isabelle: src/HOL/Library/ContNotDenum.thy@76189756ff65 (annotated)

59720 f893472fff31 proper headers; wenzelm parents: 58881 diff changeset	1	(* Title: HOL/Library/ContNotDenum.thy
56796 9f84219715a7 tuned proofs; wenzelm parents: 54797 diff changeset	2	Author: Benjamin Porter, Monash University, NICTA, 2005
57234 596a499318ab clean up ContNotDenum; add lemmas by Jeremy Avigad and Luke Serafin hoelzl parents: 56796 diff changeset	3	Author: Johannes Hölzl, TU München
23461 9a586e80ce15 tuned; wenzelm parents: 23389 diff changeset	4	*)
9a586e80ce15 tuned; wenzelm parents: 23389 diff changeset	5
60500 903bb1495239 isabelle update_cartouches; wenzelm parents: 60308 diff changeset	6	section \<open>Non-denumerability of the Continuum.\<close>
23461 9a586e80ce15 tuned; wenzelm parents: 23389 diff changeset	7
9a586e80ce15 tuned; wenzelm parents: 23389 diff changeset	8	theory ContNotDenum
57234 596a499318ab clean up ContNotDenum; add lemmas by Jeremy Avigad and Luke Serafin hoelzl parents: 56796 diff changeset	9	imports Complex_Main Countable_Set
23461 9a586e80ce15 tuned; wenzelm parents: 23389 diff changeset	10	begin
9a586e80ce15 tuned; wenzelm parents: 23389 diff changeset	11
60500 903bb1495239 isabelle update_cartouches; wenzelm parents: 60308 diff changeset	12	subsection \<open>Abstract\<close>
23461 9a586e80ce15 tuned; wenzelm parents: 23389 diff changeset	13
60500 903bb1495239 isabelle update_cartouches; wenzelm parents: 60308 diff changeset	14	text \<open>The following document presents a proof that the Continuum is
23461 9a586e80ce15 tuned; wenzelm parents: 23389 diff changeset	15	uncountable. It is formalised in the Isabelle/Isar theorem proving
9a586e80ce15 tuned; wenzelm parents: 23389 diff changeset	16	system.
9a586e80ce15 tuned; wenzelm parents: 23389 diff changeset	17
61585 a9599d3d7610 isabelle update_cartouches -c -t; wenzelm parents: 60500 diff changeset	18	{\em Theorem:} The Continuum \<open>\<real>\<close> is not denumerable. In other
a9599d3d7610 isabelle update_cartouches -c -t; wenzelm parents: 60500 diff changeset	19	words, there does not exist a function \<open>f: \<nat> \<Rightarrow> \<real>\<close> such that f is
23461 9a586e80ce15 tuned; wenzelm parents: 23389 diff changeset	20	surjective.
9a586e80ce15 tuned; wenzelm parents: 23389 diff changeset	21
9a586e80ce15 tuned; wenzelm parents: 23389 diff changeset	22	{\em Outline:} An elegant informal proof of this result uses Cantor's
9a586e80ce15 tuned; wenzelm parents: 23389 diff changeset	23	Diagonalisation argument. The proof presented here is not this
9a586e80ce15 tuned; wenzelm parents: 23389 diff changeset	24	one. First we formalise some properties of closed intervals, then we
9a586e80ce15 tuned; wenzelm parents: 23389 diff changeset	25	prove the Nested Interval Property. This property relies on the
9a586e80ce15 tuned; wenzelm parents: 23389 diff changeset	26	completeness of the Real numbers and is the foundation for our
9a586e80ce15 tuned; wenzelm parents: 23389 diff changeset	27	argument. Informally it states that an intersection of countable
9a586e80ce15 tuned; wenzelm parents: 23389 diff changeset	28	closed intervals (where each successive interval is a subset of the
61585 a9599d3d7610 isabelle update_cartouches -c -t; wenzelm parents: 60500 diff changeset	29	last) is non-empty. We then assume a surjective function \<open>f: \<nat> \<Rightarrow> \<real>\<close> exists and find a real x such that x is not in the range of f
60500 903bb1495239 isabelle update_cartouches; wenzelm parents: 60308 diff changeset	30	by generating a sequence of closed intervals then using the NIP.\<close>
23461 9a586e80ce15 tuned; wenzelm parents: 23389 diff changeset	31
57234 596a499318ab clean up ContNotDenum; add lemmas by Jeremy Avigad and Luke Serafin hoelzl parents: 56796 diff changeset	32	theorem real_non_denum: "\<not> (\<exists>f :: nat \<Rightarrow> real. surj f)"
596a499318ab clean up ContNotDenum; add lemmas by Jeremy Avigad and Luke Serafin hoelzl parents: 56796 diff changeset	33	proof
596a499318ab clean up ContNotDenum; add lemmas by Jeremy Avigad and Luke Serafin hoelzl parents: 56796 diff changeset	34	assume "\<exists>f::nat \<Rightarrow> real. surj f"
596a499318ab clean up ContNotDenum; add lemmas by Jeremy Avigad and Luke Serafin hoelzl parents: 56796 diff changeset	35	then obtain f :: "nat \<Rightarrow> real" where "surj f" ..
56796 9f84219715a7 tuned proofs; wenzelm parents: 54797 diff changeset	36
60500 903bb1495239 isabelle update_cartouches; wenzelm parents: 60308 diff changeset	37	txt \<open>First we construct a sequence of nested intervals, ignoring @{term "range f"}.\<close>
23461 9a586e80ce15 tuned; wenzelm parents: 23389 diff changeset	38
57234 596a499318ab clean up ContNotDenum; add lemmas by Jeremy Avigad and Luke Serafin hoelzl parents: 56796 diff changeset	39	have "\<forall>a b c::real. a < b \<longrightarrow> (\<exists>ka kb. ka < kb \<and> {ka..kb} \<subseteq> {a..b} \<and> c \<notin> {ka..kb})"
596a499318ab clean up ContNotDenum; add lemmas by Jeremy Avigad and Luke Serafin hoelzl parents: 56796 diff changeset	40	using assms
596a499318ab clean up ContNotDenum; add lemmas by Jeremy Avigad and Luke Serafin hoelzl parents: 56796 diff changeset	41	by (auto simp add: not_le cong: conj_cong)
596a499318ab clean up ContNotDenum; add lemmas by Jeremy Avigad and Luke Serafin hoelzl parents: 56796 diff changeset	42	(metis dense le_less_linear less_linear less_trans order_refl)
596a499318ab clean up ContNotDenum; add lemmas by Jeremy Avigad and Luke Serafin hoelzl parents: 56796 diff changeset	43	then obtain i j where ij:
596a499318ab clean up ContNotDenum; add lemmas by Jeremy Avigad and Luke Serafin hoelzl parents: 56796 diff changeset	44	"\<And>a b c::real. a < b \<Longrightarrow> i a b c < j a b c"
596a499318ab clean up ContNotDenum; add lemmas by Jeremy Avigad and Luke Serafin hoelzl parents: 56796 diff changeset	45	"\<And>a b c. a < b \<Longrightarrow> {i a b c .. j a b c} \<subseteq> {a .. b}"
596a499318ab clean up ContNotDenum; add lemmas by Jeremy Avigad and Luke Serafin hoelzl parents: 56796 diff changeset	46	"\<And>a b c. a < b \<Longrightarrow> c \<notin> {i a b c .. j a b c}"
596a499318ab clean up ContNotDenum; add lemmas by Jeremy Avigad and Luke Serafin hoelzl parents: 56796 diff changeset	47	by metis
23461 9a586e80ce15 tuned; wenzelm parents: 23389 diff changeset	48
57234 596a499318ab clean up ContNotDenum; add lemmas by Jeremy Avigad and Luke Serafin hoelzl parents: 56796 diff changeset	49	def ivl \<equiv> "rec_nat (f 0 + 1, f 0 + 2) (\<lambda>n x. (i (fst x) (snd x) (f n), j (fst x) (snd x) (f n)))"
596a499318ab clean up ContNotDenum; add lemmas by Jeremy Avigad and Luke Serafin hoelzl parents: 56796 diff changeset	50	def I \<equiv> "\<lambda>n. {fst (ivl n) .. snd (ivl n)}"
23461 9a586e80ce15 tuned; wenzelm parents: 23389 diff changeset	51
57234 596a499318ab clean up ContNotDenum; add lemmas by Jeremy Avigad and Luke Serafin hoelzl parents: 56796 diff changeset	52	have ivl[simp]:
596a499318ab clean up ContNotDenum; add lemmas by Jeremy Avigad and Luke Serafin hoelzl parents: 56796 diff changeset	53	"ivl 0 = (f 0 + 1, f 0 + 2)"
596a499318ab clean up ContNotDenum; add lemmas by Jeremy Avigad and Luke Serafin hoelzl parents: 56796 diff changeset	54	"\<And>n. ivl (Suc n) = (i (fst (ivl n)) (snd (ivl n)) (f n), j (fst (ivl n)) (snd (ivl n)) (f n))"
596a499318ab clean up ContNotDenum; add lemmas by Jeremy Avigad and Luke Serafin hoelzl parents: 56796 diff changeset	55	unfolding ivl_def by simp_all
56796 9f84219715a7 tuned proofs; wenzelm parents: 54797 diff changeset	56
60500 903bb1495239 isabelle update_cartouches; wenzelm parents: 60308 diff changeset	57	txt \<open>This is a decreasing sequence of non-empty intervals.\<close>
23461 9a586e80ce15 tuned; wenzelm parents: 23389 diff changeset	58
57234 596a499318ab clean up ContNotDenum; add lemmas by Jeremy Avigad and Luke Serafin hoelzl parents: 56796 diff changeset	59	{ fix n have "fst (ivl n) < snd (ivl n)"
596a499318ab clean up ContNotDenum; add lemmas by Jeremy Avigad and Luke Serafin hoelzl parents: 56796 diff changeset	60	by (induct n) (auto intro!: ij) }
596a499318ab clean up ContNotDenum; add lemmas by Jeremy Avigad and Luke Serafin hoelzl parents: 56796 diff changeset	61	note less = this
23461 9a586e80ce15 tuned; wenzelm parents: 23389 diff changeset	62
57234 596a499318ab clean up ContNotDenum; add lemmas by Jeremy Avigad and Luke Serafin hoelzl parents: 56796 diff changeset	63	have "decseq I"
596a499318ab clean up ContNotDenum; add lemmas by Jeremy Avigad and Luke Serafin hoelzl parents: 56796 diff changeset	64	unfolding I_def decseq_Suc_iff ivl fst_conv snd_conv by (intro ij allI less)
596a499318ab clean up ContNotDenum; add lemmas by Jeremy Avigad and Luke Serafin hoelzl parents: 56796 diff changeset	65
60500 903bb1495239 isabelle update_cartouches; wenzelm parents: 60308 diff changeset	66	txt \<open>Now we apply the finite intersection property of compact sets.\<close>
23461 9a586e80ce15 tuned; wenzelm parents: 23389 diff changeset	67
57234 596a499318ab clean up ContNotDenum; add lemmas by Jeremy Avigad and Luke Serafin hoelzl parents: 56796 diff changeset	68	have "I 0 \<inter> (\<Inter>i. I i) \<noteq> {}"
596a499318ab clean up ContNotDenum; add lemmas by Jeremy Avigad and Luke Serafin hoelzl parents: 56796 diff changeset	69	proof (rule compact_imp_fip_image)
596a499318ab clean up ContNotDenum; add lemmas by Jeremy Avigad and Luke Serafin hoelzl parents: 56796 diff changeset	70	fix S :: "nat set" assume fin: "finite S"
596a499318ab clean up ContNotDenum; add lemmas by Jeremy Avigad and Luke Serafin hoelzl parents: 56796 diff changeset	71	have "{} \<subset> I (Max (insert 0 S))"
596a499318ab clean up ContNotDenum; add lemmas by Jeremy Avigad and Luke Serafin hoelzl parents: 56796 diff changeset	72	unfolding I_def using less[of "Max (insert 0 S)"] by auto
596a499318ab clean up ContNotDenum; add lemmas by Jeremy Avigad and Luke Serafin hoelzl parents: 56796 diff changeset	73	also have "I (Max (insert 0 S)) \<subseteq> (\<Inter>i\<in>insert 0 S. I i)"
60500 903bb1495239 isabelle update_cartouches; wenzelm parents: 60308 diff changeset	74	using fin decseqD[OF \<open>decseq I\<close>, of _ "Max (insert 0 S)"] by (auto simp: Max_ge_iff)
57234 596a499318ab clean up ContNotDenum; add lemmas by Jeremy Avigad and Luke Serafin hoelzl parents: 56796 diff changeset	75	also have "(\<Inter>i\<in>insert 0 S. I i) = I 0 \<inter> (\<Inter>i\<in>S. I i)"
56796 9f84219715a7 tuned proofs; wenzelm parents: 54797 diff changeset	76	by auto
57234 596a499318ab clean up ContNotDenum; add lemmas by Jeremy Avigad and Luke Serafin hoelzl parents: 56796 diff changeset	77	finally show "I 0 \<inter> (\<Inter>i\<in>S. I i) \<noteq> {}"
53372 f5a6313c7fe4 tuned proof; wenzelm parents: 40702 diff changeset	78	by auto
57234 596a499318ab clean up ContNotDenum; add lemmas by Jeremy Avigad and Luke Serafin hoelzl parents: 56796 diff changeset	79	qed (auto simp: I_def)
596a499318ab clean up ContNotDenum; add lemmas by Jeremy Avigad and Luke Serafin hoelzl parents: 56796 diff changeset	80	then obtain x where "\<And>n. x \<in> I n"
596a499318ab clean up ContNotDenum; add lemmas by Jeremy Avigad and Luke Serafin hoelzl parents: 56796 diff changeset	81	by blast
60500 903bb1495239 isabelle update_cartouches; wenzelm parents: 60308 diff changeset	82	moreover from \<open>surj f\<close> obtain j where "x = f j"
57234 596a499318ab clean up ContNotDenum; add lemmas by Jeremy Avigad and Luke Serafin hoelzl parents: 56796 diff changeset	83	by blast
596a499318ab clean up ContNotDenum; add lemmas by Jeremy Avigad and Luke Serafin hoelzl parents: 56796 diff changeset	84	ultimately have "f j \<in> I (Suc j)"
596a499318ab clean up ContNotDenum; add lemmas by Jeremy Avigad and Luke Serafin hoelzl parents: 56796 diff changeset	85	by blast
596a499318ab clean up ContNotDenum; add lemmas by Jeremy Avigad and Luke Serafin hoelzl parents: 56796 diff changeset	86	with ij(3)[OF less] show False
596a499318ab clean up ContNotDenum; add lemmas by Jeremy Avigad and Luke Serafin hoelzl parents: 56796 diff changeset	87	unfolding I_def ivl fst_conv snd_conv by auto
23461 9a586e80ce15 tuned; wenzelm parents: 23389 diff changeset	88	qed
9a586e80ce15 tuned; wenzelm parents: 23389 diff changeset	89
57234 596a499318ab clean up ContNotDenum; add lemmas by Jeremy Avigad and Luke Serafin hoelzl parents: 56796 diff changeset	90	lemma uncountable_UNIV_real: "uncountable (UNIV::real set)"
596a499318ab clean up ContNotDenum; add lemmas by Jeremy Avigad and Luke Serafin hoelzl parents: 56796 diff changeset	91	using real_non_denum unfolding uncountable_def by auto
23461 9a586e80ce15 tuned; wenzelm parents: 23389 diff changeset	92
57234 596a499318ab clean up ContNotDenum; add lemmas by Jeremy Avigad and Luke Serafin hoelzl parents: 56796 diff changeset	93	lemma bij_betw_open_intervals:
596a499318ab clean up ContNotDenum; add lemmas by Jeremy Avigad and Luke Serafin hoelzl parents: 56796 diff changeset	94	fixes a b c d :: real
596a499318ab clean up ContNotDenum; add lemmas by Jeremy Avigad and Luke Serafin hoelzl parents: 56796 diff changeset	95	assumes "a < b" "c < d"
596a499318ab clean up ContNotDenum; add lemmas by Jeremy Avigad and Luke Serafin hoelzl parents: 56796 diff changeset	96	shows "\<exists>f. bij_betw f {a<..<b} {c<..<d}"
596a499318ab clean up ContNotDenum; add lemmas by Jeremy Avigad and Luke Serafin hoelzl parents: 56796 diff changeset	97	proof -
596a499318ab clean up ContNotDenum; add lemmas by Jeremy Avigad and Luke Serafin hoelzl parents: 56796 diff changeset	98	def f \<equiv> "\<lambda>a b c d x::real. (d - c)/(b - a) * (x - a) + c"
596a499318ab clean up ContNotDenum; add lemmas by Jeremy Avigad and Luke Serafin hoelzl parents: 56796 diff changeset	99	{ fix a b c d x :: real assume *: "a < b" "c < d" "a < x" "x < b"
596a499318ab clean up ContNotDenum; add lemmas by Jeremy Avigad and Luke Serafin hoelzl parents: 56796 diff changeset	100	moreover from * have "(d - c) * (x - a) < (d - c) * (b - a)"
596a499318ab clean up ContNotDenum; add lemmas by Jeremy Avigad and Luke Serafin hoelzl parents: 56796 diff changeset	101	by (intro mult_strict_left_mono) simp_all
596a499318ab clean up ContNotDenum; add lemmas by Jeremy Avigad and Luke Serafin hoelzl parents: 56796 diff changeset	102	moreover from * have "0 < (d - c) * (x - a) / (b - a)"
596a499318ab clean up ContNotDenum; add lemmas by Jeremy Avigad and Luke Serafin hoelzl parents: 56796 diff changeset	103	by simp
596a499318ab clean up ContNotDenum; add lemmas by Jeremy Avigad and Luke Serafin hoelzl parents: 56796 diff changeset	104	ultimately have "f a b c d x < d" "c < f a b c d x"
596a499318ab clean up ContNotDenum; add lemmas by Jeremy Avigad and Luke Serafin hoelzl parents: 56796 diff changeset	105	by (simp_all add: f_def field_simps) }
596a499318ab clean up ContNotDenum; add lemmas by Jeremy Avigad and Luke Serafin hoelzl parents: 56796 diff changeset	106	with assms have "bij_betw (f a b c d) {a<..<b} {c<..<d}"
596a499318ab clean up ContNotDenum; add lemmas by Jeremy Avigad and Luke Serafin hoelzl parents: 56796 diff changeset	107	by (intro bij_betw_byWitness[where f'="f c d a b"]) (auto simp: f_def)
596a499318ab clean up ContNotDenum; add lemmas by Jeremy Avigad and Luke Serafin hoelzl parents: 56796 diff changeset	108	thus ?thesis by auto
23461 9a586e80ce15 tuned; wenzelm parents: 23389 diff changeset	109	qed
9a586e80ce15 tuned; wenzelm parents: 23389 diff changeset	110
57234 596a499318ab clean up ContNotDenum; add lemmas by Jeremy Avigad and Luke Serafin hoelzl parents: 56796 diff changeset	111	lemma bij_betw_tan: "bij_betw tan {-pi/2<..<pi/2} UNIV"
59872 db4000b71fdb Theorem "arctan" is no longer a default simprule paulson <lp15@cam.ac.uk> parents: 59720 diff changeset	112	using arctan_ubound by (intro bij_betw_byWitness[where f'=arctan]) (auto simp: arctan arctan_tan)
23461 9a586e80ce15 tuned; wenzelm parents: 23389 diff changeset	113
57234 596a499318ab clean up ContNotDenum; add lemmas by Jeremy Avigad and Luke Serafin hoelzl parents: 56796 diff changeset	114	lemma uncountable_open_interval:
60308 f7e406aba90d uncountability: open interval equivalences paulson <lp15@cam.ac.uk> parents: 59872 diff changeset	115	fixes a b :: real
f7e406aba90d uncountability: open interval equivalences paulson <lp15@cam.ac.uk> parents: 59872 diff changeset	116	shows "uncountable {a<..<b} \<longleftrightarrow> a < b"
f7e406aba90d uncountability: open interval equivalences paulson <lp15@cam.ac.uk> parents: 59872 diff changeset	117	proof
f7e406aba90d uncountability: open interval equivalences paulson <lp15@cam.ac.uk> parents: 59872 diff changeset	118	assume "uncountable {a<..<b}"
f7e406aba90d uncountability: open interval equivalences paulson <lp15@cam.ac.uk> parents: 59872 diff changeset	119	then show "a < b"
f7e406aba90d uncountability: open interval equivalences paulson <lp15@cam.ac.uk> parents: 59872 diff changeset	120	using uncountable_def by force
f7e406aba90d uncountability: open interval equivalences paulson <lp15@cam.ac.uk> parents: 59872 diff changeset	121	next
f7e406aba90d uncountability: open interval equivalences paulson <lp15@cam.ac.uk> parents: 59872 diff changeset	122	assume "a < b"
f7e406aba90d uncountability: open interval equivalences paulson <lp15@cam.ac.uk> parents: 59872 diff changeset	123	show "uncountable {a<..<b}"
f7e406aba90d uncountability: open interval equivalences paulson <lp15@cam.ac.uk> parents: 59872 diff changeset	124	proof -
f7e406aba90d uncountability: open interval equivalences paulson <lp15@cam.ac.uk> parents: 59872 diff changeset	125	obtain f where "bij_betw f {a <..< b} {-pi/2<..<pi/2}"
60500 903bb1495239 isabelle update_cartouches; wenzelm parents: 60308 diff changeset	126	using bij_betw_open_intervals[OF \<open>a < b\<close>, of "-pi/2" "pi/2"] by auto
60308 f7e406aba90d uncountability: open interval equivalences paulson <lp15@cam.ac.uk> parents: 59872 diff changeset	127	then show ?thesis
f7e406aba90d uncountability: open interval equivalences paulson <lp15@cam.ac.uk> parents: 59872 diff changeset	128	by (metis bij_betw_tan uncountable_bij_betw uncountable_UNIV_real)
f7e406aba90d uncountability: open interval equivalences paulson <lp15@cam.ac.uk> parents: 59872 diff changeset	129	qed
23461 9a586e80ce15 tuned; wenzelm parents: 23389 diff changeset	130	qed
9a586e80ce15 tuned; wenzelm parents: 23389 diff changeset	131
60308 f7e406aba90d uncountability: open interval equivalences paulson <lp15@cam.ac.uk> parents: 59872 diff changeset	132	lemma uncountable_half_open_interval_1:
f7e406aba90d uncountability: open interval equivalences paulson <lp15@cam.ac.uk> parents: 59872 diff changeset	133	fixes a :: real shows "uncountable {a..<b} \<longleftrightarrow> a<b"
f7e406aba90d uncountability: open interval equivalences paulson <lp15@cam.ac.uk> parents: 59872 diff changeset	134	apply auto
f7e406aba90d uncountability: open interval equivalences paulson <lp15@cam.ac.uk> parents: 59872 diff changeset	135	using atLeastLessThan_empty_iff apply fastforce
f7e406aba90d uncountability: open interval equivalences paulson <lp15@cam.ac.uk> parents: 59872 diff changeset	136	using uncountable_open_interval [of a b]
f7e406aba90d uncountability: open interval equivalences paulson <lp15@cam.ac.uk> parents: 59872 diff changeset	137	by (metis countable_Un_iff ivl_disj_un_singleton(3))
f7e406aba90d uncountability: open interval equivalences paulson <lp15@cam.ac.uk> parents: 59872 diff changeset	138
f7e406aba90d uncountability: open interval equivalences paulson <lp15@cam.ac.uk> parents: 59872 diff changeset	139	lemma uncountable_half_open_interval_2:
f7e406aba90d uncountability: open interval equivalences paulson <lp15@cam.ac.uk> parents: 59872 diff changeset	140	fixes a :: real shows "uncountable {a<..b} \<longleftrightarrow> a<b"
f7e406aba90d uncountability: open interval equivalences paulson <lp15@cam.ac.uk> parents: 59872 diff changeset	141	apply auto
f7e406aba90d uncountability: open interval equivalences paulson <lp15@cam.ac.uk> parents: 59872 diff changeset	142	using atLeastLessThan_empty_iff apply fastforce
f7e406aba90d uncountability: open interval equivalences paulson <lp15@cam.ac.uk> parents: 59872 diff changeset	143	using uncountable_open_interval [of a b]
f7e406aba90d uncountability: open interval equivalences paulson <lp15@cam.ac.uk> parents: 59872 diff changeset	144	by (metis countable_Un_iff ivl_disj_un_singleton(4))
f7e406aba90d uncountability: open interval equivalences paulson <lp15@cam.ac.uk> parents: 59872 diff changeset	145
23461 9a586e80ce15 tuned; wenzelm parents: 23389 diff changeset	146	end

author	haftmann
	Sat, 19 Dec 2015 17:03:17 +0100
changeset 61891	76189756ff65
parent 61585	a9599d3d7610
child 61880	ff4d33058566
permissions	-rw-r--r--