Tools/transfer.ML"
47325 ec6187036495 new transfer proof method huffman parents: diff changeset	128	setup Transfer.setup
ec6187036495 new transfer proof method huffman parents: diff changeset	129
49975 faf4afed009f transfer package: more flexible handling of equality relations using is_equality predicate huffman parents: 48891 diff changeset	130	declare refl [transfer_rule]
faf4afed009f transfer package: more flexible handling of equality relations using is_equality predicate huffman parents: 48891 diff changeset	131
47503 cb44d09d9d22 add theory data for relator identity rules; huffman parents: 47355 diff changeset	132	declare fun_rel_eq [relator_eq]
cb44d09d9d22 add theory data for relator identity rules; huffman parents: 47355 diff changeset	133
47789 71a526ee569a implement transfer tactic with more scalable forward proof methods huffman parents: 47684 diff changeset	134	hide_const (open) Rel
47325 ec6187036495 new transfer proof method huffman parents: diff changeset	135
53011 aeee0a4be6cf introduce locale with syntax for fun_rel and map_fun and make thus ===> and ---> local kuncar parents: 52358 diff changeset	136	context
aeee0a4be6cf introduce locale with syntax for fun_rel and map_fun and make thus ===> and ---> local kuncar parents: 52358 diff changeset	137	begin
aeee0a4be6cf introduce locale with syntax for fun_rel and map_fun and make thus ===> and ---> local kuncar parents: 52358 diff changeset	138	interpretation lifting_syntax .
aeee0a4be6cf introduce locale with syntax for fun_rel and map_fun and make thus ===> and ---> local kuncar parents: 52358 diff changeset	139
51956 a4d81cdebf8b better support for domains in Lifting/Transfer = replace Domainp T by the actual invariant in a transferred goal kuncar parents: 51955 diff changeset	140	text {* Handling of domains *}
a4d81cdebf8b better support for domains in Lifting/Transfer = replace Domainp T by the actual invariant in a transferred goal kuncar parents: 51955 diff changeset	141
a4d81cdebf8b better support for domains in Lifting/Transfer = replace Domainp T by the actual invariant in a transferred goal kuncar parents: 51955 diff changeset	142	lemma Domaimp_refl[transfer_domain_rule]:
a4d81cdebf8b better support for domains in Lifting/Transfer = replace Domainp T by the actual invariant in a transferred goal kuncar parents: 51955 diff changeset	143	"Domainp T = Domainp T" ..
47325 ec6187036495 new transfer proof method huffman parents: diff changeset	144
ec6187036495 new transfer proof method huffman parents: diff changeset	145	subsection {* Predicates on relations, i.e. ``class constraints'' *}
ec6187036495 new transfer proof method huffman parents: diff changeset	146
ec6187036495 new transfer proof method huffman parents: diff changeset	147	definition right_total :: "('a \<Rightarrow> 'b \<Rightarrow> bool) \<Rightarrow> bool"
ec6187036495 new transfer proof method huffman parents: diff changeset	148	where "right_total R \<longleftrightarrow> (\<forall>y. \<exists>x. R x y)"
ec6187036495 new transfer proof method huffman parents: diff changeset	149
ec6187036495 new transfer proof method huffman parents: diff changeset	150	definition right_unique :: "('a \<Rightarrow> 'b \<Rightarrow> bool) \<Rightarrow> bool"
ec6187036495 new transfer proof method huffman parents: diff changeset	151	where "right_unique R \<longleftrightarrow> (\<forall>x y z. R x y \<longrightarrow> R x z \<longrightarrow> y = z)"
ec6187036495 new transfer proof method huffman parents: diff changeset	152
ec6187036495 new transfer proof method huffman parents: diff changeset	153	definition bi_total :: "('a \<Rightarrow> 'b \<Rightarrow> bool) \<Rightarrow> bool"
ec6187036495 new transfer proof method huffman parents: diff changeset	154	where "bi_total R \<longleftrightarrow> (\<forall>x. \<exists>y. R x y) \<and> (\<forall>y. \<exists>x. R x y)"
ec6187036495 new transfer proof method huffman parents: diff changeset	155
ec6187036495 new transfer proof method huffman parents: diff changeset	156	definition bi_unique :: "('a \<Rightarrow> 'b \<Rightarrow> bool) \<Rightarrow> bool"
ec6187036495 new transfer proof method huffman parents: diff changeset	157	where "bi_unique R \<longleftrightarrow>
ec6187036495 new transfer proof method huffman parents: diff changeset	158	(\<forall>x y z. R x y \<longrightarrow> R x z \<longrightarrow> y = z) \<and>
ec6187036495 new transfer proof method huffman parents: diff changeset	159	(\<forall>x y z. R x z \<longrightarrow> R y z \<longrightarrow> x = y)"
ec6187036495 new transfer proof method huffman parents: diff changeset	160
53927 abe2b313f0e5 add lemmas Andreas Lochbihler parents: 53011 diff changeset	161	lemma bi_uniqueDr: "\<lbrakk> bi_unique A; A x y; A x z \<rbrakk> \<Longrightarrow> y = z"
abe2b313f0e5 add lemmas Andreas Lochbihler parents: 53011 diff changeset	162	by(simp add: bi_unique_def)
abe2b313f0e5 add lemmas Andreas Lochbihler parents: 53011 diff changeset	163
abe2b313f0e5 add lemmas Andreas Lochbihler parents: 53011 diff changeset	164	lemma bi_uniqueDl: "\<lbrakk> bi_unique A; A x y; A z y \<rbrakk> \<Longrightarrow> x = z"
abe2b313f0e5 add lemmas Andreas Lochbihler parents: 53011 diff changeset	165	by(simp add: bi_unique_def)
abe2b313f0e5 add lemmas Andreas Lochbihler parents: 53011 diff changeset	166
abe2b313f0e5 add lemmas Andreas Lochbihler parents: 53011 diff changeset	167	lemma right_uniqueI: "(\<And>x y z. \<lbrakk> A x y; A x z \<rbrakk> \<Longrightarrow> y = z) \<Longrightarrow> right_unique A"
abe2b313f0e5 add lemmas Andreas Lochbihler parents: 53011 diff changeset	168	unfolding right_unique_def by blast
abe2b313f0e5 add lemmas Andreas Lochbihler parents: 53011 diff changeset	169
abe2b313f0e5 add lemmas Andreas Lochbihler parents: 53011 diff changeset	170	lemma right_uniqueD: "\<lbrakk> right_unique A; A x y; A x z \<rbrakk> \<Longrightarrow> y = z"
abe2b313f0e5 add lemmas Andreas Lochbihler parents: 53011 diff changeset	171	unfolding right_unique_def by blast
abe2b313f0e5 add lemmas Andreas Lochbihler parents: 53011 diff changeset	172
47325 ec6187036495 new transfer proof method huffman parents: diff changeset	173	lemma right_total_alt_def:
ec6187036495 new transfer proof method huffman parents: diff changeset	174	"right_total R \<longleftrightarrow> ((R ===> op \<longrightarrow>) ===> op \<longrightarrow>) All All"
ec6187036495 new transfer proof method huffman parents: diff changeset	175	unfolding right_total_def fun_rel_def
ec6187036495 new transfer proof method huffman parents: diff changeset	176	apply (rule iffI, fast)
ec6187036495 new transfer proof method huffman parents: diff changeset	177	apply (rule allI)
ec6187036495 new transfer proof method huffman parents: diff changeset	178	apply (drule_tac x="\<lambda>x. True" in spec)
ec6187036495 new transfer proof method huffman parents: diff changeset	179	apply (drule_tac x="\<lambda>y. \<exists>x. R x y" in spec)
ec6187036495 new transfer proof method huffman parents: diff changeset	180	apply fast
ec6187036495 new transfer proof method huffman parents: diff changeset	181	done
ec6187036495 new transfer proof method huffman parents: diff changeset	182
ec6187036495 new transfer proof method huffman parents: diff changeset	183	lemma right_unique_alt_def:
ec6187036495 new transfer proof method huffman parents: diff changeset	184	"right_unique R \<longleftrightarrow> (R ===> R ===> op \<longrightarrow>) (op =) (op =)"
ec6187036495 new transfer proof method huffman parents: diff changeset	185	unfolding right_unique_def fun_rel_def by auto
ec6187036495 new transfer proof method huffman parents: diff changeset	186
ec6187036495 new transfer proof method huffman parents: diff changeset	187	lemma bi_total_alt_def:
ec6187036495 new transfer proof method huffman parents: diff changeset	188	"bi_total R \<longleftrightarrow> ((R ===> op =) ===> op =) All All"
ec6187036495 new transfer proof method huffman parents: diff changeset	189	unfolding bi_total_def fun_rel_def
ec6187036495 new transfer proof method huffman parents: diff changeset	190	apply (rule iffI, fast)
ec6187036495 new transfer proof method huffman parents: diff changeset	191	apply safe
ec6187036495 new transfer proof method huffman parents: diff changeset	192	apply (drule_tac x="\<lambda>x. \<exists>y. R x y" in spec)
ec6187036495 new transfer proof method huffman parents: diff changeset	193	apply (drule_tac x="\<lambda>y. True" in spec)
ec6187036495 new transfer proof method huffman parents: diff changeset	194	apply fast
ec6187036495 new transfer proof method huffman parents: diff changeset	195	apply (drule_tac x="\<lambda>x. True" in spec)
ec6187036495 new transfer proof method huffman parents: diff changeset	196	apply (drule_tac x="\<lambda>y. \<exists>x. R x y" in spec)
ec6187036495 new transfer proof method huffman parents: diff changeset	197	apply fast
ec6187036495 new transfer proof method huffman parents: diff changeset	198	done
ec6187036495 new transfer proof method huffman parents: diff changeset	199
ec6187036495 new transfer proof method huffman parents: diff changeset	200	lemma bi_unique_alt_def:
ec6187036495 new transfer proof method huffman parents: diff changeset	201	"bi_unique R \<longleftrightarrow> (R ===> R ===> op =) (op =) (op =)"
ec6187036495 new transfer proof method huffman parents: diff changeset	202	unfolding bi_unique_def fun_rel_def by auto
ec6187036495 new transfer proof method huffman parents: diff changeset	203
53944 50c8f7f21327 add lemmas Andreas Lochbihler parents: 53927 diff changeset	204	lemma bi_unique_conversep [simp]: "bi_unique R\<inverse>\<inverse> = bi_unique R"
50c8f7f21327 add lemmas Andreas Lochbihler parents: 53927 diff changeset	205	by(auto simp add: bi_unique_def)
50c8f7f21327 add lemmas Andreas Lochbihler parents: 53927 diff changeset	206
50c8f7f21327 add lemmas Andreas Lochbihler parents: 53927 diff changeset	207	lemma bi_total_conversep [simp]: "bi_total R\<inverse>\<inverse> = bi_total R"
50c8f7f21327 add lemmas Andreas Lochbihler parents: 53927 diff changeset	208	by(auto simp add: bi_total_def)
50c8f7f21327 add lemmas Andreas Lochbihler parents: 53927 diff changeset	209
47660 7a5c681c0265 new example theory for quotient/transfer huffman parents: 47658 diff changeset	210	text {* Properties are preserved by relation composition. *}
7a5c681c0265 new example theory for quotient/transfer huffman parents: 47658 diff changeset	211
7a5c681c0265 new example theory for quotient/transfer huffman parents: 47658 diff changeset	212	lemma OO_def: "R OO S = (\<lambda>x z. \<exists>y. R x y \<and> S y z)"
7a5c681c0265 new example theory for quotient/transfer huffman parents: 47658 diff changeset	213	by auto
7a5c681c0265 new example theory for quotient/transfer huffman parents: 47658 diff changeset	214
7a5c681c0265 new example theory for quotient/transfer huffman parents: 47658 diff changeset	215	lemma bi_total_OO: "\<lbrakk>bi_total A; bi_total B\<rbrakk> \<Longrightarrow> bi_total (A OO B)"
7a5c681c0265 new example theory for quotient/transfer huffman parents: 47658 diff changeset	216	unfolding bi_total_def OO_def by metis
7a5c681c0265 new example theory for quotient/transfer huffman parents: 47658 diff changeset	217
7a5c681c0265 new example theory for quotient/transfer huffman parents: 47658 diff changeset	218	lemma bi_unique_OO: "\<lbrakk>bi_unique A; bi_unique B\<rbrakk> \<Longrightarrow> bi_unique (A OO B)"
7a5c681c0265 new example theory for quotient/transfer huffman parents: 47658 diff changeset	219	unfolding bi_unique_def OO_def by metis
7a5c681c0265 new example theory for quotient/transfer huffman parents: 47658 diff changeset	220
7a5c681c0265 new example theory for quotient/transfer huffman parents: 47658 diff changeset	221	lemma right_total_OO:
7a5c681c0265 new example theory for quotient/transfer huffman parents: 47658 diff changeset	222	"\<lbrakk>right_total A; right_total B\<rbrakk> \<Longrightarrow> right_total (A OO B)"
7a5c681c0265 new example theory for quotient/transfer huffman parents: 47658 diff changeset	223	unfolding right_total_def OO_def by metis
7a5c681c0265 new example theory for quotient/transfer huffman parents: 47658 diff changeset	224
7a5c681c0265 new example theory for quotient/transfer huffman parents: 47658 diff changeset	225	lemma right_unique_OO:
7a5c681c0265 new example theory for quotient/transfer huffman parents: 47658 diff changeset	226	"\<lbrakk>right_unique A; right_unique B\<rbrakk> \<Longrightarrow> right_unique (A OO B)"
7a5c681c0265 new example theory for quotient/transfer huffman parents: 47658 diff changeset	227	unfolding right_unique_def OO_def by metis
7a5c681c0265 new example theory for quotient/transfer huffman parents: 47658 diff changeset	228
47325 ec6187036495 new transfer proof method huffman parents: diff changeset	229
ec6187036495 new transfer proof method huffman parents: diff changeset	230	subsection {* Properties of relators *}
ec6187036495 new transfer proof method huffman parents: diff changeset	231
ec6187036495 new transfer proof method huffman parents: diff changeset	232	lemma right_total_eq [transfer_rule]: "right_total (op =)"
ec6187036495 new transfer proof method huffman parents: diff changeset	233	unfolding right_total_def by simp
ec6187036495 new transfer proof method huffman parents: diff changeset	234
ec6187036495 new transfer proof method huffman parents: diff changeset	235	lemma right_unique_eq [transfer_rule]: "right_unique (op =)"
ec6187036495 new transfer proof method huffman parents: diff changeset	236	unfolding right_unique_def by simp
ec6187036495 new transfer proof method huffman parents: diff changeset	237
ec6187036495 new transfer proof method huffman parents: diff changeset	238	lemma bi_total_eq [transfer_rule]: "bi_total (op =)"
ec6187036495 new transfer proof method huffman parents: diff changeset	239	unfolding bi_total_def by simp
ec6187036495 new transfer proof method huffman parents: diff changeset	240
ec6187036495 new transfer proof method huffman parents: diff changeset	241	lemma bi_unique_eq [transfer_rule]: "bi_unique (op =)"
ec6187036495 new transfer proof method huffman parents: diff changeset	242	unfolding bi_unique_def by simp
ec6187036495 new transfer proof method huffman parents: diff changeset	243
ec6187036495 new transfer proof method huffman parents: diff changeset	244	lemma right_total_fun [transfer_rule]:
ec6187036495 new transfer proof method huffman parents: diff changeset	245	"\<lbrakk>right_unique A; right_total B\<rbrakk> \<Longrightarrow> right_total (A ===> B)"
ec6187036495 new transfer proof method huffman parents: diff changeset	246	unfolding right_total_def fun_rel_def
ec6187036495 new transfer proof method huffman parents: diff changeset	247	apply (rule allI, rename_tac g)
ec6187036495 new transfer proof method huffman parents: diff changeset	248	apply (rule_tac x="\<lambda>x. SOME z. B z (g (THE y. A x y))" in exI)
ec6187036495 new transfer proof method huffman parents: diff changeset	249	apply clarify
ec6187036495 new transfer proof method huffman parents: diff changeset	250	apply (subgoal_tac "(THE y. A x y) = y", simp)
ec6187036495 new transfer proof method huffman parents: diff changeset	251	apply (rule someI_ex)
ec6187036495 new transfer proof method huffman parents: diff changeset	252	apply (simp)
ec6187036495 new transfer proof method huffman parents: diff changeset	253	apply (rule the_equality)
ec6187036495 new transfer proof method huffman parents: diff changeset	254	apply assumption
ec6187036495 new transfer proof method huffman parents: diff changeset	255	apply (simp add: right_unique_def)
ec6187036495 new transfer proof method huffman parents: diff changeset	256	done
ec6187036495 new transfer proof method huffman parents: diff changeset	257
ec6187036495 new transfer proof method huffman parents: diff changeset	258	lemma right_unique_fun [transfer_rule]:
ec6187036495 new transfer proof method huffman parents: diff changeset	259	"\<lbrakk>right_total A; right_unique B\<rbrakk> \<Longrightarrow> right_unique (A ===> B)"
ec6187036495 new transfer proof method huffman parents: diff changeset	260	unfolding right_total_def right_unique_def fun_rel_def
ec6187036495 new transfer proof method huffman parents: diff changeset	261	by (clarify, rule ext, fast)
ec6187036495 new transfer proof method huffman parents: diff changeset	262
ec6187036495 new transfer proof method huffman parents: diff changeset	263	lemma bi_total_fun [transfer_rule]:
ec6187036495 new transfer proof method huffman parents: diff changeset	264	"\<lbrakk>bi_unique A; bi_total B\<rbrakk> \<Longrightarrow> bi_total (A ===> B)"
ec6187036495 new transfer proof method huffman parents: diff changeset	265	unfolding bi_total_def fun_rel_def
ec6187036495 new transfer proof method huffman parents: diff changeset	266	apply safe
ec6187036495 new transfer proof method huffman parents: diff changeset	267	apply (rename_tac f)
ec6187036495 new transfer proof method huffman parents: diff changeset	268	apply (rule_tac x="\<lambda>y. SOME z. B (f (THE x. A x y)) z" in exI)
ec6187036495 new transfer proof method huffman parents: diff changeset	269	apply clarify
ec6187036495 new transfer proof method huffman parents: diff changeset	270	apply (subgoal_tac "(THE x. A x y) = x", simp)
ec6187036495 new transfer proof method huffman parents: diff changeset	271	apply (rule someI_ex)
ec6187036495 new transfer proof method huffman parents: diff changeset	272	apply (simp)
ec6187036495 new transfer proof method huffman parents: diff changeset	273	apply (rule the_equality)
ec6187036495 new transfer proof method huffman parents: diff changeset	274	apply assumption
ec6187036495 new transfer proof method huffman parents: diff changeset	275	apply (simp add: bi_unique_def)
ec6187036495 new transfer proof method huffman parents: diff changeset	276	apply (rename_tac g)
ec6187036495 new transfer proof method huffman parents: diff changeset	277	apply (rule_tac x="\<lambda>x. SOME z. B z (g (THE y. A x y))" in exI)
ec6187036495 new transfer proof method huffman parents: diff changeset	278	apply clarify
ec6187036495 new transfer proof method huffman parents: diff changeset	279	apply (subgoal_tac "(THE y. A x y) = y", simp)
ec6187036495 new transfer proof method huffman parents: diff changeset	280	apply (rule someI_ex)
ec6187036495 new transfer proof method huffman parents: diff changeset	281	apply (simp)
ec6187036495 new transfer proof method huffman parents: diff changeset	282	apply (rule the_equality)
ec6187036495 new transfer proof method huffman parents: diff changeset	283	apply assumption
ec6187036495 new transfer proof method huffman parents: diff changeset	284	apply (simp add: bi_unique_def)
ec6187036495 new transfer proof method huffman parents: diff changeset	285	done
ec6187036495 new transfer proof method huffman parents: diff changeset	286
ec6187036495 new transfer proof method huffman parents: diff changeset	287	lemma bi_unique_fun [transfer_rule]:
ec6187036495 new transfer proof method huffman parents: diff changeset	288	"\<lbrakk>bi_total A; bi_unique B\<rbrakk> \<Longrightarrow> bi_unique (A ===> B)"
ec6187036495 new transfer proof method huffman parents: diff changeset	289	unfolding bi_total_def bi_unique_def fun_rel_def fun_eq_iff
ec6187036495 new transfer proof method huffman parents: diff changeset	290	by (safe, metis, fast)
ec6187036495 new transfer proof method huffman parents: diff changeset	291
ec6187036495 new transfer proof method huffman parents: diff changeset	292
47635 ebb79474262c rename 'correspondence' method to 'transfer_prover' huffman parents: 47627 diff changeset	293	subsection {* Transfer rules *}
47325 ec6187036495 new transfer proof method huffman parents: diff changeset	294
53952 b2781a3ce958 new parametricity rules and useful lemmas kuncar parents: 53944 diff changeset	295	lemma Domainp_iff: "Domainp T x \<longleftrightarrow> (\<exists>y. T x y)"
b2781a3ce958 new parametricity rules and useful lemmas kuncar parents: 53944 diff changeset	296	by auto
b2781a3ce958 new parametricity rules and useful lemmas kuncar parents: 53944 diff changeset	297
b2781a3ce958 new parametricity rules and useful lemmas kuncar parents: 53944 diff changeset	298	lemma Domainp_forall_transfer [transfer_rule]:
b2781a3ce958 new parametricity rules and useful lemmas kuncar parents: 53944 diff changeset	299	assumes "right_total A"
b2781a3ce958 new parametricity rules and useful lemmas kuncar parents: 53944 diff changeset	300	shows "((A ===> op =) ===> op =)
b2781a3ce958 new parametricity rules and useful lemmas kuncar parents: 53944 diff changeset	301	(transfer_bforall (Domainp A)) transfer_forall"
b2781a3ce958 new parametricity rules and useful lemmas kuncar parents: 53944 diff changeset	302	using assms unfolding right_total_def
b2781a3ce958 new parametricity rules and useful lemmas kuncar parents: 53944 diff changeset	303	unfolding transfer_forall_def transfer_bforall_def fun_rel_def Domainp_iff
b2781a3ce958 new parametricity rules and useful lemmas kuncar parents: 53944 diff changeset	304	by metis
b2781a3ce958 new parametricity rules and useful lemmas kuncar parents: 53944 diff changeset	305
47684 ead185e60b8c tuned precedence order of transfer rules huffman parents: 47660 diff changeset	306	text {* Transfer rules using implication instead of equality on booleans. *}
ead185e60b8c tuned precedence order of transfer rules huffman parents: 47660 diff changeset	307
52354 acb4f932dd24 implement 'transferred' attribute for transfer package, with support for monotonicity of !!/==> huffman parents: 51956 diff changeset	308	lemma transfer_forall_transfer [transfer_rule]:
acb4f932dd24 implement 'transferred' attribute for transfer package, with support for monotonicity of !!/==> huffman parents: 51956 diff changeset	309	"bi_total A \<Longrightarrow> ((A ===> op =) ===> op =) transfer_forall transfer_forall"
acb4f932dd24 implement 'transferred' attribute for transfer package, with support for monotonicity of !!/==> huffman parents: 51956 diff changeset	310	"right_total A \<Longrightarrow> ((A ===> op =) ===> implies) transfer_forall transfer_forall"
acb4f932dd24 implement 'transferred' attribute for transfer package, with support for monotonicity of !!/==> huffman parents: 51956 diff changeset	311	"right_total A \<Longrightarrow> ((A ===> implies) ===> implies) transfer_forall transfer_forall"
acb4f932dd24 implement 'transferred' attribute for transfer package, with support for monotonicity of !!/==> huffman parents: 51956 diff changeset	312	"bi_total A \<Longrightarrow> ((A ===> op =) ===> rev_implies) transfer_forall transfer_forall"
acb4f932dd24 implement 'transferred' attribute for transfer package, with support for monotonicity of !!/==> huffman parents: 51956 diff changeset	313	"bi_total A \<Longrightarrow> ((A ===> rev_implies) ===> rev_implies) transfer_forall transfer_forall"
acb4f932dd24 implement 'transferred' attribute for transfer package, with support for monotonicity of !!/==> huffman parents: 51956 diff changeset	314	unfolding transfer_forall_def rev_implies_def fun_rel_def right_total_def bi_total_def
acb4f932dd24 implement 'transferred' attribute for transfer package, with support for monotonicity of !!/==> huffman parents: 51956 diff changeset	315	by metis+
acb4f932dd24 implement 'transferred' attribute for transfer package, with support for monotonicity of !!/==> huffman parents: 51956 diff changeset	316
acb4f932dd24 implement 'transferred' attribute for transfer package, with support for monotonicity of !!/==> huffman parents: 51956 diff changeset	317	lemma transfer_implies_transfer [transfer_rule]:
acb4f932dd24 implement 'transferred' attribute for transfer package, with support for monotonicity of !!/==> huffman parents: 51956 diff changeset	318	"(op = ===> op = ===> op = ) transfer_implies transfer_implies"
acb4f932dd24 implement 'transferred' attribute for transfer package, with support for monotonicity of !!/==> huffman parents: 51956 diff changeset	319	"(rev_implies ===> implies ===> implies ) transfer_implies transfer_implies"
acb4f932dd24 implement 'transferred' attribute for transfer package, with support for monotonicity of !!/==> huffman parents: 51956 diff changeset	320	"(rev_implies ===> op = ===> implies ) transfer_implies transfer_implies"
acb4f932dd24 implement 'transferred' attribute for transfer package, with support for monotonicity of !!/==> huffman parents: 51956 diff changeset	321	"(op = ===> implies ===> implies ) transfer_implies transfer_implies"
acb4f932dd24 implement 'transferred' attribute for transfer package, with support for monotonicity of !!/==> huffman parents: 51956 diff changeset	322	"(op = ===> op = ===> implies ) transfer_implies transfer_implies"
acb4f932dd24 implement 'transferred' attribute for transfer package, with support for monotonicity of !!/==> huffman parents: 51956 diff changeset	323	"(implies ===> rev_implies ===> rev_implies) transfer_implies transfer_implies"
acb4f932dd24 implement 'transferred' attribute for transfer package, with support for monotonicity of !!/==> huffman parents: 51956 diff changeset	324	"(implies ===> op = ===> rev_implies) transfer_implies transfer_implies"
acb4f932dd24 implement 'transferred' attribute for transfer package, with support for monotonicity of !!/==> huffman parents: 51956 diff changeset	325	"(op = ===> rev_implies ===> rev_implies) transfer_implies transfer_implies"
acb4f932dd24 implement 'transferred' attribute for transfer package, with support for monotonicity of !!/==> huffman parents: 51956 diff changeset	326	"(op = ===> op = ===> rev_implies) transfer_implies transfer_implies"
acb4f932dd24 implement 'transferred' attribute for transfer package, with support for monotonicity of !!/==> huffman parents: 51956 diff changeset	327	unfolding transfer_implies_def rev_implies_def fun_rel_def by auto
acb4f932dd24 implement 'transferred' attribute for transfer package, with support for monotonicity of !!/==> huffman parents: 51956 diff changeset	328
47684 ead185e60b8c tuned precedence order of transfer rules huffman parents: 47660 diff changeset	329	lemma eq_imp_transfer [transfer_rule]:
ead185e60b8c tuned precedence order of transfer rules huffman parents: 47660 diff changeset	330	"right_unique A \<Longrightarrow> (A ===> A ===> op \<longrightarrow>) (op =) (op =)"
ead185e60b8c tuned precedence order of transfer rules huffman parents: 47660 diff changeset	331	unfolding right_unique_alt_def .
ead185e60b8c tuned precedence order of transfer rules huffman parents: 47660 diff changeset	332
47636 b786388b4b3a uniform naming scheme for transfer rules huffman parents: 47635 diff changeset	333	lemma eq_transfer [transfer_rule]:
47325 ec6187036495 new transfer proof method huffman parents: diff changeset	334	assumes "bi_unique A"
ec6187036495 new transfer proof method huffman parents: diff changeset	335	shows "(A ===> A ===> op =) (op =) (op =)"
ec6187036495 new transfer proof method huffman parents: diff changeset	336	using assms unfolding bi_unique_def fun_rel_def by auto
ec6187036495 new transfer proof method huffman parents: diff changeset	337
51956 a4d81cdebf8b better support for domains in Lifting/Transfer = replace Domainp T by the actual invariant in a transferred goal kuncar parents: 51955 diff changeset	338	lemma right_total_Ex_transfer[transfer_rule]:
a4d81cdebf8b better support for domains in Lifting/Transfer = replace Domainp T by the actual invariant in a transferred goal kuncar parents: 51955 diff changeset	339	assumes "right_total A"
a4d81cdebf8b better support for domains in Lifting/Transfer = replace Domainp T by the actual invariant in a transferred goal kuncar parents: 51955 diff changeset	340	shows "((A ===> op=) ===> op=) (Bex (Collect (Domainp A))) Ex"
a4d81cdebf8b better support for domains in Lifting/Transfer = replace Domainp T by the actual invariant in a transferred goal kuncar parents: 51955 diff changeset	341	using assms unfolding right_total_def Bex_def fun_rel_def Domainp_iff[abs_def]
a4d81cdebf8b better support for domains in Lifting/Transfer = replace Domainp T by the actual invariant in a transferred goal kuncar parents: 51955 diff changeset	342	by blast
a4d81cdebf8b better support for domains in Lifting/Transfer = replace Domainp T by the actual invariant in a transferred goal kuncar parents: 51955 diff changeset	343
a4d81cdebf8b better support for domains in Lifting/Transfer = replace Domainp T by the actual invariant in a transferred goal kuncar parents: 51955 diff changeset	344	lemma right_total_All_transfer[transfer_rule]:
a4d81cdebf8b better support for domains in Lifting/Transfer = replace Domainp T by the actual invariant in a transferred goal kuncar parents: 51955 diff changeset	345	assumes "right_total A"
a4d81cdebf8b better support for domains in Lifting/Transfer = replace Domainp T by the actual invariant in a transferred goal kuncar parents: 51955 diff changeset	346	shows "((A ===> op =) ===> op =) (Ball (Collect (Domainp A))) All"
a4d81cdebf8b better support for domains in Lifting/Transfer = replace Domainp T by the actual invariant in a transferred goal kuncar parents: 51955 diff changeset	347	using assms unfolding right_total_def Ball_def fun_rel_def Domainp_iff[abs_def]
a4d81cdebf8b better support for domains in Lifting/Transfer = replace Domainp T by the actual invariant in a transferred goal kuncar parents: 51955 diff changeset	348	by blast
a4d81cdebf8b better support for domains in Lifting/Transfer = replace Domainp T by the actual invariant in a transferred goal kuncar parents: 51955 diff changeset	349
47636 b786388b4b3a uniform naming scheme for transfer rules huffman parents: 47635 diff changeset	350	lemma All_transfer [transfer_rule]:
47325 ec6187036495 new transfer proof method huffman parents: diff changeset	351	assumes "bi_total A"
ec6187036495 new transfer proof method huffman parents: diff changeset	352	shows "((A ===> op =) ===> op =) All All"
ec6187036495 new transfer proof method huffman parents: diff changeset	353	using assms unfolding bi_total_def fun_rel_def by fast
ec6187036495 new transfer proof method huffman parents: diff changeset	354
47636 b786388b4b3a uniform naming scheme for transfer rules huffman parents: 47635 diff changeset	355	lemma Ex_transfer [transfer_rule]:
47325 ec6187036495 new transfer proof method huffman parents: diff changeset	356	assumes "bi_total A"
ec6187036495 new transfer proof method huffman parents: diff changeset	357	shows "((A ===> op =) ===> op =) Ex Ex"
ec6187036495 new transfer proof method huffman parents: diff changeset	358	using assms unfolding bi_total_def fun_rel_def by fast
ec6187036495 new transfer proof method huffman parents: diff changeset	359
47636 b786388b4b3a uniform naming scheme for transfer rules huffman parents: 47635 diff changeset	360	lemma If_transfer [transfer_rule]: "(op = ===> A ===> A ===> A) If If"
47325 ec6187036495 new transfer proof method huffman parents: diff changeset	361	unfolding fun_rel_def by simp
ec6187036495 new transfer proof method huffman parents: diff changeset	362
47636 b786388b4b3a uniform naming scheme for transfer rules huffman parents: 47635 diff changeset	363	lemma Let_transfer [transfer_rule]: "(A ===> (A ===> B) ===> B) Let Let"
47612 bc9c7b5c26fd add transfer rule for Let huffman parents: 47523 diff changeset	364	unfolding fun_rel_def by simp
bc9c7b5c26fd add transfer rule for Let huffman parents: 47523 diff changeset	365
47636 b786388b4b3a uniform naming scheme for transfer rules huffman parents: 47635 diff changeset	366	lemma id_transfer [transfer_rule]: "(A ===> A) id id"
47625 10cfaf771687 add transfer rule for 'id' huffman parents: 47618 diff changeset	367	unfolding fun_rel_def by simp
10cfaf771687 add transfer rule for 'id' huffman parents: 47618 diff changeset	368
47636 b786388b4b3a uniform naming scheme for transfer rules huffman parents: 47635 diff changeset	369	lemma comp_transfer [transfer_rule]:
47325 ec6187036495 new transfer proof method huffman parents: diff changeset	370	"((B ===> C) ===> (A ===> B) ===> (A ===> C)) (op \<circ>) (op \<circ>)"
ec6187036495 new transfer proof method huffman parents: diff changeset	371	unfolding fun_rel_def by simp
ec6187036495 new transfer proof method huffman parents: diff changeset	372
47636 b786388b4b3a uniform naming scheme for transfer rules huffman parents: 47635 diff changeset	373	lemma fun_upd_transfer [transfer_rule]:
47325 ec6187036495 new transfer proof method huffman parents: diff changeset	374	assumes [transfer_rule]: "bi_unique A"
ec6187036495 new transfer proof method huffman parents: diff changeset	375	shows "((A ===> B) ===> A ===> B ===> A ===> B) fun_upd fun_upd"
47635 ebb79474262c rename 'correspondence' method to 'transfer_prover' huffman parents: 47627 diff changeset	376	unfolding fun_upd_def [abs_def] by transfer_prover
47325 ec6187036495 new transfer proof method huffman parents: diff changeset	377
47637 7a34395441ff add transfer rule for nat_case huffman parents: 47636 diff changeset	378	lemma nat_case_transfer [transfer_rule]:
7a34395441ff add transfer rule for nat_case huffman parents: 47636 diff changeset	379	"(A ===> (op = ===> A) ===> op = ===> A) nat_case nat_case"
7a34395441ff add transfer rule for nat_case huffman parents: 47636 diff changeset	380	unfolding fun_rel_def by (simp split: nat.split)
47627 2b1d3eda59eb add secondary transfer rule for universal quantifiers on non-bi-total relations huffman parents: 47625 diff changeset	381
47924 4e951258204b add transfer rules for nat_rec and funpow huffman parents: 47789 diff changeset	382	lemma nat_rec_transfer [transfer_rule]:
4e951258204b add transfer rules for nat_rec and funpow huffman parents: 47789 diff changeset	383	"(A ===> (op = ===> A ===> A) ===> op = ===> A) nat_rec nat_rec"
4e951258204b add transfer rules for nat_rec and funpow huffman parents: 47789 diff changeset	384	unfolding fun_rel_def by (clarsimp, rename_tac n, induct_tac n, simp_all)
4e951258204b add transfer rules for nat_rec and funpow huffman parents: 47789 diff changeset	385
4e951258204b add transfer rules for nat_rec and funpow huffman parents: 47789 diff changeset	386	lemma funpow_transfer [transfer_rule]:
4e951258204b add transfer rules for nat_rec and funpow huffman parents: 47789 diff changeset	387	"(op = ===> (A ===> A) ===> (A ===> A)) compow compow"
4e951258204b add transfer rules for nat_rec and funpow huffman parents: 47789 diff changeset	388	unfolding funpow_def by transfer_prover
4e951258204b add transfer rules for nat_rec and funpow huffman parents: 47789 diff changeset	389
53952 b2781a3ce958 new parametricity rules and useful lemmas kuncar parents: 53944 diff changeset	390	lemma mono_transfer[transfer_rule]:
b2781a3ce958 new parametricity rules and useful lemmas kuncar parents: 53944 diff changeset	391	assumes [transfer_rule]: "bi_total A"
b2781a3ce958 new parametricity rules and useful lemmas kuncar parents: 53944 diff changeset	392	assumes [transfer_rule]: "(A ===> A ===> op=) op\<le> op\<le>"
b2781a3ce958 new parametricity rules and useful lemmas kuncar parents: 53944 diff changeset	393	assumes [transfer_rule]: "(B ===> B ===> op=) op\<le> op\<le>"
b2781a3ce958 new parametricity rules and useful lemmas kuncar parents: 53944 diff changeset	394	shows "((A ===> B) ===> op=) mono mono"
b2781a3ce958 new parametricity rules and useful lemmas kuncar parents: 53944 diff changeset	395	unfolding mono_def[abs_def] by transfer_prover
b2781a3ce958 new parametricity rules and useful lemmas kuncar parents: 53944 diff changeset	396
b2781a3ce958 new parametricity rules and useful lemmas kuncar parents: 53944 diff changeset	397	lemma right_total_relcompp_transfer[transfer_rule]:
b2781a3ce958 new parametricity rules and useful lemmas kuncar parents: 53944 diff changeset	398	assumes [transfer_rule]: "right_total B"
b2781a3ce958 new parametricity rules and useful lemmas kuncar parents: 53944 diff changeset	399	shows "((A ===> B ===> op=) ===> (B ===> C ===> op=) ===> A ===> C ===> op=)
b2781a3ce958 new parametricity rules and useful lemmas kuncar parents: 53944 diff changeset	400	(\<lambda>R S x z. \<exists>y\<in>Collect (Domainp B). R x y \<and> S y z) op OO"
b2781a3ce958 new parametricity rules and useful lemmas kuncar parents: 53944 diff changeset	401	unfolding OO_def[abs_def] by transfer_prover
b2781a3ce958 new parametricity rules and useful lemmas kuncar parents: 53944 diff changeset	402
b2781a3ce958 new parametricity rules and useful lemmas kuncar parents: 53944 diff changeset	403	lemma relcompp_transfer[transfer_rule]:
b2781a3ce958 new parametricity rules and useful lemmas kuncar parents: 53944 diff changeset	404	assumes [transfer_rule]: "bi_total B"
b2781a3ce958 new parametricity rules and useful lemmas kuncar parents: 53944 diff changeset	405	shows "((A ===> B ===> op=) ===> (B ===> C ===> op=) ===> A ===> C ===> op=) op OO op OO"
b2781a3ce958 new parametricity rules and useful lemmas kuncar parents: 53944 diff changeset	406	unfolding OO_def[abs_def] by transfer_prover
47627 2b1d3eda59eb add secondary transfer rule for universal quantifiers on non-bi-total relations huffman parents: 47625 diff changeset	407
53952 b2781a3ce958 new parametricity rules and useful lemmas kuncar parents: 53944 diff changeset	408	lemma right_total_Domainp_transfer[transfer_rule]:
b2781a3ce958 new parametricity rules and useful lemmas kuncar parents: 53944 diff changeset	409	assumes [transfer_rule]: "right_total B"
b2781a3ce958 new parametricity rules and useful lemmas kuncar parents: 53944 diff changeset	410	shows "((A ===> B ===> op=) ===> A ===> op=) (\<lambda>T x. \<exists>y\<in>Collect(Domainp B). T x y) Domainp"
b2781a3ce958 new parametricity rules and useful lemmas kuncar parents: 53944 diff changeset	411	apply(subst(2) Domainp_iff[abs_def]) by transfer_prover
b2781a3ce958 new parametricity rules and useful lemmas kuncar parents: 53944 diff changeset	412
b2781a3ce958 new parametricity rules and useful lemmas kuncar parents: 53944 diff changeset	413	lemma Domainp_transfer[transfer_rule]:
b2781a3ce958 new parametricity rules and useful lemmas kuncar parents: 53944 diff changeset	414	assumes [transfer_rule]: "bi_total B"
b2781a3ce958 new parametricity rules and useful lemmas kuncar parents: 53944 diff changeset	415	shows "((A ===> B ===> op=) ===> A ===> op=) Domainp Domainp"
b2781a3ce958 new parametricity rules and useful lemmas kuncar parents: 53944 diff changeset	416	unfolding Domainp_iff[abs_def] by transfer_prover
b2781a3ce958 new parametricity rules and useful lemmas kuncar parents: 53944 diff changeset	417
b2781a3ce958 new parametricity rules and useful lemmas kuncar parents: 53944 diff changeset	418	lemma reflp_transfer[transfer_rule]:
b2781a3ce958 new parametricity rules and useful lemmas kuncar parents: 53944 diff changeset	419	"bi_total A \<Longrightarrow> ((A ===> A ===> op=) ===> op=) reflp reflp"
b2781a3ce958 new parametricity rules and useful lemmas kuncar parents: 53944 diff changeset	420	"right_total A \<Longrightarrow> ((A ===> A ===> implies) ===> implies) reflp reflp"
b2781a3ce958 new parametricity rules and useful lemmas kuncar parents: 53944 diff changeset	421	"right_total A \<Longrightarrow> ((A ===> A ===> op=) ===> implies) reflp reflp"
b2781a3ce958 new parametricity rules and useful lemmas kuncar parents: 53944 diff changeset	422	"bi_total A \<Longrightarrow> ((A ===> A ===> rev_implies) ===> rev_implies) reflp reflp"
b2781a3ce958 new parametricity rules and useful lemmas kuncar parents: 53944 diff changeset	423	"bi_total A \<Longrightarrow> ((A ===> A ===> op=) ===> rev_implies) reflp reflp"
b2781a3ce958 new parametricity rules and useful lemmas kuncar parents: 53944 diff changeset	424	using assms unfolding reflp_def[abs_def] rev_implies_def bi_total_def right_total_def fun_rel_def
b2781a3ce958 new parametricity rules and useful lemmas kuncar parents: 53944 diff changeset	425	by fast+
b2781a3ce958 new parametricity rules and useful lemmas kuncar parents: 53944 diff changeset	426
b2781a3ce958 new parametricity rules and useful lemmas kuncar parents: 53944 diff changeset	427	lemma right_unique_transfer [transfer_rule]:
b2781a3ce958 new parametricity rules and useful lemmas kuncar parents: 53944 diff changeset	428	assumes [transfer_rule]: "right_total A"
b2781a3ce958 new parametricity rules and useful lemmas kuncar parents: 53944 diff changeset	429	assumes [transfer_rule]: "right_total B"
b2781a3ce958 new parametricity rules and useful lemmas kuncar parents: 53944 diff changeset	430	assumes [transfer_rule]: "bi_unique B"
b2781a3ce958 new parametricity rules and useful lemmas kuncar parents: 53944 diff changeset	431	shows "((A ===> B ===> op=) ===> implies) right_unique right_unique"
b2781a3ce958 new parametricity rules and useful lemmas kuncar parents: 53944 diff changeset	432	using assms unfolding right_unique_def[abs_def] right_total_def bi_unique_def fun_rel_def
b2781a3ce958 new parametricity rules and useful lemmas kuncar parents: 53944 diff changeset	433	by metis
47325 ec6187036495 new transfer proof method huffman parents: diff changeset	434
ec6187036495 new transfer proof method huffman parents: diff changeset	435	end
53011 aeee0a4be6cf introduce locale with syntax for fun_rel and map_fun and make thus ===> and ---> local kuncar parents: 52358 diff changeset	436
aeee0a4be6cf introduce locale with syntax for fun_rel and map_fun and make thus ===> and ---> local kuncar parents: 52358 diff changeset	437	end

author	blanchet
	Mon, 20 Jan 2014 18:24:56 +0100
changeset 55071	8ae6f86a3477
parent 53952	b2781a3ce958
child 55084	8ee9aabb2bca
permissions	-rw-r--r--