isabelle: src/HOL/MicroJava/BV/SemilatAlg.thy@a4ad0c08b7d9 (annotated)

13062 4b1edf2f6bd2 small refactoring for lbv with semilattices kleing parents: diff changeset	1	(* Title: HOL/MicroJava/BV/SemilatAlg.thy
4b1edf2f6bd2 small refactoring for lbv with semilattices kleing parents: diff changeset	2	ID: $Id$
4b1edf2f6bd2 small refactoring for lbv with semilattices kleing parents: diff changeset	3	Author: Gerwin Klein
4b1edf2f6bd2 small refactoring for lbv with semilattices kleing parents: diff changeset	4	Copyright 2002 Technische Universitaet Muenchen
4b1edf2f6bd2 small refactoring for lbv with semilattices kleing parents: diff changeset	5	*)
4b1edf2f6bd2 small refactoring for lbv with semilattices kleing parents: diff changeset	6
4b1edf2f6bd2 small refactoring for lbv with semilattices kleing parents: diff changeset	7	header {* \isaheader{More on Semilattices} *}
4b1edf2f6bd2 small refactoring for lbv with semilattices kleing parents: diff changeset	8
27681 8cedebf55539 dropped locale (open) haftmann parents: 27611 diff changeset	9	theory SemilatAlg
8cedebf55539 dropped locale (open) haftmann parents: 27611 diff changeset	10	imports Typing_Framework Product
8cedebf55539 dropped locale (open) haftmann parents: 27611 diff changeset	11	begin
13062 4b1edf2f6bd2 small refactoring for lbv with semilattices kleing parents: diff changeset	12
4b1edf2f6bd2 small refactoring for lbv with semilattices kleing parents: diff changeset	13
13066 b57d926d1de2 cleanup + simpler monotonicity kleing parents: 13062 diff changeset	14	constdefs
b57d926d1de2 cleanup + simpler monotonicity kleing parents: 13062 diff changeset	15	lesubstep_type :: "(nat \<times> 's) list \<Rightarrow> 's ord \<Rightarrow> (nat \<times> 's) list \<Rightarrow> bool"
b57d926d1de2 cleanup + simpler monotonicity kleing parents: 13062 diff changeset	16	("(_ /<=\|_\| _)" [50, 0, 51] 50)
b57d926d1de2 cleanup + simpler monotonicity kleing parents: 13062 diff changeset	17	"x <=\|r\| y \<equiv> \<forall>(p,s) \<in> set x. \<exists>s'. (p,s') \<in> set y \<and> s <=_r s'"
b57d926d1de2 cleanup + simpler monotonicity kleing parents: 13062 diff changeset	18
13062 4b1edf2f6bd2 small refactoring for lbv with semilattices kleing parents: diff changeset	19	consts
4b1edf2f6bd2 small refactoring for lbv with semilattices kleing parents: diff changeset	20	"@plusplussub" :: "'a list \<Rightarrow> ('a \<Rightarrow> 'a \<Rightarrow> 'a) \<Rightarrow> 'a \<Rightarrow> 'a" ("(_ /++'__ _)" [65, 1000, 66] 65)
4b1edf2f6bd2 small refactoring for lbv with semilattices kleing parents: diff changeset	21	primrec
4b1edf2f6bd2 small refactoring for lbv with semilattices kleing parents: diff changeset	22	"[] ++_f y = y"
4b1edf2f6bd2 small refactoring for lbv with semilattices kleing parents: diff changeset	23	"(x#xs) ++_f y = xs ++_f (x +_f y)"
4b1edf2f6bd2 small refactoring for lbv with semilattices kleing parents: diff changeset	24
4b1edf2f6bd2 small refactoring for lbv with semilattices kleing parents: diff changeset	25	constdefs
4b1edf2f6bd2 small refactoring for lbv with semilattices kleing parents: diff changeset	26	bounded :: "'s step_type \<Rightarrow> nat \<Rightarrow> bool"
4b1edf2f6bd2 small refactoring for lbv with semilattices kleing parents: diff changeset	27	"bounded step n == !p<n. !s. !(q,t):set(step p s). q<n"
4b1edf2f6bd2 small refactoring for lbv with semilattices kleing parents: diff changeset	28
4b1edf2f6bd2 small refactoring for lbv with semilattices kleing parents: diff changeset	29	pres_type :: "'s step_type \<Rightarrow> nat \<Rightarrow> 's set \<Rightarrow> bool"
4b1edf2f6bd2 small refactoring for lbv with semilattices kleing parents: diff changeset	30	"pres_type step n A == \<forall>s\<in>A. \<forall>p<n. \<forall>(q,s')\<in>set (step p s). s' \<in> A"
4b1edf2f6bd2 small refactoring for lbv with semilattices kleing parents: diff changeset	31
4b1edf2f6bd2 small refactoring for lbv with semilattices kleing parents: diff changeset	32	mono :: "'s ord \<Rightarrow> 's step_type \<Rightarrow> nat \<Rightarrow> 's set \<Rightarrow> bool"
4b1edf2f6bd2 small refactoring for lbv with semilattices kleing parents: diff changeset	33	"mono r step n A ==
4b1edf2f6bd2 small refactoring for lbv with semilattices kleing parents: diff changeset	34	\<forall>s p t. s \<in> A \<and> p < n \<and> s <=_r t \<longrightarrow> step p s <=\|r\| step p t"
4b1edf2f6bd2 small refactoring for lbv with semilattices kleing parents: diff changeset	35
4b1edf2f6bd2 small refactoring for lbv with semilattices kleing parents: diff changeset	36
4b1edf2f6bd2 small refactoring for lbv with semilattices kleing parents: diff changeset	37	lemma pres_typeD:
4b1edf2f6bd2 small refactoring for lbv with semilattices kleing parents: diff changeset	38	"\<lbrakk> pres_type step n A; s\<in>A; p<n; (q,s')\<in>set (step p s) \<rbrakk> \<Longrightarrow> s' \<in> A"
4b1edf2f6bd2 small refactoring for lbv with semilattices kleing parents: diff changeset	39	by (unfold pres_type_def, blast)
4b1edf2f6bd2 small refactoring for lbv with semilattices kleing parents: diff changeset	40
4b1edf2f6bd2 small refactoring for lbv with semilattices kleing parents: diff changeset	41	lemma monoD:
4b1edf2f6bd2 small refactoring for lbv with semilattices kleing parents: diff changeset	42	"\<lbrakk> mono r step n A; p < n; s\<in>A; s <=_r t \<rbrakk> \<Longrightarrow> step p s <=\|r\| step p t"
4b1edf2f6bd2 small refactoring for lbv with semilattices kleing parents: diff changeset	43	by (unfold mono_def, blast)
4b1edf2f6bd2 small refactoring for lbv with semilattices kleing parents: diff changeset	44
4b1edf2f6bd2 small refactoring for lbv with semilattices kleing parents: diff changeset	45	lemma boundedD:
4b1edf2f6bd2 small refactoring for lbv with semilattices kleing parents: diff changeset	46	"\<lbrakk> bounded step n; p < n; (q,t) : set (step p xs) \<rbrakk> \<Longrightarrow> q < n"
4b1edf2f6bd2 small refactoring for lbv with semilattices kleing parents: diff changeset	47	by (unfold bounded_def, blast)
4b1edf2f6bd2 small refactoring for lbv with semilattices kleing parents: diff changeset	48
13066 b57d926d1de2 cleanup + simpler monotonicity kleing parents: 13062 diff changeset	49	lemma lesubstep_type_refl [simp, intro]:
b57d926d1de2 cleanup + simpler monotonicity kleing parents: 13062 diff changeset	50	"(\<And>x. x <=_r x) \<Longrightarrow> x <=\|r\| x"
b57d926d1de2 cleanup + simpler monotonicity kleing parents: 13062 diff changeset	51	by (unfold lesubstep_type_def) auto
b57d926d1de2 cleanup + simpler monotonicity kleing parents: 13062 diff changeset	52
b57d926d1de2 cleanup + simpler monotonicity kleing parents: 13062 diff changeset	53	lemma lesub_step_typeD:
b57d926d1de2 cleanup + simpler monotonicity kleing parents: 13062 diff changeset	54	"a <=\|r\| b \<Longrightarrow> (x,y) \<in> set a \<Longrightarrow> \<exists>y'. (x, y') \<in> set b \<and> y <=_r y'"
b57d926d1de2 cleanup + simpler monotonicity kleing parents: 13062 diff changeset	55	by (unfold lesubstep_type_def) blast
b57d926d1de2 cleanup + simpler monotonicity kleing parents: 13062 diff changeset	56
13062 4b1edf2f6bd2 small refactoring for lbv with semilattices kleing parents: diff changeset	57
4b1edf2f6bd2 small refactoring for lbv with semilattices kleing parents: diff changeset	58	lemma list_update_le_listI [rule_format]:
4b1edf2f6bd2 small refactoring for lbv with semilattices kleing parents: diff changeset	59	"set xs <= A \<longrightarrow> set ys <= A \<longrightarrow> xs <=[r] ys \<longrightarrow> p < size xs \<longrightarrow>
4b1edf2f6bd2 small refactoring for lbv with semilattices kleing parents: diff changeset	60	x <=_r ys!p \<longrightarrow> semilat(A,r,f) \<longrightarrow> x\<in>A \<longrightarrow>
4b1edf2f6bd2 small refactoring for lbv with semilattices kleing parents: diff changeset	61	xs[p := x +_f xs!p] <=[r] ys"
4b1edf2f6bd2 small refactoring for lbv with semilattices kleing parents: diff changeset	62	apply (unfold Listn.le_def lesub_def semilat_def)
4b1edf2f6bd2 small refactoring for lbv with semilattices kleing parents: diff changeset	63	apply (simp add: list_all2_conv_all_nth nth_list_update)
4b1edf2f6bd2 small refactoring for lbv with semilattices kleing parents: diff changeset	64	done
4b1edf2f6bd2 small refactoring for lbv with semilattices kleing parents: diff changeset	65
4b1edf2f6bd2 small refactoring for lbv with semilattices kleing parents: diff changeset	66
27611 2c01c0bdb385 Removed uses of context element includes. ballarin parents: 23464 diff changeset	67	lemma plusplus_closed: assumes "semilat (A, r, f)" shows
2c01c0bdb385 Removed uses of context element includes. ballarin parents: 23464 diff changeset	68	"\<And>y. \<lbrakk> set x \<subseteq> A; y \<in> A\<rbrakk> \<Longrightarrow> x ++_f y \<in> A" (is "PROP ?P")
2c01c0bdb385 Removed uses of context element includes. ballarin parents: 23464 diff changeset	69	proof -
29235 2d62b637fa80 More porting to new locales. ballarin parents: 27681 diff changeset	70	interpret Semilat A r f using assms by (rule Semilat.intro)
27611 2c01c0bdb385 Removed uses of context element includes. ballarin parents: 23464 diff changeset	71	show "PROP ?P" proof (induct x)
2c01c0bdb385 Removed uses of context element includes. ballarin parents: 23464 diff changeset	72	show "\<And>y. y \<in> A \<Longrightarrow> [] ++_f y \<in> A" by simp
2c01c0bdb385 Removed uses of context element includes. ballarin parents: 23464 diff changeset	73	fix y x xs
2c01c0bdb385 Removed uses of context element includes. ballarin parents: 23464 diff changeset	74	assume y: "y \<in> A" and xs: "set (x#xs) \<subseteq> A"
2c01c0bdb385 Removed uses of context element includes. ballarin parents: 23464 diff changeset	75	assume IH: "\<And>y. \<lbrakk> set xs \<subseteq> A; y \<in> A\<rbrakk> \<Longrightarrow> xs ++_f y \<in> A"
2c01c0bdb385 Removed uses of context element includes. ballarin parents: 23464 diff changeset	76	from xs obtain x: "x \<in> A" and xs': "set xs \<subseteq> A" by simp
2c01c0bdb385 Removed uses of context element includes. ballarin parents: 23464 diff changeset	77	from x y have "(x +_f y) \<in> A" ..
2c01c0bdb385 Removed uses of context element includes. ballarin parents: 23464 diff changeset	78	with xs' have "xs ++_f (x +_f y) \<in> A" by (rule IH)
2c01c0bdb385 Removed uses of context element includes. ballarin parents: 23464 diff changeset	79	thus "(x#xs) ++_f y \<in> A" by simp
2c01c0bdb385 Removed uses of context element includes. ballarin parents: 23464 diff changeset	80	qed
13062 4b1edf2f6bd2 small refactoring for lbv with semilattices kleing parents: diff changeset	81	qed
4b1edf2f6bd2 small refactoring for lbv with semilattices kleing parents: diff changeset	82
27681 8cedebf55539 dropped locale (open) haftmann parents: 27611 diff changeset	83	lemma (in Semilat) pp_ub2:
13074 96bf406fd3e5 Started to convert to locales nipkow parents: 13069 diff changeset	84	"\<And>y. \<lbrakk> set x \<subseteq> A; y \<in> A\<rbrakk> \<Longrightarrow> y <=_r x ++_f y"
13062 4b1edf2f6bd2 small refactoring for lbv with semilattices kleing parents: diff changeset	85	proof (induct x)
13074 96bf406fd3e5 Started to convert to locales nipkow parents: 13069 diff changeset	86	from semilat show "\<And>y. y <=_r [] ++_f y" by simp
13062 4b1edf2f6bd2 small refactoring for lbv with semilattices kleing parents: diff changeset	87
4b1edf2f6bd2 small refactoring for lbv with semilattices kleing parents: diff changeset	88	fix y a l
4b1edf2f6bd2 small refactoring for lbv with semilattices kleing parents: diff changeset	89	assume y: "y \<in> A"
4b1edf2f6bd2 small refactoring for lbv with semilattices kleing parents: diff changeset	90	assume "set (a#l) \<subseteq> A"
13074 96bf406fd3e5 Started to convert to locales nipkow parents: 13069 diff changeset	91	then obtain a: "a \<in> A" and x: "set l \<subseteq> A" by simp
96bf406fd3e5 Started to convert to locales nipkow parents: 13069 diff changeset	92	assume "\<And>y. \<lbrakk>set l \<subseteq> A; y \<in> A\<rbrakk> \<Longrightarrow> y <=_r l ++_f y"
23464 bc2563c37b1a tuned proofs -- avoid implicit prems; wenzelm parents: 23281 diff changeset	93	hence IH: "\<And>y. y \<in> A \<Longrightarrow> y <=_r l ++_f y" using x .
13062 4b1edf2f6bd2 small refactoring for lbv with semilattices kleing parents: diff changeset	94
13077 c2e4d9990162 tuned kleing parents: 13074 diff changeset	95	from a y have "y <=_r a +_f y" ..
c2e4d9990162 tuned kleing parents: 13074 diff changeset	96	also from a y have "a +_f y \<in> A" ..
13062 4b1edf2f6bd2 small refactoring for lbv with semilattices kleing parents: diff changeset	97	hence "(a +_f y) <=_r l ++_f (a +_f y)" by (rule IH)
13074 96bf406fd3e5 Started to convert to locales nipkow parents: 13069 diff changeset	98	finally have "y <=_r l ++_f (a +_f y)" .
13062 4b1edf2f6bd2 small refactoring for lbv with semilattices kleing parents: diff changeset	99	thus "y <=_r (a#l) ++_f y" by simp
4b1edf2f6bd2 small refactoring for lbv with semilattices kleing parents: diff changeset	100	qed
4b1edf2f6bd2 small refactoring for lbv with semilattices kleing parents: diff changeset	101
4b1edf2f6bd2 small refactoring for lbv with semilattices kleing parents: diff changeset	102
27681 8cedebf55539 dropped locale (open) haftmann parents: 27611 diff changeset	103	lemma (in Semilat) pp_ub1:
13074 96bf406fd3e5 Started to convert to locales nipkow parents: 13069 diff changeset	104	shows "\<And>y. \<lbrakk>set ls \<subseteq> A; y \<in> A; x \<in> set ls\<rbrakk> \<Longrightarrow> x <=_r ls ++_f y"
13062 4b1edf2f6bd2 small refactoring for lbv with semilattices kleing parents: diff changeset	105	proof (induct ls)
4b1edf2f6bd2 small refactoring for lbv with semilattices kleing parents: diff changeset	106	show "\<And>y. x \<in> set [] \<Longrightarrow> x <=_r [] ++_f y" by simp
13074 96bf406fd3e5 Started to convert to locales nipkow parents: 13069 diff changeset	107
13062 4b1edf2f6bd2 small refactoring for lbv with semilattices kleing parents: diff changeset	108	fix y s ls
4b1edf2f6bd2 small refactoring for lbv with semilattices kleing parents: diff changeset	109	assume "set (s#ls) \<subseteq> A"
4b1edf2f6bd2 small refactoring for lbv with semilattices kleing parents: diff changeset	110	then obtain s: "s \<in> A" and ls: "set ls \<subseteq> A" by simp
4b1edf2f6bd2 small refactoring for lbv with semilattices kleing parents: diff changeset	111	assume y: "y \<in> A"
4b1edf2f6bd2 small refactoring for lbv with semilattices kleing parents: diff changeset	112
4b1edf2f6bd2 small refactoring for lbv with semilattices kleing parents: diff changeset	113	assume
13074 96bf406fd3e5 Started to convert to locales nipkow parents: 13069 diff changeset	114	"\<And>y. \<lbrakk>set ls \<subseteq> A; y \<in> A; x \<in> set ls\<rbrakk> \<Longrightarrow> x <=_r ls ++_f y"
23464 bc2563c37b1a tuned proofs -- avoid implicit prems; wenzelm parents: 23281 diff changeset	115	hence IH: "\<And>y. x \<in> set ls \<Longrightarrow> y \<in> A \<Longrightarrow> x <=_r ls ++_f y" using ls .
13062 4b1edf2f6bd2 small refactoring for lbv with semilattices kleing parents: diff changeset	116
4b1edf2f6bd2 small refactoring for lbv with semilattices kleing parents: diff changeset	117	assume "x \<in> set (s#ls)"
4b1edf2f6bd2 small refactoring for lbv with semilattices kleing parents: diff changeset	118	then obtain xls: "x = s \<or> x \<in> set ls" by simp
4b1edf2f6bd2 small refactoring for lbv with semilattices kleing parents: diff changeset	119	moreover {
4b1edf2f6bd2 small refactoring for lbv with semilattices kleing parents: diff changeset	120	assume xs: "x = s"
13077 c2e4d9990162 tuned kleing parents: 13074 diff changeset	121	from s y have "s <=_r s +_f y" ..
c2e4d9990162 tuned kleing parents: 13074 diff changeset	122	also from s y have "s +_f y \<in> A" ..
13074 96bf406fd3e5 Started to convert to locales nipkow parents: 13069 diff changeset	123	with ls have "(s +_f y) <=_r ls ++_f (s +_f y)" by (rule pp_ub2)
96bf406fd3e5 Started to convert to locales nipkow parents: 13069 diff changeset	124	finally have "s <=_r ls ++_f (s +_f y)" .
13062 4b1edf2f6bd2 small refactoring for lbv with semilattices kleing parents: diff changeset	125	with xs have "x <=_r ls ++_f (s +_f y)" by simp
4b1edf2f6bd2 small refactoring for lbv with semilattices kleing parents: diff changeset	126	}
4b1edf2f6bd2 small refactoring for lbv with semilattices kleing parents: diff changeset	127	moreover {
4b1edf2f6bd2 small refactoring for lbv with semilattices kleing parents: diff changeset	128	assume "x \<in> set ls"
4b1edf2f6bd2 small refactoring for lbv with semilattices kleing parents: diff changeset	129	hence "\<And>y. y \<in> A \<Longrightarrow> x <=_r ls ++_f y" by (rule IH)
13077 c2e4d9990162 tuned kleing parents: 13074 diff changeset	130	moreover from s y have "s +_f y \<in> A" ..
13074 96bf406fd3e5 Started to convert to locales nipkow parents: 13069 diff changeset	131	ultimately have "x <=_r ls ++_f (s +_f y)" .
13062 4b1edf2f6bd2 small refactoring for lbv with semilattices kleing parents: diff changeset	132	}
4b1edf2f6bd2 small refactoring for lbv with semilattices kleing parents: diff changeset	133	ultimately
4b1edf2f6bd2 small refactoring for lbv with semilattices kleing parents: diff changeset	134	have "x <=_r ls ++_f (s +_f y)" by blast
4b1edf2f6bd2 small refactoring for lbv with semilattices kleing parents: diff changeset	135	thus "x <=_r (s#ls) ++_f y" by simp
4b1edf2f6bd2 small refactoring for lbv with semilattices kleing parents: diff changeset	136	qed
4b1edf2f6bd2 small refactoring for lbv with semilattices kleing parents: diff changeset	137
4b1edf2f6bd2 small refactoring for lbv with semilattices kleing parents: diff changeset	138
27681 8cedebf55539 dropped locale (open) haftmann parents: 27611 diff changeset	139	lemma (in Semilat) pp_lub:
23464 bc2563c37b1a tuned proofs -- avoid implicit prems; wenzelm parents: 23281 diff changeset	140	assumes z: "z \<in> A"
13069 3ccbd3a97bcb lub property of ++_f kleing parents: 13066 diff changeset	141	shows
3ccbd3a97bcb lub property of ++_f kleing parents: 13066 diff changeset	142	"\<And>y. y \<in> A \<Longrightarrow> set xs \<subseteq> A \<Longrightarrow> \<forall>x \<in> set xs. x <=_r z \<Longrightarrow> y <=_r z \<Longrightarrow> xs ++_f y <=_r z"
3ccbd3a97bcb lub property of ++_f kleing parents: 13066 diff changeset	143	proof (induct xs)
3ccbd3a97bcb lub property of ++_f kleing parents: 13066 diff changeset	144	fix y assume "y <=_r z" thus "[] ++_f y <=_r z" by simp
3ccbd3a97bcb lub property of ++_f kleing parents: 13066 diff changeset	145	next
3ccbd3a97bcb lub property of ++_f kleing parents: 13066 diff changeset	146	fix y l ls assume y: "y \<in> A" and "set (l#ls) \<subseteq> A"
3ccbd3a97bcb lub property of ++_f kleing parents: 13066 diff changeset	147	then obtain l: "l \<in> A" and ls: "set ls \<subseteq> A" by auto
3ccbd3a97bcb lub property of ++_f kleing parents: 13066 diff changeset	148	assume "\<forall>x \<in> set (l#ls). x <=_r z"
23464 bc2563c37b1a tuned proofs -- avoid implicit prems; wenzelm parents: 23281 diff changeset	149	then obtain lz: "l <=_r z" and lsz: "\<forall>x \<in> set ls. x <=_r z" by auto
bc2563c37b1a tuned proofs -- avoid implicit prems; wenzelm parents: 23281 diff changeset	150	assume "y <=_r z" with lz have "l +_f y <=_r z" using l y z ..
13069 3ccbd3a97bcb lub property of ++_f kleing parents: 13066 diff changeset	151	moreover
13077 c2e4d9990162 tuned kleing parents: 13074 diff changeset	152	from l y have "l +_f y \<in> A" ..
13069 3ccbd3a97bcb lub property of ++_f kleing parents: 13066 diff changeset	153	moreover
3ccbd3a97bcb lub property of ++_f kleing parents: 13066 diff changeset	154	assume "\<And>y. y \<in> A \<Longrightarrow> set ls \<subseteq> A \<Longrightarrow> \<forall>x \<in> set ls. x <=_r z \<Longrightarrow> y <=_r z
3ccbd3a97bcb lub property of ++_f kleing parents: 13066 diff changeset	155	\<Longrightarrow> ls ++_f y <=_r z"
3ccbd3a97bcb lub property of ++_f kleing parents: 13066 diff changeset	156	ultimately
13077 c2e4d9990162 tuned kleing parents: 13074 diff changeset	157	have "ls ++_f (l +_f y) <=_r z" using ls lsz by -
13069 3ccbd3a97bcb lub property of ++_f kleing parents: 13066 diff changeset	158	thus "(l#ls) ++_f y <=_r z" by simp
3ccbd3a97bcb lub property of ++_f kleing parents: 13066 diff changeset	159	qed
3ccbd3a97bcb lub property of ++_f kleing parents: 13066 diff changeset	160
3ccbd3a97bcb lub property of ++_f kleing parents: 13066 diff changeset	161
27611 2c01c0bdb385 Removed uses of context element includes. ballarin parents: 23464 diff changeset	162	lemma ub1':
2c01c0bdb385 Removed uses of context element includes. ballarin parents: 23464 diff changeset	163	assumes "semilat (A, r, f)"
2c01c0bdb385 Removed uses of context element includes. ballarin parents: 23464 diff changeset	164	shows "\<lbrakk>\<forall>(p,s) \<in> set S. s \<in> A; y \<in> A; (a,b) \<in> set S\<rbrakk>
23281 e26ec695c9b3 changed filter syntax from : to <- nipkow parents: 16417 diff changeset	165	\<Longrightarrow> b <=_r map snd [(p', t')\<leftarrow>S. p' = a] ++_f y"
13062 4b1edf2f6bd2 small refactoring for lbv with semilattices kleing parents: diff changeset	166	proof -
29235 2d62b637fa80 More porting to new locales. ballarin parents: 27681 diff changeset	167	interpret Semilat A r f using assms by (rule Semilat.intro)
27611 2c01c0bdb385 Removed uses of context element includes. ballarin parents: 23464 diff changeset	168
13062 4b1edf2f6bd2 small refactoring for lbv with semilattices kleing parents: diff changeset	169	let "b <=_r ?map ++_f y" = ?thesis
4b1edf2f6bd2 small refactoring for lbv with semilattices kleing parents: diff changeset	170
13074 96bf406fd3e5 Started to convert to locales nipkow parents: 13069 diff changeset	171	assume "y \<in> A"
13062 4b1edf2f6bd2 small refactoring for lbv with semilattices kleing parents: diff changeset	172	moreover
4b1edf2f6bd2 small refactoring for lbv with semilattices kleing parents: diff changeset	173	assume "\<forall>(p,s) \<in> set S. s \<in> A"
4b1edf2f6bd2 small refactoring for lbv with semilattices kleing parents: diff changeset	174	hence "set ?map \<subseteq> A" by auto
4b1edf2f6bd2 small refactoring for lbv with semilattices kleing parents: diff changeset	175	moreover
4b1edf2f6bd2 small refactoring for lbv with semilattices kleing parents: diff changeset	176	assume "(a,b) \<in> set S"
4b1edf2f6bd2 small refactoring for lbv with semilattices kleing parents: diff changeset	177	hence "b \<in> set ?map" by (induct S, auto)
4b1edf2f6bd2 small refactoring for lbv with semilattices kleing parents: diff changeset	178	ultimately
13074 96bf406fd3e5 Started to convert to locales nipkow parents: 13069 diff changeset	179	show ?thesis by - (rule pp_ub1)
13062 4b1edf2f6bd2 small refactoring for lbv with semilattices kleing parents: diff changeset	180	qed
4b1edf2f6bd2 small refactoring for lbv with semilattices kleing parents: diff changeset	181
4b1edf2f6bd2 small refactoring for lbv with semilattices kleing parents: diff changeset	182
4b1edf2f6bd2 small refactoring for lbv with semilattices kleing parents: diff changeset	183	lemma plusplus_empty:
4b1edf2f6bd2 small refactoring for lbv with semilattices kleing parents: diff changeset	184	"\<forall>s'. (q, s') \<in> set S \<longrightarrow> s' +_f ss ! q = ss ! q \<Longrightarrow>
23281 e26ec695c9b3 changed filter syntax from : to <- nipkow parents: 16417 diff changeset	185	(map snd [(p', t') \<leftarrow> S. p' = q] ++_f ss ! q) = ss ! q"
23464 bc2563c37b1a tuned proofs -- avoid implicit prems; wenzelm parents: 23281 diff changeset	186	by (induct S) auto
13062 4b1edf2f6bd2 small refactoring for lbv with semilattices kleing parents: diff changeset	187
4b1edf2f6bd2 small refactoring for lbv with semilattices kleing parents: diff changeset	188	end

author	huffman
	Mon, 23 Feb 2009 07:58:13 -0800
changeset 30073	a4ad0c08b7d9
parent 29235	2d62b637fa80
permissions	-rw-r--r--