isabelle: src/HOL/IMP/Finite_Reachable.thy@bdc2c6b40bf2 (annotated)

50050 fac2b27893ff new theory IMP/Finite_Reachable nipkow parents: diff changeset	1	theory Finite_Reachable
fac2b27893ff new theory IMP/Finite_Reachable nipkow parents: diff changeset	2	imports Small_Step
fac2b27893ff new theory IMP/Finite_Reachable nipkow parents: diff changeset	3	begin
fac2b27893ff new theory IMP/Finite_Reachable nipkow parents: diff changeset	4
fac2b27893ff new theory IMP/Finite_Reachable nipkow parents: diff changeset	5	subsection "Finite number of reachable commands"
fac2b27893ff new theory IMP/Finite_Reachable nipkow parents: diff changeset	6
fac2b27893ff new theory IMP/Finite_Reachable nipkow parents: diff changeset	7	text{* This theory shows that in the small-step semantics one can only reach
fac2b27893ff new theory IMP/Finite_Reachable nipkow parents: diff changeset	8	a finite number of commands from any given command. Hence one can see the
fac2b27893ff new theory IMP/Finite_Reachable nipkow parents: diff changeset	9	command component of a small-step configuration as a combination of the
fac2b27893ff new theory IMP/Finite_Reachable nipkow parents: diff changeset	10	program to be executed and a pc. *}
fac2b27893ff new theory IMP/Finite_Reachable nipkow parents: diff changeset	11
fac2b27893ff new theory IMP/Finite_Reachable nipkow parents: diff changeset	12	definition reachable :: "com \<Rightarrow> com set" where
fac2b27893ff new theory IMP/Finite_Reachable nipkow parents: diff changeset	13	"reachable c = {c'. \<exists>s t. (c,s) \<rightarrow>* (c',t)}"
fac2b27893ff new theory IMP/Finite_Reachable nipkow parents: diff changeset	14
fac2b27893ff new theory IMP/Finite_Reachable nipkow parents: diff changeset	15	text{* Proofs need induction on the length of a small-step reduction sequence. *}
fac2b27893ff new theory IMP/Finite_Reachable nipkow parents: diff changeset	16
fac2b27893ff new theory IMP/Finite_Reachable nipkow parents: diff changeset	17	fun small_stepsn :: "com * state \<Rightarrow> nat \<Rightarrow> com * state \<Rightarrow> bool"
fac2b27893ff new theory IMP/Finite_Reachable nipkow parents: diff changeset	18	("_ \<rightarrow>'(_') _" [55,0,55] 55) where
fac2b27893ff new theory IMP/Finite_Reachable nipkow parents: diff changeset	19	"(cs \<rightarrow>(0) cs') = (cs' = cs)" \|
fac2b27893ff new theory IMP/Finite_Reachable nipkow parents: diff changeset	20	"cs \<rightarrow>(Suc n) cs'' = (\<exists>cs'. cs \<rightarrow> cs' \<and> cs' \<rightarrow>(n) cs'')"
fac2b27893ff new theory IMP/Finite_Reachable nipkow parents: diff changeset	21
fac2b27893ff new theory IMP/Finite_Reachable nipkow parents: diff changeset	22	lemma stepsn_if_star: "cs \<rightarrow>* cs' \<Longrightarrow> \<exists>n. cs \<rightarrow>(n) cs'"
fac2b27893ff new theory IMP/Finite_Reachable nipkow parents: diff changeset	23	proof(induction rule: star.induct)
fac2b27893ff new theory IMP/Finite_Reachable nipkow parents: diff changeset	24	case refl show ?case by (metis small_stepsn.simps(1))
fac2b27893ff new theory IMP/Finite_Reachable nipkow parents: diff changeset	25	next
fac2b27893ff new theory IMP/Finite_Reachable nipkow parents: diff changeset	26	case step thus ?case by (metis small_stepsn.simps(2))
fac2b27893ff new theory IMP/Finite_Reachable nipkow parents: diff changeset	27	qed
fac2b27893ff new theory IMP/Finite_Reachable nipkow parents: diff changeset	28
fac2b27893ff new theory IMP/Finite_Reachable nipkow parents: diff changeset	29	lemma star_if_stepsn: "cs \<rightarrow>(n) cs' \<Longrightarrow> cs \<rightarrow>* cs'"
fac2b27893ff new theory IMP/Finite_Reachable nipkow parents: diff changeset	30	by(induction n arbitrary: cs) (auto elim: star.step)
fac2b27893ff new theory IMP/Finite_Reachable nipkow parents: diff changeset	31
fac2b27893ff new theory IMP/Finite_Reachable nipkow parents: diff changeset	32	lemma SKIP_starD: "(SKIP, s) \<rightarrow>* (c,t) \<Longrightarrow> c = SKIP"
fac2b27893ff new theory IMP/Finite_Reachable nipkow parents: diff changeset	33	by(induction SKIP s c t rule: star_induct) auto
fac2b27893ff new theory IMP/Finite_Reachable nipkow parents: diff changeset	34
fac2b27893ff new theory IMP/Finite_Reachable nipkow parents: diff changeset	35	lemma reachable_SKIP: "reachable SKIP = {SKIP}"
fac2b27893ff new theory IMP/Finite_Reachable nipkow parents: diff changeset	36	by(auto simp: reachable_def dest: SKIP_starD)
fac2b27893ff new theory IMP/Finite_Reachable nipkow parents: diff changeset	37
fac2b27893ff new theory IMP/Finite_Reachable nipkow parents: diff changeset	38
fac2b27893ff new theory IMP/Finite_Reachable nipkow parents: diff changeset	39	lemma Assign_starD: "(x::=a, s) \<rightarrow>* (c,t) \<Longrightarrow> c \<in> {x::=a, SKIP}"
fac2b27893ff new theory IMP/Finite_Reachable nipkow parents: diff changeset	40	by (induction "x::=a" s c t rule: star_induct) (auto dest: SKIP_starD)
fac2b27893ff new theory IMP/Finite_Reachable nipkow parents: diff changeset	41
fac2b27893ff new theory IMP/Finite_Reachable nipkow parents: diff changeset	42	lemma reachable_Assign: "reachable (x::=a) = {x::=a, SKIP}"
fac2b27893ff new theory IMP/Finite_Reachable nipkow parents: diff changeset	43	by(auto simp: reachable_def dest:Assign_starD)
fac2b27893ff new theory IMP/Finite_Reachable nipkow parents: diff changeset	44
fac2b27893ff new theory IMP/Finite_Reachable nipkow parents: diff changeset	45
52046 bc01725d7918 replaced `;' by `;;' to disambiguate syntax; unexpected slight increase in build time nipkow parents: 50050 diff changeset	46	lemma Seq_stepsnD: "(c1;; c2, s) \<rightarrow>(n) (c', t) \<Longrightarrow>
bc01725d7918 replaced `;' by `;;' to disambiguate syntax; unexpected slight increase in build time nipkow parents: 50050 diff changeset	47	(\<exists>c1' m. c' = c1';; c2 \<and> (c1, s) \<rightarrow>(m) (c1', t) \<and> m \<le> n) \<or>
50050 fac2b27893ff new theory IMP/Finite_Reachable nipkow parents: diff changeset	48	(\<exists>s2 m1 m2. (c1,s) \<rightarrow>(m1) (SKIP,s2) \<and> (c2, s2) \<rightarrow>(m2) (c', t) \<and> m1+m2 < n)"
fac2b27893ff new theory IMP/Finite_Reachable nipkow parents: diff changeset	49	proof(induction n arbitrary: c1 c2 s)
fac2b27893ff new theory IMP/Finite_Reachable nipkow parents: diff changeset	50	case 0 thus ?case by auto
fac2b27893ff new theory IMP/Finite_Reachable nipkow parents: diff changeset	51	next
fac2b27893ff new theory IMP/Finite_Reachable nipkow parents: diff changeset	52	case (Suc n)
52046 bc01725d7918 replaced `;' by `;;' to disambiguate syntax; unexpected slight increase in build time nipkow parents: 50050 diff changeset	53	from Suc.prems obtain s' c12' where "(c1;;c2, s) \<rightarrow> (c12', s')"
50050 fac2b27893ff new theory IMP/Finite_Reachable nipkow parents: diff changeset	54	and n: "(c12',s') \<rightarrow>(n) (c',t)" by auto
fac2b27893ff new theory IMP/Finite_Reachable nipkow parents: diff changeset	55	from this(1) show ?case
fac2b27893ff new theory IMP/Finite_Reachable nipkow parents: diff changeset	56	proof
fac2b27893ff new theory IMP/Finite_Reachable nipkow parents: diff changeset	57	assume "c1 = SKIP" "(c12', s') = (c2, s)"
fac2b27893ff new theory IMP/Finite_Reachable nipkow parents: diff changeset	58	hence "(c1,s) \<rightarrow>(0) (SKIP, s') \<and> (c2, s') \<rightarrow>(n) (c', t) \<and> 0 + n < Suc n"
fac2b27893ff new theory IMP/Finite_Reachable nipkow parents: diff changeset	59	using n by auto
fac2b27893ff new theory IMP/Finite_Reachable nipkow parents: diff changeset	60	thus ?case by blast
fac2b27893ff new theory IMP/Finite_Reachable nipkow parents: diff changeset	61	next
52046 bc01725d7918 replaced `;' by `;;' to disambiguate syntax; unexpected slight increase in build time nipkow parents: 50050 diff changeset	62	fix c1' s'' assume 1: "(c12', s') = (c1';; c2, s'')" "(c1, s) \<rightarrow> (c1', s'')"
bc01725d7918 replaced `;' by `;;' to disambiguate syntax; unexpected slight increase in build time nipkow parents: 50050 diff changeset	63	hence n': "(c1';;c2,s') \<rightarrow>(n) (c',t)" using n by auto
50050 fac2b27893ff new theory IMP/Finite_Reachable nipkow parents: diff changeset	64	from Suc.IH[OF n'] show ?case
fac2b27893ff new theory IMP/Finite_Reachable nipkow parents: diff changeset	65	proof
52046 bc01725d7918 replaced `;' by `;;' to disambiguate syntax; unexpected slight increase in build time nipkow parents: 50050 diff changeset	66	assume "\<exists>c1'' m. c' = c1'';; c2 \<and> (c1', s') \<rightarrow>(m) (c1'', t) \<and> m \<le> n"
50050 fac2b27893ff new theory IMP/Finite_Reachable nipkow parents: diff changeset	67	(is "\<exists> a b. ?P a b")
fac2b27893ff new theory IMP/Finite_Reachable nipkow parents: diff changeset	68	then obtain c1'' m where 2: "?P c1'' m" by blast
52046 bc01725d7918 replaced `;' by `;;' to disambiguate syntax; unexpected slight increase in build time nipkow parents: 50050 diff changeset	69	hence "c' = c1'';;c2 \<and> (c1, s) \<rightarrow>(Suc m) (c1'',t) \<and> Suc m \<le> Suc n"
50050 fac2b27893ff new theory IMP/Finite_Reachable nipkow parents: diff changeset	70	using 1 by auto
fac2b27893ff new theory IMP/Finite_Reachable nipkow parents: diff changeset	71	thus ?case by blast
fac2b27893ff new theory IMP/Finite_Reachable nipkow parents: diff changeset	72	next
fac2b27893ff new theory IMP/Finite_Reachable nipkow parents: diff changeset	73	assume "\<exists>s2 m1 m2. (c1',s') \<rightarrow>(m1) (SKIP,s2) \<and>
fac2b27893ff new theory IMP/Finite_Reachable nipkow parents: diff changeset	74	(c2,s2) \<rightarrow>(m2) (c',t) \<and> m1+m2 < n" (is "\<exists>a b c. ?P a b c")
fac2b27893ff new theory IMP/Finite_Reachable nipkow parents: diff changeset	75	then obtain s2 m1 m2 where "?P s2 m1 m2" by blast
fac2b27893ff new theory IMP/Finite_Reachable nipkow parents: diff changeset	76	hence "(c1,s) \<rightarrow>(Suc m1) (SKIP,s2) \<and> (c2,s2) \<rightarrow>(m2) (c',t) \<and>
fac2b27893ff new theory IMP/Finite_Reachable nipkow parents: diff changeset	77	Suc m1 + m2 < Suc n" using 1 by auto
fac2b27893ff new theory IMP/Finite_Reachable nipkow parents: diff changeset	78	thus ?case by blast
fac2b27893ff new theory IMP/Finite_Reachable nipkow parents: diff changeset	79	qed
fac2b27893ff new theory IMP/Finite_Reachable nipkow parents: diff changeset	80	qed
fac2b27893ff new theory IMP/Finite_Reachable nipkow parents: diff changeset	81	qed
fac2b27893ff new theory IMP/Finite_Reachable nipkow parents: diff changeset	82
52046 bc01725d7918 replaced `;' by `;;' to disambiguate syntax; unexpected slight increase in build time nipkow parents: 50050 diff changeset	83	corollary Seq_starD: "(c1;; c2, s) \<rightarrow>* (c', t) \<Longrightarrow>
bc01725d7918 replaced `;' by `;;' to disambiguate syntax; unexpected slight increase in build time nipkow parents: 50050 diff changeset	84	(\<exists>c1'. c' = c1';; c2 \<and> (c1, s) \<rightarrow>* (c1', t)) \<or>
50050 fac2b27893ff new theory IMP/Finite_Reachable nipkow parents: diff changeset	85	(\<exists>s2. (c1,s) \<rightarrow>* (SKIP,s2) \<and> (c2, s2) \<rightarrow>* (c', t))"
fac2b27893ff new theory IMP/Finite_Reachable nipkow parents: diff changeset	86	by(metis Seq_stepsnD star_if_stepsn stepsn_if_star)
fac2b27893ff new theory IMP/Finite_Reachable nipkow parents: diff changeset	87
52046 bc01725d7918 replaced `;' by `;;' to disambiguate syntax; unexpected slight increase in build time nipkow parents: 50050 diff changeset	88	lemma reachable_Seq: "reachable (c1;;c2) \<subseteq>
bc01725d7918 replaced `;' by `;;' to disambiguate syntax; unexpected slight increase in build time nipkow parents: 50050 diff changeset	89	(\<lambda>c1'. c1';;c2) ` reachable c1 \<union> reachable c2"
50050 fac2b27893ff new theory IMP/Finite_Reachable nipkow parents: diff changeset	90	by(auto simp: reachable_def image_def dest!: Seq_starD)
fac2b27893ff new theory IMP/Finite_Reachable nipkow parents: diff changeset	91
fac2b27893ff new theory IMP/Finite_Reachable nipkow parents: diff changeset	92
fac2b27893ff new theory IMP/Finite_Reachable nipkow parents: diff changeset	93	lemma If_starD: "(IF b THEN c1 ELSE c2, s) \<rightarrow>* (c,t) \<Longrightarrow>
fac2b27893ff new theory IMP/Finite_Reachable nipkow parents: diff changeset	94	c = IF b THEN c1 ELSE c2 \<or> (c1,s) \<rightarrow>* (c,t) \<or> (c2,s) \<rightarrow>* (c,t)"
fac2b27893ff new theory IMP/Finite_Reachable nipkow parents: diff changeset	95	by(induction "IF b THEN c1 ELSE c2" s c t rule: star_induct) auto
fac2b27893ff new theory IMP/Finite_Reachable nipkow parents: diff changeset	96
fac2b27893ff new theory IMP/Finite_Reachable nipkow parents: diff changeset	97	lemma reachable_If: "reachable (IF b THEN c1 ELSE c2) \<subseteq>
fac2b27893ff new theory IMP/Finite_Reachable nipkow parents: diff changeset	98	{IF b THEN c1 ELSE c2} \<union> reachable c1 \<union> reachable c2"
fac2b27893ff new theory IMP/Finite_Reachable nipkow parents: diff changeset	99	by(auto simp: reachable_def dest!: If_starD)
fac2b27893ff new theory IMP/Finite_Reachable nipkow parents: diff changeset	100
fac2b27893ff new theory IMP/Finite_Reachable nipkow parents: diff changeset	101
fac2b27893ff new theory IMP/Finite_Reachable nipkow parents: diff changeset	102	lemma While_stepsnD: "(WHILE b DO c, s) \<rightarrow>(n) (c2,t) \<Longrightarrow>
52046 bc01725d7918 replaced `;' by `;;' to disambiguate syntax; unexpected slight increase in build time nipkow parents: 50050 diff changeset	103	c2 \<in> {WHILE b DO c, IF b THEN c ;; WHILE b DO c ELSE SKIP, SKIP}
bc01725d7918 replaced `;' by `;;' to disambiguate syntax; unexpected slight increase in build time nipkow parents: 50050 diff changeset	104	\<or> (\<exists>c1. c2 = c1 ;; WHILE b DO c \<and> (\<exists> s1 s2. (c,s1) \<rightarrow>* (c1,s2)))"
50050 fac2b27893ff new theory IMP/Finite_Reachable nipkow parents: diff changeset	105	proof(induction n arbitrary: s rule: less_induct)
fac2b27893ff new theory IMP/Finite_Reachable nipkow parents: diff changeset	106	case (less n1)
fac2b27893ff new theory IMP/Finite_Reachable nipkow parents: diff changeset	107	show ?case
fac2b27893ff new theory IMP/Finite_Reachable nipkow parents: diff changeset	108	proof(cases n1)
fac2b27893ff new theory IMP/Finite_Reachable nipkow parents: diff changeset	109	case 0 thus ?thesis using less.prems by (simp)
fac2b27893ff new theory IMP/Finite_Reachable nipkow parents: diff changeset	110	next
fac2b27893ff new theory IMP/Finite_Reachable nipkow parents: diff changeset	111	case (Suc n2)
fac2b27893ff new theory IMP/Finite_Reachable nipkow parents: diff changeset	112	let ?w = "WHILE b DO c"
52046 bc01725d7918 replaced `;' by `;;' to disambiguate syntax; unexpected slight increase in build time nipkow parents: 50050 diff changeset	113	let ?iw = "IF b THEN c ;; ?w ELSE SKIP"
50050 fac2b27893ff new theory IMP/Finite_Reachable nipkow parents: diff changeset	114	from Suc less.prems have n2: "(?iw,s) \<rightarrow>(n2) (c2,t)" by(auto elim!: WhileE)
fac2b27893ff new theory IMP/Finite_Reachable nipkow parents: diff changeset	115	show ?thesis
fac2b27893ff new theory IMP/Finite_Reachable nipkow parents: diff changeset	116	proof(cases n2)
fac2b27893ff new theory IMP/Finite_Reachable nipkow parents: diff changeset	117	case 0 thus ?thesis using n2 by auto
fac2b27893ff new theory IMP/Finite_Reachable nipkow parents: diff changeset	118	next
fac2b27893ff new theory IMP/Finite_Reachable nipkow parents: diff changeset	119	case (Suc n3)
fac2b27893ff new theory IMP/Finite_Reachable nipkow parents: diff changeset	120	then obtain iw' s' where "(?iw,s) \<rightarrow> (iw',s')"
fac2b27893ff new theory IMP/Finite_Reachable nipkow parents: diff changeset	121	and n3: "(iw',s') \<rightarrow>(n3) (c2,t)" using n2 by auto
fac2b27893ff new theory IMP/Finite_Reachable nipkow parents: diff changeset	122	from this(1)
fac2b27893ff new theory IMP/Finite_Reachable nipkow parents: diff changeset	123	show ?thesis
fac2b27893ff new theory IMP/Finite_Reachable nipkow parents: diff changeset	124	proof
52046 bc01725d7918 replaced `;' by `;;' to disambiguate syntax; unexpected slight increase in build time nipkow parents: 50050 diff changeset	125	assume "(iw', s') = (c;; WHILE b DO c, s)"
bc01725d7918 replaced `;' by `;;' to disambiguate syntax; unexpected slight increase in build time nipkow parents: 50050 diff changeset	126	with n3 have "(c;;?w, s) \<rightarrow>(n3) (c2,t)" by auto
50050 fac2b27893ff new theory IMP/Finite_Reachable nipkow parents: diff changeset	127	from Seq_stepsnD[OF this] show ?thesis
fac2b27893ff new theory IMP/Finite_Reachable nipkow parents: diff changeset	128	proof
52046 bc01725d7918 replaced `;' by `;;' to disambiguate syntax; unexpected slight increase in build time nipkow parents: 50050 diff changeset	129	assume "\<exists>c1' m. c2 = c1';; ?w \<and> (c,s) \<rightarrow>(m) (c1', t) \<and> m \<le> n3"
50050 fac2b27893ff new theory IMP/Finite_Reachable nipkow parents: diff changeset	130	thus ?thesis by (metis star_if_stepsn)
fac2b27893ff new theory IMP/Finite_Reachable nipkow parents: diff changeset	131	next
fac2b27893ff new theory IMP/Finite_Reachable nipkow parents: diff changeset	132	assume "\<exists>s2 m1 m2. (c, s) \<rightarrow>(m1) (SKIP, s2) \<and>
fac2b27893ff new theory IMP/Finite_Reachable nipkow parents: diff changeset	133	(WHILE b DO c, s2) \<rightarrow>(m2) (c2, t) \<and> m1 + m2 < n3" (is "\<exists>x y z. ?P x y z")
fac2b27893ff new theory IMP/Finite_Reachable nipkow parents: diff changeset	134	then obtain s2 m1 m2 where "?P s2 m1 m2" by blast
fac2b27893ff new theory IMP/Finite_Reachable nipkow parents: diff changeset	135	with `n2 = Suc n3` `n1 = Suc n2`have "m2 < n1" by arith
fac2b27893ff new theory IMP/Finite_Reachable nipkow parents: diff changeset	136	from less.IH[OF this] `?P s2 m1 m2` show ?thesis by blast
fac2b27893ff new theory IMP/Finite_Reachable nipkow parents: diff changeset	137	qed
fac2b27893ff new theory IMP/Finite_Reachable nipkow parents: diff changeset	138	next
fac2b27893ff new theory IMP/Finite_Reachable nipkow parents: diff changeset	139	assume "(iw', s') = (SKIP, s)"
fac2b27893ff new theory IMP/Finite_Reachable nipkow parents: diff changeset	140	thus ?thesis using star_if_stepsn[OF n3] by(auto dest!: SKIP_starD)
fac2b27893ff new theory IMP/Finite_Reachable nipkow parents: diff changeset	141	qed
fac2b27893ff new theory IMP/Finite_Reachable nipkow parents: diff changeset	142	qed
fac2b27893ff new theory IMP/Finite_Reachable nipkow parents: diff changeset	143	qed
fac2b27893ff new theory IMP/Finite_Reachable nipkow parents: diff changeset	144	qed
fac2b27893ff new theory IMP/Finite_Reachable nipkow parents: diff changeset	145
fac2b27893ff new theory IMP/Finite_Reachable nipkow parents: diff changeset	146	lemma reachable_While: "reachable (WHILE b DO c) \<subseteq>
52046 bc01725d7918 replaced `;' by `;;' to disambiguate syntax; unexpected slight increase in build time nipkow parents: 50050 diff changeset	147	{WHILE b DO c, IF b THEN c ;; WHILE b DO c ELSE SKIP, SKIP} \<union>
bc01725d7918 replaced `;' by `;;' to disambiguate syntax; unexpected slight increase in build time nipkow parents: 50050 diff changeset	148	(\<lambda>c'. c' ;; WHILE b DO c) ` reachable c"
50050 fac2b27893ff new theory IMP/Finite_Reachable nipkow parents: diff changeset	149	apply(auto simp: reachable_def image_def)
fac2b27893ff new theory IMP/Finite_Reachable nipkow parents: diff changeset	150	by (metis While_stepsnD insertE singletonE stepsn_if_star)
fac2b27893ff new theory IMP/Finite_Reachable nipkow parents: diff changeset	151
fac2b27893ff new theory IMP/Finite_Reachable nipkow parents: diff changeset	152
fac2b27893ff new theory IMP/Finite_Reachable nipkow parents: diff changeset	153	theorem finite_reachable: "finite(reachable c)"
fac2b27893ff new theory IMP/Finite_Reachable nipkow parents: diff changeset	154	apply(induction c)
fac2b27893ff new theory IMP/Finite_Reachable nipkow parents: diff changeset	155	apply(auto simp: reachable_SKIP reachable_Assign
fac2b27893ff new theory IMP/Finite_Reachable nipkow parents: diff changeset	156	finite_subset[OF reachable_Seq] finite_subset[OF reachable_If]
fac2b27893ff new theory IMP/Finite_Reachable nipkow parents: diff changeset	157	finite_subset[OF reachable_While])
fac2b27893ff new theory IMP/Finite_Reachable nipkow parents: diff changeset	158	done
fac2b27893ff new theory IMP/Finite_Reachable nipkow parents: diff changeset	159
fac2b27893ff new theory IMP/Finite_Reachable nipkow parents: diff changeset	160
fac2b27893ff new theory IMP/Finite_Reachable nipkow parents: diff changeset	161	end

author	haftmann
	Sat, 05 Jul 2014 11:01:53 +0200
changeset 57514	bdc2c6b40bf2
parent 52046	bc01725d7918
child 62390	842917225d56
permissions	-rw-r--r--