isabelle: src/HOL/Analysis/Elementary_Metric_Spaces.thy@c6e1a4806f49 (annotated)

69544 5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1	(* Author: L C Paulson, University of Cambridge
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	2	Author: Amine Chaieb, University of Cambridge
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	3	Author: Robert Himmelmann, TU Muenchen
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	4	Author: Brian Huffman, Portland State University
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	5	*)
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	6
69676 56acd449da41 chapters for analysis manual immler parents: 69622 diff changeset	7	chapter \<open>Functional Analysis\<close>
69544 5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	8
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	9	theory Elementary_Metric_Spaces
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	10	imports
69616 d18dc9c5c456 split off theory combining Elementary_Topology and Abstract_Topology immler parents: 69615 diff changeset	11	Abstract_Topology_2
69544 5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	12	begin
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	13
69676 56acd449da41 chapters for analysis manual immler parents: 69622 diff changeset	14	section \<open>Elementary Metric Spaces\<close>
56acd449da41 chapters for analysis manual immler parents: 69622 diff changeset	15
69544 5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	16	subsection \<open>Open and closed balls\<close>
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	17
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	18	definition%important ball :: "'a::metric_space \<Rightarrow> real \<Rightarrow> 'a set"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	19	where "ball x e = {y. dist x y < e}"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	20
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	21	definition%important cball :: "'a::metric_space \<Rightarrow> real \<Rightarrow> 'a set"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	22	where "cball x e = {y. dist x y \<le> e}"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	23
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	24	definition%important sphere :: "'a::metric_space \<Rightarrow> real \<Rightarrow> 'a set"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	25	where "sphere x e = {y. dist x y = e}"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	26
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	27	lemma mem_ball [simp]: "y \<in> ball x e \<longleftrightarrow> dist x y < e"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	28	by (simp add: ball_def)
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	29
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	30	lemma mem_cball [simp]: "y \<in> cball x e \<longleftrightarrow> dist x y \<le> e"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	31	by (simp add: cball_def)
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	32
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	33	lemma mem_sphere [simp]: "y \<in> sphere x e \<longleftrightarrow> dist x y = e"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	34	by (simp add: sphere_def)
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	35
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	36	lemma ball_trivial [simp]: "ball x 0 = {}"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	37	by (simp add: ball_def)
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	38
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	39	lemma cball_trivial [simp]: "cball x 0 = {x}"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	40	by (simp add: cball_def)
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	41
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	42	lemma sphere_trivial [simp]: "sphere x 0 = {x}"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	43	by (simp add: sphere_def)
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	44
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	45	lemma disjoint_ballI: "dist x y \<ge> r+s \<Longrightarrow> ball x r \<inter> ball y s = {}"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	46	using dist_triangle_less_add not_le by fastforce
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	47
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	48	lemma disjoint_cballI: "dist x y > r + s \<Longrightarrow> cball x r \<inter> cball y s = {}"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	49	by (metis add_mono disjoint_iff_not_equal dist_triangle2 dual_order.trans leD mem_cball)
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	50
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	51	lemma sphere_empty [simp]: "r < 0 \<Longrightarrow> sphere a r = {}"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	52	for a :: "'a::metric_space"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	53	by auto
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	54
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	55	lemma centre_in_ball [simp]: "x \<in> ball x e \<longleftrightarrow> 0 < e"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	56	by simp
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	57
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	58	lemma centre_in_cball [simp]: "x \<in> cball x e \<longleftrightarrow> 0 \<le> e"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	59	by simp
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	60
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	61	lemma ball_subset_cball [simp, intro]: "ball x e \<subseteq> cball x e"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	62	by (simp add: subset_eq)
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	63
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	64	lemma mem_ball_imp_mem_cball: "x \<in> ball y e \<Longrightarrow> x \<in> cball y e"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	65	by (auto simp: mem_ball mem_cball)
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	66
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	67	lemma sphere_cball [simp,intro]: "sphere z r \<subseteq> cball z r"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	68	by force
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	69
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	70	lemma cball_diff_sphere: "cball a r - sphere a r = ball a r"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	71	by auto
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	72
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	73	lemma subset_ball[intro]: "d \<le> e \<Longrightarrow> ball x d \<subseteq> ball x e"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	74	by (simp add: subset_eq)
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	75
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	76	lemma subset_cball[intro]: "d \<le> e \<Longrightarrow> cball x d \<subseteq> cball x e"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	77	by (simp add: subset_eq)
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	78
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	79	lemma mem_ball_leI: "x \<in> ball y e \<Longrightarrow> e \<le> f \<Longrightarrow> x \<in> ball y f"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	80	by (auto simp: mem_ball mem_cball)
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	81
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	82	lemma mem_cball_leI: "x \<in> cball y e \<Longrightarrow> e \<le> f \<Longrightarrow> x \<in> cball y f"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	83	by (auto simp: mem_ball mem_cball)
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	84
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	85	lemma cball_trans: "y \<in> cball z b \<Longrightarrow> x \<in> cball y a \<Longrightarrow> x \<in> cball z (b + a)"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	86	unfolding mem_cball
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	87	proof -
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	88	have "dist z x \<le> dist z y + dist y x"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	89	by (rule dist_triangle)
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	90	also assume "dist z y \<le> b"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	91	also assume "dist y x \<le> a"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	92	finally show "dist z x \<le> b + a" by arith
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	93	qed
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	94
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	95	lemma ball_max_Un: "ball a (max r s) = ball a r \<union> ball a s"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	96	by (simp add: set_eq_iff) arith
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	97
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	98	lemma ball_min_Int: "ball a (min r s) = ball a r \<inter> ball a s"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	99	by (simp add: set_eq_iff)
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	100
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	101	lemma cball_max_Un: "cball a (max r s) = cball a r \<union> cball a s"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	102	by (simp add: set_eq_iff) arith
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	103
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	104	lemma cball_min_Int: "cball a (min r s) = cball a r \<inter> cball a s"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	105	by (simp add: set_eq_iff)
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	106
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	107	lemma cball_diff_eq_sphere: "cball a r - ball a r = sphere a r"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	108	by (auto simp: cball_def ball_def dist_commute)
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	109
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	110	lemma open_ball [intro, simp]: "open (ball x e)"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	111	proof -
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	112	have "open (dist x -` {..<e})"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	113	by (intro open_vimage open_lessThan continuous_intros)
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	114	also have "dist x -` {..<e} = ball x e"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	115	by auto
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	116	finally show ?thesis .
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	117	qed
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	118
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	119	lemma open_contains_ball: "open S \<longleftrightarrow> (\<forall>x\<in>S. \<exists>e>0. ball x e \<subseteq> S)"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	120	by (simp add: open_dist subset_eq mem_ball Ball_def dist_commute)
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	121
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	122	lemma openI [intro?]: "(\<And>x. x\<in>S \<Longrightarrow> \<exists>e>0. ball x e \<subseteq> S) \<Longrightarrow> open S"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	123	by (auto simp: open_contains_ball)
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	124
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	125	lemma openE[elim?]:
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	126	assumes "open S" "x\<in>S"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	127	obtains e where "e>0" "ball x e \<subseteq> S"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	128	using assms unfolding open_contains_ball by auto
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	129
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	130	lemma open_contains_ball_eq: "open S \<Longrightarrow> x\<in>S \<longleftrightarrow> (\<exists>e>0. ball x e \<subseteq> S)"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	131	by (metis open_contains_ball subset_eq centre_in_ball)
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	132
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	133	lemma ball_eq_empty[simp]: "ball x e = {} \<longleftrightarrow> e \<le> 0"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	134	unfolding mem_ball set_eq_iff
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	135	apply (simp add: not_less)
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	136	apply (metis zero_le_dist order_trans dist_self)
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	137	done
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	138
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	139	lemma ball_empty: "e \<le> 0 \<Longrightarrow> ball x e = {}" by simp
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	140
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	141	lemma closed_cball [iff]: "closed (cball x e)"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	142	proof -
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	143	have "closed (dist x -` {..e})"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	144	by (intro closed_vimage closed_atMost continuous_intros)
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	145	also have "dist x -` {..e} = cball x e"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	146	by auto
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	147	finally show ?thesis .
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	148	qed
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	149
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	150	lemma open_contains_cball: "open S \<longleftrightarrow> (\<forall>x\<in>S. \<exists>e>0. cball x e \<subseteq> S)"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	151	proof -
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	152	{
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	153	fix x and e::real
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	154	assume "x\<in>S" "e>0" "ball x e \<subseteq> S"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	155	then have "\<exists>d>0. cball x d \<subseteq> S" unfolding subset_eq by (rule_tac x="e/2" in exI, auto)
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	156	}
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	157	moreover
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	158	{
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	159	fix x and e::real
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	160	assume "x\<in>S" "e>0" "cball x e \<subseteq> S"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	161	then have "\<exists>d>0. ball x d \<subseteq> S"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	162	unfolding subset_eq
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	163	apply (rule_tac x="e/2" in exI, auto)
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	164	done
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	165	}
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	166	ultimately show ?thesis
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	167	unfolding open_contains_ball by auto
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	168	qed
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	169
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	170	lemma open_contains_cball_eq: "open S \<Longrightarrow> (\<forall>x. x \<in> S \<longleftrightarrow> (\<exists>e>0. cball x e \<subseteq> S))"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	171	by (metis open_contains_cball subset_eq order_less_imp_le centre_in_cball)
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	172
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	173	lemma eventually_nhds_ball: "d > 0 \<Longrightarrow> eventually (\<lambda>x. x \<in> ball z d) (nhds z)"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	174	by (rule eventually_nhds_in_open) simp_all
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	175
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	176	lemma eventually_at_ball: "d > 0 \<Longrightarrow> eventually (\<lambda>t. t \<in> ball z d \<and> t \<in> A) (at z within A)"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	177	unfolding eventually_at by (intro exI[of _ d]) (simp_all add: dist_commute)
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	178
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	179	lemma eventually_at_ball': "d > 0 \<Longrightarrow> eventually (\<lambda>t. t \<in> ball z d \<and> t \<noteq> z \<and> t \<in> A) (at z within A)"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	180	unfolding eventually_at by (intro exI[of _ d]) (simp_all add: dist_commute)
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	181
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	182	lemma at_within_ball: "e > 0 \<Longrightarrow> dist x y < e \<Longrightarrow> at y within ball x e = at y"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	183	by (subst at_within_open) auto
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	184
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	185	lemma atLeastAtMost_eq_cball:
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	186	fixes a b::real
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	187	shows "{a .. b} = cball ((a + b)/2) ((b - a)/2)"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	188	by (auto simp: dist_real_def field_simps mem_cball)
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	189
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	190	lemma greaterThanLessThan_eq_ball:
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	191	fixes a b::real
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	192	shows "{a <..< b} = ball ((a + b)/2) ((b - a)/2)"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	193	by (auto simp: dist_real_def field_simps mem_ball)
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	194
69611 42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	195	lemma interior_ball [simp]: "interior (ball x e) = ball x e"
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	196	by (simp add: interior_open)
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	197
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	198	lemma cball_eq_empty [simp]: "cball x e = {} \<longleftrightarrow> e < 0"
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	199	apply (simp add: set_eq_iff not_le)
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	200	apply (metis zero_le_dist dist_self order_less_le_trans)
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	201	done
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	202
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	203	lemma cball_empty [simp]: "e < 0 \<Longrightarrow> cball x e = {}"
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	204	by simp
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	205
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	206	lemma cball_sing:
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	207	fixes x :: "'a::metric_space"
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	208	shows "e = 0 \<Longrightarrow> cball x e = {x}"
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	209	by (auto simp: set_eq_iff)
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	210
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	211	lemma ball_divide_subset: "d \<ge> 1 \<Longrightarrow> ball x (e/d) \<subseteq> ball x e"
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	212	apply (cases "e \<le> 0")
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	213	apply (simp add: ball_empty divide_simps)
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	214	apply (rule subset_ball)
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	215	apply (simp add: divide_simps)
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	216	done
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	217
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	218	lemma ball_divide_subset_numeral: "ball x (e / numeral w) \<subseteq> ball x e"
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	219	using ball_divide_subset one_le_numeral by blast
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	220
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	221	lemma cball_divide_subset: "d \<ge> 1 \<Longrightarrow> cball x (e/d) \<subseteq> cball x e"
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	222	apply (cases "e < 0")
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	223	apply (simp add: divide_simps)
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	224	apply (rule subset_cball)
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	225	apply (metis div_by_1 frac_le not_le order_refl zero_less_one)
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	226	done
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	227
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	228	lemma cball_divide_subset_numeral: "cball x (e / numeral w) \<subseteq> cball x e"
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	229	using cball_divide_subset one_le_numeral by blast
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	230
69544 5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	231
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	232	subsection \<open>Limit Points\<close>
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	233
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	234	lemma islimpt_approachable:
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	235	fixes x :: "'a::metric_space"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	236	shows "x islimpt S \<longleftrightarrow> (\<forall>e>0. \<exists>x'\<in>S. x' \<noteq> x \<and> dist x' x < e)"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	237	unfolding islimpt_iff_eventually eventually_at by fast
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	238
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	239	lemma islimpt_approachable_le: "x islimpt S \<longleftrightarrow> (\<forall>e>0. \<exists>x'\<in> S. x' \<noteq> x \<and> dist x' x \<le> e)"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	240	for x :: "'a::metric_space"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	241	unfolding islimpt_approachable
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	242	using approachable_lt_le [where f="\<lambda>y. dist y x" and P="\<lambda>y. y \<notin> S \<or> y = x",
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	243	THEN arg_cong [where f=Not]]
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	244	by (simp add: Bex_def conj_commute conj_left_commute)
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	245
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	246	lemma limpt_of_limpts: "x islimpt {y. y islimpt S} \<Longrightarrow> x islimpt S"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	247	for x :: "'a::metric_space"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	248	apply (clarsimp simp add: islimpt_approachable)
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	249	apply (drule_tac x="e/2" in spec)
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	250	apply (auto simp: simp del: less_divide_eq_numeral1)
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	251	apply (drule_tac x="dist x' x" in spec)
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	252	apply (auto simp: zero_less_dist_iff simp del: less_divide_eq_numeral1)
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	253	apply (erule rev_bexI)
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	254	apply (metis dist_commute dist_triangle_half_r less_trans less_irrefl)
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	255	done
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	256
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	257	lemma closed_limpts: "closed {x::'a::metric_space. x islimpt S}"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	258	using closed_limpt limpt_of_limpts by blast
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	259
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	260	lemma limpt_of_closure: "x islimpt closure S \<longleftrightarrow> x islimpt S"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	261	for x :: "'a::metric_space"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	262	by (auto simp: closure_def islimpt_Un dest: limpt_of_limpts)
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	263
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	264	lemma islimpt_eq_infinite_ball: "x islimpt S \<longleftrightarrow> (\<forall>e>0. infinite(S \<inter> ball x e))"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	265	apply (simp add: islimpt_eq_acc_point, safe)
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	266	apply (metis Int_commute open_ball centre_in_ball)
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	267	by (metis open_contains_ball Int_mono finite_subset inf_commute subset_refl)
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	268
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	269	lemma islimpt_eq_infinite_cball: "x islimpt S \<longleftrightarrow> (\<forall>e>0. infinite(S \<inter> cball x e))"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	270	apply (simp add: islimpt_eq_infinite_ball, safe)
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	271	apply (meson Int_mono ball_subset_cball finite_subset order_refl)
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	272	by (metis open_ball centre_in_ball finite_Int inf.absorb_iff2 inf_assoc open_contains_cball_eq)
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	273
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	274
69611 42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	275	subsection \<open>Perfect Metric Spaces\<close>
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	276
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	277	lemma perfect_choose_dist: "0 < r \<Longrightarrow> \<exists>a. a \<noteq> x \<and> dist a x < r"
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	278	for x :: "'a::{perfect_space,metric_space}"
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	279	using islimpt_UNIV [of x] by (simp add: islimpt_approachable)
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	280
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	281	lemma cball_eq_sing:
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	282	fixes x :: "'a::{metric_space,perfect_space}"
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	283	shows "cball x e = {x} \<longleftrightarrow> e = 0"
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	284	proof (rule linorder_cases)
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	285	assume e: "0 < e"
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	286	obtain a where "a \<noteq> x" "dist a x < e"
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	287	using perfect_choose_dist [OF e] by auto
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	288	then have "a \<noteq> x" "dist x a \<le> e"
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	289	by (auto simp: dist_commute)
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	290	with e show ?thesis by (auto simp: set_eq_iff)
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	291	qed auto
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	292
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	293
69544 5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	294	subsection \<open>?\<close>
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	295
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	296	lemma finite_ball_include:
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	297	fixes a :: "'a::metric_space"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	298	assumes "finite S"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	299	shows "\<exists>e>0. S \<subseteq> ball a e"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	300	using assms
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	301	proof induction
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	302	case (insert x S)
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	303	then obtain e0 where "e0>0" and e0:"S \<subseteq> ball a e0" by auto
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	304	define e where "e = max e0 (2 * dist a x)"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	305	have "e>0" unfolding e_def using \<open>e0>0\<close> by auto
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	306	moreover have "insert x S \<subseteq> ball a e"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	307	using e0 \<open>e>0\<close> unfolding e_def by auto
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	308	ultimately show ?case by auto
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	309	qed (auto intro: zero_less_one)
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	310
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	311	lemma finite_set_avoid:
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	312	fixes a :: "'a::metric_space"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	313	assumes "finite S"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	314	shows "\<exists>d>0. \<forall>x\<in>S. x \<noteq> a \<longrightarrow> d \<le> dist a x"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	315	using assms
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	316	proof induction
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	317	case (insert x S)
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	318	then obtain d where "d > 0" and d: "\<forall>x\<in>S. x \<noteq> a \<longrightarrow> d \<le> dist a x"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	319	by blast
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	320	show ?case
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	321	proof (cases "x = a")
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	322	case True
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	323	with \<open>d > 0 \<close>d show ?thesis by auto
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	324	next
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	325	case False
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	326	let ?d = "min d (dist a x)"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	327	from False \<open>d > 0\<close> have dp: "?d > 0"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	328	by auto
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	329	from d have d': "\<forall>x\<in>S. x \<noteq> a \<longrightarrow> ?d \<le> dist a x"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	330	by auto
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	331	with dp False show ?thesis
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	332	by (metis insert_iff le_less min_less_iff_conj not_less)
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	333	qed
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	334	qed (auto intro: zero_less_one)
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	335
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	336	lemma discrete_imp_closed:
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	337	fixes S :: "'a::metric_space set"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	338	assumes e: "0 < e"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	339	and d: "\<forall>x \<in> S. \<forall>y \<in> S. dist y x < e \<longrightarrow> y = x"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	340	shows "closed S"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	341	proof -
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	342	have False if C: "\<And>e. e>0 \<Longrightarrow> \<exists>x'\<in>S. x' \<noteq> x \<and> dist x' x < e" for x
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	343	proof -
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	344	from e have e2: "e/2 > 0" by arith
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	345	from C[rule_format, OF e2] obtain y where y: "y \<in> S" "y \<noteq> x" "dist y x < e/2"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	346	by blast
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	347	let ?m = "min (e/2) (dist x y) "
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	348	from e2 y(2) have mp: "?m > 0"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	349	by simp
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	350	from C[OF mp] obtain z where z: "z \<in> S" "z \<noteq> x" "dist z x < ?m"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	351	by blast
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	352	from z y have "dist z y < e"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	353	by (intro dist_triangle_lt [where z=x]) simp
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	354	from d[rule_format, OF y(1) z(1) this] y z show ?thesis
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	355	by (auto simp: dist_commute)
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	356	qed
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	357	then show ?thesis
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	358	by (metis islimpt_approachable closed_limpt [where 'a='a])
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	359	qed
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	360
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	361
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	362	subsection \<open>Interior\<close>
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	363
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	364	lemma mem_interior: "x \<in> interior S \<longleftrightarrow> (\<exists>e>0. ball x e \<subseteq> S)"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	365	using open_contains_ball_eq [where S="interior S"]
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	366	by (simp add: open_subset_interior)
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	367
69611 42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	368	lemma mem_interior_cball: "x \<in> interior S \<longleftrightarrow> (\<exists>e>0. cball x e \<subseteq> S)"
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	369	by (meson ball_subset_cball interior_subset mem_interior open_contains_cball open_interior
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	370	subset_trans)
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	371
69544 5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	372
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	373	subsection \<open>Frontier\<close>
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	374
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	375	lemma frontier_straddle:
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	376	fixes a :: "'a::metric_space"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	377	shows "a \<in> frontier S \<longleftrightarrow> (\<forall>e>0. (\<exists>x\<in>S. dist a x < e) \<and> (\<exists>x. x \<notin> S \<and> dist a x < e))"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	378	unfolding frontier_def closure_interior
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	379	by (auto simp: mem_interior subset_eq ball_def)
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	380
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	381
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	382	subsection \<open>Limits\<close>
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	383
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	384	proposition Lim: "(f \<longlongrightarrow> l) net \<longleftrightarrow> trivial_limit net \<or> (\<forall>e>0. eventually (\<lambda>x. dist (f x) l < e) net)"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	385	by (auto simp: tendsto_iff trivial_limit_eq)
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	386
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	387	text \<open>Show that they yield usual definitions in the various cases.\<close>
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	388
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	389	proposition Lim_within_le: "(f \<longlongrightarrow> l)(at a within S) \<longleftrightarrow>
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	390	(\<forall>e>0. \<exists>d>0. \<forall>x\<in>S. 0 < dist x a \<and> dist x a \<le> d \<longrightarrow> dist (f x) l < e)"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	391	by (auto simp: tendsto_iff eventually_at_le)
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	392
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	393	proposition Lim_within: "(f \<longlongrightarrow> l) (at a within S) \<longleftrightarrow>
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	394	(\<forall>e >0. \<exists>d>0. \<forall>x \<in> S. 0 < dist x a \<and> dist x a < d \<longrightarrow> dist (f x) l < e)"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	395	by (auto simp: tendsto_iff eventually_at)
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	396
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	397	corollary Lim_withinI [intro?]:
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	398	assumes "\<And>e. e > 0 \<Longrightarrow> \<exists>d>0. \<forall>x \<in> S. 0 < dist x a \<and> dist x a < d \<longrightarrow> dist (f x) l \<le> e"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	399	shows "(f \<longlongrightarrow> l) (at a within S)"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	400	apply (simp add: Lim_within, clarify)
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	401	apply (rule ex_forward [OF assms [OF half_gt_zero]], auto)
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	402	done
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	403
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	404	proposition Lim_at: "(f \<longlongrightarrow> l) (at a) \<longleftrightarrow>
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	405	(\<forall>e >0. \<exists>d>0. \<forall>x. 0 < dist x a \<and> dist x a < d \<longrightarrow> dist (f x) l < e)"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	406	by (auto simp: tendsto_iff eventually_at)
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	407
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	408	lemma Lim_transform_within_set:
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	409	fixes a :: "'a::metric_space" and l :: "'b::metric_space"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	410	shows "\<lbrakk>(f \<longlongrightarrow> l) (at a within S); eventually (\<lambda>x. x \<in> S \<longleftrightarrow> x \<in> T) (at a)\<rbrakk>
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	411	\<Longrightarrow> (f \<longlongrightarrow> l) (at a within T)"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	412	apply (clarsimp simp: eventually_at Lim_within)
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	413	apply (drule_tac x=e in spec, clarify)
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	414	apply (rename_tac k)
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	415	apply (rule_tac x="min d k" in exI, simp)
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	416	done
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	417
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	418	text \<open>Another limit point characterization.\<close>
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	419
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	420	lemma limpt_sequential_inj:
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	421	fixes x :: "'a::metric_space"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	422	shows "x islimpt S \<longleftrightarrow>
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	423	(\<exists>f. (\<forall>n::nat. f n \<in> S - {x}) \<and> inj f \<and> (f \<longlongrightarrow> x) sequentially)"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	424	(is "?lhs = ?rhs")
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	425	proof
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	426	assume ?lhs
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	427	then have "\<forall>e>0. \<exists>x'\<in>S. x' \<noteq> x \<and> dist x' x < e"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	428	by (force simp: islimpt_approachable)
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	429	then obtain y where y: "\<And>e. e>0 \<Longrightarrow> y e \<in> S \<and> y e \<noteq> x \<and> dist (y e) x < e"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	430	by metis
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	431	define f where "f \<equiv> rec_nat (y 1) (\<lambda>n fn. y (min (inverse(2 ^ (Suc n))) (dist fn x)))"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	432	have [simp]: "f 0 = y 1"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	433	"f(Suc n) = y (min (inverse(2 ^ (Suc n))) (dist (f n) x))" for n
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	434	by (simp_all add: f_def)
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	435	have f: "f n \<in> S \<and> (f n \<noteq> x) \<and> dist (f n) x < inverse(2 ^ n)" for n
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	436	proof (induction n)
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	437	case 0 show ?case
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	438	by (simp add: y)
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	439	next
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	440	case (Suc n) then show ?case
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	441	apply (auto simp: y)
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	442	by (metis half_gt_zero_iff inverse_positive_iff_positive less_divide_eq_numeral1(1) min_less_iff_conj y zero_less_dist_iff zero_less_numeral zero_less_power)
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	443	qed
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	444	show ?rhs
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	445	proof (rule_tac x=f in exI, intro conjI allI)
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	446	show "\<And>n. f n \<in> S - {x}"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	447	using f by blast
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	448	have "dist (f n) x < dist (f m) x" if "m < n" for m n
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	449	using that
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	450	proof (induction n)
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	451	case 0 then show ?case by simp
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	452	next
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	453	case (Suc n)
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	454	then consider "m < n" \| "m = n" using less_Suc_eq by blast
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	455	then show ?case
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	456	proof cases
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	457	assume "m < n"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	458	have "dist (f(Suc n)) x = dist (y (min (inverse(2 ^ (Suc n))) (dist (f n) x))) x"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	459	by simp
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	460	also have "\<dots> < dist (f n) x"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	461	by (metis dist_pos_lt f min.strict_order_iff min_less_iff_conj y)
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	462	also have "\<dots> < dist (f m) x"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	463	using Suc.IH \<open>m < n\<close> by blast
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	464	finally show ?thesis .
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	465	next
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	466	assume "m = n" then show ?case
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	467	by simp (metis dist_pos_lt f half_gt_zero_iff inverse_positive_iff_positive min_less_iff_conj y zero_less_numeral zero_less_power)
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	468	qed
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	469	qed
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	470	then show "inj f"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	471	by (metis less_irrefl linorder_injI)
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	472	show "f \<longlonglongrightarrow> x"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	473	apply (rule tendstoI)
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	474	apply (rule_tac c="nat (ceiling(1/e))" in eventually_sequentiallyI)
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	475	apply (rule less_trans [OF f [THEN conjunct2, THEN conjunct2]])
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	476	apply (simp add: field_simps)
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	477	by (meson le_less_trans mult_less_cancel_left not_le of_nat_less_two_power)
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	478	qed
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	479	next
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	480	assume ?rhs
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	481	then show ?lhs
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	482	by (fastforce simp add: islimpt_approachable lim_sequentially)
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	483	qed
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	484
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	485	lemma Lim_dist_ubound:
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	486	assumes "\<not>(trivial_limit net)"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	487	and "(f \<longlongrightarrow> l) net"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	488	and "eventually (\<lambda>x. dist a (f x) \<le> e) net"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	489	shows "dist a l \<le> e"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	490	using assms by (fast intro: tendsto_le tendsto_intros)
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	491
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	492
69613 1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	493	subsection \<open>Continuity\<close>
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	494
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	495	text\<open>Derive the epsilon-delta forms, which we often use as "definitions"\<close>
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	496
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	497	proposition continuous_within_eps_delta:
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	498	"continuous (at x within s) f \<longleftrightarrow> (\<forall>e>0. \<exists>d>0. \<forall>x'\<in> s. dist x' x < d --> dist (f x') (f x) < e)"
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	499	unfolding continuous_within and Lim_within by fastforce
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	500
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	501	corollary continuous_at_eps_delta:
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	502	"continuous (at x) f \<longleftrightarrow> (\<forall>e > 0. \<exists>d > 0. \<forall>x'. dist x' x < d \<longrightarrow> dist (f x') (f x) < e)"
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	503	using continuous_within_eps_delta [of x UNIV f] by simp
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	504
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	505	lemma continuous_at_right_real_increasing:
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	506	fixes f :: "real \<Rightarrow> real"
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	507	assumes nondecF: "\<And>x y. x \<le> y \<Longrightarrow> f x \<le> f y"
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	508	shows "continuous (at_right a) f \<longleftrightarrow> (\<forall>e>0. \<exists>d>0. f (a + d) - f a < e)"
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	509	apply (simp add: greaterThan_def dist_real_def continuous_within Lim_within_le)
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	510	apply (intro all_cong ex_cong, safe)
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	511	apply (erule_tac x="a + d" in allE, simp)
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	512	apply (simp add: nondecF field_simps)
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	513	apply (drule nondecF, simp)
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	514	done
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	515
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	516	lemma continuous_at_left_real_increasing:
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	517	assumes nondecF: "\<And> x y. x \<le> y \<Longrightarrow> f x \<le> ((f y) :: real)"
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	518	shows "(continuous (at_left (a :: real)) f) = (\<forall>e > 0. \<exists>delta > 0. f a - f (a - delta) < e)"
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	519	apply (simp add: lessThan_def dist_real_def continuous_within Lim_within_le)
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	520	apply (intro all_cong ex_cong, safe)
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	521	apply (erule_tac x="a - d" in allE, simp)
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	522	apply (simp add: nondecF field_simps)
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	523	apply (cut_tac x="a - d" and y=x in nondecF, simp_all)
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	524	done
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	525
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	526	text\<open>Versions in terms of open balls.\<close>
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	527
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	528	lemma continuous_within_ball:
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	529	"continuous (at x within s) f \<longleftrightarrow>
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	530	(\<forall>e > 0. \<exists>d > 0. f ` (ball x d \<inter> s) \<subseteq> ball (f x) e)"
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	531	(is "?lhs = ?rhs")
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	532	proof
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	533	assume ?lhs
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	534	{
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	535	fix e :: real
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	536	assume "e > 0"
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	537	then obtain d where d: "d>0" "\<forall>xa\<in>s. 0 < dist xa x \<and> dist xa x < d \<longrightarrow> dist (f xa) (f x) < e"
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	538	using \<open>?lhs\<close>[unfolded continuous_within Lim_within] by auto
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	539	{
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	540	fix y
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	541	assume "y \<in> f ` (ball x d \<inter> s)"
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	542	then have "y \<in> ball (f x) e"
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	543	using d(2)
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	544	apply (auto simp: dist_commute)
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	545	apply (erule_tac x=xa in ballE, auto)
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	546	using \<open>e > 0\<close>
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	547	apply auto
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	548	done
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	549	}
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	550	then have "\<exists>d>0. f ` (ball x d \<inter> s) \<subseteq> ball (f x) e"
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	551	using \<open>d > 0\<close>
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	552	unfolding subset_eq ball_def by (auto simp: dist_commute)
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	553	}
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	554	then show ?rhs by auto
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	555	next
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	556	assume ?rhs
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	557	then show ?lhs
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	558	unfolding continuous_within Lim_within ball_def subset_eq
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	559	apply (auto simp: dist_commute)
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	560	apply (erule_tac x=e in allE, auto)
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	561	done
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	562	qed
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	563
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	564	lemma continuous_at_ball:
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	565	"continuous (at x) f \<longleftrightarrow> (\<forall>e>0. \<exists>d>0. f ` (ball x d) \<subseteq> ball (f x) e)" (is "?lhs = ?rhs")
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	566	proof
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	567	assume ?lhs
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	568	then show ?rhs
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	569	unfolding continuous_at Lim_at subset_eq Ball_def Bex_def image_iff mem_ball
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	570	apply auto
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	571	apply (erule_tac x=e in allE, auto)
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	572	apply (rule_tac x=d in exI, auto)
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	573	apply (erule_tac x=xa in allE)
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	574	apply (auto simp: dist_commute)
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	575	done
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	576	next
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	577	assume ?rhs
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	578	then show ?lhs
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	579	unfolding continuous_at Lim_at subset_eq Ball_def Bex_def image_iff mem_ball
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	580	apply auto
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	581	apply (erule_tac x=e in allE, auto)
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	582	apply (rule_tac x=d in exI, auto)
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	583	apply (erule_tac x="f xa" in allE)
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	584	apply (auto simp: dist_commute)
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	585	done
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	586	qed
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	587
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	588	text\<open>Define setwise continuity in terms of limits within the set.\<close>
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	589
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	590	lemma continuous_on_iff:
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	591	"continuous_on s f \<longleftrightarrow>
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	592	(\<forall>x\<in>s. \<forall>e>0. \<exists>d>0. \<forall>x'\<in>s. dist x' x < d \<longrightarrow> dist (f x') (f x) < e)"
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	593	unfolding continuous_on_def Lim_within
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	594	by (metis dist_pos_lt dist_self)
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	595
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	596	lemma continuous_within_E:
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	597	assumes "continuous (at x within s) f" "e>0"
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	598	obtains d where "d>0" "\<And>x'. \<lbrakk>x'\<in> s; dist x' x \<le> d\<rbrakk> \<Longrightarrow> dist (f x') (f x) < e"
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	599	using assms apply (simp add: continuous_within_eps_delta)
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	600	apply (drule spec [of _ e], clarify)
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	601	apply (rule_tac d="d/2" in that, auto)
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	602	done
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	603
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	604	lemma continuous_onI [intro?]:
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	605	assumes "\<And>x e. \<lbrakk>e > 0; x \<in> s\<rbrakk> \<Longrightarrow> \<exists>d>0. \<forall>x'\<in>s. dist x' x < d \<longrightarrow> dist (f x') (f x) \<le> e"
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	606	shows "continuous_on s f"
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	607	apply (simp add: continuous_on_iff, clarify)
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	608	apply (rule ex_forward [OF assms [OF half_gt_zero]], auto)
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	609	done
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	610
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	611	text\<open>Some simple consequential lemmas.\<close>
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	612
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	613	lemma continuous_onE:
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	614	assumes "continuous_on s f" "x\<in>s" "e>0"
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	615	obtains d where "d>0" "\<And>x'. \<lbrakk>x' \<in> s; dist x' x \<le> d\<rbrakk> \<Longrightarrow> dist (f x') (f x) < e"
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	616	using assms
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	617	apply (simp add: continuous_on_iff)
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	618	apply (elim ballE allE)
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	619	apply (auto intro: that [where d="d/2" for d])
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	620	done
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	621
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	622	text\<open>The usual transformation theorems.\<close>
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	623
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	624	lemma continuous_transform_within:
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	625	fixes f g :: "'a::metric_space \<Rightarrow> 'b::topological_space"
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	626	assumes "continuous (at x within s) f"
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	627	and "0 < d"
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	628	and "x \<in> s"
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	629	and "\<And>x'. \<lbrakk>x' \<in> s; dist x' x < d\<rbrakk> \<Longrightarrow> f x' = g x'"
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	630	shows "continuous (at x within s) g"
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	631	using assms
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	632	unfolding continuous_within
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	633	by (force intro: Lim_transform_within)
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	634
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	635
69544 5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	636	subsection \<open>Closure and Limit Characterization\<close>
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	637
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	638	lemma closure_approachable:
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	639	fixes S :: "'a::metric_space set"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	640	shows "x \<in> closure S \<longleftrightarrow> (\<forall>e>0. \<exists>y\<in>S. dist y x < e)"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	641	apply (auto simp: closure_def islimpt_approachable)
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	642	apply (metis dist_self)
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	643	done
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	644
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	645	lemma closure_approachable_le:
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	646	fixes S :: "'a::metric_space set"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	647	shows "x \<in> closure S \<longleftrightarrow> (\<forall>e>0. \<exists>y\<in>S. dist y x \<le> e)"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	648	unfolding closure_approachable
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	649	using dense by force
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	650
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	651	lemma closure_approachableD:
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	652	assumes "x \<in> closure S" "e>0"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	653	shows "\<exists>y\<in>S. dist x y < e"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	654	using assms unfolding closure_approachable by (auto simp: dist_commute)
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	655
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	656	lemma closed_approachable:
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	657	fixes S :: "'a::metric_space set"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	658	shows "closed S \<Longrightarrow> (\<forall>e>0. \<exists>y\<in>S. dist y x < e) \<longleftrightarrow> x \<in> S"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	659	by (metis closure_closed closure_approachable)
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	660
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	661	lemma closure_contains_Inf:
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	662	fixes S :: "real set"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	663	assumes "S \<noteq> {}" "bdd_below S"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	664	shows "Inf S \<in> closure S"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	665	proof -
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	666	have *: "\<forall>x\<in>S. Inf S \<le> x"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	667	using cInf_lower[of _ S] assms by metis
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	668	{
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	669	fix e :: real
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	670	assume "e > 0"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	671	then have "Inf S < Inf S + e" by simp
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	672	with assms obtain x where "x \<in> S" "x < Inf S + e"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	673	by (subst (asm) cInf_less_iff) auto
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	674	with * have "\<exists>x\<in>S. dist x (Inf S) < e"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	675	by (intro bexI[of _ x]) (auto simp: dist_real_def)
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	676	}
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	677	then show ?thesis unfolding closure_approachable by auto
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	678	qed
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	679
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	680	lemma not_trivial_limit_within_ball:
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	681	"\<not> trivial_limit (at x within S) \<longleftrightarrow> (\<forall>e>0. S \<inter> ball x e - {x} \<noteq> {})"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	682	(is "?lhs \<longleftrightarrow> ?rhs")
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	683	proof
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	684	show ?rhs if ?lhs
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	685	proof -
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	686	{
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	687	fix e :: real
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	688	assume "e > 0"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	689	then obtain y where "y \<in> S - {x}" and "dist y x < e"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	690	using \<open>?lhs\<close> not_trivial_limit_within[of x S] closure_approachable[of x "S - {x}"]
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	691	by auto
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	692	then have "y \<in> S \<inter> ball x e - {x}"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	693	unfolding ball_def by (simp add: dist_commute)
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	694	then have "S \<inter> ball x e - {x} \<noteq> {}" by blast
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	695	}
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	696	then show ?thesis by auto
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	697	qed
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	698	show ?lhs if ?rhs
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	699	proof -
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	700	{
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	701	fix e :: real
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	702	assume "e > 0"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	703	then obtain y where "y \<in> S \<inter> ball x e - {x}"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	704	using \<open>?rhs\<close> by blast
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	705	then have "y \<in> S - {x}" and "dist y x < e"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	706	unfolding ball_def by (simp_all add: dist_commute)
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	707	then have "\<exists>y \<in> S - {x}. dist y x < e"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	708	by auto
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	709	}
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	710	then show ?thesis
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	711	using not_trivial_limit_within[of x S] closure_approachable[of x "S - {x}"]
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	712	by auto
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	713	qed
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	714	qed
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	715
69613 1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	716
69544 5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	717	subsection \<open>Boundedness\<close>
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	718
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	719	(* FIXME: This has to be unified with BSEQ!! *)
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	720	definition%important (in metric_space) bounded :: "'a set \<Rightarrow> bool"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	721	where "bounded S \<longleftrightarrow> (\<exists>x e. \<forall>y\<in>S. dist x y \<le> e)"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	722
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	723	lemma bounded_subset_cball: "bounded S \<longleftrightarrow> (\<exists>e x. S \<subseteq> cball x e \<and> 0 \<le> e)"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	724	unfolding bounded_def subset_eq by auto (meson order_trans zero_le_dist)
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	725
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	726	lemma bounded_any_center: "bounded S \<longleftrightarrow> (\<exists>e. \<forall>y\<in>S. dist a y \<le> e)"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	727	unfolding bounded_def
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	728	by auto (metis add.commute add_le_cancel_right dist_commute dist_triangle_le)
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	729
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	730	lemma bounded_iff: "bounded S \<longleftrightarrow> (\<exists>a. \<forall>x\<in>S. norm x \<le> a)"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	731	unfolding bounded_any_center [where a=0]
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	732	by (simp add: dist_norm)
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	733
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	734	lemma bdd_above_norm: "bdd_above (norm ` X) \<longleftrightarrow> bounded X"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	735	by (simp add: bounded_iff bdd_above_def)
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	736
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	737	lemma bounded_norm_comp: "bounded ((\<lambda>x. norm (f x)) ` S) = bounded (f ` S)"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	738	by (simp add: bounded_iff)
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	739
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	740	lemma boundedI:
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	741	assumes "\<And>x. x \<in> S \<Longrightarrow> norm x \<le> B"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	742	shows "bounded S"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	743	using assms bounded_iff by blast
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	744
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	745	lemma bounded_empty [simp]: "bounded {}"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	746	by (simp add: bounded_def)
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	747
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	748	lemma bounded_subset: "bounded T \<Longrightarrow> S \<subseteq> T \<Longrightarrow> bounded S"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	749	by (metis bounded_def subset_eq)
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	750
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	751	lemma bounded_interior[intro]: "bounded S \<Longrightarrow> bounded(interior S)"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	752	by (metis bounded_subset interior_subset)
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	753
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	754	lemma bounded_closure[intro]:
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	755	assumes "bounded S"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	756	shows "bounded (closure S)"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	757	proof -
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	758	from assms obtain x and a where a: "\<forall>y\<in>S. dist x y \<le> a"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	759	unfolding bounded_def by auto
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	760	{
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	761	fix y
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	762	assume "y \<in> closure S"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	763	then obtain f where f: "\<forall>n. f n \<in> S" "(f \<longlongrightarrow> y) sequentially"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	764	unfolding closure_sequential by auto
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	765	have "\<forall>n. f n \<in> S \<longrightarrow> dist x (f n) \<le> a" using a by simp
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	766	then have "eventually (\<lambda>n. dist x (f n) \<le> a) sequentially"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	767	by (simp add: f(1))
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	768	have "dist x y \<le> a"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	769	apply (rule Lim_dist_ubound [of sequentially f])
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	770	apply (rule trivial_limit_sequentially)
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	771	apply (rule f(2))
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	772	apply fact
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	773	done
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	774	}
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	775	then show ?thesis
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	776	unfolding bounded_def by auto
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	777	qed
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	778
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	779	lemma bounded_closure_image: "bounded (f ` closure S) \<Longrightarrow> bounded (f ` S)"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	780	by (simp add: bounded_subset closure_subset image_mono)
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	781
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	782	lemma bounded_cball[simp,intro]: "bounded (cball x e)"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	783	apply (simp add: bounded_def)
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	784	apply (rule_tac x=x in exI)
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	785	apply (rule_tac x=e in exI, auto)
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	786	done
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	787
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	788	lemma bounded_ball[simp,intro]: "bounded (ball x e)"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	789	by (metis ball_subset_cball bounded_cball bounded_subset)
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	790
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	791	lemma bounded_Un[simp]: "bounded (S \<union> T) \<longleftrightarrow> bounded S \<and> bounded T"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	792	by (auto simp: bounded_def) (metis Un_iff bounded_any_center le_max_iff_disj)
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	793
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	794	lemma bounded_Union[intro]: "finite F \<Longrightarrow> \<forall>S\<in>F. bounded S \<Longrightarrow> bounded (\<Union>F)"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	795	by (induct rule: finite_induct[of F]) auto
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	796
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	797	lemma bounded_UN [intro]: "finite A \<Longrightarrow> \<forall>x\<in>A. bounded (B x) \<Longrightarrow> bounded (\<Union>x\<in>A. B x)"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	798	by (induct set: finite) auto
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	799
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	800	lemma bounded_insert [simp]: "bounded (insert x S) \<longleftrightarrow> bounded S"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	801	proof -
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	802	have "\<forall>y\<in>{x}. dist x y \<le> 0"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	803	by simp
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	804	then have "bounded {x}"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	805	unfolding bounded_def by fast
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	806	then show ?thesis
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	807	by (metis insert_is_Un bounded_Un)
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	808	qed
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	809
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	810	lemma bounded_subset_ballI: "S \<subseteq> ball x r \<Longrightarrow> bounded S"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	811	by (meson bounded_ball bounded_subset)
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	812
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	813	lemma bounded_subset_ballD:
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	814	assumes "bounded S" shows "\<exists>r. 0 < r \<and> S \<subseteq> ball x r"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	815	proof -
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	816	obtain e::real and y where "S \<subseteq> cball y e" "0 \<le> e"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	817	using assms by (auto simp: bounded_subset_cball)
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	818	then show ?thesis
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	819	apply (rule_tac x="dist x y + e + 1" in exI)
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	820	apply (simp add: add.commute add_pos_nonneg)
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	821	apply (erule subset_trans)
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	822	apply (clarsimp simp add: cball_def)
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	823	by (metis add_le_cancel_right add_strict_increasing dist_commute dist_triangle_le zero_less_one)
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	824	qed
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	825
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	826	lemma finite_imp_bounded [intro]: "finite S \<Longrightarrow> bounded S"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	827	by (induct set: finite) simp_all
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	828
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	829	lemma bounded_Int[intro]: "bounded S \<or> bounded T \<Longrightarrow> bounded (S \<inter> T)"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	830	by (metis Int_lower1 Int_lower2 bounded_subset)
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	831
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	832	lemma bounded_diff[intro]: "bounded S \<Longrightarrow> bounded (S - T)"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	833	by (metis Diff_subset bounded_subset)
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	834
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	835	lemma bounded_dist_comp:
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	836	assumes "bounded (f ` S)" "bounded (g ` S)"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	837	shows "bounded ((\<lambda>x. dist (f x) (g x)) ` S)"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	838	proof -
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	839	from assms obtain M1 M2 where *: "dist (f x) undefined \<le> M1" "dist undefined (g x) \<le> M2" if "x \<in> S" for x
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	840	by (auto simp: bounded_any_center[of _ undefined] dist_commute)
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	841	have "dist (f x) (g x) \<le> M1 + M2" if "x \<in> S" for x
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	842	using *[OF that]
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	843	by (rule order_trans[OF dist_triangle add_mono])
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	844	then show ?thesis
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	845	by (auto intro!: boundedI)
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	846	qed
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	847
69613 1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	848	lemma bounded_Times:
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	849	assumes "bounded s" "bounded t"
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	850	shows "bounded (s \<times> t)"
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	851	proof -
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	852	obtain x y a b where "\<forall>z\<in>s. dist x z \<le> a" "\<forall>z\<in>t. dist y z \<le> b"
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	853	using assms [unfolded bounded_def] by auto
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	854	then have "\<forall>z\<in>s \<times> t. dist (x, y) z \<le> sqrt (a\<^sup>2 + b\<^sup>2)"
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	855	by (auto simp: dist_Pair_Pair real_sqrt_le_mono add_mono power_mono)
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	856	then show ?thesis unfolding bounded_any_center [where a="(x, y)"] by auto
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	857	qed
69611 42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	858
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	859
69544 5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	860	subsection \<open>Compactness\<close>
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	861
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	862	lemma compact_imp_bounded:
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	863	assumes "compact U"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	864	shows "bounded U"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	865	proof -
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	866	have "compact U" "\<forall>x\<in>U. open (ball x 1)" "U \<subseteq> (\<Union>x\<in>U. ball x 1)"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	867	using assms by auto
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	868	then obtain D where D: "D \<subseteq> U" "finite D" "U \<subseteq> (\<Union>x\<in>D. ball x 1)"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	869	by (metis compactE_image)
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	870	from \<open>finite D\<close> have "bounded (\<Union>x\<in>D. ball x 1)"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	871	by (simp add: bounded_UN)
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	872	then show "bounded U" using \<open>U \<subseteq> (\<Union>x\<in>D. ball x 1)\<close>
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	873	by (rule bounded_subset)
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	874	qed
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	875
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	876	lemma closure_Int_ball_not_empty:
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	877	assumes "S \<subseteq> closure T" "x \<in> S" "r > 0"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	878	shows "T \<inter> ball x r \<noteq> {}"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	879	using assms centre_in_ball closure_iff_nhds_not_empty by blast
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	880
69613 1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	881	lemma compact_sup_maxdistance:
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	882	fixes s :: "'a::metric_space set"
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	883	assumes "compact s"
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	884	and "s \<noteq> {}"
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	885	shows "\<exists>x\<in>s. \<exists>y\<in>s. \<forall>u\<in>s. \<forall>v\<in>s. dist u v \<le> dist x y"
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	886	proof -
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	887	have "compact (s \<times> s)"
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	888	using \<open>compact s\<close> by (intro compact_Times)
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	889	moreover have "s \<times> s \<noteq> {}"
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	890	using \<open>s \<noteq> {}\<close> by auto
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	891	moreover have "continuous_on (s \<times> s) (\<lambda>x. dist (fst x) (snd x))"
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	892	by (intro continuous_at_imp_continuous_on ballI continuous_intros)
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	893	ultimately show ?thesis
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	894	using continuous_attains_sup[of "s \<times> s" "\<lambda>x. dist (fst x) (snd x)"] by auto
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	895	qed
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	896
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	897
69544 5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	898	subsubsection\<open>Totally bounded\<close>
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	899
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	900	lemma cauchy_def: "Cauchy s \<longleftrightarrow> (\<forall>e>0. \<exists>N. \<forall>m n. m \<ge> N \<and> n \<ge> N \<longrightarrow> dist (s m) (s n) < e)"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	901	unfolding Cauchy_def by metis
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	902
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	903	proposition seq_compact_imp_totally_bounded:
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	904	assumes "seq_compact s"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	905	shows "\<forall>e>0. \<exists>k. finite k \<and> k \<subseteq> s \<and> s \<subseteq> (\<Union>x\<in>k. ball x e)"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	906	proof -
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	907	{ fix e::real assume "e > 0" assume *: "\<And>k. finite k \<Longrightarrow> k \<subseteq> s \<Longrightarrow> \<not> s \<subseteq> (\<Union>x\<in>k. ball x e)"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	908	let ?Q = "\<lambda>x n r. r \<in> s \<and> (\<forall>m < (n::nat). \<not> (dist (x m) r < e))"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	909	have "\<exists>x. \<forall>n::nat. ?Q x n (x n)"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	910	proof (rule dependent_wellorder_choice)
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	911	fix n x assume "\<And>y. y < n \<Longrightarrow> ?Q x y (x y)"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	912	then have "\<not> s \<subseteq> (\<Union>x\<in>x ` {0..<n}. ball x e)"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	913	using *[of "x ` {0 ..< n}"] by (auto simp: subset_eq)
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	914	then obtain z where z:"z\<in>s" "z \<notin> (\<Union>x\<in>x ` {0..<n}. ball x e)"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	915	unfolding subset_eq by auto
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	916	show "\<exists>r. ?Q x n r"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	917	using z by auto
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	918	qed simp
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	919	then obtain x where "\<forall>n::nat. x n \<in> s" and x:"\<And>n m. m < n \<Longrightarrow> \<not> (dist (x m) (x n) < e)"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	920	by blast
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	921	then obtain l r where "l \<in> s" and r:"strict_mono r" and "((x \<circ> r) \<longlongrightarrow> l) sequentially"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	922	using assms by (metis seq_compact_def)
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	923	from this(3) have "Cauchy (x \<circ> r)"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	924	using LIMSEQ_imp_Cauchy by auto
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	925	then obtain N::nat where "\<And>m n. N \<le> m \<Longrightarrow> N \<le> n \<Longrightarrow> dist ((x \<circ> r) m) ((x \<circ> r) n) < e"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	926	unfolding cauchy_def using \<open>e > 0\<close> by blast
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	927	then have False
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	928	using x[of "r N" "r (N+1)"] r by (auto simp: strict_mono_def) }
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	929	then show ?thesis
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	930	by metis
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	931	qed
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	932
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	933	subsubsection\<open>Heine-Borel theorem\<close>
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	934
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	935	proposition seq_compact_imp_Heine_Borel:
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	936	fixes s :: "'a :: metric_space set"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	937	assumes "seq_compact s"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	938	shows "compact s"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	939	proof -
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	940	from seq_compact_imp_totally_bounded[OF \<open>seq_compact s\<close>]
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	941	obtain f where f: "\<forall>e>0. finite (f e) \<and> f e \<subseteq> s \<and> s \<subseteq> (\<Union>x\<in>f e. ball x e)"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	942	unfolding choice_iff' ..
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	943	define K where "K = (\<lambda>(x, r). ball x r) ` ((\<Union>e \<in> \<rat> \<inter> {0 <..}. f e) \<times> \<rat>)"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	944	have "countably_compact s"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	945	using \<open>seq_compact s\<close> by (rule seq_compact_imp_countably_compact)
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	946	then show "compact s"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	947	proof (rule countably_compact_imp_compact)
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	948	show "countable K"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	949	unfolding K_def using f
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	950	by (auto intro: countable_finite countable_subset countable_rat
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	951	intro!: countable_image countable_SIGMA countable_UN)
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	952	show "\<forall>b\<in>K. open b" by (auto simp: K_def)
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	953	next
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	954	fix T x
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	955	assume T: "open T" "x \<in> T" and x: "x \<in> s"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	956	from openE[OF T] obtain e where "0 < e" "ball x e \<subseteq> T"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	957	by auto
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	958	then have "0 < e / 2" "ball x (e / 2) \<subseteq> T"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	959	by auto
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	960	from Rats_dense_in_real[OF \<open>0 < e / 2\<close>] obtain r where "r \<in> \<rat>" "0 < r" "r < e / 2"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	961	by auto
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	962	from f[rule_format, of r] \<open>0 < r\<close> \<open>x \<in> s\<close> obtain k where "k \<in> f r" "x \<in> ball k r"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	963	by auto
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	964	from \<open>r \<in> \<rat>\<close> \<open>0 < r\<close> \<open>k \<in> f r\<close> have "ball k r \<in> K"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	965	by (auto simp: K_def)
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	966	then show "\<exists>b\<in>K. x \<in> b \<and> b \<inter> s \<subseteq> T"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	967	proof (rule bexI[rotated], safe)
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	968	fix y
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	969	assume "y \<in> ball k r"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	970	with \<open>r < e / 2\<close> \<open>x \<in> ball k r\<close> have "dist x y < e"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	971	by (intro dist_triangle_half_r [of k _ e]) (auto simp: dist_commute)
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	972	with \<open>ball x e \<subseteq> T\<close> show "y \<in> T"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	973	by auto
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	974	next
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	975	show "x \<in> ball k r" by fact
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	976	qed
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	977	qed
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	978	qed
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	979
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	980	proposition compact_eq_seq_compact_metric:
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	981	"compact (s :: 'a::metric_space set) \<longleftrightarrow> seq_compact s"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	982	using compact_imp_seq_compact seq_compact_imp_Heine_Borel by blast
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	983
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	984	proposition compact_def: \<comment> \<open>this is the definition of compactness in HOL Light\<close>
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	985	"compact (S :: 'a::metric_space set) \<longleftrightarrow>
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	986	(\<forall>f. (\<forall>n. f n \<in> S) \<longrightarrow> (\<exists>l\<in>S. \<exists>r::nat\<Rightarrow>nat. strict_mono r \<and> (f \<circ> r) \<longlonglongrightarrow> l))"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	987	unfolding compact_eq_seq_compact_metric seq_compact_def by auto
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	988
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	989	subsubsection \<open>Complete the chain of compactness variants\<close>
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	990
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	991	proposition compact_eq_Bolzano_Weierstrass:
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	992	fixes s :: "'a::metric_space set"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	993	shows "compact s \<longleftrightarrow> (\<forall>t. infinite t \<and> t \<subseteq> s --> (\<exists>x \<in> s. x islimpt t))"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	994	(is "?lhs = ?rhs")
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	995	proof
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	996	assume ?lhs
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	997	then show ?rhs
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	998	using Heine_Borel_imp_Bolzano_Weierstrass[of s] by auto
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	999	next
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1000	assume ?rhs
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1001	then show ?lhs
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1002	unfolding compact_eq_seq_compact_metric by (rule Bolzano_Weierstrass_imp_seq_compact)
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1003	qed
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1004
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1005	proposition Bolzano_Weierstrass_imp_bounded:
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1006	"\<forall>t. infinite t \<and> t \<subseteq> s \<longrightarrow> (\<exists>x \<in> s. x islimpt t) \<Longrightarrow> bounded s"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1007	using compact_imp_bounded unfolding compact_eq_Bolzano_Weierstrass .
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1008
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1009
69613 1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1010	subsection \<open>Banach fixed point theorem\<close>
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1011
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1012	theorem banach_fix:\<comment> \<open>TODO: rename to \<open>Banach_fix\<close>\<close>
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1013	assumes s: "complete s" "s \<noteq> {}"
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1014	and c: "0 \<le> c" "c < 1"
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1015	and f: "f ` s \<subseteq> s"
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1016	and lipschitz: "\<forall>x\<in>s. \<forall>y\<in>s. dist (f x) (f y) \<le> c * dist x y"
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1017	shows "\<exists>!x\<in>s. f x = x"
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1018	proof -
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1019	from c have "1 - c > 0" by simp
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1020
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1021	from s(2) obtain z0 where z0: "z0 \<in> s" by blast
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1022	define z where "z n = (f ^^ n) z0" for n
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1023	with f z0 have z_in_s: "z n \<in> s" for n :: nat
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1024	by (induct n) auto
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1025	define d where "d = dist (z 0) (z 1)"
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1026
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1027	have fzn: "f (z n) = z (Suc n)" for n
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1028	by (simp add: z_def)
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1029	have cf_z: "dist (z n) (z (Suc n)) \<le> (c ^ n) * d" for n :: nat
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1030	proof (induct n)
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1031	case 0
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1032	then show ?case
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1033	by (simp add: d_def)
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1034	next
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1035	case (Suc m)
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1036	with \<open>0 \<le> c\<close> have "c * dist (z m) (z (Suc m)) \<le> c ^ Suc m * d"
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1037	using mult_left_mono[of "dist (z m) (z (Suc m))" "c ^ m * d" c] by simp
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1038	then show ?case
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1039	using lipschitz[THEN bspec[where x="z m"], OF z_in_s, THEN bspec[where x="z (Suc m)"], OF z_in_s]
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1040	by (simp add: fzn mult_le_cancel_left)
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1041	qed
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1042
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1043	have cf_z2: "(1 - c) * dist (z m) (z (m + n)) \<le> (c ^ m) * d * (1 - c ^ n)" for n m :: nat
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1044	proof (induct n)
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1045	case 0
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1046	show ?case by simp
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1047	next
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1048	case (Suc k)
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1049	from c have "(1 - c) * dist (z m) (z (m + Suc k)) \<le>
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1050	(1 - c) * (dist (z m) (z (m + k)) + dist (z (m + k)) (z (Suc (m + k))))"
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1051	by (simp add: dist_triangle)
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1052	also from c cf_z[of "m + k"] have "\<dots> \<le> (1 - c) * (dist (z m) (z (m + k)) + c ^ (m + k) * d)"
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1053	by simp
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1054	also from Suc have "\<dots> \<le> c ^ m * d * (1 - c ^ k) + (1 - c) * c ^ (m + k) * d"
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1055	by (simp add: field_simps)
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1056	also have "\<dots> = (c ^ m) * (d * (1 - c ^ k) + (1 - c) * c ^ k * d)"
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1057	by (simp add: power_add field_simps)
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1058	also from c have "\<dots> \<le> (c ^ m) * d * (1 - c ^ Suc k)"
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1059	by (simp add: field_simps)
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1060	finally show ?case by simp
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1061	qed
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1062
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1063	have "\<exists>N. \<forall>m n. N \<le> m \<and> N \<le> n \<longrightarrow> dist (z m) (z n) < e" if "e > 0" for e
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1064	proof (cases "d = 0")
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1065	case True
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1066	from \<open>1 - c > 0\<close> have "(1 - c) * x \<le> 0 \<longleftrightarrow> x \<le> 0" for x
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1067	by (metis mult_zero_left mult.commute real_mult_le_cancel_iff1)
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1068	with c cf_z2[of 0] True have "z n = z0" for n
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1069	by (simp add: z_def)
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1070	with \<open>e > 0\<close> show ?thesis by simp
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1071	next
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1072	case False
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1073	with zero_le_dist[of "z 0" "z 1"] have "d > 0"
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1074	by (metis d_def less_le)
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1075	with \<open>1 - c > 0\<close> \<open>e > 0\<close> have "0 < e * (1 - c) / d"
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1076	by simp
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1077	with c obtain N where N: "c ^ N < e * (1 - c) / d"
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1078	using real_arch_pow_inv[of "e * (1 - c) / d" c] by auto
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1079	have *: "dist (z m) (z n) < e" if "m > n" and as: "m \<ge> N" "n \<ge> N" for m n :: nat
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1080	proof -
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1081	from c \<open>n \<ge> N\<close> have *: "c ^ n \<le> c ^ N"
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1082	using power_decreasing[OF \<open>n\<ge>N\<close>, of c] by simp
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1083	from c \<open>m > n\<close> have "1 - c ^ (m - n) > 0"
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1084	using power_strict_mono[of c 1 "m - n"] by simp
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1085	with \<open>d > 0\<close> \<open>0 < 1 - c\<close> have *: "d (1 - c ^ (m - n)) / (1 - c) > 0"
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1086	by simp
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1087	from cf_z2[of n "m - n"] \<open>m > n\<close>
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1088	have "dist (z m) (z n) \<le> c ^ n * d * (1 - c ^ (m - n)) / (1 - c)"
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1089	by (simp add: pos_le_divide_eq[OF \<open>1 - c > 0\<close>] mult.commute dist_commute)
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1090	also have "\<dots> \<le> c ^ N * d * (1 - c ^ (m - n)) / (1 - c)"
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1091	using mult_right_mono[OF * order_less_imp_le[OF **]]
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1092	by (simp add: mult.assoc)
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1093	also have "\<dots> < (e * (1 - c) / d) * d * (1 - c ^ (m - n)) / (1 - c)"
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1094	using mult_strict_right_mono[OF N **] by (auto simp: mult.assoc)
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1095	also from c \<open>d > 0\<close> \<open>1 - c > 0\<close> have "\<dots> = e * (1 - c ^ (m - n))"
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1096	by simp
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1097	also from c \<open>1 - c ^ (m - n) > 0\<close> \<open>e > 0\<close> have "\<dots> \<le> e"
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1098	using mult_right_le_one_le[of e "1 - c ^ (m - n)"] by auto
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1099	finally show ?thesis by simp
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1100	qed
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1101	have "dist (z n) (z m) < e" if "N \<le> m" "N \<le> n" for m n :: nat
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1102	proof (cases "n = m")
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1103	case True
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1104	with \<open>e > 0\<close> show ?thesis by simp
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1105	next
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1106	case False
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1107	with [of n m] [of m n] and that show ?thesis
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1108	by (auto simp: dist_commute nat_neq_iff)
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1109	qed
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1110	then show ?thesis by auto
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1111	qed
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1112	then have "Cauchy z"
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1113	by (simp add: cauchy_def)
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1114	then obtain x where "x\<in>s" and x:"(z \<longlongrightarrow> x) sequentially"
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1115	using s(1)[unfolded compact_def complete_def, THEN spec[where x=z]] and z_in_s by auto
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1116
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1117	define e where "e = dist (f x) x"
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1118	have "e = 0"
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1119	proof (rule ccontr)
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1120	assume "e \<noteq> 0"
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1121	then have "e > 0"
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1122	unfolding e_def using zero_le_dist[of "f x" x]
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1123	by (metis dist_eq_0_iff dist_nz e_def)
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1124	then obtain N where N:"\<forall>n\<ge>N. dist (z n) x < e / 2"
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1125	using x[unfolded lim_sequentially, THEN spec[where x="e/2"]] by auto
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1126	then have N':"dist (z N) x < e / 2" by auto
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1127	have : "c dist (z N) x \<le> dist (z N) x"
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1128	unfolding mult_le_cancel_right2
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1129	using zero_le_dist[of "z N" x] and c
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1130	by (metis dist_eq_0_iff dist_nz order_less_asym less_le)
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1131	have "dist (f (z N)) (f x) \<le> c * dist (z N) x"
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1132	using lipschitz[THEN bspec[where x="z N"], THEN bspec[where x=x]]
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1133	using z_in_s[of N] \<open>x\<in>s\<close>
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1134	using c
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1135	by auto
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1136	also have "\<dots> < e / 2"
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1137	using N' and c using * by auto
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1138	finally show False
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1139	unfolding fzn
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1140	using N[THEN spec[where x="Suc N"]] and dist_triangle_half_r[of "z (Suc N)" "f x" e x]
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1141	unfolding e_def
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1142	by auto
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1143	qed
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1144	then have "f x = x" by (auto simp: e_def)
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1145	moreover have "y = x" if "f y = y" "y \<in> s" for y
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1146	proof -
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1147	from \<open>x \<in> s\<close> \<open>f x = x\<close> that have "dist x y \<le> c * dist x y"
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1148	using lipschitz[THEN bspec[where x=x], THEN bspec[where x=y]] by simp
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1149	with c and zero_le_dist[of x y] have "dist x y = 0"
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1150	by (simp add: mult_le_cancel_right1)
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1151	then show ?thesis by simp
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1152	qed
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1153	ultimately show ?thesis
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1154	using \<open>x\<in>s\<close> by blast
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1155	qed
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1156
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1157
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1158	subsection \<open>Edelstein fixed point theorem\<close>
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1159
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1160	theorem edelstein_fix:\<comment> \<open>TODO: rename to \<open>Edelstein_fix\<close>\<close>
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1161	fixes s :: "'a::metric_space set"
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1162	assumes s: "compact s" "s \<noteq> {}"
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1163	and gs: "(g ` s) \<subseteq> s"
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1164	and dist: "\<forall>x\<in>s. \<forall>y\<in>s. x \<noteq> y \<longrightarrow> dist (g x) (g y) < dist x y"
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1165	shows "\<exists>!x\<in>s. g x = x"
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1166	proof -
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1167	let ?D = "(\<lambda>x. (x, x)) ` s"
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1168	have D: "compact ?D" "?D \<noteq> {}"
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1169	by (rule compact_continuous_image)
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1170	(auto intro!: s continuous_Pair continuous_ident simp: continuous_on_eq_continuous_within)
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1171
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1172	have "\<And>x y e. x \<in> s \<Longrightarrow> y \<in> s \<Longrightarrow> 0 < e \<Longrightarrow> dist y x < e \<Longrightarrow> dist (g y) (g x) < e"
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1173	using dist by fastforce
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1174	then have "continuous_on s g"
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1175	by (auto simp: continuous_on_iff)
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1176	then have cont: "continuous_on ?D (\<lambda>x. dist ((g \<circ> fst) x) (snd x))"
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1177	unfolding continuous_on_eq_continuous_within
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1178	by (intro continuous_dist ballI continuous_within_compose)
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1179	(auto intro!: continuous_fst continuous_snd continuous_ident simp: image_image)
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1180
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1181	obtain a where "a \<in> s" and le: "\<And>x. x \<in> s \<Longrightarrow> dist (g a) a \<le> dist (g x) x"
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1182	using continuous_attains_inf[OF D cont] by auto
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1183
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1184	have "g a = a"
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1185	proof (rule ccontr)
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1186	assume "g a \<noteq> a"
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1187	with \<open>a \<in> s\<close> gs have "dist (g (g a)) (g a) < dist (g a) a"
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1188	by (intro dist[rule_format]) auto
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1189	moreover have "dist (g a) a \<le> dist (g (g a)) (g a)"
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1190	using \<open>a \<in> s\<close> gs by (intro le) auto
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1191	ultimately show False by auto
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1192	qed
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1193	moreover have "\<And>x. x \<in> s \<Longrightarrow> g x = x \<Longrightarrow> x = a"
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1194	using dist[THEN bspec[where x=a]] \<open>g a = a\<close> and \<open>a\<in>s\<close> by auto
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1195	ultimately show "\<exists>!x\<in>s. g x = x"
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1196	using \<open>a \<in> s\<close> by blast
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1197	qed
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1198
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1199	subsection \<open>The diameter of a set\<close>
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1200
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1201	definition%important diameter :: "'a::metric_space set \<Rightarrow> real" where
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1202	"diameter S = (if S = {} then 0 else SUP (x,y)\<in>S\<times>S. dist x y)"
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1203
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1204	lemma diameter_empty [simp]: "diameter{} = 0"
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1205	by (auto simp: diameter_def)
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1206
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1207	lemma diameter_singleton [simp]: "diameter{x} = 0"
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1208	by (auto simp: diameter_def)
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1209
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1210	lemma diameter_le:
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1211	assumes "S \<noteq> {} \<or> 0 \<le> d"
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1212	and no: "\<And>x y. \<lbrakk>x \<in> S; y \<in> S\<rbrakk> \<Longrightarrow> norm(x - y) \<le> d"
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1213	shows "diameter S \<le> d"
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1214	using assms
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1215	by (auto simp: dist_norm diameter_def intro: cSUP_least)
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1216
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1217	lemma diameter_bounded_bound:
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1218	fixes s :: "'a :: metric_space set"
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1219	assumes s: "bounded s" "x \<in> s" "y \<in> s"
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1220	shows "dist x y \<le> diameter s"
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1221	proof -
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1222	from s obtain z d where z: "\<And>x. x \<in> s \<Longrightarrow> dist z x \<le> d"
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1223	unfolding bounded_def by auto
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1224	have "bdd_above (case_prod dist ` (s\<times>s))"
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1225	proof (intro bdd_aboveI, safe)
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1226	fix a b
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1227	assume "a \<in> s" "b \<in> s"
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1228	with z[of a] z[of b] dist_triangle[of a b z]
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1229	show "dist a b \<le> 2 * d"
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1230	by (simp add: dist_commute)
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1231	qed
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1232	moreover have "(x,y) \<in> s\<times>s" using s by auto
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1233	ultimately have "dist x y \<le> (SUP (x,y)\<in>s\<times>s. dist x y)"
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1234	by (rule cSUP_upper2) simp
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1235	with \<open>x \<in> s\<close> show ?thesis
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1236	by (auto simp: diameter_def)
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1237	qed
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1238
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1239	lemma diameter_lower_bounded:
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1240	fixes s :: "'a :: metric_space set"
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1241	assumes s: "bounded s"
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1242	and d: "0 < d" "d < diameter s"
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1243	shows "\<exists>x\<in>s. \<exists>y\<in>s. d < dist x y"
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1244	proof (rule ccontr)
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1245	assume contr: "\<not> ?thesis"
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1246	moreover have "s \<noteq> {}"
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1247	using d by (auto simp: diameter_def)
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1248	ultimately have "diameter s \<le> d"
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1249	by (auto simp: not_less diameter_def intro!: cSUP_least)
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1250	with \<open>d < diameter s\<close> show False by auto
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1251	qed
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1252
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1253	lemma diameter_bounded:
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1254	assumes "bounded s"
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1255	shows "\<forall>x\<in>s. \<forall>y\<in>s. dist x y \<le> diameter s"
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1256	and "\<forall>d>0. d < diameter s \<longrightarrow> (\<exists>x\<in>s. \<exists>y\<in>s. dist x y > d)"
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1257	using diameter_bounded_bound[of s] diameter_lower_bounded[of s] assms
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1258	by auto
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1259
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1260	lemma bounded_two_points:
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1261	"bounded S \<longleftrightarrow> (\<exists>e. \<forall>x\<in>S. \<forall>y\<in>S. dist x y \<le> e)"
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1262	apply (rule iffI)
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1263	subgoal using diameter_bounded(1) by auto
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1264	subgoal using bounded_any_center[of S] by meson
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1265	done
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1266
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1267	lemma diameter_compact_attained:
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1268	assumes "compact s"
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1269	and "s \<noteq> {}"
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1270	shows "\<exists>x\<in>s. \<exists>y\<in>s. dist x y = diameter s"
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1271	proof -
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1272	have b: "bounded s" using assms(1)
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1273	by (rule compact_imp_bounded)
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1274	then obtain x y where xys: "x\<in>s" "y\<in>s"
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1275	and xy: "\<forall>u\<in>s. \<forall>v\<in>s. dist u v \<le> dist x y"
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1276	using compact_sup_maxdistance[OF assms] by auto
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1277	then have "diameter s \<le> dist x y"
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1278	unfolding diameter_def
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1279	apply clarsimp
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1280	apply (rule cSUP_least, fast+)
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1281	done
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1282	then show ?thesis
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1283	by (metis b diameter_bounded_bound order_antisym xys)
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1284	qed
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1285
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1286	lemma diameter_ge_0:
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1287	assumes "bounded S" shows "0 \<le> diameter S"
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1288	by (metis all_not_in_conv assms diameter_bounded_bound diameter_empty dist_self order_refl)
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1289
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1290	lemma diameter_subset:
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1291	assumes "S \<subseteq> T" "bounded T"
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1292	shows "diameter S \<le> diameter T"
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1293	proof (cases "S = {} \<or> T = {}")
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1294	case True
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1295	with assms show ?thesis
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1296	by (force simp: diameter_ge_0)
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1297	next
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1298	case False
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1299	then have "bdd_above ((\<lambda>x. case x of (x, xa) \<Rightarrow> dist x xa) ` (T \<times> T))"
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1300	using \<open>bounded T\<close> diameter_bounded_bound by (force simp: bdd_above_def)
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1301	with False \<open>S \<subseteq> T\<close> show ?thesis
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1302	apply (simp add: diameter_def)
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1303	apply (rule cSUP_subset_mono, auto)
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1304	done
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1305	qed
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1306
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1307	lemma diameter_closure:
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1308	assumes "bounded S"
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1309	shows "diameter(closure S) = diameter S"
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1310	proof (rule order_antisym)
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1311	have "False" if "diameter S < diameter (closure S)"
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1312	proof -
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1313	define d where "d = diameter(closure S) - diameter(S)"
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1314	have "d > 0"
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1315	using that by (simp add: d_def)
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1316	then have "diameter(closure(S)) - d / 2 < diameter(closure(S))"
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1317	by simp
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1318	have dd: "diameter (closure S) - d / 2 = (diameter(closure(S)) + diameter(S)) / 2"
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1319	by (simp add: d_def divide_simps)
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1320	have bocl: "bounded (closure S)"
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1321	using assms by blast
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1322	moreover have "0 \<le> diameter S"
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1323	using assms diameter_ge_0 by blast
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1324	ultimately obtain x y where "x \<in> closure S" "y \<in> closure S" and xy: "diameter(closure(S)) - d / 2 < dist x y"
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1325	using diameter_bounded(2) [OF bocl, rule_format, of "diameter(closure(S)) - d / 2"] \<open>d > 0\<close> d_def by auto
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1326	then obtain x' y' where x'y': "x' \<in> S" "dist x' x < d/4" "y' \<in> S" "dist y' y < d/4"
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1327	using closure_approachable
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1328	by (metis \<open>0 < d\<close> zero_less_divide_iff zero_less_numeral)
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1329	then have "dist x' y' \<le> diameter S"
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1330	using assms diameter_bounded_bound by blast
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1331	with x'y' have "dist x y \<le> d / 4 + diameter S + d / 4"
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1332	by (meson add_mono_thms_linordered_semiring(1) dist_triangle dist_triangle3 less_eq_real_def order_trans)
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1333	then show ?thesis
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1334	using xy d_def by linarith
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1335	qed
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1336	then show "diameter (closure S) \<le> diameter S"
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1337	by fastforce
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1338	next
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1339	show "diameter S \<le> diameter (closure S)"
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1340	by (simp add: assms bounded_closure closure_subset diameter_subset)
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1341	qed
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1342
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1343	proposition Lebesgue_number_lemma:
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1344	assumes "compact S" "\<C> \<noteq> {}" "S \<subseteq> \<Union>\<C>" and ope: "\<And>B. B \<in> \<C> \<Longrightarrow> open B"
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1345	obtains \<delta> where "0 < \<delta>" "\<And>T. \<lbrakk>T \<subseteq> S; diameter T < \<delta>\<rbrakk> \<Longrightarrow> \<exists>B \<in> \<C>. T \<subseteq> B"
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1346	proof (cases "S = {}")
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1347	case True
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1348	then show ?thesis
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1349	by (metis \<open>\<C> \<noteq> {}\<close> zero_less_one empty_subsetI equals0I subset_trans that)
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1350	next
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1351	case False
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1352	{ fix x assume "x \<in> S"
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1353	then obtain C where C: "x \<in> C" "C \<in> \<C>"
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1354	using \<open>S \<subseteq> \<Union>\<C>\<close> by blast
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1355	then obtain r where r: "r>0" "ball x (2*r) \<subseteq> C"
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1356	by (metis mult.commute mult_2_right not_le ope openE field_sum_of_halves zero_le_numeral zero_less_mult_iff)
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1357	then have "\<exists>r C. r > 0 \<and> ball x (2*r) \<subseteq> C \<and> C \<in> \<C>"
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1358	using C by blast
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1359	}
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1360	then obtain r where r: "\<And>x. x \<in> S \<Longrightarrow> r x > 0 \<and> (\<exists>C \<in> \<C>. ball x (2*r x) \<subseteq> C)"
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1361	by metis
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1362	then have "S \<subseteq> (\<Union>x \<in> S. ball x (r x))"
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1363	by auto
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1364	then obtain \<T> where "finite \<T>" "S \<subseteq> \<Union>\<T>" and \<T>: "\<T> \<subseteq> (\<lambda>x. ball x (r x)) ` S"
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1365	by (rule compactE [OF \<open>compact S\<close>]) auto
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1366	then obtain S0 where "S0 \<subseteq> S" "finite S0" and S0: "\<T> = (\<lambda>x. ball x (r x)) ` S0"
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1367	by (meson finite_subset_image)
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1368	then have "S0 \<noteq> {}"
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1369	using False \<open>S \<subseteq> \<Union>\<T>\<close> by auto
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1370	define \<delta> where "\<delta> = Inf (r ` S0)"
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1371	have "\<delta> > 0"
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1372	using \<open>finite S0\<close> \<open>S0 \<subseteq> S\<close> \<open>S0 \<noteq> {}\<close> r by (auto simp: \<delta>_def finite_less_Inf_iff)
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1373	show ?thesis
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1374	proof
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1375	show "0 < \<delta>"
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1376	by (simp add: \<open>0 < \<delta>\<close>)
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1377	show "\<exists>B \<in> \<C>. T \<subseteq> B" if "T \<subseteq> S" and dia: "diameter T < \<delta>" for T
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1378	proof (cases "T = {}")
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1379	case True
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1380	then show ?thesis
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1381	using \<open>\<C> \<noteq> {}\<close> by blast
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1382	next
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1383	case False
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1384	then obtain y where "y \<in> T" by blast
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1385	then have "y \<in> S"
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1386	using \<open>T \<subseteq> S\<close> by auto
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1387	then obtain x where "x \<in> S0" and x: "y \<in> ball x (r x)"
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1388	using \<open>S \<subseteq> \<Union>\<T>\<close> S0 that by blast
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1389	have "ball y \<delta> \<subseteq> ball y (r x)"
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1390	by (metis \<delta>_def \<open>S0 \<noteq> {}\<close> \<open>finite S0\<close> \<open>x \<in> S0\<close> empty_is_image finite_imageI finite_less_Inf_iff imageI less_irrefl not_le subset_ball)
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1391	also have "... \<subseteq> ball x (2*r x)"
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1392	by clarsimp (metis dist_commute dist_triangle_less_add mem_ball mult_2 x)
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1393	finally obtain C where "C \<in> \<C>" "ball y \<delta> \<subseteq> C"
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1394	by (meson r \<open>S0 \<subseteq> S\<close> \<open>x \<in> S0\<close> dual_order.trans subsetCE)
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1395	have "bounded T"
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1396	using \<open>compact S\<close> bounded_subset compact_imp_bounded \<open>T \<subseteq> S\<close> by blast
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1397	then have "T \<subseteq> ball y \<delta>"
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1398	using \<open>y \<in> T\<close> dia diameter_bounded_bound by fastforce
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1399	then show ?thesis
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1400	apply (rule_tac x=C in bexI)
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1401	using \<open>ball y \<delta> \<subseteq> C\<close> \<open>C \<in> \<C>\<close> by auto
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1402	qed
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1403	qed
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1404	qed
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1405
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1406
69544 5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1407	subsection \<open>Metric spaces with the Heine-Borel property\<close>
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1408
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1409	text \<open>
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1410	A metric space (or topological vector space) is said to have the
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1411	Heine-Borel property if every closed and bounded subset is compact.
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1412	\<close>
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1413
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1414	class heine_borel = metric_space +
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1415	assumes bounded_imp_convergent_subsequence:
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1416	"bounded (range f) \<Longrightarrow> \<exists>l r. strict_mono (r::nat\<Rightarrow>nat) \<and> ((f \<circ> r) \<longlongrightarrow> l) sequentially"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1417
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1418	proposition bounded_closed_imp_seq_compact:
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1419	fixes s::"'a::heine_borel set"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1420	assumes "bounded s"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1421	and "closed s"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1422	shows "seq_compact s"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1423	proof (unfold seq_compact_def, clarify)
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1424	fix f :: "nat \<Rightarrow> 'a"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1425	assume f: "\<forall>n. f n \<in> s"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1426	with \<open>bounded s\<close> have "bounded (range f)"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1427	by (auto intro: bounded_subset)
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1428	obtain l r where r: "strict_mono (r :: nat \<Rightarrow> nat)" and l: "((f \<circ> r) \<longlongrightarrow> l) sequentially"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1429	using bounded_imp_convergent_subsequence [OF \<open>bounded (range f)\<close>] by auto
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1430	from f have fr: "\<forall>n. (f \<circ> r) n \<in> s"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1431	by simp
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1432	have "l \<in> s" using \<open>closed s\<close> fr l
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1433	by (rule closed_sequentially)
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1434	show "\<exists>l\<in>s. \<exists>r. strict_mono r \<and> ((f \<circ> r) \<longlongrightarrow> l) sequentially"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1435	using \<open>l \<in> s\<close> r l by blast
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1436	qed
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1437
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1438	lemma compact_eq_bounded_closed:
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1439	fixes s :: "'a::heine_borel set"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1440	shows "compact s \<longleftrightarrow> bounded s \<and> closed s"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1441	(is "?lhs = ?rhs")
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1442	proof
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1443	assume ?lhs
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1444	then show ?rhs
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1445	using compact_imp_closed compact_imp_bounded
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1446	by blast
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1447	next
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1448	assume ?rhs
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1449	then show ?lhs
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1450	using bounded_closed_imp_seq_compact[of s]
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1451	unfolding compact_eq_seq_compact_metric
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1452	by auto
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1453	qed
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1454
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1455	lemma compact_Inter:
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1456	fixes \<F> :: "'a :: heine_borel set set"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1457	assumes com: "\<And>S. S \<in> \<F> \<Longrightarrow> compact S" and "\<F> \<noteq> {}"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1458	shows "compact(\<Inter> \<F>)"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1459	using assms
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1460	by (meson Inf_lower all_not_in_conv bounded_subset closed_Inter compact_eq_bounded_closed)
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1461
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1462	lemma compact_closure [simp]:
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1463	fixes S :: "'a::heine_borel set"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1464	shows "compact(closure S) \<longleftrightarrow> bounded S"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1465	by (meson bounded_closure bounded_subset closed_closure closure_subset compact_eq_bounded_closed)
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1466
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1467	instance%important real :: heine_borel
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1468	proof%unimportant
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1469	fix f :: "nat \<Rightarrow> real"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1470	assume f: "bounded (range f)"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1471	obtain r :: "nat \<Rightarrow> nat" where r: "strict_mono r" "monoseq (f \<circ> r)"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1472	unfolding comp_def by (metis seq_monosub)
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1473	then have "Bseq (f \<circ> r)"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1474	unfolding Bseq_eq_bounded using f
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1475	by (metis BseqI' bounded_iff comp_apply rangeI)
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1476	with r show "\<exists>l r. strict_mono r \<and> (f \<circ> r) \<longlonglongrightarrow> l"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1477	using Bseq_monoseq_convergent[of "f \<circ> r"] by (auto simp: convergent_def)
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1478	qed
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1479
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1480	lemma compact_lemma_general:
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1481	fixes f :: "nat \<Rightarrow> 'a"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1482	fixes proj::"'a \<Rightarrow> 'b \<Rightarrow> 'c::heine_borel" (infixl "proj" 60)
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1483	fixes unproj:: "('b \<Rightarrow> 'c) \<Rightarrow> 'a"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1484	assumes finite_basis: "finite basis"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1485	assumes bounded_proj: "\<And>k. k \<in> basis \<Longrightarrow> bounded ((\<lambda>x. x proj k) ` range f)"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1486	assumes proj_unproj: "\<And>e k. k \<in> basis \<Longrightarrow> (unproj e) proj k = e k"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1487	assumes unproj_proj: "\<And>x. unproj (\<lambda>k. x proj k) = x"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1488	shows "\<forall>d\<subseteq>basis. \<exists>l::'a. \<exists> r::nat\<Rightarrow>nat.
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1489	strict_mono r \<and> (\<forall>e>0. eventually (\<lambda>n. \<forall>i\<in>d. dist (f (r n) proj i) (l proj i) < e) sequentially)"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1490	proof safe
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1491	fix d :: "'b set"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1492	assume d: "d \<subseteq> basis"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1493	with finite_basis have "finite d"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1494	by (blast intro: finite_subset)
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1495	from this d show "\<exists>l::'a. \<exists>r::nat\<Rightarrow>nat. strict_mono r \<and>
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1496	(\<forall>e>0. eventually (\<lambda>n. \<forall>i\<in>d. dist (f (r n) proj i) (l proj i) < e) sequentially)"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1497	proof (induct d)
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1498	case empty
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1499	then show ?case
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1500	unfolding strict_mono_def by auto
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1501	next
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1502	case (insert k d)
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1503	have k[intro]: "k \<in> basis"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1504	using insert by auto
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1505	have s': "bounded ((\<lambda>x. x proj k) ` range f)"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1506	using k
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1507	by (rule bounded_proj)
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1508	obtain l1::"'a" and r1 where r1: "strict_mono r1"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1509	and lr1: "\<forall>e > 0. eventually (\<lambda>n. \<forall>i\<in>d. dist (f (r1 n) proj i) (l1 proj i) < e) sequentially"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1510	using insert(3) using insert(4) by auto
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1511	have f': "\<forall>n. f (r1 n) proj k \<in> (\<lambda>x. x proj k) ` range f"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1512	by simp
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1513	have "bounded (range (\<lambda>i. f (r1 i) proj k))"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1514	by (metis (lifting) bounded_subset f' image_subsetI s')
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1515	then obtain l2 r2 where r2:"strict_mono r2" and lr2:"((\<lambda>i. f (r1 (r2 i)) proj k) \<longlongrightarrow> l2) sequentially"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1516	using bounded_imp_convergent_subsequence[of "\<lambda>i. f (r1 i) proj k"]
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1517	by (auto simp: o_def)
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1518	define r where "r = r1 \<circ> r2"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1519	have r:"strict_mono r"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1520	using r1 and r2 unfolding r_def o_def strict_mono_def by auto
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1521	moreover
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1522	define l where "l = unproj (\<lambda>i. if i = k then l2 else l1 proj i)"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1523	{
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1524	fix e::real
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1525	assume "e > 0"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1526	from lr1 \<open>e > 0\<close> have N1: "eventually (\<lambda>n. \<forall>i\<in>d. dist (f (r1 n) proj i) (l1 proj i) < e) sequentially"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1527	by blast
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1528	from lr2 \<open>e > 0\<close> have N2:"eventually (\<lambda>n. dist (f (r1 (r2 n)) proj k) l2 < e) sequentially"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1529	by (rule tendstoD)
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1530	from r2 N1 have N1': "eventually (\<lambda>n. \<forall>i\<in>d. dist (f (r1 (r2 n)) proj i) (l1 proj i) < e) sequentially"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1531	by (rule eventually_subseq)
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1532	have "eventually (\<lambda>n. \<forall>i\<in>(insert k d). dist (f (r n) proj i) (l proj i) < e) sequentially"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1533	using N1' N2
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1534	by eventually_elim (insert insert.prems, auto simp: l_def r_def o_def proj_unproj)
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1535	}
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1536	ultimately show ?case by auto
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1537	qed
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1538	qed
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1539
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1540	lemma bounded_fst: "bounded s \<Longrightarrow> bounded (fst ` s)"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1541	unfolding bounded_def
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1542	by (metis (erased, hide_lams) dist_fst_le image_iff order_trans)
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1543
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1544	lemma bounded_snd: "bounded s \<Longrightarrow> bounded (snd ` s)"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1545	unfolding bounded_def
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1546	by (metis (no_types, hide_lams) dist_snd_le image_iff order.trans)
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1547
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1548	instance%important prod :: (heine_borel, heine_borel) heine_borel
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1549	proof%unimportant
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1550	fix f :: "nat \<Rightarrow> 'a \<times> 'b"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1551	assume f: "bounded (range f)"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1552	then have "bounded (fst ` range f)"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1553	by (rule bounded_fst)
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1554	then have s1: "bounded (range (fst \<circ> f))"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1555	by (simp add: image_comp)
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1556	obtain l1 r1 where r1: "strict_mono r1" and l1: "(\<lambda>n. fst (f (r1 n))) \<longlonglongrightarrow> l1"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1557	using bounded_imp_convergent_subsequence [OF s1] unfolding o_def by fast
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1558	from f have s2: "bounded (range (snd \<circ> f \<circ> r1))"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1559	by (auto simp: image_comp intro: bounded_snd bounded_subset)
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1560	obtain l2 r2 where r2: "strict_mono r2" and l2: "((\<lambda>n. snd (f (r1 (r2 n)))) \<longlongrightarrow> l2) sequentially"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1561	using bounded_imp_convergent_subsequence [OF s2]
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1562	unfolding o_def by fast
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1563	have l1': "((\<lambda>n. fst (f (r1 (r2 n)))) \<longlongrightarrow> l1) sequentially"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1564	using LIMSEQ_subseq_LIMSEQ [OF l1 r2] unfolding o_def .
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1565	have l: "((f \<circ> (r1 \<circ> r2)) \<longlongrightarrow> (l1, l2)) sequentially"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1566	using tendsto_Pair [OF l1' l2] unfolding o_def by simp
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1567	have r: "strict_mono (r1 \<circ> r2)"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1568	using r1 r2 unfolding strict_mono_def by simp
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1569	show "\<exists>l r. strict_mono r \<and> ((f \<circ> r) \<longlongrightarrow> l) sequentially"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1570	using l r by fast
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1571	qed
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1572
69611 42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	1573
69613 1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1574	subsection \<open>Completeness\<close>
69544 5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1575
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1576	proposition (in metric_space) completeI:
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1577	assumes "\<And>f. \<forall>n. f n \<in> s \<Longrightarrow> Cauchy f \<Longrightarrow> \<exists>l\<in>s. f \<longlonglongrightarrow> l"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1578	shows "complete s"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1579	using assms unfolding complete_def by fast
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1580
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1581	proposition (in metric_space) completeE:
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1582	assumes "complete s" and "\<forall>n. f n \<in> s" and "Cauchy f"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1583	obtains l where "l \<in> s" and "f \<longlonglongrightarrow> l"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1584	using assms unfolding complete_def by fast
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1585
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1586	(* TODO: generalize to uniform spaces *)
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1587	lemma compact_imp_complete:
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1588	fixes s :: "'a::metric_space set"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1589	assumes "compact s"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1590	shows "complete s"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1591	proof -
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1592	{
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1593	fix f
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1594	assume as: "(\<forall>n::nat. f n \<in> s)" "Cauchy f"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1595	from as(1) obtain l r where lr: "l\<in>s" "strict_mono r" "(f \<circ> r) \<longlonglongrightarrow> l"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1596	using assms unfolding compact_def by blast
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1597
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1598	note lr' = seq_suble [OF lr(2)]
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1599	{
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1600	fix e :: real
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1601	assume "e > 0"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1602	from as(2) obtain N where N:"\<forall>m n. N \<le> m \<and> N \<le> n \<longrightarrow> dist (f m) (f n) < e/2"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1603	unfolding cauchy_def
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1604	using \<open>e > 0\<close>
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1605	apply (erule_tac x="e/2" in allE, auto)
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1606	done
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1607	from lr(3)[unfolded lim_sequentially, THEN spec[where x="e/2"]]
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1608	obtain M where M:"\<forall>n\<ge>M. dist ((f \<circ> r) n) l < e/2"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1609	using \<open>e > 0\<close> by auto
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1610	{
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1611	fix n :: nat
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1612	assume n: "n \<ge> max N M"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1613	have "dist ((f \<circ> r) n) l < e/2"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1614	using n M by auto
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1615	moreover have "r n \<ge> N"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1616	using lr'[of n] n by auto
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1617	then have "dist (f n) ((f \<circ> r) n) < e / 2"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1618	using N and n by auto
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1619	ultimately have "dist (f n) l < e"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1620	using dist_triangle_half_r[of "f (r n)" "f n" e l]
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1621	by (auto simp: dist_commute)
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1622	}
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1623	then have "\<exists>N. \<forall>n\<ge>N. dist (f n) l < e" by blast
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1624	}
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1625	then have "\<exists>l\<in>s. (f \<longlongrightarrow> l) sequentially" using \<open>l\<in>s\<close>
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1626	unfolding lim_sequentially by auto
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1627	}
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1628	then show ?thesis unfolding complete_def by auto
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1629	qed
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1630
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1631	proposition compact_eq_totally_bounded:
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1632	"compact s \<longleftrightarrow> complete s \<and> (\<forall>e>0. \<exists>k. finite k \<and> s \<subseteq> (\<Union>x\<in>k. ball x e))"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1633	(is "_ \<longleftrightarrow> ?rhs")
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1634	proof
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1635	assume assms: "?rhs"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1636	then obtain k where k: "\<And>e. 0 < e \<Longrightarrow> finite (k e)" "\<And>e. 0 < e \<Longrightarrow> s \<subseteq> (\<Union>x\<in>k e. ball x e)"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1637	by (auto simp: choice_iff')
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1638
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1639	show "compact s"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1640	proof cases
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1641	assume "s = {}"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1642	then show "compact s" by (simp add: compact_def)
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1643	next
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1644	assume "s \<noteq> {}"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1645	show ?thesis
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1646	unfolding compact_def
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1647	proof safe
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1648	fix f :: "nat \<Rightarrow> 'a"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1649	assume f: "\<forall>n. f n \<in> s"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1650
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1651	define e where "e n = 1 / (2 * Suc n)" for n
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1652	then have [simp]: "\<And>n. 0 < e n" by auto
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1653	define B where "B n U = (SOME b. infinite {n. f n \<in> b} \<and> (\<exists>x. b \<subseteq> ball x (e n) \<inter> U))" for n U
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1654	{
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1655	fix n U
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1656	assume "infinite {n. f n \<in> U}"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1657	then have "\<exists>b\<in>k (e n). infinite {i\<in>{n. f n \<in> U}. f i \<in> ball b (e n)}"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1658	using k f by (intro pigeonhole_infinite_rel) (auto simp: subset_eq)
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1659	then obtain a where
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1660	"a \<in> k (e n)"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1661	"infinite {i \<in> {n. f n \<in> U}. f i \<in> ball a (e n)}" ..
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1662	then have "\<exists>b. infinite {i. f i \<in> b} \<and> (\<exists>x. b \<subseteq> ball x (e n) \<inter> U)"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1663	by (intro exI[of _ "ball a (e n) \<inter> U"] exI[of _ a]) (auto simp: ac_simps)
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1664	from someI_ex[OF this]
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1665	have "infinite {i. f i \<in> B n U}" "\<exists>x. B n U \<subseteq> ball x (e n) \<inter> U"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1666	unfolding B_def by auto
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1667	}
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1668	note B = this
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1669
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1670	define F where "F = rec_nat (B 0 UNIV) B"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1671	{
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1672	fix n
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1673	have "infinite {i. f i \<in> F n}"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1674	by (induct n) (auto simp: F_def B)
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1675	}
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1676	then have F: "\<And>n. \<exists>x. F (Suc n) \<subseteq> ball x (e n) \<inter> F n"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1677	using B by (simp add: F_def)
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1678	then have F_dec: "\<And>m n. m \<le> n \<Longrightarrow> F n \<subseteq> F m"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1679	using decseq_SucI[of F] by (auto simp: decseq_def)
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1680
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1681	obtain sel where sel: "\<And>k i. i < sel k i" "\<And>k i. f (sel k i) \<in> F k"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1682	proof (atomize_elim, unfold all_conj_distrib[symmetric], intro choice allI)
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1683	fix k i
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1684	have "infinite ({n. f n \<in> F k} - {.. i})"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1685	using \<open>infinite {n. f n \<in> F k}\<close> by auto
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1686	from infinite_imp_nonempty[OF this]
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1687	show "\<exists>x>i. f x \<in> F k"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1688	by (simp add: set_eq_iff not_le conj_commute)
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1689	qed
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1690
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1691	define t where "t = rec_nat (sel 0 0) (\<lambda>n i. sel (Suc n) i)"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1692	have "strict_mono t"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1693	unfolding strict_mono_Suc_iff by (simp add: t_def sel)
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1694	moreover have "\<forall>i. (f \<circ> t) i \<in> s"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1695	using f by auto
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1696	moreover
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1697	{
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1698	fix n
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1699	have "(f \<circ> t) n \<in> F n"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1700	by (cases n) (simp_all add: t_def sel)
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1701	}
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1702	note t = this
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1703
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1704	have "Cauchy (f \<circ> t)"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1705	proof (safe intro!: metric_CauchyI exI elim!: nat_approx_posE)
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1706	fix r :: real and N n m
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1707	assume "1 / Suc N < r" "Suc N \<le> n" "Suc N \<le> m"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1708	then have "(f \<circ> t) n \<in> F (Suc N)" "(f \<circ> t) m \<in> F (Suc N)" "2 * e N < r"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1709	using F_dec t by (auto simp: e_def field_simps of_nat_Suc)
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1710	with F[of N] obtain x where "dist x ((f \<circ> t) n) < e N" "dist x ((f \<circ> t) m) < e N"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1711	by (auto simp: subset_eq)
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1712	with dist_triangle[of "(f \<circ> t) m" "(f \<circ> t) n" x] \<open>2 * e N < r\<close>
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1713	show "dist ((f \<circ> t) m) ((f \<circ> t) n) < r"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1714	by (simp add: dist_commute)
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1715	qed
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1716
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1717	ultimately show "\<exists>l\<in>s. \<exists>r. strict_mono r \<and> (f \<circ> r) \<longlonglongrightarrow> l"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1718	using assms unfolding complete_def by blast
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1719	qed
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1720	qed
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1721	qed (metis compact_imp_complete compact_imp_seq_compact seq_compact_imp_totally_bounded)
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1722
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1723	lemma cauchy_imp_bounded:
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1724	assumes "Cauchy s"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1725	shows "bounded (range s)"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1726	proof -
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1727	from assms obtain N :: nat where "\<forall>m n. N \<le> m \<and> N \<le> n \<longrightarrow> dist (s m) (s n) < 1"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1728	unfolding cauchy_def by force
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1729	then have N:"\<forall>n. N \<le> n \<longrightarrow> dist (s N) (s n) < 1" by auto
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1730	moreover
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1731	have "bounded (s ` {0..N})"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1732	using finite_imp_bounded[of "s ` {1..N}"] by auto
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1733	then obtain a where a:"\<forall>x\<in>s ` {0..N}. dist (s N) x \<le> a"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1734	unfolding bounded_any_center [where a="s N"] by auto
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1735	ultimately show "?thesis"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1736	unfolding bounded_any_center [where a="s N"]
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1737	apply (rule_tac x="max a 1" in exI, auto)
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1738	apply (erule_tac x=y in allE)
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1739	apply (erule_tac x=y in ballE, auto)
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1740	done
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1741	qed
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1742
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1743	instance heine_borel < complete_space
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1744	proof
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1745	fix f :: "nat \<Rightarrow> 'a" assume "Cauchy f"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1746	then have "bounded (range f)"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1747	by (rule cauchy_imp_bounded)
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1748	then have "compact (closure (range f))"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1749	unfolding compact_eq_bounded_closed by auto
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1750	then have "complete (closure (range f))"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1751	by (rule compact_imp_complete)
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1752	moreover have "\<forall>n. f n \<in> closure (range f)"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1753	using closure_subset [of "range f"] by auto
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1754	ultimately have "\<exists>l\<in>closure (range f). (f \<longlongrightarrow> l) sequentially"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1755	using \<open>Cauchy f\<close> unfolding complete_def by auto
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1756	then show "convergent f"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1757	unfolding convergent_def by auto
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1758	qed
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1759
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1760	lemma complete_UNIV: "complete (UNIV :: ('a::complete_space) set)"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1761	proof (rule completeI)
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1762	fix f :: "nat \<Rightarrow> 'a" assume "Cauchy f"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1763	then have "convergent f" by (rule Cauchy_convergent)
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1764	then show "\<exists>l\<in>UNIV. f \<longlonglongrightarrow> l" unfolding convergent_def by simp
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1765	qed
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1766
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1767	lemma complete_imp_closed:
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1768	fixes S :: "'a::metric_space set"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1769	assumes "complete S"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1770	shows "closed S"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1771	proof (unfold closed_sequential_limits, clarify)
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1772	fix f x assume "\<forall>n. f n \<in> S" and "f \<longlonglongrightarrow> x"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1773	from \<open>f \<longlonglongrightarrow> x\<close> have "Cauchy f"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1774	by (rule LIMSEQ_imp_Cauchy)
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1775	with \<open>complete S\<close> and \<open>\<forall>n. f n \<in> S\<close> obtain l where "l \<in> S" and "f \<longlonglongrightarrow> l"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1776	by (rule completeE)
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1777	from \<open>f \<longlonglongrightarrow> x\<close> and \<open>f \<longlonglongrightarrow> l\<close> have "x = l"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1778	by (rule LIMSEQ_unique)
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1779	with \<open>l \<in> S\<close> show "x \<in> S"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1780	by simp
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1781	qed
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1782
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1783	lemma complete_Int_closed:
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1784	fixes S :: "'a::metric_space set"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1785	assumes "complete S" and "closed t"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1786	shows "complete (S \<inter> t)"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1787	proof (rule completeI)
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1788	fix f assume "\<forall>n. f n \<in> S \<inter> t" and "Cauchy f"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1789	then have "\<forall>n. f n \<in> S" and "\<forall>n. f n \<in> t"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1790	by simp_all
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1791	from \<open>complete S\<close> obtain l where "l \<in> S" and "f \<longlonglongrightarrow> l"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1792	using \<open>\<forall>n. f n \<in> S\<close> and \<open>Cauchy f\<close> by (rule completeE)
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1793	from \<open>closed t\<close> and \<open>\<forall>n. f n \<in> t\<close> and \<open>f \<longlonglongrightarrow> l\<close> have "l \<in> t"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1794	by (rule closed_sequentially)
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1795	with \<open>l \<in> S\<close> and \<open>f \<longlonglongrightarrow> l\<close> show "\<exists>l\<in>S \<inter> t. f \<longlonglongrightarrow> l"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1796	by fast
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1797	qed
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1798
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1799	lemma complete_closed_subset:
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1800	fixes S :: "'a::metric_space set"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1801	assumes "closed S" and "S \<subseteq> t" and "complete t"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1802	shows "complete S"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1803	using assms complete_Int_closed [of t S] by (simp add: Int_absorb1)
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1804
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1805	lemma complete_eq_closed:
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1806	fixes S :: "('a::complete_space) set"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1807	shows "complete S \<longleftrightarrow> closed S"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1808	proof
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1809	assume "closed S" then show "complete S"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1810	using subset_UNIV complete_UNIV by (rule complete_closed_subset)
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1811	next
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1812	assume "complete S" then show "closed S"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1813	by (rule complete_imp_closed)
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1814	qed
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1815
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1816	lemma convergent_eq_Cauchy:
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1817	fixes S :: "nat \<Rightarrow> 'a::complete_space"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1818	shows "(\<exists>l. (S \<longlongrightarrow> l) sequentially) \<longleftrightarrow> Cauchy S"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1819	unfolding Cauchy_convergent_iff convergent_def ..
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1820
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1821	lemma convergent_imp_bounded:
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1822	fixes S :: "nat \<Rightarrow> 'a::metric_space"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1823	shows "(S \<longlongrightarrow> l) sequentially \<Longrightarrow> bounded (range S)"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1824	by (intro cauchy_imp_bounded LIMSEQ_imp_Cauchy)
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1825
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1826	lemma frontier_subset_compact:
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1827	fixes S :: "'a::heine_borel set"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1828	shows "compact S \<Longrightarrow> frontier S \<subseteq> S"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1829	using frontier_subset_closed compact_eq_bounded_closed
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1830	by blast
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	1831
69613 1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1832	lemma continuous_closed_imp_Cauchy_continuous:
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1833	fixes S :: "('a::complete_space) set"
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1834	shows "\<lbrakk>continuous_on S f; closed S; Cauchy \<sigma>; \<And>n. (\<sigma> n) \<in> S\<rbrakk> \<Longrightarrow> Cauchy(f \<circ> \<sigma>)"
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1835	apply (simp add: complete_eq_closed [symmetric] continuous_on_sequentially)
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1836	by (meson LIMSEQ_imp_Cauchy complete_def)
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1837
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1838	lemma banach_fix_type:
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1839	fixes f::"'a::complete_space\<Rightarrow>'a"
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1840	assumes c:"0 \<le> c" "c < 1"
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1841	and lipschitz:"\<forall>x. \<forall>y. dist (f x) (f y) \<le> c * dist x y"
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1842	shows "\<exists>!x. (f x = x)"
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1843	using assms banach_fix[OF complete_UNIV UNIV_not_empty assms(1,2) subset_UNIV, of f]
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1844	by auto
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1845
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1846
69615 e502cd4d7062 moved material from Connected.thy to more appropriate places immler parents: 69613 diff changeset	1847	subsection%unimportant\<open> Finite intersection property\<close>
e502cd4d7062 moved material from Connected.thy to more appropriate places immler parents: 69613 diff changeset	1848
e502cd4d7062 moved material from Connected.thy to more appropriate places immler parents: 69613 diff changeset	1849	text\<open>Also developed in HOL's toplogical spaces theory, but the Heine-Borel type class isn't available there.\<close>
e502cd4d7062 moved material from Connected.thy to more appropriate places immler parents: 69613 diff changeset	1850
e502cd4d7062 moved material from Connected.thy to more appropriate places immler parents: 69613 diff changeset	1851	lemma closed_imp_fip:
e502cd4d7062 moved material from Connected.thy to more appropriate places immler parents: 69613 diff changeset	1852	fixes S :: "'a::heine_borel set"
e502cd4d7062 moved material from Connected.thy to more appropriate places immler parents: 69613 diff changeset	1853	assumes "closed S"
e502cd4d7062 moved material from Connected.thy to more appropriate places immler parents: 69613 diff changeset	1854	and T: "T \<in> \<F>" "bounded T"
e502cd4d7062 moved material from Connected.thy to more appropriate places immler parents: 69613 diff changeset	1855	and clof: "\<And>T. T \<in> \<F> \<Longrightarrow> closed T"
e502cd4d7062 moved material from Connected.thy to more appropriate places immler parents: 69613 diff changeset	1856	and none: "\<And>\<F>'. \<lbrakk>finite \<F>'; \<F>' \<subseteq> \<F>\<rbrakk> \<Longrightarrow> S \<inter> \<Inter>\<F>' \<noteq> {}"
e502cd4d7062 moved material from Connected.thy to more appropriate places immler parents: 69613 diff changeset	1857	shows "S \<inter> \<Inter>\<F> \<noteq> {}"
e502cd4d7062 moved material from Connected.thy to more appropriate places immler parents: 69613 diff changeset	1858	proof -
e502cd4d7062 moved material from Connected.thy to more appropriate places immler parents: 69613 diff changeset	1859	have "compact (S \<inter> T)"
e502cd4d7062 moved material from Connected.thy to more appropriate places immler parents: 69613 diff changeset	1860	using \<open>closed S\<close> clof compact_eq_bounded_closed T by blast
e502cd4d7062 moved material from Connected.thy to more appropriate places immler parents: 69613 diff changeset	1861	then have "(S \<inter> T) \<inter> \<Inter>\<F> \<noteq> {}"
e502cd4d7062 moved material from Connected.thy to more appropriate places immler parents: 69613 diff changeset	1862	apply (rule compact_imp_fip)
e502cd4d7062 moved material from Connected.thy to more appropriate places immler parents: 69613 diff changeset	1863	apply (simp add: clof)
e502cd4d7062 moved material from Connected.thy to more appropriate places immler parents: 69613 diff changeset	1864	by (metis Int_assoc complete_lattice_class.Inf_insert finite_insert insert_subset none \<open>T \<in> \<F>\<close>)
e502cd4d7062 moved material from Connected.thy to more appropriate places immler parents: 69613 diff changeset	1865	then show ?thesis by blast
e502cd4d7062 moved material from Connected.thy to more appropriate places immler parents: 69613 diff changeset	1866	qed
e502cd4d7062 moved material from Connected.thy to more appropriate places immler parents: 69613 diff changeset	1867
e502cd4d7062 moved material from Connected.thy to more appropriate places immler parents: 69613 diff changeset	1868	lemma closed_imp_fip_compact:
e502cd4d7062 moved material from Connected.thy to more appropriate places immler parents: 69613 diff changeset	1869	fixes S :: "'a::heine_borel set"
e502cd4d7062 moved material from Connected.thy to more appropriate places immler parents: 69613 diff changeset	1870	shows
e502cd4d7062 moved material from Connected.thy to more appropriate places immler parents: 69613 diff changeset	1871	"\<lbrakk>closed S; \<And>T. T \<in> \<F> \<Longrightarrow> compact T;
e502cd4d7062 moved material from Connected.thy to more appropriate places immler parents: 69613 diff changeset	1872	\<And>\<F>'. \<lbrakk>finite \<F>'; \<F>' \<subseteq> \<F>\<rbrakk> \<Longrightarrow> S \<inter> \<Inter>\<F>' \<noteq> {}\<rbrakk>
e502cd4d7062 moved material from Connected.thy to more appropriate places immler parents: 69613 diff changeset	1873	\<Longrightarrow> S \<inter> \<Inter>\<F> \<noteq> {}"
e502cd4d7062 moved material from Connected.thy to more appropriate places immler parents: 69613 diff changeset	1874	by (metis Inf_greatest closed_imp_fip compact_eq_bounded_closed empty_subsetI finite.emptyI inf.orderE)
e502cd4d7062 moved material from Connected.thy to more appropriate places immler parents: 69613 diff changeset	1875
e502cd4d7062 moved material from Connected.thy to more appropriate places immler parents: 69613 diff changeset	1876	lemma closed_fip_Heine_Borel:
e502cd4d7062 moved material from Connected.thy to more appropriate places immler parents: 69613 diff changeset	1877	fixes \<F> :: "'a::heine_borel set set"
e502cd4d7062 moved material from Connected.thy to more appropriate places immler parents: 69613 diff changeset	1878	assumes "closed S" "T \<in> \<F>" "bounded T"
e502cd4d7062 moved material from Connected.thy to more appropriate places immler parents: 69613 diff changeset	1879	and "\<And>T. T \<in> \<F> \<Longrightarrow> closed T"
e502cd4d7062 moved material from Connected.thy to more appropriate places immler parents: 69613 diff changeset	1880	and "\<And>\<F>'. \<lbrakk>finite \<F>'; \<F>' \<subseteq> \<F>\<rbrakk> \<Longrightarrow> \<Inter>\<F>' \<noteq> {}"
e502cd4d7062 moved material from Connected.thy to more appropriate places immler parents: 69613 diff changeset	1881	shows "\<Inter>\<F> \<noteq> {}"
e502cd4d7062 moved material from Connected.thy to more appropriate places immler parents: 69613 diff changeset	1882	proof -
e502cd4d7062 moved material from Connected.thy to more appropriate places immler parents: 69613 diff changeset	1883	have "UNIV \<inter> \<Inter>\<F> \<noteq> {}"
e502cd4d7062 moved material from Connected.thy to more appropriate places immler parents: 69613 diff changeset	1884	using assms closed_imp_fip [OF closed_UNIV] by auto
e502cd4d7062 moved material from Connected.thy to more appropriate places immler parents: 69613 diff changeset	1885	then show ?thesis by simp
e502cd4d7062 moved material from Connected.thy to more appropriate places immler parents: 69613 diff changeset	1886	qed
e502cd4d7062 moved material from Connected.thy to more appropriate places immler parents: 69613 diff changeset	1887
e502cd4d7062 moved material from Connected.thy to more appropriate places immler parents: 69613 diff changeset	1888	lemma compact_fip_Heine_Borel:
e502cd4d7062 moved material from Connected.thy to more appropriate places immler parents: 69613 diff changeset	1889	fixes \<F> :: "'a::heine_borel set set"
e502cd4d7062 moved material from Connected.thy to more appropriate places immler parents: 69613 diff changeset	1890	assumes clof: "\<And>T. T \<in> \<F> \<Longrightarrow> compact T"
e502cd4d7062 moved material from Connected.thy to more appropriate places immler parents: 69613 diff changeset	1891	and none: "\<And>\<F>'. \<lbrakk>finite \<F>'; \<F>' \<subseteq> \<F>\<rbrakk> \<Longrightarrow> \<Inter>\<F>' \<noteq> {}"
e502cd4d7062 moved material from Connected.thy to more appropriate places immler parents: 69613 diff changeset	1892	shows "\<Inter>\<F> \<noteq> {}"
e502cd4d7062 moved material from Connected.thy to more appropriate places immler parents: 69613 diff changeset	1893	by (metis InterI all_not_in_conv clof closed_fip_Heine_Borel compact_eq_bounded_closed none)
e502cd4d7062 moved material from Connected.thy to more appropriate places immler parents: 69613 diff changeset	1894
e502cd4d7062 moved material from Connected.thy to more appropriate places immler parents: 69613 diff changeset	1895	lemma compact_sequence_with_limit:
e502cd4d7062 moved material from Connected.thy to more appropriate places immler parents: 69613 diff changeset	1896	fixes f :: "nat \<Rightarrow> 'a::heine_borel"
e502cd4d7062 moved material from Connected.thy to more appropriate places immler parents: 69613 diff changeset	1897	shows "(f \<longlongrightarrow> l) sequentially \<Longrightarrow> compact (insert l (range f))"
e502cd4d7062 moved material from Connected.thy to more appropriate places immler parents: 69613 diff changeset	1898	apply (simp add: compact_eq_bounded_closed, auto)
e502cd4d7062 moved material from Connected.thy to more appropriate places immler parents: 69613 diff changeset	1899	apply (simp add: convergent_imp_bounded)
e502cd4d7062 moved material from Connected.thy to more appropriate places immler parents: 69613 diff changeset	1900	by (simp add: closed_limpt islimpt_insert sequence_unique_limpt)
e502cd4d7062 moved material from Connected.thy to more appropriate places immler parents: 69613 diff changeset	1901
e502cd4d7062 moved material from Connected.thy to more appropriate places immler parents: 69613 diff changeset	1902
69613 1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1903	subsection \<open>Properties of Balls and Spheres\<close>
69611 42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	1904
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	1905	lemma compact_cball[simp]:
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	1906	fixes x :: "'a::heine_borel"
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	1907	shows "compact (cball x e)"
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	1908	using compact_eq_bounded_closed bounded_cball closed_cball
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	1909	by blast
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	1910
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	1911	lemma compact_frontier_bounded[intro]:
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	1912	fixes S :: "'a::heine_borel set"
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	1913	shows "bounded S \<Longrightarrow> compact (frontier S)"
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	1914	unfolding frontier_def
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	1915	using compact_eq_bounded_closed
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	1916	by blast
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	1917
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	1918	lemma compact_frontier[intro]:
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	1919	fixes S :: "'a::heine_borel set"
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	1920	shows "compact S \<Longrightarrow> compact (frontier S)"
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	1921	using compact_eq_bounded_closed compact_frontier_bounded
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	1922	by blast
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	1923
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	1924
69613 1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1925	subsection \<open>Distance from a Set\<close>
69611 42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	1926
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	1927	lemma distance_attains_sup:
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	1928	assumes "compact s" "s \<noteq> {}"
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	1929	shows "\<exists>x\<in>s. \<forall>y\<in>s. dist a y \<le> dist a x"
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	1930	proof (rule continuous_attains_sup [OF assms])
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	1931	{
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	1932	fix x
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	1933	assume "x\<in>s"
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	1934	have "(dist a \<longlongrightarrow> dist a x) (at x within s)"
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	1935	by (intro tendsto_dist tendsto_const tendsto_ident_at)
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	1936	}
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	1937	then show "continuous_on s (dist a)"
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	1938	unfolding continuous_on ..
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	1939	qed
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	1940
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	1941	text \<open>For \emph{minimal} distance, we only need closure, not compactness.\<close>
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	1942
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	1943	lemma distance_attains_inf:
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	1944	fixes a :: "'a::heine_borel"
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	1945	assumes "closed s" and "s \<noteq> {}"
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	1946	obtains x where "x\<in>s" "\<And>y. y \<in> s \<Longrightarrow> dist a x \<le> dist a y"
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	1947	proof -
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	1948	from assms obtain b where "b \<in> s" by auto
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	1949	let ?B = "s \<inter> cball a (dist b a)"
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	1950	have "?B \<noteq> {}" using \<open>b \<in> s\<close>
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	1951	by (auto simp: dist_commute)
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	1952	moreover have "continuous_on ?B (dist a)"
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	1953	by (auto intro!: continuous_at_imp_continuous_on continuous_dist continuous_ident continuous_const)
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	1954	moreover have "compact ?B"
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	1955	by (intro closed_Int_compact \<open>closed s\<close> compact_cball)
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	1956	ultimately obtain x where "x \<in> ?B" "\<forall>y\<in>?B. dist a x \<le> dist a y"
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	1957	by (metis continuous_attains_inf)
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	1958	with that show ?thesis by fastforce
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	1959	qed
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	1960
69613 1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	1961
69611 42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	1962	subsection \<open>Infimum Distance\<close>
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	1963
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	1964	definition%important "infdist x A = (if A = {} then 0 else INF a\<in>A. dist x a)"
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	1965
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	1966	lemma bdd_below_image_dist[intro, simp]: "bdd_below (dist x ` A)"
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	1967	by (auto intro!: zero_le_dist)
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	1968
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	1969	lemma infdist_notempty: "A \<noteq> {} \<Longrightarrow> infdist x A = (INF a\<in>A. dist x a)"
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	1970	by (simp add: infdist_def)
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	1971
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	1972	lemma infdist_nonneg: "0 \<le> infdist x A"
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	1973	by (auto simp: infdist_def intro: cINF_greatest)
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	1974
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	1975	lemma infdist_le: "a \<in> A \<Longrightarrow> infdist x A \<le> dist x a"
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	1976	by (auto intro: cINF_lower simp add: infdist_def)
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	1977
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	1978	lemma infdist_le2: "a \<in> A \<Longrightarrow> dist x a \<le> d \<Longrightarrow> infdist x A \<le> d"
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	1979	by (auto intro!: cINF_lower2 simp add: infdist_def)
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	1980
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	1981	lemma infdist_zero[simp]: "a \<in> A \<Longrightarrow> infdist a A = 0"
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	1982	by (auto intro!: antisym infdist_nonneg infdist_le2)
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	1983
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	1984	lemma infdist_triangle: "infdist x A \<le> infdist y A + dist x y"
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	1985	proof (cases "A = {}")
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	1986	case True
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	1987	then show ?thesis by (simp add: infdist_def)
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	1988	next
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	1989	case False
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	1990	then obtain a where "a \<in> A" by auto
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	1991	have "infdist x A \<le> Inf {dist x y + dist y a \|a. a \<in> A}"
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	1992	proof (rule cInf_greatest)
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	1993	from \<open>A \<noteq> {}\<close> show "{dist x y + dist y a \|a. a \<in> A} \<noteq> {}"
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	1994	by simp
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	1995	fix d
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	1996	assume "d \<in> {dist x y + dist y a \|a. a \<in> A}"
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	1997	then obtain a where d: "d = dist x y + dist y a" "a \<in> A"
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	1998	by auto
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	1999	show "infdist x A \<le> d"
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2000	unfolding infdist_notempty[OF \<open>A \<noteq> {}\<close>]
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2001	proof (rule cINF_lower2)
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2002	show "a \<in> A" by fact
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2003	show "dist x a \<le> d"
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2004	unfolding d by (rule dist_triangle)
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2005	qed simp
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2006	qed
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2007	also have "\<dots> = dist x y + infdist y A"
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2008	proof (rule cInf_eq, safe)
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2009	fix a
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2010	assume "a \<in> A"
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2011	then show "dist x y + infdist y A \<le> dist x y + dist y a"
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2012	by (auto intro: infdist_le)
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2013	next
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2014	fix i
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2015	assume inf: "\<And>d. d \<in> {dist x y + dist y a \|a. a \<in> A} \<Longrightarrow> i \<le> d"
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2016	then have "i - dist x y \<le> infdist y A"
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2017	unfolding infdist_notempty[OF \<open>A \<noteq> {}\<close>] using \<open>a \<in> A\<close>
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2018	by (intro cINF_greatest) (auto simp: field_simps)
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2019	then show "i \<le> dist x y + infdist y A"
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2020	by simp
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2021	qed
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2022	finally show ?thesis by simp
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2023	qed
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2024
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2025	lemma in_closure_iff_infdist_zero:
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2026	assumes "A \<noteq> {}"
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2027	shows "x \<in> closure A \<longleftrightarrow> infdist x A = 0"
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2028	proof
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2029	assume "x \<in> closure A"
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2030	show "infdist x A = 0"
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2031	proof (rule ccontr)
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2032	assume "infdist x A \<noteq> 0"
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2033	with infdist_nonneg[of x A] have "infdist x A > 0"
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2034	by auto
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2035	then have "ball x (infdist x A) \<inter> closure A = {}"
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2036	apply auto
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2037	apply (metis \<open>x \<in> closure A\<close> closure_approachable dist_commute infdist_le not_less)
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2038	done
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2039	then have "x \<notin> closure A"
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2040	by (metis \<open>0 < infdist x A\<close> centre_in_ball disjoint_iff_not_equal)
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2041	then show False using \<open>x \<in> closure A\<close> by simp
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2042	qed
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2043	next
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2044	assume x: "infdist x A = 0"
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2045	then obtain a where "a \<in> A"
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2046	by atomize_elim (metis all_not_in_conv assms)
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2047	show "x \<in> closure A"
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2048	unfolding closure_approachable
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2049	apply safe
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2050	proof (rule ccontr)
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2051	fix e :: real
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2052	assume "e > 0"
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2053	assume "\<not> (\<exists>y\<in>A. dist y x < e)"
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2054	then have "infdist x A \<ge> e" using \<open>a \<in> A\<close>
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2055	unfolding infdist_def
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2056	by (force simp: dist_commute intro: cINF_greatest)
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2057	with x \<open>e > 0\<close> show False by auto
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2058	qed
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2059	qed
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2060
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2061	lemma in_closed_iff_infdist_zero:
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2062	assumes "closed A" "A \<noteq> {}"
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2063	shows "x \<in> A \<longleftrightarrow> infdist x A = 0"
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2064	proof -
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2065	have "x \<in> closure A \<longleftrightarrow> infdist x A = 0"
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2066	by (rule in_closure_iff_infdist_zero) fact
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2067	with assms show ?thesis by simp
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2068	qed
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2069
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2070	lemma infdist_pos_not_in_closed:
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2071	assumes "closed S" "S \<noteq> {}" "x \<notin> S"
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2072	shows "infdist x S > 0"
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2073	using in_closed_iff_infdist_zero[OF assms(1) assms(2), of x] assms(3) infdist_nonneg le_less by fastforce
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2074
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2075	lemma
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2076	infdist_attains_inf:
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2077	fixes X::"'a::heine_borel set"
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2078	assumes "closed X"
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2079	assumes "X \<noteq> {}"
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2080	obtains x where "x \<in> X" "infdist y X = dist y x"
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2081	proof -
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2082	have "bdd_below (dist y ` X)"
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2083	by auto
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2084	from distance_attains_inf[OF assms, of y]
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2085	obtain x where INF: "x \<in> X" "\<And>z. z \<in> X \<Longrightarrow> dist y x \<le> dist y z" by auto
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2086	have "infdist y X = dist y x"
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2087	by (auto simp: infdist_def assms
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2088	intro!: antisym cINF_lower[OF _ \<open>x \<in> X\<close>] cINF_greatest[OF assms(2) INF(2)])
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2089	with \<open>x \<in> X\<close> show ?thesis ..
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2090	qed
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2091
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2092
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2093	text \<open>Every metric space is a T4 space:\<close>
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2094
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2095	instance metric_space \<subseteq> t4_space
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2096	proof
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2097	fix S T::"'a set" assume H: "closed S" "closed T" "S \<inter> T = {}"
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2098	consider "S = {}" \| "T = {}" \| "S \<noteq> {} \<and> T \<noteq> {}" by auto
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2099	then show "\<exists>U V. open U \<and> open V \<and> S \<subseteq> U \<and> T \<subseteq> V \<and> U \<inter> V = {}"
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2100	proof (cases)
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2101	case 1
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2102	show ?thesis
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2103	apply (rule exI[of _ "{}"], rule exI[of _ UNIV]) using 1 by auto
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2104	next
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2105	case 2
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2106	show ?thesis
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2107	apply (rule exI[of _ UNIV], rule exI[of _ "{}"]) using 2 by auto
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2108	next
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2109	case 3
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2110	define U where "U = (\<Union>x\<in>S. ball x ((infdist x T)/2))"
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2111	have A: "open U" unfolding U_def by auto
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2112	have "infdist x T > 0" if "x \<in> S" for x
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2113	using H that 3 by (auto intro!: infdist_pos_not_in_closed)
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2114	then have B: "S \<subseteq> U" unfolding U_def by auto
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2115	define V where "V = (\<Union>x\<in>T. ball x ((infdist x S)/2))"
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2116	have C: "open V" unfolding V_def by auto
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2117	have "infdist x S > 0" if "x \<in> T" for x
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2118	using H that 3 by (auto intro!: infdist_pos_not_in_closed)
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2119	then have D: "T \<subseteq> V" unfolding V_def by auto
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2120
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2121	have "(ball x ((infdist x T)/2)) \<inter> (ball y ((infdist y S)/2)) = {}" if "x \<in> S" "y \<in> T" for x y
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2122	proof (auto)
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2123	fix z assume H: "dist x z * 2 < infdist x T" "dist y z * 2 < infdist y S"
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2124	have "2 * dist x y \<le> 2 * dist x z + 2 * dist y z"
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2125	using dist_triangle[of x y z] by (auto simp add: dist_commute)
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2126	also have "... < infdist x T + infdist y S"
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2127	using H by auto
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2128	finally have "dist x y < infdist x T \<or> dist x y < infdist y S"
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2129	by auto
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2130	then show False
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2131	using infdist_le[OF \<open>x \<in> S\<close>, of y] infdist_le[OF \<open>y \<in> T\<close>, of x] by (auto simp add: dist_commute)
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2132	qed
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2133	then have E: "U \<inter> V = {}"
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2134	unfolding U_def V_def by auto
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2135	show ?thesis
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2136	apply (rule exI[of _ U], rule exI[of _ V]) using A B C D E by auto
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2137	qed
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2138	qed
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2139
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2140	lemma tendsto_infdist [tendsto_intros]:
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2141	assumes f: "(f \<longlongrightarrow> l) F"
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2142	shows "((\<lambda>x. infdist (f x) A) \<longlongrightarrow> infdist l A) F"
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2143	proof (rule tendstoI)
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2144	fix e ::real
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2145	assume "e > 0"
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2146	from tendstoD[OF f this]
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2147	show "eventually (\<lambda>x. dist (infdist (f x) A) (infdist l A) < e) F"
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2148	proof (eventually_elim)
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2149	fix x
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2150	from infdist_triangle[of l A "f x"] infdist_triangle[of "f x" A l]
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2151	have "dist (infdist (f x) A) (infdist l A) \<le> dist (f x) l"
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2152	by (simp add: dist_commute dist_real_def)
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2153	also assume "dist (f x) l < e"
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2154	finally show "dist (infdist (f x) A) (infdist l A) < e" .
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2155	qed
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2156	qed
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2157
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2158	lemma continuous_infdist[continuous_intros]:
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2159	assumes "continuous F f"
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2160	shows "continuous F (\<lambda>x. infdist (f x) A)"
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2161	using assms unfolding continuous_def by (rule tendsto_infdist)
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2162
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2163	lemma compact_infdist_le:
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2164	fixes A::"'a::heine_borel set"
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2165	assumes "A \<noteq> {}"
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2166	assumes "compact A"
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2167	assumes "e > 0"
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2168	shows "compact {x. infdist x A \<le> e}"
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2169	proof -
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2170	from continuous_closed_vimage[of "{0..e}" "\<lambda>x. infdist x A"]
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2171	continuous_infdist[OF continuous_ident, of _ UNIV A]
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2172	have "closed {x. infdist x A \<le> e}" by (auto simp: vimage_def infdist_nonneg)
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2173	moreover
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2174	from assms obtain x0 b where b: "\<And>x. x \<in> A \<Longrightarrow> dist x0 x \<le> b" "closed A"
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2175	by (auto simp: compact_eq_bounded_closed bounded_def)
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2176	{
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2177	fix y
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2178	assume le: "infdist y A \<le> e"
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2179	from infdist_attains_inf[OF \<open>closed A\<close> \<open>A \<noteq> {}\<close>, of y]
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2180	obtain z where z: "z \<in> A" "infdist y A = dist y z" by blast
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2181	have "dist x0 y \<le> dist y z + dist x0 z"
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2182	by (metis dist_commute dist_triangle)
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2183	also have "dist y z \<le> e" using le z by simp
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2184	also have "dist x0 z \<le> b" using b z by simp
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2185	finally have "dist x0 y \<le> b + e" by arith
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2186	} then
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2187	have "bounded {x. infdist x A \<le> e}"
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2188	by (auto simp: bounded_any_center[where a=x0] intro!: exI[where x="b + e"])
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2189	ultimately show "compact {x. infdist x A \<le> e}"
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2190	by (simp add: compact_eq_bounded_closed)
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2191	qed
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2192
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2193
69613 1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	2194	subsection \<open>Separation between Points and Sets\<close>
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	2195
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	2196	proposition separate_point_closed:
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	2197	fixes s :: "'a::heine_borel set"
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	2198	assumes "closed s" and "a \<notin> s"
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	2199	shows "\<exists>d>0. \<forall>x\<in>s. d \<le> dist a x"
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	2200	proof (cases "s = {}")
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	2201	case True
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	2202	then show ?thesis by(auto intro!: exI[where x=1])
69544 5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	2203	next
69613 1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	2204	case False
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	2205	from assms obtain x where "x\<in>s" "\<forall>y\<in>s. dist a x \<le> dist a y"
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	2206	using \<open>s \<noteq> {}\<close> by (blast intro: distance_attains_inf [of s a])
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	2207	with \<open>x\<in>s\<close> show ?thesis using dist_pos_lt[of a x] and\<open>a \<notin> s\<close>
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	2208	by blast
69544 5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	2209	qed
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	2210
69613 1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	2211	proposition separate_compact_closed:
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	2212	fixes s t :: "'a::heine_borel set"
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	2213	assumes "compact s"
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	2214	and t: "closed t" "s \<inter> t = {}"
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	2215	shows "\<exists>d>0. \<forall>x\<in>s. \<forall>y\<in>t. d \<le> dist x y"
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	2216	proof cases
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	2217	assume "s \<noteq> {} \<and> t \<noteq> {}"
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	2218	then have "s \<noteq> {}" "t \<noteq> {}" by auto
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	2219	let ?inf = "\<lambda>x. infdist x t"
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	2220	have "continuous_on s ?inf"
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	2221	by (auto intro!: continuous_at_imp_continuous_on continuous_infdist continuous_ident)
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	2222	then obtain x where x: "x \<in> s" "\<forall>y\<in>s. ?inf x \<le> ?inf y"
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	2223	using continuous_attains_inf[OF \<open>compact s\<close> \<open>s \<noteq> {}\<close>] by auto
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	2224	then have "0 < ?inf x"
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	2225	using t \<open>t \<noteq> {}\<close> in_closed_iff_infdist_zero by (auto simp: less_le infdist_nonneg)
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	2226	moreover have "\<forall>x'\<in>s. \<forall>y\<in>t. ?inf x \<le> dist x' y"
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	2227	using x by (auto intro: order_trans infdist_le)
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	2228	ultimately show ?thesis by auto
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	2229	qed (auto intro!: exI[of _ 1])
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	2230
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	2231	proposition separate_closed_compact:
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	2232	fixes s t :: "'a::heine_borel set"
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	2233	assumes "closed s"
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	2234	and "compact t"
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	2235	and "s \<inter> t = {}"
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	2236	shows "\<exists>d>0. \<forall>x\<in>s. \<forall>y\<in>t. d \<le> dist x y"
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	2237	proof -
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	2238	have *: "t \<inter> s = {}"
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	2239	using assms(3) by auto
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	2240	show ?thesis
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	2241	using separate_compact_closed[OF assms(2,1) *] by (force simp: dist_commute)
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	2242	qed
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	2243
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	2244	proposition compact_in_open_separated:
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	2245	fixes A::"'a::heine_borel set"
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	2246	assumes "A \<noteq> {}"
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	2247	assumes "compact A"
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	2248	assumes "open B"
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	2249	assumes "A \<subseteq> B"
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	2250	obtains e where "e > 0" "{x. infdist x A \<le> e} \<subseteq> B"
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	2251	proof atomize_elim
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	2252	have "closed (- B)" "compact A" "- B \<inter> A = {}"
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	2253	using assms by (auto simp: open_Diff compact_eq_bounded_closed)
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	2254	from separate_closed_compact[OF this]
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	2255	obtain d'::real where d': "d'>0" "\<And>x y. x \<notin> B \<Longrightarrow> y \<in> A \<Longrightarrow> d' \<le> dist x y"
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	2256	by auto
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	2257	define d where "d = d' / 2"
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	2258	hence "d>0" "d < d'" using d' by auto
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	2259	with d' have d: "\<And>x y. x \<notin> B \<Longrightarrow> y \<in> A \<Longrightarrow> d < dist x y"
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	2260	by force
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	2261	show "\<exists>e>0. {x. infdist x A \<le> e} \<subseteq> B"
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	2262	proof (rule ccontr)
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	2263	assume "\<nexists>e. 0 < e \<and> {x. infdist x A \<le> e} \<subseteq> B"
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	2264	with \<open>d > 0\<close> obtain x where x: "infdist x A \<le> d" "x \<notin> B"
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	2265	by auto
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	2266	from assms have "closed A" "A \<noteq> {}" by (auto simp: compact_eq_bounded_closed)
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	2267	from infdist_attains_inf[OF this]
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	2268	obtain y where y: "y \<in> A" "infdist x A = dist x y"
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	2269	by auto
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	2270	have "dist x y \<le> d" using x y by simp
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	2271	also have "\<dots> < dist x y" using y d x by auto
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	2272	finally show False by simp
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	2273	qed
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	2274	qed
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	2275
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	2276
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	2277	subsection \<open>Uniform Continuity\<close>
69544 5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	2278
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	2279	lemma uniformly_continuous_onE:
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	2280	assumes "uniformly_continuous_on s f" "0 < e"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	2281	obtains d where "d>0" "\<And>x x'. \<lbrakk>x\<in>s; x'\<in>s; dist x' x < d\<rbrakk> \<Longrightarrow> dist (f x') (f x) < e"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	2282	using assms
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	2283	by (auto simp: uniformly_continuous_on_def)
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	2284
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	2285	lemma uniformly_continuous_on_sequentially:
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	2286	"uniformly_continuous_on s f \<longleftrightarrow> (\<forall>x y. (\<forall>n. x n \<in> s) \<and> (\<forall>n. y n \<in> s) \<and>
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	2287	(\<lambda>n. dist (x n) (y n)) \<longlonglongrightarrow> 0 \<longrightarrow> (\<lambda>n. dist (f(x n)) (f(y n))) \<longlonglongrightarrow> 0)" (is "?lhs = ?rhs")
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	2288	proof
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	2289	assume ?lhs
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	2290	{
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	2291	fix x y
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	2292	assume x: "\<forall>n. x n \<in> s"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	2293	and y: "\<forall>n. y n \<in> s"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	2294	and xy: "((\<lambda>n. dist (x n) (y n)) \<longlongrightarrow> 0) sequentially"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	2295	{
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	2296	fix e :: real
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	2297	assume "e > 0"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	2298	then obtain d where "d > 0" and d: "\<forall>x\<in>s. \<forall>x'\<in>s. dist x' x < d \<longrightarrow> dist (f x') (f x) < e"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	2299	using \<open>?lhs\<close>[unfolded uniformly_continuous_on_def, THEN spec[where x=e]] by auto
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	2300	obtain N where N: "\<forall>n\<ge>N. dist (x n) (y n) < d"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	2301	using xy[unfolded lim_sequentially dist_norm] and \<open>d>0\<close> by auto
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	2302	{
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	2303	fix n
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	2304	assume "n\<ge>N"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	2305	then have "dist (f (x n)) (f (y n)) < e"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	2306	using N[THEN spec[where x=n]]
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	2307	using d[THEN bspec[where x="x n"], THEN bspec[where x="y n"]]
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	2308	using x and y
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	2309	by (simp add: dist_commute)
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	2310	}
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	2311	then have "\<exists>N. \<forall>n\<ge>N. dist (f (x n)) (f (y n)) < e"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	2312	by auto
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	2313	}
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	2314	then have "((\<lambda>n. dist (f(x n)) (f(y n))) \<longlongrightarrow> 0) sequentially"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	2315	unfolding lim_sequentially and dist_real_def by auto
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	2316	}
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	2317	then show ?rhs by auto
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	2318	next
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	2319	assume ?rhs
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	2320	{
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	2321	assume "\<not> ?lhs"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	2322	then obtain e where "e > 0" "\<forall>d>0. \<exists>x\<in>s. \<exists>x'\<in>s. dist x' x < d \<and> \<not> dist (f x') (f x) < e"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	2323	unfolding uniformly_continuous_on_def by auto
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	2324	then obtain fa where fa:
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	2325	"\<forall>x. 0 < x \<longrightarrow> fst (fa x) \<in> s \<and> snd (fa x) \<in> s \<and> dist (fst (fa x)) (snd (fa x)) < x \<and> \<not> dist (f (fst (fa x))) (f (snd (fa x))) < e"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	2326	using choice[of "\<lambda>d x. d>0 \<longrightarrow> fst x \<in> s \<and> snd x \<in> s \<and> dist (snd x) (fst x) < d \<and> \<not> dist (f (snd x)) (f (fst x)) < e"]
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	2327	unfolding Bex_def
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	2328	by (auto simp: dist_commute)
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	2329	define x where "x n = fst (fa (inverse (real n + 1)))" for n
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	2330	define y where "y n = snd (fa (inverse (real n + 1)))" for n
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	2331	have xyn: "\<forall>n. x n \<in> s \<and> y n \<in> s"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	2332	and xy0: "\<forall>n. dist (x n) (y n) < inverse (real n + 1)"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	2333	and fxy:"\<forall>n. \<not> dist (f (x n)) (f (y n)) < e"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	2334	unfolding x_def and y_def using fa
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	2335	by auto
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	2336	{
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	2337	fix e :: real
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	2338	assume "e > 0"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	2339	then obtain N :: nat where "N \<noteq> 0" and N: "0 < inverse (real N) \<and> inverse (real N) < e"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	2340	unfolding real_arch_inverse[of e] by auto
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	2341	{
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	2342	fix n :: nat
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	2343	assume "n \<ge> N"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	2344	then have "inverse (real n + 1) < inverse (real N)"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	2345	using of_nat_0_le_iff and \<open>N\<noteq>0\<close> by auto
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	2346	also have "\<dots> < e" using N by auto
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	2347	finally have "inverse (real n + 1) < e" by auto
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	2348	then have "dist (x n) (y n) < e"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	2349	using xy0[THEN spec[where x=n]] by auto
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	2350	}
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	2351	then have "\<exists>N. \<forall>n\<ge>N. dist (x n) (y n) < e" by auto
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	2352	}
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	2353	then have "\<forall>e>0. \<exists>N. \<forall>n\<ge>N. dist (f (x n)) (f (y n)) < e"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	2354	using \<open>?rhs\<close>[THEN spec[where x=x], THEN spec[where x=y]] and xyn
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	2355	unfolding lim_sequentially dist_real_def by auto
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	2356	then have False using fxy and \<open>e>0\<close> by auto
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	2357	}
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	2358	then show ?lhs
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	2359	unfolding uniformly_continuous_on_def by blast
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	2360	qed
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	2361
69613 1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	2362
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	2363	subsection \<open>Continuity on a Compact Domain Implies Uniform Continuity\<close>
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	2364
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	2365	text\<open>From the proof of the Heine-Borel theorem: Lemma 2 in section 3.7, page 69 of
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	2366	J. C. Burkill and H. Burkill. A Second Course in Mathematical Analysis (CUP, 2002)\<close>
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	2367
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	2368	lemma Heine_Borel_lemma:
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	2369	assumes "compact S" and Ssub: "S \<subseteq> \<Union>\<G>" and opn: "\<And>G. G \<in> \<G> \<Longrightarrow> open G"
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	2370	obtains e where "0 < e" "\<And>x. x \<in> S \<Longrightarrow> \<exists>G \<in> \<G>. ball x e \<subseteq> G"
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	2371	proof -
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	2372	have False if neg: "\<And>e. 0 < e \<Longrightarrow> \<exists>x \<in> S. \<forall>G \<in> \<G>. \<not> ball x e \<subseteq> G"
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	2373	proof -
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	2374	have "\<exists>x \<in> S. \<forall>G \<in> \<G>. \<not> ball x (1 / Suc n) \<subseteq> G" for n
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	2375	using neg by simp
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	2376	then obtain f where "\<And>n. f n \<in> S" and fG: "\<And>G n. G \<in> \<G> \<Longrightarrow> \<not> ball (f n) (1 / Suc n) \<subseteq> G"
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	2377	by metis
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	2378	then obtain l r where "l \<in> S" "strict_mono r" and to_l: "(f \<circ> r) \<longlonglongrightarrow> l"
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	2379	using \<open>compact S\<close> compact_def that by metis
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	2380	then obtain G where "l \<in> G" "G \<in> \<G>"
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	2381	using Ssub by auto
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	2382	then obtain e where "0 < e" and e: "\<And>z. dist z l < e \<Longrightarrow> z \<in> G"
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	2383	using opn open_dist by blast
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	2384	obtain N1 where N1: "\<And>n. n \<ge> N1 \<Longrightarrow> dist (f (r n)) l < e/2"
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	2385	using to_l apply (simp add: lim_sequentially)
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	2386	using \<open>0 < e\<close> half_gt_zero that by blast
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	2387	obtain N2 where N2: "of_nat N2 > 2/e"
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	2388	using reals_Archimedean2 by blast
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	2389	obtain x where "x \<in> ball (f (r (max N1 N2))) (1 / real (Suc (r (max N1 N2))))" and "x \<notin> G"
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	2390	using fG [OF \<open>G \<in> \<G>\<close>, of "r (max N1 N2)"] by blast
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	2391	then have "dist (f (r (max N1 N2))) x < 1 / real (Suc (r (max N1 N2)))"
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	2392	by simp
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	2393	also have "... \<le> 1 / real (Suc (max N1 N2))"
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	2394	apply (simp add: divide_simps del: max.bounded_iff)
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	2395	using \<open>strict_mono r\<close> seq_suble by blast
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	2396	also have "... \<le> 1 / real (Suc N2)"
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	2397	by (simp add: field_simps)
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	2398	also have "... < e/2"
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	2399	using N2 \<open>0 < e\<close> by (simp add: field_simps)
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	2400	finally have "dist (f (r (max N1 N2))) x < e / 2" .
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	2401	moreover have "dist (f (r (max N1 N2))) l < e/2"
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	2402	using N1 max.cobounded1 by blast
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	2403	ultimately have "dist x l < e"
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	2404	using dist_triangle_half_r by blast
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	2405	then show ?thesis
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	2406	using e \<open>x \<notin> G\<close> by blast
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	2407	qed
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	2408	then show ?thesis
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	2409	by (meson that)
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	2410	qed
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	2411
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	2412	lemma compact_uniformly_equicontinuous:
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	2413	assumes "compact S"
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	2414	and cont: "\<And>x e. \<lbrakk>x \<in> S; 0 < e\<rbrakk>
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	2415	\<Longrightarrow> \<exists>d. 0 < d \<and>
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	2416	(\<forall>f \<in> \<F>. \<forall>x' \<in> S. dist x' x < d \<longrightarrow> dist (f x') (f x) < e)"
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	2417	and "0 < e"
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	2418	obtains d where "0 < d"
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	2419	"\<And>f x x'. \<lbrakk>f \<in> \<F>; x \<in> S; x' \<in> S; dist x' x < d\<rbrakk> \<Longrightarrow> dist (f x') (f x) < e"
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	2420	proof -
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	2421	obtain d where d_pos: "\<And>x e. \<lbrakk>x \<in> S; 0 < e\<rbrakk> \<Longrightarrow> 0 < d x e"
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	2422	and d_dist : "\<And>x x' e f. \<lbrakk>dist x' x < d x e; x \<in> S; x' \<in> S; 0 < e; f \<in> \<F>\<rbrakk> \<Longrightarrow> dist (f x') (f x) < e"
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	2423	using cont by metis
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	2424	let ?\<G> = "((\<lambda>x. ball x (d x (e / 2))) ` S)"
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	2425	have Ssub: "S \<subseteq> \<Union> ?\<G>"
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	2426	by clarsimp (metis d_pos \<open>0 < e\<close> dist_self half_gt_zero_iff)
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	2427	then obtain k where "0 < k" and k: "\<And>x. x \<in> S \<Longrightarrow> \<exists>G \<in> ?\<G>. ball x k \<subseteq> G"
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	2428	by (rule Heine_Borel_lemma [OF \<open>compact S\<close>]) auto
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	2429	moreover have "dist (f v) (f u) < e" if "f \<in> \<F>" "u \<in> S" "v \<in> S" "dist v u < k" for f u v
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	2430	proof -
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	2431	obtain G where "G \<in> ?\<G>" "u \<in> G" "v \<in> G"
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	2432	using k that
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	2433	by (metis \<open>dist v u < k\<close> \<open>u \<in> S\<close> \<open>0 < k\<close> centre_in_ball subsetD dist_commute mem_ball)
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	2434	then obtain w where w: "dist w u < d w (e / 2)" "dist w v < d w (e / 2)" "w \<in> S"
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	2435	by auto
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	2436	with that d_dist have "dist (f w) (f v) < e/2"
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	2437	by (metis \<open>0 < e\<close> dist_commute half_gt_zero)
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	2438	moreover
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	2439	have "dist (f w) (f u) < e/2"
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	2440	using that d_dist w by (metis \<open>0 < e\<close> dist_commute divide_pos_pos zero_less_numeral)
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	2441	ultimately show ?thesis
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	2442	using dist_triangle_half_r by blast
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	2443	qed
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	2444	ultimately show ?thesis using that by blast
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	2445	qed
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	2446
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	2447	corollary compact_uniformly_continuous:
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	2448	fixes f :: "'a :: metric_space \<Rightarrow> 'b :: metric_space"
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	2449	assumes f: "continuous_on S f" and S: "compact S"
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	2450	shows "uniformly_continuous_on S f"
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	2451	using f
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	2452	unfolding continuous_on_iff uniformly_continuous_on_def
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	2453	by (force intro: compact_uniformly_equicontinuous [OF S, of "{f}"])
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	2454
69544 5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	2455
69611 42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2456	subsection%unimportant\<open> Theorems relating continuity and uniform continuity to closures\<close>
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2457
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2458	lemma continuous_on_closure:
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2459	"continuous_on (closure S) f \<longleftrightarrow>
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2460	(\<forall>x e. x \<in> closure S \<and> 0 < e
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2461	\<longrightarrow> (\<exists>d. 0 < d \<and> (\<forall>y. y \<in> S \<and> dist y x < d \<longrightarrow> dist (f y) (f x) < e)))"
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2462	(is "?lhs = ?rhs")
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2463	proof
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2464	assume ?lhs then show ?rhs
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2465	unfolding continuous_on_iff by (metis Un_iff closure_def)
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2466	next
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2467	assume R [rule_format]: ?rhs
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2468	show ?lhs
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2469	proof
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2470	fix x and e::real
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2471	assume "0 < e" and x: "x \<in> closure S"
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2472	obtain \<delta>::real where "\<delta> > 0"
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2473	and \<delta>: "\<And>y. \<lbrakk>y \<in> S; dist y x < \<delta>\<rbrakk> \<Longrightarrow> dist (f y) (f x) < e/2"
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2474	using R [of x "e/2"] \<open>0 < e\<close> x by auto
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2475	have "dist (f y) (f x) \<le> e" if y: "y \<in> closure S" and dyx: "dist y x < \<delta>/2" for y
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2476	proof -
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2477	obtain \<delta>'::real where "\<delta>' > 0"
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2478	and \<delta>': "\<And>z. \<lbrakk>z \<in> S; dist z y < \<delta>'\<rbrakk> \<Longrightarrow> dist (f z) (f y) < e/2"
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2479	using R [of y "e/2"] \<open>0 < e\<close> y by auto
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2480	obtain z where "z \<in> S" and z: "dist z y < min \<delta>' \<delta> / 2"
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2481	using closure_approachable y
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2482	by (metis \<open>0 < \<delta>'\<close> \<open>0 < \<delta>\<close> divide_pos_pos min_less_iff_conj zero_less_numeral)
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2483	have "dist (f z) (f y) < e/2"
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2484	apply (rule \<delta>' [OF \<open>z \<in> S\<close>])
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2485	using z \<open>0 < \<delta>'\<close> by linarith
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2486	moreover have "dist (f z) (f x) < e/2"
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2487	apply (rule \<delta> [OF \<open>z \<in> S\<close>])
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2488	using z \<open>0 < \<delta>\<close> dist_commute[of y z] dist_triangle_half_r [of y] dyx by auto
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2489	ultimately show ?thesis
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2490	by (metis dist_commute dist_triangle_half_l less_imp_le)
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2491	qed
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2492	then show "\<exists>d>0. \<forall>x'\<in>closure S. dist x' x < d \<longrightarrow> dist (f x') (f x) \<le> e"
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2493	by (rule_tac x="\<delta>/2" in exI) (simp add: \<open>\<delta> > 0\<close>)
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2494	qed
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2495	qed
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2496
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2497	lemma continuous_on_closure_sequentially:
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2498	fixes f :: "'a::metric_space \<Rightarrow> 'b :: metric_space"
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2499	shows
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2500	"continuous_on (closure S) f \<longleftrightarrow>
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2501	(\<forall>x a. a \<in> closure S \<and> (\<forall>n. x n \<in> S) \<and> x \<longlonglongrightarrow> a \<longrightarrow> (f \<circ> x) \<longlonglongrightarrow> f a)"
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2502	(is "?lhs = ?rhs")
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2503	proof -
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2504	have "continuous_on (closure S) f \<longleftrightarrow>
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2505	(\<forall>x \<in> closure S. continuous (at x within S) f)"
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2506	by (force simp: continuous_on_closure continuous_within_eps_delta)
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2507	also have "... = ?rhs"
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2508	by (force simp: continuous_within_sequentially)
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2509	finally show ?thesis .
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2510	qed
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2511
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2512	lemma uniformly_continuous_on_closure:
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2513	fixes f :: "'a::metric_space \<Rightarrow> 'b::metric_space"
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2514	assumes ucont: "uniformly_continuous_on S f"
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2515	and cont: "continuous_on (closure S) f"
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2516	shows "uniformly_continuous_on (closure S) f"
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2517	unfolding uniformly_continuous_on_def
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2518	proof (intro allI impI)
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2519	fix e::real
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2520	assume "0 < e"
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2521	then obtain d::real
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2522	where "d>0"
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2523	and d: "\<And>x x'. \<lbrakk>x\<in>S; x'\<in>S; dist x' x < d\<rbrakk> \<Longrightarrow> dist (f x') (f x) < e/3"
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2524	using ucont [unfolded uniformly_continuous_on_def, rule_format, of "e/3"] by auto
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2525	show "\<exists>d>0. \<forall>x\<in>closure S. \<forall>x'\<in>closure S. dist x' x < d \<longrightarrow> dist (f x') (f x) < e"
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2526	proof (rule exI [where x="d/3"], clarsimp simp: \<open>d > 0\<close>)
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2527	fix x y
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2528	assume x: "x \<in> closure S" and y: "y \<in> closure S" and dyx: "dist y x * 3 < d"
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2529	obtain d1::real where "d1 > 0"
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2530	and d1: "\<And>w. \<lbrakk>w \<in> closure S; dist w x < d1\<rbrakk> \<Longrightarrow> dist (f w) (f x) < e/3"
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2531	using cont [unfolded continuous_on_iff, rule_format, of "x" "e/3"] \<open>0 < e\<close> x by auto
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2532	obtain x' where "x' \<in> S" and x': "dist x' x < min d1 (d / 3)"
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2533	using closure_approachable [of x S]
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2534	by (metis \<open>0 < d1\<close> \<open>0 < d\<close> divide_pos_pos min_less_iff_conj x zero_less_numeral)
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2535	obtain d2::real where "d2 > 0"
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2536	and d2: "\<forall>w \<in> closure S. dist w y < d2 \<longrightarrow> dist (f w) (f y) < e/3"
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2537	using cont [unfolded continuous_on_iff, rule_format, of "y" "e/3"] \<open>0 < e\<close> y by auto
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2538	obtain y' where "y' \<in> S" and y': "dist y' y < min d2 (d / 3)"
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2539	using closure_approachable [of y S]
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2540	by (metis \<open>0 < d2\<close> \<open>0 < d\<close> divide_pos_pos min_less_iff_conj y zero_less_numeral)
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2541	have "dist x' x < d/3" using x' by auto
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2542	moreover have "dist x y < d/3"
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2543	by (metis dist_commute dyx less_divide_eq_numeral1(1))
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2544	moreover have "dist y y' < d/3"
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2545	by (metis (no_types) dist_commute min_less_iff_conj y')
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2546	ultimately have "dist x' y' < d/3 + d/3 + d/3"
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2547	by (meson dist_commute_lessI dist_triangle_lt add_strict_mono)
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2548	then have "dist x' y' < d" by simp
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2549	then have "dist (f x') (f y') < e/3"
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2550	by (rule d [OF \<open>y' \<in> S\<close> \<open>x' \<in> S\<close>])
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2551	moreover have "dist (f x') (f x) < e/3" using \<open>x' \<in> S\<close> closure_subset x' d1
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2552	by (simp add: closure_def)
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2553	moreover have "dist (f y') (f y) < e/3" using \<open>y' \<in> S\<close> closure_subset y' d2
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2554	by (simp add: closure_def)
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2555	ultimately have "dist (f y) (f x) < e/3 + e/3 + e/3"
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2556	by (meson dist_commute_lessI dist_triangle_lt add_strict_mono)
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2557	then show "dist (f y) (f x) < e" by simp
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2558	qed
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2559	qed
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2560
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2561	lemma uniformly_continuous_on_extension_at_closure:
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2562	fixes f::"'a::metric_space \<Rightarrow> 'b::complete_space"
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2563	assumes uc: "uniformly_continuous_on X f"
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2564	assumes "x \<in> closure X"
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2565	obtains l where "(f \<longlongrightarrow> l) (at x within X)"
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2566	proof -
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2567	from assms obtain xs where xs: "xs \<longlonglongrightarrow> x" "\<And>n. xs n \<in> X"
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2568	by (auto simp: closure_sequential)
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2569
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2570	from uniformly_continuous_on_Cauchy[OF uc LIMSEQ_imp_Cauchy, OF xs]
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2571	obtain l where l: "(\<lambda>n. f (xs n)) \<longlonglongrightarrow> l"
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2572	by atomize_elim (simp only: convergent_eq_Cauchy)
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2573
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2574	have "(f \<longlongrightarrow> l) (at x within X)"
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2575	proof (safe intro!: Lim_within_LIMSEQ)
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2576	fix xs'
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2577	assume "\<forall>n. xs' n \<noteq> x \<and> xs' n \<in> X"
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2578	and xs': "xs' \<longlonglongrightarrow> x"
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2579	then have "xs' n \<noteq> x" "xs' n \<in> X" for n by auto
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2580
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2581	from uniformly_continuous_on_Cauchy[OF uc LIMSEQ_imp_Cauchy, OF \<open>xs' \<longlonglongrightarrow> x\<close> \<open>xs' _ \<in> X\<close>]
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2582	obtain l' where l': "(\<lambda>n. f (xs' n)) \<longlonglongrightarrow> l'"
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2583	by atomize_elim (simp only: convergent_eq_Cauchy)
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2584
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2585	show "(\<lambda>n. f (xs' n)) \<longlonglongrightarrow> l"
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2586	proof (rule tendstoI)
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2587	fix e::real assume "e > 0"
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2588	define e' where "e' \<equiv> e / 2"
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2589	have "e' > 0" using \<open>e > 0\<close> by (simp add: e'_def)
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2590
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2591	have "\<forall>\<^sub>F n in sequentially. dist (f (xs n)) l < e'"
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2592	by (simp add: \<open>0 < e'\<close> l tendstoD)
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2593	moreover
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2594	from uc[unfolded uniformly_continuous_on_def, rule_format, OF \<open>e' > 0\<close>]
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2595	obtain d where d: "d > 0" "\<And>x x'. x \<in> X \<Longrightarrow> x' \<in> X \<Longrightarrow> dist x x' < d \<Longrightarrow> dist (f x) (f x') < e'"
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2596	by auto
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2597	have "\<forall>\<^sub>F n in sequentially. dist (xs n) (xs' n) < d"
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2598	by (auto intro!: \<open>0 < d\<close> order_tendstoD tendsto_eq_intros xs xs')
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2599	ultimately
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2600	show "\<forall>\<^sub>F n in sequentially. dist (f (xs' n)) l < e"
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2601	proof eventually_elim
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2602	case (elim n)
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2603	have "dist (f (xs' n)) l \<le> dist (f (xs n)) (f (xs' n)) + dist (f (xs n)) l"
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2604	by (metis dist_triangle dist_commute)
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2605	also have "dist (f (xs n)) (f (xs' n)) < e'"
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2606	by (auto intro!: d xs \<open>xs' _ \<in> _\<close> elim)
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2607	also note \<open>dist (f (xs n)) l < e'\<close>
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2608	also have "e' + e' = e" by (simp add: e'_def)
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2609	finally show ?case by simp
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2610	qed
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2611	qed
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2612	qed
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2613	thus ?thesis ..
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2614	qed
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2615
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2616	lemma uniformly_continuous_on_extension_on_closure:
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2617	fixes f::"'a::metric_space \<Rightarrow> 'b::complete_space"
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2618	assumes uc: "uniformly_continuous_on X f"
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2619	obtains g where "uniformly_continuous_on (closure X) g" "\<And>x. x \<in> X \<Longrightarrow> f x = g x"
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2620	"\<And>Y h x. X \<subseteq> Y \<Longrightarrow> Y \<subseteq> closure X \<Longrightarrow> continuous_on Y h \<Longrightarrow> (\<And>x. x \<in> X \<Longrightarrow> f x = h x) \<Longrightarrow> x \<in> Y \<Longrightarrow> h x = g x"
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2621	proof -
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2622	from uc have cont_f: "continuous_on X f"
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2623	by (simp add: uniformly_continuous_imp_continuous)
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2624	obtain y where y: "(f \<longlongrightarrow> y x) (at x within X)" if "x \<in> closure X" for x
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2625	apply atomize_elim
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2626	apply (rule choice)
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2627	using uniformly_continuous_on_extension_at_closure[OF assms]
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2628	by metis
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2629	let ?g = "\<lambda>x. if x \<in> X then f x else y x"
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2630
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2631	have "uniformly_continuous_on (closure X) ?g"
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2632	unfolding uniformly_continuous_on_def
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2633	proof safe
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2634	fix e::real assume "e > 0"
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2635	define e' where "e' \<equiv> e / 3"
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2636	have "e' > 0" using \<open>e > 0\<close> by (simp add: e'_def)
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2637	from uc[unfolded uniformly_continuous_on_def, rule_format, OF \<open>0 < e'\<close>]
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2638	obtain d where "d > 0" and d: "\<And>x x'. x \<in> X \<Longrightarrow> x' \<in> X \<Longrightarrow> dist x' x < d \<Longrightarrow> dist (f x') (f x) < e'"
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2639	by auto
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2640	define d' where "d' = d / 3"
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2641	have "d' > 0" using \<open>d > 0\<close> by (simp add: d'_def)
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2642	show "\<exists>d>0. \<forall>x\<in>closure X. \<forall>x'\<in>closure X. dist x' x < d \<longrightarrow> dist (?g x') (?g x) < e"
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2643	proof (safe intro!: exI[where x=d'] \<open>d' > 0\<close>)
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2644	fix x x' assume x: "x \<in> closure X" and x': "x' \<in> closure X" and dist: "dist x' x < d'"
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2645	then obtain xs xs' where xs: "xs \<longlonglongrightarrow> x" "\<And>n. xs n \<in> X"
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2646	and xs': "xs' \<longlonglongrightarrow> x'" "\<And>n. xs' n \<in> X"
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2647	by (auto simp: closure_sequential)
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2648	have "\<forall>\<^sub>F n in sequentially. dist (xs' n) x' < d'"
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2649	and "\<forall>\<^sub>F n in sequentially. dist (xs n) x < d'"
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2650	by (auto intro!: \<open>0 < d'\<close> order_tendstoD tendsto_eq_intros xs xs')
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2651	moreover
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2652	have "(\<lambda>x. f (xs x)) \<longlonglongrightarrow> y x" if "x \<in> closure X" "x \<notin> X" "xs \<longlonglongrightarrow> x" "\<And>n. xs n \<in> X" for xs x
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2653	using that not_eventuallyD
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2654	by (force intro!: filterlim_compose[OF y[OF \<open>x \<in> closure X\<close>]] simp: filterlim_at)
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2655	then have "(\<lambda>x. f (xs' x)) \<longlonglongrightarrow> ?g x'" "(\<lambda>x. f (xs x)) \<longlonglongrightarrow> ?g x"
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2656	using x x'
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2657	by (auto intro!: continuous_on_tendsto_compose[OF cont_f] simp: xs' xs)
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2658	then have "\<forall>\<^sub>F n in sequentially. dist (f (xs' n)) (?g x') < e'"
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2659	"\<forall>\<^sub>F n in sequentially. dist (f (xs n)) (?g x) < e'"
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2660	by (auto intro!: \<open>0 < e'\<close> order_tendstoD tendsto_eq_intros)
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2661	ultimately
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2662	have "\<forall>\<^sub>F n in sequentially. dist (?g x') (?g x) < e"
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2663	proof eventually_elim
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2664	case (elim n)
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2665	have "dist (?g x') (?g x) \<le>
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2666	dist (f (xs' n)) (?g x') + dist (f (xs' n)) (f (xs n)) + dist (f (xs n)) (?g x)"
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2667	by (metis add.commute add_le_cancel_left dist_commute dist_triangle dist_triangle_le)
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2668	also
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2669	{
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2670	have "dist (xs' n) (xs n) \<le> dist (xs' n) x' + dist x' x + dist (xs n) x"
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2671	by (metis add.commute add_le_cancel_left dist_triangle dist_triangle_le)
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2672	also note \<open>dist (xs' n) x' < d'\<close>
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2673	also note \<open>dist x' x < d'\<close>
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2674	also note \<open>dist (xs n) x < d'\<close>
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2675	finally have "dist (xs' n) (xs n) < d" by (simp add: d'_def)
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2676	}
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2677	with \<open>xs _ \<in> X\<close> \<open>xs' _ \<in> X\<close> have "dist (f (xs' n)) (f (xs n)) < e'"
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2678	by (rule d)
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2679	also note \<open>dist (f (xs' n)) (?g x') < e'\<close>
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2680	also note \<open>dist (f (xs n)) (?g x) < e'\<close>
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2681	finally show ?case by (simp add: e'_def)
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2682	qed
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2683	then show "dist (?g x') (?g x) < e" by simp
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2684	qed
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2685	qed
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2686	moreover have "f x = ?g x" if "x \<in> X" for x using that by simp
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2687	moreover
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2688	{
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2689	fix Y h x
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2690	assume Y: "x \<in> Y" "X \<subseteq> Y" "Y \<subseteq> closure X" and cont_h: "continuous_on Y h"
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2691	and extension: "(\<And>x. x \<in> X \<Longrightarrow> f x = h x)"
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2692	{
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2693	assume "x \<notin> X"
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2694	have "x \<in> closure X" using Y by auto
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2695	then obtain xs where xs: "xs \<longlonglongrightarrow> x" "\<And>n. xs n \<in> X"
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2696	by (auto simp: closure_sequential)
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2697	from continuous_on_tendsto_compose[OF cont_h xs(1)] xs(2) Y
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2698	have hx: "(\<lambda>x. f (xs x)) \<longlonglongrightarrow> h x"
69712 dc85b5b3a532 renamings and new material paulson <lp15@cam.ac.uk> parents: 69676 diff changeset	2699	by (auto simp: subsetD extension)
69611 42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2700	then have "(\<lambda>x. f (xs x)) \<longlonglongrightarrow> y x"
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2701	using \<open>x \<notin> X\<close> not_eventuallyD xs(2)
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2702	by (force intro!: filterlim_compose[OF y[OF \<open>x \<in> closure X\<close>]] simp: filterlim_at xs)
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2703	with hx have "h x = y x" by (rule LIMSEQ_unique)
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2704	} then
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2705	have "h x = ?g x"
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2706	using extension by auto
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2707	}
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2708	ultimately show ?thesis ..
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2709	qed
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2710
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2711	lemma bounded_uniformly_continuous_image:
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2712	fixes f :: "'a :: heine_borel \<Rightarrow> 'b :: heine_borel"
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2713	assumes "uniformly_continuous_on S f" "bounded S"
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2714	shows "bounded(f ` S)"
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2715	by (metis (no_types, lifting) assms bounded_closure_image compact_closure compact_continuous_image compact_eq_bounded_closed image_cong uniformly_continuous_imp_continuous uniformly_continuous_on_extension_on_closure)
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2716
69544 5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	2717
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	2718	subsection \<open>With Abstract Topology (TODO: move and remove dependency?)\<close>
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	2719
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	2720	lemma openin_contains_ball:
69922 4a9167f377b0 new material about topology, etc.; also fixes for yesterday's paulson <lp15@cam.ac.uk> parents: 69918 diff changeset	2721	"openin (top_of_set t) s \<longleftrightarrow>
69544 5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	2722	s \<subseteq> t \<and> (\<forall>x \<in> s. \<exists>e. 0 < e \<and> ball x e \<inter> t \<subseteq> s)"
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	2723	(is "?lhs = ?rhs")
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	2724	proof
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	2725	assume ?lhs
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	2726	then show ?rhs
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	2727	apply (simp add: openin_open)
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	2728	apply (metis Int_commute Int_mono inf.cobounded2 open_contains_ball order_refl subsetCE)
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	2729	done
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	2730	next
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	2731	assume ?rhs
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	2732	then show ?lhs
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	2733	apply (simp add: openin_euclidean_subtopology_iff)
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	2734	by (metis (no_types) Int_iff dist_commute inf.absorb_iff2 mem_ball)
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	2735	qed
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	2736
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	2737	lemma openin_contains_cball:
69922 4a9167f377b0 new material about topology, etc.; also fixes for yesterday's paulson <lp15@cam.ac.uk> parents: 69918 diff changeset	2738	"openin (top_of_set t) s \<longleftrightarrow>
69544 5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	2739	s \<subseteq> t \<and>
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	2740	(\<forall>x \<in> s. \<exists>e. 0 < e \<and> cball x e \<inter> t \<subseteq> s)"
69622 003475955593 moved generalized lemmas immler parents: 69621 diff changeset	2741	apply (simp add: openin_contains_ball)
003475955593 moved generalized lemmas immler parents: 69621 diff changeset	2742	apply (rule iffI)
003475955593 moved generalized lemmas immler parents: 69621 diff changeset	2743	apply (auto dest!: bspec)
003475955593 moved generalized lemmas immler parents: 69621 diff changeset	2744	apply (rule_tac x="e/2" in exI, force+)
69544 5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	2745	done
5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	2746
69611 42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2747
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2748	subsection \<open>Closed Nest\<close>
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2749
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2750	text \<open>Bounded closed nest property (proof does not use Heine-Borel)\<close>
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2751
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2752	lemma bounded_closed_nest:
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2753	fixes S :: "nat \<Rightarrow> ('a::heine_borel) set"
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2754	assumes "\<And>n. closed (S n)"
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2755	and "\<And>n. S n \<noteq> {}"
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2756	and "\<And>m n. m \<le> n \<Longrightarrow> S n \<subseteq> S m"
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2757	and "bounded (S 0)"
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2758	obtains a where "\<And>n. a \<in> S n"
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2759	proof -
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2760	from assms(2) obtain x where x: "\<forall>n. x n \<in> S n"
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2761	using choice[of "\<lambda>n x. x \<in> S n"] by auto
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2762	from assms(4,1) have "seq_compact (S 0)"
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2763	by (simp add: bounded_closed_imp_seq_compact)
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2764	then obtain l r where lr: "l \<in> S 0" "strict_mono r" "(x \<circ> r) \<longlonglongrightarrow> l"
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2765	using x and assms(3) unfolding seq_compact_def by blast
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2766	have "\<forall>n. l \<in> S n"
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2767	proof
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2768	fix n :: nat
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2769	have "closed (S n)"
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2770	using assms(1) by simp
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2771	moreover have "\<forall>i. (x \<circ> r) i \<in> S i"
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2772	using x and assms(3) and lr(2) [THEN seq_suble] by auto
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2773	then have "\<forall>i. (x \<circ> r) (i + n) \<in> S n"
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2774	using assms(3) by (fast intro!: le_add2)
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2775	moreover have "(\<lambda>i. (x \<circ> r) (i + n)) \<longlonglongrightarrow> l"
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2776	using lr(3) by (rule LIMSEQ_ignore_initial_segment)
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2777	ultimately show "l \<in> S n"
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2778	by (rule closed_sequentially)
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2779	qed
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2780	then show ?thesis
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2781	using that by blast
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2782	qed
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2783
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2784	text \<open>Decreasing case does not even need compactness, just completeness.\<close>
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2785
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2786	lemma decreasing_closed_nest:
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2787	fixes S :: "nat \<Rightarrow> ('a::complete_space) set"
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2788	assumes "\<And>n. closed (S n)"
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2789	"\<And>n. S n \<noteq> {}"
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2790	"\<And>m n. m \<le> n \<Longrightarrow> S n \<subseteq> S m"
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2791	"\<And>e. e>0 \<Longrightarrow> \<exists>n. \<forall>x\<in>S n. \<forall>y\<in>S n. dist x y < e"
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2792	obtains a where "\<And>n. a \<in> S n"
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2793	proof -
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2794	have "\<forall>n. \<exists>x. x \<in> S n"
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2795	using assms(2) by auto
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2796	then have "\<exists>t. \<forall>n. t n \<in> S n"
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2797	using choice[of "\<lambda>n x. x \<in> S n"] by auto
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2798	then obtain t where t: "\<forall>n. t n \<in> S n" by auto
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2799	{
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2800	fix e :: real
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2801	assume "e > 0"
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2802	then obtain N where N: "\<forall>x\<in>S N. \<forall>y\<in>S N. dist x y < e"
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2803	using assms(4) by blast
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2804	{
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2805	fix m n :: nat
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2806	assume "N \<le> m \<and> N \<le> n"
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2807	then have "t m \<in> S N" "t n \<in> S N"
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2808	using assms(3) t unfolding subset_eq t by blast+
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2809	then have "dist (t m) (t n) < e"
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2810	using N by auto
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2811	}
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2812	then have "\<exists>N. \<forall>m n. N \<le> m \<and> N \<le> n \<longrightarrow> dist (t m) (t n) < e"
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2813	by auto
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2814	}
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2815	then have "Cauchy t"
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2816	unfolding cauchy_def by auto
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2817	then obtain l where l:"(t \<longlongrightarrow> l) sequentially"
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2818	using complete_UNIV unfolding complete_def by auto
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2819	{ fix n :: nat
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2820	{ fix e :: real
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2821	assume "e > 0"
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2822	then obtain N :: nat where N: "\<forall>n\<ge>N. dist (t n) l < e"
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2823	using l[unfolded lim_sequentially] by auto
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2824	have "t (max n N) \<in> S n"
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2825	by (meson assms(3) contra_subsetD max.cobounded1 t)
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2826	then have "\<exists>y\<in>S n. dist y l < e"
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2827	using N max.cobounded2 by blast
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2828	}
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2829	then have "l \<in> S n"
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2830	using closed_approachable[of "S n" l] assms(1) by auto
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2831	}
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2832	then show ?thesis
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2833	using that by blast
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2834	qed
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2835
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2836	text \<open>Strengthen it to the intersection actually being a singleton.\<close>
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2837
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2838	lemma decreasing_closed_nest_sing:
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2839	fixes S :: "nat \<Rightarrow> 'a::complete_space set"
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2840	assumes "\<And>n. closed(S n)"
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2841	"\<And>n. S n \<noteq> {}"
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2842	"\<And>m n. m \<le> n \<Longrightarrow> S n \<subseteq> S m"
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2843	"\<And>e. e>0 \<Longrightarrow> \<exists>n. \<forall>x \<in> (S n). \<forall> y\<in>(S n). dist x y < e"
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2844	shows "\<exists>a. \<Inter>(range S) = {a}"
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2845	proof -
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2846	obtain a where a: "\<forall>n. a \<in> S n"
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2847	using decreasing_closed_nest[of S] using assms by auto
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2848	{ fix b
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2849	assume b: "b \<in> \<Inter>(range S)"
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2850	{ fix e :: real
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2851	assume "e > 0"
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2852	then have "dist a b < e"
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2853	using assms(4) and b and a by blast
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2854	}
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2855	then have "dist a b = 0"
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2856	by (metis dist_eq_0_iff dist_nz less_le)
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2857	}
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2858	with a have "\<Inter>(range S) = {a}"
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2859	unfolding image_def by auto
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2860	then show ?thesis ..
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2861	qed
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2862
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2863	subsection%unimportant \<open>Making a continuous function avoid some value in a neighbourhood\<close>
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2864
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2865	lemma continuous_within_avoid:
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2866	fixes f :: "'a::metric_space \<Rightarrow> 'b::t1_space"
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2867	assumes "continuous (at x within s) f"
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2868	and "f x \<noteq> a"
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2869	shows "\<exists>e>0. \<forall>y \<in> s. dist x y < e --> f y \<noteq> a"
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2870	proof -
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2871	obtain U where "open U" and "f x \<in> U" and "a \<notin> U"
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2872	using t1_space [OF \<open>f x \<noteq> a\<close>] by fast
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2873	have "(f \<longlongrightarrow> f x) (at x within s)"
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2874	using assms(1) by (simp add: continuous_within)
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2875	then have "eventually (\<lambda>y. f y \<in> U) (at x within s)"
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2876	using \<open>open U\<close> and \<open>f x \<in> U\<close>
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2877	unfolding tendsto_def by fast
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2878	then have "eventually (\<lambda>y. f y \<noteq> a) (at x within s)"
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2879	using \<open>a \<notin> U\<close> by (fast elim: eventually_mono)
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2880	then show ?thesis
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2881	using \<open>f x \<noteq> a\<close> by (auto simp: dist_commute eventually_at)
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2882	qed
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2883
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2884	lemma continuous_at_avoid:
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2885	fixes f :: "'a::metric_space \<Rightarrow> 'b::t1_space"
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2886	assumes "continuous (at x) f"
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2887	and "f x \<noteq> a"
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2888	shows "\<exists>e>0. \<forall>y. dist x y < e \<longrightarrow> f y \<noteq> a"
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2889	using assms continuous_within_avoid[of x UNIV f a] by simp
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2890
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2891	lemma continuous_on_avoid:
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2892	fixes f :: "'a::metric_space \<Rightarrow> 'b::t1_space"
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2893	assumes "continuous_on s f"
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2894	and "x \<in> s"
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2895	and "f x \<noteq> a"
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2896	shows "\<exists>e>0. \<forall>y \<in> s. dist x y < e \<longrightarrow> f y \<noteq> a"
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2897	using assms(1)[unfolded continuous_on_eq_continuous_within, THEN bspec[where x=x],
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2898	OF assms(2)] continuous_within_avoid[of x s f a]
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2899	using assms(3)
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2900	by auto
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2901
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2902	lemma continuous_on_open_avoid:
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2903	fixes f :: "'a::metric_space \<Rightarrow> 'b::t1_space"
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2904	assumes "continuous_on s f"
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2905	and "open s"
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2906	and "x \<in> s"
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2907	and "f x \<noteq> a"
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2908	shows "\<exists>e>0. \<forall>y. dist x y < e \<longrightarrow> f y \<noteq> a"
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2909	using assms(1)[unfolded continuous_on_eq_continuous_at[OF assms(2)], THEN bspec[where x=x], OF assms(3)]
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2910	using continuous_at_avoid[of x f a] assms(4)
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2911	by auto
42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	2912
69613 1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	2913	subsection \<open>Consequences for Real Numbers\<close>
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	2914
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	2915	lemma closed_contains_Inf:
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	2916	fixes S :: "real set"
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	2917	shows "S \<noteq> {} \<Longrightarrow> bdd_below S \<Longrightarrow> closed S \<Longrightarrow> Inf S \<in> S"
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	2918	by (metis closure_contains_Inf closure_closed)
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	2919
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	2920	lemma closed_subset_contains_Inf:
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	2921	fixes A C :: "real set"
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	2922	shows "closed C \<Longrightarrow> A \<subseteq> C \<Longrightarrow> A \<noteq> {} \<Longrightarrow> bdd_below A \<Longrightarrow> Inf A \<in> C"
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	2923	by (metis closure_contains_Inf closure_minimal subset_eq)
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	2924
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	2925	lemma atLeastAtMost_subset_contains_Inf:
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	2926	fixes A :: "real set" and a b :: real
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	2927	shows "A \<noteq> {} \<Longrightarrow> a \<le> b \<Longrightarrow> A \<subseteq> {a..b} \<Longrightarrow> Inf A \<in> {a..b}"
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	2928	by (rule closed_subset_contains_Inf)
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	2929	(auto intro: closed_real_atLeastAtMost intro!: bdd_belowI[of A a])
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	2930
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	2931	lemma bounded_real: "bounded (S::real set) \<longleftrightarrow> (\<exists>a. \<forall>x\<in>S. \<bar>x\<bar> \<le> a)"
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	2932	by (simp add: bounded_iff)
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	2933
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	2934	lemma bounded_imp_bdd_above: "bounded S \<Longrightarrow> bdd_above (S :: real set)"
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	2935	by (auto simp: bounded_def bdd_above_def dist_real_def)
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	2936	(metis abs_le_D1 abs_minus_commute diff_le_eq)
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	2937
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	2938	lemma bounded_imp_bdd_below: "bounded S \<Longrightarrow> bdd_below (S :: real set)"
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	2939	by (auto simp: bounded_def bdd_below_def dist_real_def)
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	2940	(metis abs_le_D1 add.commute diff_le_eq)
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	2941
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	2942	lemma bounded_has_Sup:
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	2943	fixes S :: "real set"
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	2944	assumes "bounded S"
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	2945	and "S \<noteq> {}"
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	2946	shows "\<forall>x\<in>S. x \<le> Sup S"
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	2947	and "\<forall>b. (\<forall>x\<in>S. x \<le> b) \<longrightarrow> Sup S \<le> b"
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	2948	proof
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	2949	show "\<forall>b. (\<forall>x\<in>S. x \<le> b) \<longrightarrow> Sup S \<le> b"
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	2950	using assms by (metis cSup_least)
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	2951	qed (metis cSup_upper assms(1) bounded_imp_bdd_above)
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	2952
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	2953	lemma Sup_insert:
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	2954	fixes S :: "real set"
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	2955	shows "bounded S \<Longrightarrow> Sup (insert x S) = (if S = {} then x else max x (Sup S))"
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	2956	by (auto simp: bounded_imp_bdd_above sup_max cSup_insert_If)
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	2957
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	2958	lemma bounded_has_Inf:
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	2959	fixes S :: "real set"
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	2960	assumes "bounded S"
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	2961	and "S \<noteq> {}"
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	2962	shows "\<forall>x\<in>S. x \<ge> Inf S"
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	2963	and "\<forall>b. (\<forall>x\<in>S. x \<ge> b) \<longrightarrow> Inf S \<ge> b"
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	2964	proof
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	2965	show "\<forall>b. (\<forall>x\<in>S. x \<ge> b) \<longrightarrow> Inf S \<ge> b"
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	2966	using assms by (metis cInf_greatest)
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	2967	qed (metis cInf_lower assms(1) bounded_imp_bdd_below)
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	2968
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	2969	lemma Inf_insert:
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	2970	fixes S :: "real set"
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	2971	shows "bounded S \<Longrightarrow> Inf (insert x S) = (if S = {} then x else min x (Inf S))"
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	2972	by (auto simp: bounded_imp_bdd_below inf_min cInf_insert_If)
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	2973
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	2974	lemma open_real:
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	2975	fixes s :: "real set"
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	2976	shows "open s \<longleftrightarrow> (\<forall>x \<in> s. \<exists>e>0. \<forall>x'. \<bar>x' - x\<bar> < e --> x' \<in> s)"
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	2977	unfolding open_dist dist_norm by simp
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	2978
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	2979	lemma islimpt_approachable_real:
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	2980	fixes s :: "real set"
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	2981	shows "x islimpt s \<longleftrightarrow> (\<forall>e>0. \<exists>x'\<in> s. x' \<noteq> x \<and> \<bar>x' - x\<bar> < e)"
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	2982	unfolding islimpt_approachable dist_norm by simp
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	2983
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	2984	lemma closed_real:
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	2985	fixes s :: "real set"
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	2986	shows "closed s \<longleftrightarrow> (\<forall>x. (\<forall>e>0. \<exists>x' \<in> s. x' \<noteq> x \<and> \<bar>x' - x\<bar> < e) \<longrightarrow> x \<in> s)"
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	2987	unfolding closed_limpt islimpt_approachable dist_norm by simp
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	2988
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	2989	lemma continuous_at_real_range:
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	2990	fixes f :: "'a::real_normed_vector \<Rightarrow> real"
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	2991	shows "continuous (at x) f \<longleftrightarrow> (\<forall>e>0. \<exists>d>0. \<forall>x'. norm(x' - x) < d --> \<bar>f x' - f x\<bar> < e)"
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	2992	unfolding continuous_at
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	2993	unfolding Lim_at
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	2994	unfolding dist_norm
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	2995	apply auto
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	2996	apply (erule_tac x=e in allE, auto)
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	2997	apply (rule_tac x=d in exI, auto)
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	2998	apply (erule_tac x=x' in allE, auto)
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	2999	apply (erule_tac x=e in allE, auto)
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	3000	done
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	3001
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	3002	lemma continuous_on_real_range:
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	3003	fixes f :: "'a::real_normed_vector \<Rightarrow> real"
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	3004	shows "continuous_on s f \<longleftrightarrow>
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	3005	(\<forall>x \<in> s. \<forall>e>0. \<exists>d>0. (\<forall>x' \<in> s. norm(x' - x) < d \<longrightarrow> \<bar>f x' - f x\<bar> < e))"
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	3006	unfolding continuous_on_iff dist_norm by simp
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	3007
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	3008	lemma continuous_on_closed_Collect_le:
69618 2be1baf40351 moved setdist to more appropriate places immler parents: 69616 diff changeset	3009	fixes f g :: "'a::topological_space \<Rightarrow> real"
69613 1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	3010	assumes f: "continuous_on s f" and g: "continuous_on s g" and s: "closed s"
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	3011	shows "closed {x \<in> s. f x \<le> g x}"
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	3012	proof -
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	3013	have "closed ((\<lambda>x. g x - f x) -` {0..} \<inter> s)"
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	3014	using closed_real_atLeast continuous_on_diff [OF g f]
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	3015	by (simp add: continuous_on_closed_vimage [OF s])
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	3016	also have "((\<lambda>x. g x - f x) -` {0..} \<inter> s) = {x\<in>s. f x \<le> g x}"
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	3017	by auto
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	3018	finally show ?thesis .
1331e57b54c6 moved material from Connected.thy to more appropriate places immler parents: 69611 diff changeset	3019	qed
69611 42cc3609fedf moved some material from Connected.thy to more appropriate places immler parents: 69544 diff changeset	3020
69618 2be1baf40351 moved setdist to more appropriate places immler parents: 69616 diff changeset	3021	lemma continuous_le_on_closure:
2be1baf40351 moved setdist to more appropriate places immler parents: 69616 diff changeset	3022	fixes a::real
2be1baf40351 moved setdist to more appropriate places immler parents: 69616 diff changeset	3023	assumes f: "continuous_on (closure s) f"
2be1baf40351 moved setdist to more appropriate places immler parents: 69616 diff changeset	3024	and x: "x \<in> closure(s)"
2be1baf40351 moved setdist to more appropriate places immler parents: 69616 diff changeset	3025	and xlo: "\<And>x. x \<in> s ==> f(x) \<le> a"
2be1baf40351 moved setdist to more appropriate places immler parents: 69616 diff changeset	3026	shows "f(x) \<le> a"
2be1baf40351 moved setdist to more appropriate places immler parents: 69616 diff changeset	3027	using image_closure_subset [OF f, where T=" {x. x \<le> a}" ] assms
2be1baf40351 moved setdist to more appropriate places immler parents: 69616 diff changeset	3028	continuous_on_closed_Collect_le[of "UNIV" "\<lambda>x. x" "\<lambda>x. a"]
2be1baf40351 moved setdist to more appropriate places immler parents: 69616 diff changeset	3029	by auto
2be1baf40351 moved setdist to more appropriate places immler parents: 69616 diff changeset	3030
2be1baf40351 moved setdist to more appropriate places immler parents: 69616 diff changeset	3031	lemma continuous_ge_on_closure:
2be1baf40351 moved setdist to more appropriate places immler parents: 69616 diff changeset	3032	fixes a::real
2be1baf40351 moved setdist to more appropriate places immler parents: 69616 diff changeset	3033	assumes f: "continuous_on (closure s) f"
2be1baf40351 moved setdist to more appropriate places immler parents: 69616 diff changeset	3034	and x: "x \<in> closure(s)"
2be1baf40351 moved setdist to more appropriate places immler parents: 69616 diff changeset	3035	and xlo: "\<And>x. x \<in> s ==> f(x) \<ge> a"
2be1baf40351 moved setdist to more appropriate places immler parents: 69616 diff changeset	3036	shows "f(x) \<ge> a"
2be1baf40351 moved setdist to more appropriate places immler parents: 69616 diff changeset	3037	using image_closure_subset [OF f, where T=" {x. a \<le> x}"] assms
2be1baf40351 moved setdist to more appropriate places immler parents: 69616 diff changeset	3038	continuous_on_closed_Collect_le[of "UNIV" "\<lambda>x. a" "\<lambda>x. x"]
2be1baf40351 moved setdist to more appropriate places immler parents: 69616 diff changeset	3039	by auto
2be1baf40351 moved setdist to more appropriate places immler parents: 69616 diff changeset	3040
2be1baf40351 moved setdist to more appropriate places immler parents: 69616 diff changeset	3041
2be1baf40351 moved setdist to more appropriate places immler parents: 69616 diff changeset	3042	subsection\<open>The infimum of the distance between two sets\<close>
2be1baf40351 moved setdist to more appropriate places immler parents: 69616 diff changeset	3043
2be1baf40351 moved setdist to more appropriate places immler parents: 69616 diff changeset	3044	definition%important setdist :: "'a::metric_space set \<Rightarrow> 'a set \<Rightarrow> real" where
2be1baf40351 moved setdist to more appropriate places immler parents: 69616 diff changeset	3045	"setdist s t \<equiv>
2be1baf40351 moved setdist to more appropriate places immler parents: 69616 diff changeset	3046	(if s = {} \<or> t = {} then 0
2be1baf40351 moved setdist to more appropriate places immler parents: 69616 diff changeset	3047	else Inf {dist x y\| x y. x \<in> s \<and> y \<in> t})"
2be1baf40351 moved setdist to more appropriate places immler parents: 69616 diff changeset	3048
2be1baf40351 moved setdist to more appropriate places immler parents: 69616 diff changeset	3049	lemma setdist_empty1 [simp]: "setdist {} t = 0"
2be1baf40351 moved setdist to more appropriate places immler parents: 69616 diff changeset	3050	by (simp add: setdist_def)
2be1baf40351 moved setdist to more appropriate places immler parents: 69616 diff changeset	3051
2be1baf40351 moved setdist to more appropriate places immler parents: 69616 diff changeset	3052	lemma setdist_empty2 [simp]: "setdist t {} = 0"
2be1baf40351 moved setdist to more appropriate places immler parents: 69616 diff changeset	3053	by (simp add: setdist_def)
2be1baf40351 moved setdist to more appropriate places immler parents: 69616 diff changeset	3054
2be1baf40351 moved setdist to more appropriate places immler parents: 69616 diff changeset	3055	lemma setdist_pos_le [simp]: "0 \<le> setdist s t"
2be1baf40351 moved setdist to more appropriate places immler parents: 69616 diff changeset	3056	by (auto simp: setdist_def ex_in_conv [symmetric] intro: cInf_greatest)
2be1baf40351 moved setdist to more appropriate places immler parents: 69616 diff changeset	3057
2be1baf40351 moved setdist to more appropriate places immler parents: 69616 diff changeset	3058	lemma le_setdistI:
2be1baf40351 moved setdist to more appropriate places immler parents: 69616 diff changeset	3059	assumes "s \<noteq> {}" "t \<noteq> {}" "\<And>x y. \<lbrakk>x \<in> s; y \<in> t\<rbrakk> \<Longrightarrow> d \<le> dist x y"
2be1baf40351 moved setdist to more appropriate places immler parents: 69616 diff changeset	3060	shows "d \<le> setdist s t"
2be1baf40351 moved setdist to more appropriate places immler parents: 69616 diff changeset	3061	using assms
2be1baf40351 moved setdist to more appropriate places immler parents: 69616 diff changeset	3062	by (auto simp: setdist_def Set.ex_in_conv [symmetric] intro: cInf_greatest)
2be1baf40351 moved setdist to more appropriate places immler parents: 69616 diff changeset	3063
2be1baf40351 moved setdist to more appropriate places immler parents: 69616 diff changeset	3064	lemma setdist_le_dist: "\<lbrakk>x \<in> s; y \<in> t\<rbrakk> \<Longrightarrow> setdist s t \<le> dist x y"
2be1baf40351 moved setdist to more appropriate places immler parents: 69616 diff changeset	3065	unfolding setdist_def
2be1baf40351 moved setdist to more appropriate places immler parents: 69616 diff changeset	3066	by (auto intro!: bdd_belowI [where m=0] cInf_lower)
2be1baf40351 moved setdist to more appropriate places immler parents: 69616 diff changeset	3067
2be1baf40351 moved setdist to more appropriate places immler parents: 69616 diff changeset	3068	lemma le_setdist_iff:
2be1baf40351 moved setdist to more appropriate places immler parents: 69616 diff changeset	3069	"d \<le> setdist s t \<longleftrightarrow>
2be1baf40351 moved setdist to more appropriate places immler parents: 69616 diff changeset	3070	(\<forall>x \<in> s. \<forall>y \<in> t. d \<le> dist x y) \<and> (s = {} \<or> t = {} \<longrightarrow> d \<le> 0)"
2be1baf40351 moved setdist to more appropriate places immler parents: 69616 diff changeset	3071	apply (cases "s = {} \<or> t = {}")
2be1baf40351 moved setdist to more appropriate places immler parents: 69616 diff changeset	3072	apply (force simp add: setdist_def)
2be1baf40351 moved setdist to more appropriate places immler parents: 69616 diff changeset	3073	apply (intro iffI conjI)
2be1baf40351 moved setdist to more appropriate places immler parents: 69616 diff changeset	3074	using setdist_le_dist apply fastforce
2be1baf40351 moved setdist to more appropriate places immler parents: 69616 diff changeset	3075	apply (auto simp: intro: le_setdistI)
2be1baf40351 moved setdist to more appropriate places immler parents: 69616 diff changeset	3076	done
2be1baf40351 moved setdist to more appropriate places immler parents: 69616 diff changeset	3077
2be1baf40351 moved setdist to more appropriate places immler parents: 69616 diff changeset	3078	lemma setdist_ltE:
2be1baf40351 moved setdist to more appropriate places immler parents: 69616 diff changeset	3079	assumes "setdist s t < b" "s \<noteq> {}" "t \<noteq> {}"
2be1baf40351 moved setdist to more appropriate places immler parents: 69616 diff changeset	3080	obtains x y where "x \<in> s" "y \<in> t" "dist x y < b"
2be1baf40351 moved setdist to more appropriate places immler parents: 69616 diff changeset	3081	using assms
2be1baf40351 moved setdist to more appropriate places immler parents: 69616 diff changeset	3082	by (auto simp: not_le [symmetric] le_setdist_iff)
2be1baf40351 moved setdist to more appropriate places immler parents: 69616 diff changeset	3083
2be1baf40351 moved setdist to more appropriate places immler parents: 69616 diff changeset	3084	lemma setdist_refl: "setdist s s = 0"
2be1baf40351 moved setdist to more appropriate places immler parents: 69616 diff changeset	3085	apply (cases "s = {}")
2be1baf40351 moved setdist to more appropriate places immler parents: 69616 diff changeset	3086	apply (force simp add: setdist_def)
2be1baf40351 moved setdist to more appropriate places immler parents: 69616 diff changeset	3087	apply (rule antisym [OF _ setdist_pos_le])
2be1baf40351 moved setdist to more appropriate places immler parents: 69616 diff changeset	3088	apply (metis all_not_in_conv dist_self setdist_le_dist)
2be1baf40351 moved setdist to more appropriate places immler parents: 69616 diff changeset	3089	done
2be1baf40351 moved setdist to more appropriate places immler parents: 69616 diff changeset	3090
2be1baf40351 moved setdist to more appropriate places immler parents: 69616 diff changeset	3091	lemma setdist_sym: "setdist s t = setdist t s"
2be1baf40351 moved setdist to more appropriate places immler parents: 69616 diff changeset	3092	by (force simp: setdist_def dist_commute intro!: arg_cong [where f=Inf])
2be1baf40351 moved setdist to more appropriate places immler parents: 69616 diff changeset	3093
2be1baf40351 moved setdist to more appropriate places immler parents: 69616 diff changeset	3094	lemma setdist_triangle: "setdist s t \<le> setdist s {a} + setdist {a} t"
2be1baf40351 moved setdist to more appropriate places immler parents: 69616 diff changeset	3095	proof (cases "s = {} \<or> t = {}")
2be1baf40351 moved setdist to more appropriate places immler parents: 69616 diff changeset	3096	case True then show ?thesis
2be1baf40351 moved setdist to more appropriate places immler parents: 69616 diff changeset	3097	using setdist_pos_le by fastforce
2be1baf40351 moved setdist to more appropriate places immler parents: 69616 diff changeset	3098	next
2be1baf40351 moved setdist to more appropriate places immler parents: 69616 diff changeset	3099	case False
2be1baf40351 moved setdist to more appropriate places immler parents: 69616 diff changeset	3100	have "\<And>x. x \<in> s \<Longrightarrow> setdist s t - dist x a \<le> setdist {a} t"
2be1baf40351 moved setdist to more appropriate places immler parents: 69616 diff changeset	3101	apply (rule le_setdistI, blast)
2be1baf40351 moved setdist to more appropriate places immler parents: 69616 diff changeset	3102	using False apply (fastforce intro: le_setdistI)
2be1baf40351 moved setdist to more appropriate places immler parents: 69616 diff changeset	3103	apply (simp add: algebra_simps)
2be1baf40351 moved setdist to more appropriate places immler parents: 69616 diff changeset	3104	apply (metis dist_commute dist_triangle3 order_trans [OF setdist_le_dist])
2be1baf40351 moved setdist to more appropriate places immler parents: 69616 diff changeset	3105	done
2be1baf40351 moved setdist to more appropriate places immler parents: 69616 diff changeset	3106	then have "setdist s t - setdist {a} t \<le> setdist s {a}"
2be1baf40351 moved setdist to more appropriate places immler parents: 69616 diff changeset	3107	using False by (fastforce intro: le_setdistI)
2be1baf40351 moved setdist to more appropriate places immler parents: 69616 diff changeset	3108	then show ?thesis
2be1baf40351 moved setdist to more appropriate places immler parents: 69616 diff changeset	3109	by (simp add: algebra_simps)
2be1baf40351 moved setdist to more appropriate places immler parents: 69616 diff changeset	3110	qed
2be1baf40351 moved setdist to more appropriate places immler parents: 69616 diff changeset	3111
2be1baf40351 moved setdist to more appropriate places immler parents: 69616 diff changeset	3112	lemma setdist_singletons [simp]: "setdist {x} {y} = dist x y"
2be1baf40351 moved setdist to more appropriate places immler parents: 69616 diff changeset	3113	by (simp add: setdist_def)
2be1baf40351 moved setdist to more appropriate places immler parents: 69616 diff changeset	3114
2be1baf40351 moved setdist to more appropriate places immler parents: 69616 diff changeset	3115	lemma setdist_Lipschitz: "\<bar>setdist {x} s - setdist {y} s\<bar> \<le> dist x y"
2be1baf40351 moved setdist to more appropriate places immler parents: 69616 diff changeset	3116	apply (subst setdist_singletons [symmetric])
2be1baf40351 moved setdist to more appropriate places immler parents: 69616 diff changeset	3117	by (metis abs_diff_le_iff diff_le_eq setdist_triangle setdist_sym)
2be1baf40351 moved setdist to more appropriate places immler parents: 69616 diff changeset	3118
2be1baf40351 moved setdist to more appropriate places immler parents: 69616 diff changeset	3119	lemma continuous_at_setdist [continuous_intros]: "continuous (at x) (\<lambda>y. (setdist {y} s))"
2be1baf40351 moved setdist to more appropriate places immler parents: 69616 diff changeset	3120	by (force simp: continuous_at_eps_delta dist_real_def intro: le_less_trans [OF setdist_Lipschitz])
2be1baf40351 moved setdist to more appropriate places immler parents: 69616 diff changeset	3121
2be1baf40351 moved setdist to more appropriate places immler parents: 69616 diff changeset	3122	lemma continuous_on_setdist [continuous_intros]: "continuous_on t (\<lambda>y. (setdist {y} s))"
2be1baf40351 moved setdist to more appropriate places immler parents: 69616 diff changeset	3123	by (metis continuous_at_setdist continuous_at_imp_continuous_on)
2be1baf40351 moved setdist to more appropriate places immler parents: 69616 diff changeset	3124
2be1baf40351 moved setdist to more appropriate places immler parents: 69616 diff changeset	3125	lemma uniformly_continuous_on_setdist: "uniformly_continuous_on t (\<lambda>y. (setdist {y} s))"
2be1baf40351 moved setdist to more appropriate places immler parents: 69616 diff changeset	3126	by (force simp: uniformly_continuous_on_def dist_real_def intro: le_less_trans [OF setdist_Lipschitz])
2be1baf40351 moved setdist to more appropriate places immler parents: 69616 diff changeset	3127
2be1baf40351 moved setdist to more appropriate places immler parents: 69616 diff changeset	3128	lemma setdist_subset_right: "\<lbrakk>t \<noteq> {}; t \<subseteq> u\<rbrakk> \<Longrightarrow> setdist s u \<le> setdist s t"
2be1baf40351 moved setdist to more appropriate places immler parents: 69616 diff changeset	3129	apply (cases "s = {} \<or> u = {}", force)
2be1baf40351 moved setdist to more appropriate places immler parents: 69616 diff changeset	3130	apply (auto simp: setdist_def intro!: bdd_belowI [where m=0] cInf_superset_mono)
2be1baf40351 moved setdist to more appropriate places immler parents: 69616 diff changeset	3131	done
2be1baf40351 moved setdist to more appropriate places immler parents: 69616 diff changeset	3132
2be1baf40351 moved setdist to more appropriate places immler parents: 69616 diff changeset	3133	lemma setdist_subset_left: "\<lbrakk>s \<noteq> {}; s \<subseteq> t\<rbrakk> \<Longrightarrow> setdist t u \<le> setdist s u"
2be1baf40351 moved setdist to more appropriate places immler parents: 69616 diff changeset	3134	by (metis setdist_subset_right setdist_sym)
2be1baf40351 moved setdist to more appropriate places immler parents: 69616 diff changeset	3135
2be1baf40351 moved setdist to more appropriate places immler parents: 69616 diff changeset	3136	lemma setdist_closure_1 [simp]: "setdist (closure s) t = setdist s t"
2be1baf40351 moved setdist to more appropriate places immler parents: 69616 diff changeset	3137	proof (cases "s = {} \<or> t = {}")
2be1baf40351 moved setdist to more appropriate places immler parents: 69616 diff changeset	3138	case True then show ?thesis by force
2be1baf40351 moved setdist to more appropriate places immler parents: 69616 diff changeset	3139	next
2be1baf40351 moved setdist to more appropriate places immler parents: 69616 diff changeset	3140	case False
2be1baf40351 moved setdist to more appropriate places immler parents: 69616 diff changeset	3141	{ fix y
2be1baf40351 moved setdist to more appropriate places immler parents: 69616 diff changeset	3142	assume "y \<in> t"
2be1baf40351 moved setdist to more appropriate places immler parents: 69616 diff changeset	3143	have "continuous_on (closure s) (\<lambda>a. dist a y)"
2be1baf40351 moved setdist to more appropriate places immler parents: 69616 diff changeset	3144	by (auto simp: continuous_intros dist_norm)
2be1baf40351 moved setdist to more appropriate places immler parents: 69616 diff changeset	3145	then have *: "\<And>x. x \<in> closure s \<Longrightarrow> setdist s t \<le> dist x y"
2be1baf40351 moved setdist to more appropriate places immler parents: 69616 diff changeset	3146	apply (rule continuous_ge_on_closure)
2be1baf40351 moved setdist to more appropriate places immler parents: 69616 diff changeset	3147	apply assumption
2be1baf40351 moved setdist to more appropriate places immler parents: 69616 diff changeset	3148	apply (blast intro: setdist_le_dist \<open>y \<in> t\<close> )
2be1baf40351 moved setdist to more appropriate places immler parents: 69616 diff changeset	3149	done
2be1baf40351 moved setdist to more appropriate places immler parents: 69616 diff changeset	3150	} note * = this
2be1baf40351 moved setdist to more appropriate places immler parents: 69616 diff changeset	3151	show ?thesis
2be1baf40351 moved setdist to more appropriate places immler parents: 69616 diff changeset	3152	apply (rule antisym)
2be1baf40351 moved setdist to more appropriate places immler parents: 69616 diff changeset	3153	using False closure_subset apply (blast intro: setdist_subset_left)
2be1baf40351 moved setdist to more appropriate places immler parents: 69616 diff changeset	3154	using False *
2be1baf40351 moved setdist to more appropriate places immler parents: 69616 diff changeset	3155	apply (force simp add: closure_eq_empty intro!: le_setdistI)
2be1baf40351 moved setdist to more appropriate places immler parents: 69616 diff changeset	3156	done
2be1baf40351 moved setdist to more appropriate places immler parents: 69616 diff changeset	3157	qed
2be1baf40351 moved setdist to more appropriate places immler parents: 69616 diff changeset	3158
2be1baf40351 moved setdist to more appropriate places immler parents: 69616 diff changeset	3159	lemma setdist_closure_2 [simp]: "setdist t (closure s) = setdist t s"
2be1baf40351 moved setdist to more appropriate places immler parents: 69616 diff changeset	3160	by (metis setdist_closure_1 setdist_sym)
2be1baf40351 moved setdist to more appropriate places immler parents: 69616 diff changeset	3161
2be1baf40351 moved setdist to more appropriate places immler parents: 69616 diff changeset	3162	lemma setdist_eq_0I: "\<lbrakk>x \<in> S; x \<in> T\<rbrakk> \<Longrightarrow> setdist S T = 0"
2be1baf40351 moved setdist to more appropriate places immler parents: 69616 diff changeset	3163	by (metis antisym dist_self setdist_le_dist setdist_pos_le)
2be1baf40351 moved setdist to more appropriate places immler parents: 69616 diff changeset	3164
2be1baf40351 moved setdist to more appropriate places immler parents: 69616 diff changeset	3165	lemma setdist_unique:
2be1baf40351 moved setdist to more appropriate places immler parents: 69616 diff changeset	3166	"\<lbrakk>a \<in> S; b \<in> T; \<And>x y. x \<in> S \<and> y \<in> T ==> dist a b \<le> dist x y\<rbrakk>
2be1baf40351 moved setdist to more appropriate places immler parents: 69616 diff changeset	3167	\<Longrightarrow> setdist S T = dist a b"
2be1baf40351 moved setdist to more appropriate places immler parents: 69616 diff changeset	3168	by (force simp add: setdist_le_dist le_setdist_iff intro: antisym)
2be1baf40351 moved setdist to more appropriate places immler parents: 69616 diff changeset	3169
2be1baf40351 moved setdist to more appropriate places immler parents: 69616 diff changeset	3170	lemma setdist_le_sing: "x \<in> S ==> setdist S T \<le> setdist {x} T"
2be1baf40351 moved setdist to more appropriate places immler parents: 69616 diff changeset	3171	using setdist_subset_left by auto
2be1baf40351 moved setdist to more appropriate places immler parents: 69616 diff changeset	3172
69918 eddcc7c726f3 new material;' strengthened material; moved proofs out of Function_Topology in order to lessen its dependencies paulson <lp15@cam.ac.uk> parents: 69712 diff changeset	3173	lemma infdist_eq_setdist: "infdist x A = setdist {x} A"
eddcc7c726f3 new material;' strengthened material; moved proofs out of Function_Topology in order to lessen its dependencies paulson <lp15@cam.ac.uk> parents: 69712 diff changeset	3174	by (simp add: infdist_def setdist_def Setcompr_eq_image)
eddcc7c726f3 new material;' strengthened material; moved proofs out of Function_Topology in order to lessen its dependencies paulson <lp15@cam.ac.uk> parents: 69712 diff changeset	3175
eddcc7c726f3 new material;' strengthened material; moved proofs out of Function_Topology in order to lessen its dependencies paulson <lp15@cam.ac.uk> parents: 69712 diff changeset	3176	lemma setdist_eq_infdist: "setdist A B = (if A = {} then 0 else INF a\<in>A. infdist a B)"
eddcc7c726f3 new material;' strengthened material; moved proofs out of Function_Topology in order to lessen its dependencies paulson <lp15@cam.ac.uk> parents: 69712 diff changeset	3177	proof -
eddcc7c726f3 new material;' strengthened material; moved proofs out of Function_Topology in order to lessen its dependencies paulson <lp15@cam.ac.uk> parents: 69712 diff changeset	3178	have "Inf {dist x y \|x y. x \<in> A \<and> y \<in> B} = (INF x\<in>A. Inf (dist x ` B))"
eddcc7c726f3 new material;' strengthened material; moved proofs out of Function_Topology in order to lessen its dependencies paulson <lp15@cam.ac.uk> parents: 69712 diff changeset	3179	if "b \<in> B" "a \<in> A" for a b
eddcc7c726f3 new material;' strengthened material; moved proofs out of Function_Topology in order to lessen its dependencies paulson <lp15@cam.ac.uk> parents: 69712 diff changeset	3180	proof (rule order_antisym)
eddcc7c726f3 new material;' strengthened material; moved proofs out of Function_Topology in order to lessen its dependencies paulson <lp15@cam.ac.uk> parents: 69712 diff changeset	3181	have "Inf {dist x y \|x y. x \<in> A \<and> y \<in> B} \<le> Inf (dist x ` B)"
eddcc7c726f3 new material;' strengthened material; moved proofs out of Function_Topology in order to lessen its dependencies paulson <lp15@cam.ac.uk> parents: 69712 diff changeset	3182	if "b \<in> B" "a \<in> A" "x \<in> A" for x
eddcc7c726f3 new material;' strengthened material; moved proofs out of Function_Topology in order to lessen its dependencies paulson <lp15@cam.ac.uk> parents: 69712 diff changeset	3183	proof -
eddcc7c726f3 new material;' strengthened material; moved proofs out of Function_Topology in order to lessen its dependencies paulson <lp15@cam.ac.uk> parents: 69712 diff changeset	3184	have *: "\<And>b'. b' \<in> B \<Longrightarrow> Inf {dist x y \|x y. x \<in> A \<and> y \<in> B} \<le> dist x b'"
eddcc7c726f3 new material;' strengthened material; moved proofs out of Function_Topology in order to lessen its dependencies paulson <lp15@cam.ac.uk> parents: 69712 diff changeset	3185	by (metis (mono_tags, lifting) ex_in_conv setdist_def setdist_le_dist that(3))
eddcc7c726f3 new material;' strengthened material; moved proofs out of Function_Topology in order to lessen its dependencies paulson <lp15@cam.ac.uk> parents: 69712 diff changeset	3186	show ?thesis
eddcc7c726f3 new material;' strengthened material; moved proofs out of Function_Topology in order to lessen its dependencies paulson <lp15@cam.ac.uk> parents: 69712 diff changeset	3187	using that by (subst conditionally_complete_lattice_class.le_cInf_iff) (auto simp: *)+
eddcc7c726f3 new material;' strengthened material; moved proofs out of Function_Topology in order to lessen its dependencies paulson <lp15@cam.ac.uk> parents: 69712 diff changeset	3188	qed
eddcc7c726f3 new material;' strengthened material; moved proofs out of Function_Topology in order to lessen its dependencies paulson <lp15@cam.ac.uk> parents: 69712 diff changeset	3189	then show "Inf {dist x y \|x y. x \<in> A \<and> y \<in> B} \<le> (INF x\<in>A. Inf (dist x ` B))"
eddcc7c726f3 new material;' strengthened material; moved proofs out of Function_Topology in order to lessen its dependencies paulson <lp15@cam.ac.uk> parents: 69712 diff changeset	3190	using that
eddcc7c726f3 new material;' strengthened material; moved proofs out of Function_Topology in order to lessen its dependencies paulson <lp15@cam.ac.uk> parents: 69712 diff changeset	3191	by (subst conditionally_complete_lattice_class.le_cInf_iff) (auto simp: bdd_below_def)
eddcc7c726f3 new material;' strengthened material; moved proofs out of Function_Topology in order to lessen its dependencies paulson <lp15@cam.ac.uk> parents: 69712 diff changeset	3192	next
eddcc7c726f3 new material;' strengthened material; moved proofs out of Function_Topology in order to lessen its dependencies paulson <lp15@cam.ac.uk> parents: 69712 diff changeset	3193	have *: "\<And>x y. \<lbrakk>b \<in> B; a \<in> A; x \<in> A; y \<in> B\<rbrakk> \<Longrightarrow> \<exists>a\<in>A. Inf (dist a ` B) \<le> dist x y"
eddcc7c726f3 new material;' strengthened material; moved proofs out of Function_Topology in order to lessen its dependencies paulson <lp15@cam.ac.uk> parents: 69712 diff changeset	3194	by (meson bdd_below_image_dist cINF_lower)
eddcc7c726f3 new material;' strengthened material; moved proofs out of Function_Topology in order to lessen its dependencies paulson <lp15@cam.ac.uk> parents: 69712 diff changeset	3195	show "(INF x\<in>A. Inf (dist x ` B)) \<le> Inf {dist x y \|x y. x \<in> A \<and> y \<in> B}"
eddcc7c726f3 new material;' strengthened material; moved proofs out of Function_Topology in order to lessen its dependencies paulson <lp15@cam.ac.uk> parents: 69712 diff changeset	3196	proof (rule conditionally_complete_lattice_class.cInf_mono)
eddcc7c726f3 new material;' strengthened material; moved proofs out of Function_Topology in order to lessen its dependencies paulson <lp15@cam.ac.uk> parents: 69712 diff changeset	3197	show "bdd_below ((\<lambda>x. Inf (dist x ` B)) ` A)"
eddcc7c726f3 new material;' strengthened material; moved proofs out of Function_Topology in order to lessen its dependencies paulson <lp15@cam.ac.uk> parents: 69712 diff changeset	3198	by (metis (no_types, lifting) bdd_belowI2 ex_in_conv infdist_def infdist_nonneg that(1))
eddcc7c726f3 new material;' strengthened material; moved proofs out of Function_Topology in order to lessen its dependencies paulson <lp15@cam.ac.uk> parents: 69712 diff changeset	3199	qed (use that in \<open>auto simp: *\<close>)
eddcc7c726f3 new material;' strengthened material; moved proofs out of Function_Topology in order to lessen its dependencies paulson <lp15@cam.ac.uk> parents: 69712 diff changeset	3200	qed
eddcc7c726f3 new material;' strengthened material; moved proofs out of Function_Topology in order to lessen its dependencies paulson <lp15@cam.ac.uk> parents: 69712 diff changeset	3201	then show ?thesis
eddcc7c726f3 new material;' strengthened material; moved proofs out of Function_Topology in order to lessen its dependencies paulson <lp15@cam.ac.uk> parents: 69712 diff changeset	3202	by (auto simp: setdist_def infdist_def)
eddcc7c726f3 new material;' strengthened material; moved proofs out of Function_Topology in order to lessen its dependencies paulson <lp15@cam.ac.uk> parents: 69712 diff changeset	3203	qed
eddcc7c726f3 new material;' strengthened material; moved proofs out of Function_Topology in order to lessen its dependencies paulson <lp15@cam.ac.uk> parents: 69712 diff changeset	3204
eddcc7c726f3 new material;' strengthened material; moved proofs out of Function_Topology in order to lessen its dependencies paulson <lp15@cam.ac.uk> parents: 69712 diff changeset	3205	lemma continuous_on_infdist [continuous_intros]: "continuous_on B (\<lambda>y. infdist y A)"
eddcc7c726f3 new material;' strengthened material; moved proofs out of Function_Topology in order to lessen its dependencies paulson <lp15@cam.ac.uk> parents: 69712 diff changeset	3206	by (simp add: continuous_on_setdist infdist_eq_setdist)
eddcc7c726f3 new material;' strengthened material; moved proofs out of Function_Topology in order to lessen its dependencies paulson <lp15@cam.ac.uk> parents: 69712 diff changeset	3207
eddcc7c726f3 new material;' strengthened material; moved proofs out of Function_Topology in order to lessen its dependencies paulson <lp15@cam.ac.uk> parents: 69712 diff changeset	3208	proposition setdist_attains_inf:
eddcc7c726f3 new material;' strengthened material; moved proofs out of Function_Topology in order to lessen its dependencies paulson <lp15@cam.ac.uk> parents: 69712 diff changeset	3209	assumes "compact B" "B \<noteq> {}"
eddcc7c726f3 new material;' strengthened material; moved proofs out of Function_Topology in order to lessen its dependencies paulson <lp15@cam.ac.uk> parents: 69712 diff changeset	3210	obtains y where "y \<in> B" "setdist A B = infdist y A"
eddcc7c726f3 new material;' strengthened material; moved proofs out of Function_Topology in order to lessen its dependencies paulson <lp15@cam.ac.uk> parents: 69712 diff changeset	3211	proof (cases "A = {}")
eddcc7c726f3 new material;' strengthened material; moved proofs out of Function_Topology in order to lessen its dependencies paulson <lp15@cam.ac.uk> parents: 69712 diff changeset	3212	case True
eddcc7c726f3 new material;' strengthened material; moved proofs out of Function_Topology in order to lessen its dependencies paulson <lp15@cam.ac.uk> parents: 69712 diff changeset	3213	then show thesis
eddcc7c726f3 new material;' strengthened material; moved proofs out of Function_Topology in order to lessen its dependencies paulson <lp15@cam.ac.uk> parents: 69712 diff changeset	3214	by (metis assms diameter_compact_attained infdist_def setdist_def that)
eddcc7c726f3 new material;' strengthened material; moved proofs out of Function_Topology in order to lessen its dependencies paulson <lp15@cam.ac.uk> parents: 69712 diff changeset	3215	next
eddcc7c726f3 new material;' strengthened material; moved proofs out of Function_Topology in order to lessen its dependencies paulson <lp15@cam.ac.uk> parents: 69712 diff changeset	3216	case False
eddcc7c726f3 new material;' strengthened material; moved proofs out of Function_Topology in order to lessen its dependencies paulson <lp15@cam.ac.uk> parents: 69712 diff changeset	3217	obtain y where "y \<in> B" and min: "\<And>y'. y' \<in> B \<Longrightarrow> infdist y A \<le> infdist y' A"
eddcc7c726f3 new material;' strengthened material; moved proofs out of Function_Topology in order to lessen its dependencies paulson <lp15@cam.ac.uk> parents: 69712 diff changeset	3218	using continuous_attains_inf [OF assms continuous_on_infdist] by blast
eddcc7c726f3 new material;' strengthened material; moved proofs out of Function_Topology in order to lessen its dependencies paulson <lp15@cam.ac.uk> parents: 69712 diff changeset	3219	show thesis
eddcc7c726f3 new material;' strengthened material; moved proofs out of Function_Topology in order to lessen its dependencies paulson <lp15@cam.ac.uk> parents: 69712 diff changeset	3220	proof
eddcc7c726f3 new material;' strengthened material; moved proofs out of Function_Topology in order to lessen its dependencies paulson <lp15@cam.ac.uk> parents: 69712 diff changeset	3221	have "setdist A B = (INF y\<in>B. infdist y A)"
eddcc7c726f3 new material;' strengthened material; moved proofs out of Function_Topology in order to lessen its dependencies paulson <lp15@cam.ac.uk> parents: 69712 diff changeset	3222	by (metis \<open>B \<noteq> {}\<close> setdist_eq_infdist setdist_sym)
eddcc7c726f3 new material;' strengthened material; moved proofs out of Function_Topology in order to lessen its dependencies paulson <lp15@cam.ac.uk> parents: 69712 diff changeset	3223	also have "\<dots> = infdist y A"
eddcc7c726f3 new material;' strengthened material; moved proofs out of Function_Topology in order to lessen its dependencies paulson <lp15@cam.ac.uk> parents: 69712 diff changeset	3224	proof (rule order_antisym)
eddcc7c726f3 new material;' strengthened material; moved proofs out of Function_Topology in order to lessen its dependencies paulson <lp15@cam.ac.uk> parents: 69712 diff changeset	3225	show "(INF y\<in>B. infdist y A) \<le> infdist y A"
eddcc7c726f3 new material;' strengthened material; moved proofs out of Function_Topology in order to lessen its dependencies paulson <lp15@cam.ac.uk> parents: 69712 diff changeset	3226	proof (rule cInf_lower)
eddcc7c726f3 new material;' strengthened material; moved proofs out of Function_Topology in order to lessen its dependencies paulson <lp15@cam.ac.uk> parents: 69712 diff changeset	3227	show "infdist y A \<in> (\<lambda>y. infdist y A) ` B"
eddcc7c726f3 new material;' strengthened material; moved proofs out of Function_Topology in order to lessen its dependencies paulson <lp15@cam.ac.uk> parents: 69712 diff changeset	3228	using \<open>y \<in> B\<close> by blast
eddcc7c726f3 new material;' strengthened material; moved proofs out of Function_Topology in order to lessen its dependencies paulson <lp15@cam.ac.uk> parents: 69712 diff changeset	3229	show "bdd_below ((\<lambda>y. infdist y A) ` B)"
eddcc7c726f3 new material;' strengthened material; moved proofs out of Function_Topology in order to lessen its dependencies paulson <lp15@cam.ac.uk> parents: 69712 diff changeset	3230	by (meson bdd_belowI2 infdist_nonneg)
eddcc7c726f3 new material;' strengthened material; moved proofs out of Function_Topology in order to lessen its dependencies paulson <lp15@cam.ac.uk> parents: 69712 diff changeset	3231	qed
eddcc7c726f3 new material;' strengthened material; moved proofs out of Function_Topology in order to lessen its dependencies paulson <lp15@cam.ac.uk> parents: 69712 diff changeset	3232	next
eddcc7c726f3 new material;' strengthened material; moved proofs out of Function_Topology in order to lessen its dependencies paulson <lp15@cam.ac.uk> parents: 69712 diff changeset	3233	show "infdist y A \<le> (INF y\<in>B. infdist y A)"
eddcc7c726f3 new material;' strengthened material; moved proofs out of Function_Topology in order to lessen its dependencies paulson <lp15@cam.ac.uk> parents: 69712 diff changeset	3234	by (simp add: \<open>B \<noteq> {}\<close> cINF_greatest min)
eddcc7c726f3 new material;' strengthened material; moved proofs out of Function_Topology in order to lessen its dependencies paulson <lp15@cam.ac.uk> parents: 69712 diff changeset	3235	qed
eddcc7c726f3 new material;' strengthened material; moved proofs out of Function_Topology in order to lessen its dependencies paulson <lp15@cam.ac.uk> parents: 69712 diff changeset	3236	finally show "setdist A B = infdist y A" .
eddcc7c726f3 new material;' strengthened material; moved proofs out of Function_Topology in order to lessen its dependencies paulson <lp15@cam.ac.uk> parents: 69712 diff changeset	3237	qed (fact \<open>y \<in> B\<close>)
eddcc7c726f3 new material;' strengthened material; moved proofs out of Function_Topology in order to lessen its dependencies paulson <lp15@cam.ac.uk> parents: 69712 diff changeset	3238	qed
eddcc7c726f3 new material;' strengthened material; moved proofs out of Function_Topology in order to lessen its dependencies paulson <lp15@cam.ac.uk> parents: 69712 diff changeset	3239
69544 5aa5a8d6e5b5 split off theorems involving classes below metric_space and real_normed_vector immler parents: diff changeset	3240	end

author	paulson <lp15@cam.ac.uk>
	Thu, 11 Apr 2019 22:37:49 +0100
changeset 70131	c6e1a4806f49
parent 69922	4a9167f377b0
child 70136	f03a01a18c6e
permissions	-rw-r--r--