isabelle: src/HOL/Analysis/Lebesgue_Measure.thy@4da1e18a9633 (annotated)

63627 6ddb43c6b711 rename HOL-Multivariate_Analysis to HOL-Analysis. hoelzl parents: 63626 diff changeset	1	(* Title: HOL/Analysis/Lebesgue_Measure.thy
42067 66c8281349ec standardized headers hoelzl parents: 41981 diff changeset	2	Author: Johannes Hölzl, TU München
66c8281349ec standardized headers hoelzl parents: 41981 diff changeset	3	Author: Robert Himmelmann, TU München
57447 87429bdecad5 import more stuff from the CLT proof; base the lborel measure on interval_measure; remove lebesgue measure hoelzl parents: 57275 diff changeset	4	Author: Jeremy Avigad
87429bdecad5 import more stuff from the CLT proof; base the lborel measure on interval_measure; remove lebesgue measure hoelzl parents: 57275 diff changeset	5	Author: Luke Serafin
42067 66c8281349ec standardized headers hoelzl parents: 41981 diff changeset	6	*)
66c8281349ec standardized headers hoelzl parents: 41981 diff changeset	7
69517 dc20f278e8f3 tuned style and headers nipkow parents: 69447 diff changeset	8	section \<open>Lebesgue Measure\<close>
42067 66c8281349ec standardized headers hoelzl parents: 41981 diff changeset	9
38656 d5d342611edb Rewrite the Probability theory. hoelzl parents: diff changeset	10	theory Lebesgue_Measure
69517 dc20f278e8f3 tuned style and headers nipkow parents: 69447 diff changeset	11	imports
dc20f278e8f3 tuned style and headers nipkow parents: 69447 diff changeset	12	Finite_Product_Measure
dc20f278e8f3 tuned style and headers nipkow parents: 69447 diff changeset	13	Caratheodory
dc20f278e8f3 tuned style and headers nipkow parents: 69447 diff changeset	14	Complete_Measure
dc20f278e8f3 tuned style and headers nipkow parents: 69447 diff changeset	15	Summation_Tests
dc20f278e8f3 tuned style and headers nipkow parents: 69447 diff changeset	16	Regularity
38656 d5d342611edb Rewrite the Probability theory. hoelzl parents: diff changeset	17	begin
d5d342611edb Rewrite the Probability theory. hoelzl parents: diff changeset	18
64008 17a20ca86d62 HOL-Probability: more about probability, prepare for Markov processes in the AFP hoelzl parents: 63968 diff changeset	19	lemma measure_eqI_lessThan:
17a20ca86d62 HOL-Probability: more about probability, prepare for Markov processes in the AFP hoelzl parents: 63968 diff changeset	20	fixes M N :: "real measure"
17a20ca86d62 HOL-Probability: more about probability, prepare for Markov processes in the AFP hoelzl parents: 63968 diff changeset	21	assumes sets: "sets M = sets borel" "sets N = sets borel"
17a20ca86d62 HOL-Probability: more about probability, prepare for Markov processes in the AFP hoelzl parents: 63968 diff changeset	22	assumes fin: "\<And>x. emeasure M {x <..} < \<infinity>"
17a20ca86d62 HOL-Probability: more about probability, prepare for Markov processes in the AFP hoelzl parents: 63968 diff changeset	23	assumes "\<And>x. emeasure M {x <..} = emeasure N {x <..}"
17a20ca86d62 HOL-Probability: more about probability, prepare for Markov processes in the AFP hoelzl parents: 63968 diff changeset	24	shows "M = N"
17a20ca86d62 HOL-Probability: more about probability, prepare for Markov processes in the AFP hoelzl parents: 63968 diff changeset	25	proof (rule measure_eqI_generator_eq_countable)
17a20ca86d62 HOL-Probability: more about probability, prepare for Markov processes in the AFP hoelzl parents: 63968 diff changeset	26	let ?LT = "\<lambda>a::real. {a <..}" let ?E = "range ?LT"
17a20ca86d62 HOL-Probability: more about probability, prepare for Markov processes in the AFP hoelzl parents: 63968 diff changeset	27	show "Int_stable ?E"
17a20ca86d62 HOL-Probability: more about probability, prepare for Markov processes in the AFP hoelzl parents: 63968 diff changeset	28	by (auto simp: Int_stable_def lessThan_Int_lessThan)
17a20ca86d62 HOL-Probability: more about probability, prepare for Markov processes in the AFP hoelzl parents: 63968 diff changeset	29
17a20ca86d62 HOL-Probability: more about probability, prepare for Markov processes in the AFP hoelzl parents: 63968 diff changeset	30	show "?E \<subseteq> Pow UNIV" "sets M = sigma_sets UNIV ?E" "sets N = sigma_sets UNIV ?E"
17a20ca86d62 HOL-Probability: more about probability, prepare for Markov processes in the AFP hoelzl parents: 63968 diff changeset	31	unfolding sets borel_Ioi by auto
17a20ca86d62 HOL-Probability: more about probability, prepare for Markov processes in the AFP hoelzl parents: 63968 diff changeset	32
17a20ca86d62 HOL-Probability: more about probability, prepare for Markov processes in the AFP hoelzl parents: 63968 diff changeset	33	show "?LT`Rats \<subseteq> ?E" "(\<Union>i\<in>Rats. ?LT i) = UNIV" "\<And>a. a \<in> ?LT`Rats \<Longrightarrow> emeasure M a \<noteq> \<infinity>"
17a20ca86d62 HOL-Probability: more about probability, prepare for Markov processes in the AFP hoelzl parents: 63968 diff changeset	34	using fin by (auto intro: Rats_no_bot_less simp: less_top)
17a20ca86d62 HOL-Probability: more about probability, prepare for Markov processes in the AFP hoelzl parents: 63968 diff changeset	35	qed (auto intro: assms countable_rat)
17a20ca86d62 HOL-Probability: more about probability, prepare for Markov processes in the AFP hoelzl parents: 63968 diff changeset	36
69447 b7b9cbe0bd43 Tagged some of HOL-Analysis eberlm <eberlm@in.tum.de> parents: 69260 diff changeset	37	subsection \<open>Measures defined by monotonous functions\<close>
b7b9cbe0bd43 Tagged some of HOL-Analysis eberlm <eberlm@in.tum.de> parents: 69260 diff changeset	38
b7b9cbe0bd43 Tagged some of HOL-Analysis eberlm <eberlm@in.tum.de> parents: 69260 diff changeset	39	text \<open>
b7b9cbe0bd43 Tagged some of HOL-Analysis eberlm <eberlm@in.tum.de> parents: 69260 diff changeset	40	Every right-continuous and nondecreasing function gives rise to a measure on the reals:
b7b9cbe0bd43 Tagged some of HOL-Analysis eberlm <eberlm@in.tum.de> parents: 69260 diff changeset	41	\<close>
57447 87429bdecad5 import more stuff from the CLT proof; base the lborel measure on interval_measure; remove lebesgue measure hoelzl parents: 57275 diff changeset	42
70136 f03a01a18c6e modernized tags: default scope excludes proof; wenzelm parents: 69922 diff changeset	43	definition\<^marker>\<open>tag important\<close> interval_measure :: "(real \<Rightarrow> real) \<Rightarrow> real measure" where
69447 b7b9cbe0bd43 Tagged some of HOL-Analysis eberlm <eberlm@in.tum.de> parents: 69260 diff changeset	44	"interval_measure F =
b7b9cbe0bd43 Tagged some of HOL-Analysis eberlm <eberlm@in.tum.de> parents: 69260 diff changeset	45	extend_measure UNIV {(a, b). a \<le> b} (\<lambda>(a, b). {a<..b}) (\<lambda>(a, b). ennreal (F b - F a))"
49777 6ac97ab9b295 tuned Lebesgue measure proofs hoelzl parents: 47757 diff changeset	46
70136 f03a01a18c6e modernized tags: default scope excludes proof; wenzelm parents: 69922 diff changeset	47	lemma\<^marker>\<open>tag important\<close> emeasure_interval_measure_Ioc:
57447 87429bdecad5 import more stuff from the CLT proof; base the lborel measure on interval_measure; remove lebesgue measure hoelzl parents: 57275 diff changeset	48	assumes "a \<le> b"
87429bdecad5 import more stuff from the CLT proof; base the lborel measure on interval_measure; remove lebesgue measure hoelzl parents: 57275 diff changeset	49	assumes mono_F: "\<And>x y. x \<le> y \<Longrightarrow> F x \<le> F y"
60615 e5fa1d5d3952 Useful lemmas. The theorem concerning swapping the variables in a double integral. paulson <lp15@cam.ac.uk> parents: 59741 diff changeset	50	assumes right_cont_F : "\<And>a. continuous (at_right a) F"
69447 b7b9cbe0bd43 Tagged some of HOL-Analysis eberlm <eberlm@in.tum.de> parents: 69260 diff changeset	51	shows "emeasure (interval_measure F) {a<..b} = F b - F a"
70136 f03a01a18c6e modernized tags: default scope excludes proof; wenzelm parents: 69922 diff changeset	52	proof (rule extend_measure_caratheodory_pair[OF interval_measure_def \<open>a \<le> b\<close>])
57447 87429bdecad5 import more stuff from the CLT proof; base the lborel measure on interval_measure; remove lebesgue measure hoelzl parents: 57275 diff changeset	53	show "semiring_of_sets UNIV {{a<..b} \|a b :: real. a \<le> b}"
87429bdecad5 import more stuff from the CLT proof; base the lborel measure on interval_measure; remove lebesgue measure hoelzl parents: 57275 diff changeset	54	proof (unfold_locales, safe)
87429bdecad5 import more stuff from the CLT proof; base the lborel measure on interval_measure; remove lebesgue measure hoelzl parents: 57275 diff changeset	55	fix a b c d :: real assume *: "a \<le> b" "c \<le> d"
87429bdecad5 import more stuff from the CLT proof; base the lborel measure on interval_measure; remove lebesgue measure hoelzl parents: 57275 diff changeset	56	then show "\<exists>C\<subseteq>{{a<..b} \|a b. a \<le> b}. finite C \<and> disjoint C \<and> {a<..b} - {c<..d} = \<Union>C"
87429bdecad5 import more stuff from the CLT proof; base the lborel measure on interval_measure; remove lebesgue measure hoelzl parents: 57275 diff changeset	57	proof cases
87429bdecad5 import more stuff from the CLT proof; base the lborel measure on interval_measure; remove lebesgue measure hoelzl parents: 57275 diff changeset	58	let ?C = "{{a<..b}}"
87429bdecad5 import more stuff from the CLT proof; base the lborel measure on interval_measure; remove lebesgue measure hoelzl parents: 57275 diff changeset	59	assume "b < c \<or> d \<le> a \<or> d \<le> c"
87429bdecad5 import more stuff from the CLT proof; base the lborel measure on interval_measure; remove lebesgue measure hoelzl parents: 57275 diff changeset	60	with * have "?C \<subseteq> {{a<..b} \|a b. a \<le> b} \<and> finite ?C \<and> disjoint ?C \<and> {a<..b} - {c<..d} = \<Union>?C"
87429bdecad5 import more stuff from the CLT proof; base the lborel measure on interval_measure; remove lebesgue measure hoelzl parents: 57275 diff changeset	61	by (auto simp add: disjoint_def)
87429bdecad5 import more stuff from the CLT proof; base the lborel measure on interval_measure; remove lebesgue measure hoelzl parents: 57275 diff changeset	62	thus ?thesis ..
87429bdecad5 import more stuff from the CLT proof; base the lborel measure on interval_measure; remove lebesgue measure hoelzl parents: 57275 diff changeset	63	next
87429bdecad5 import more stuff from the CLT proof; base the lborel measure on interval_measure; remove lebesgue measure hoelzl parents: 57275 diff changeset	64	let ?C = "{{a<..c}, {d<..b}}"
87429bdecad5 import more stuff from the CLT proof; base the lborel measure on interval_measure; remove lebesgue measure hoelzl parents: 57275 diff changeset	65	assume "\<not> (b < c \<or> d \<le> a \<or> d \<le> c)"
87429bdecad5 import more stuff from the CLT proof; base the lborel measure on interval_measure; remove lebesgue measure hoelzl parents: 57275 diff changeset	66	with * have "?C \<subseteq> {{a<..b} \|a b. a \<le> b} \<and> finite ?C \<and> disjoint ?C \<and> {a<..b} - {c<..d} = \<Union>?C"
87429bdecad5 import more stuff from the CLT proof; base the lborel measure on interval_measure; remove lebesgue measure hoelzl parents: 57275 diff changeset	67	by (auto simp add: disjoint_def Ioc_inj) (metis linear)+
87429bdecad5 import more stuff from the CLT proof; base the lborel measure on interval_measure; remove lebesgue measure hoelzl parents: 57275 diff changeset	68	thus ?thesis ..
87429bdecad5 import more stuff from the CLT proof; base the lborel measure on interval_measure; remove lebesgue measure hoelzl parents: 57275 diff changeset	69	qed
87429bdecad5 import more stuff from the CLT proof; base the lborel measure on interval_measure; remove lebesgue measure hoelzl parents: 57275 diff changeset	70	qed (auto simp: Ioc_inj, metis linear)
87429bdecad5 import more stuff from the CLT proof; base the lborel measure on interval_measure; remove lebesgue measure hoelzl parents: 57275 diff changeset	71	next
87429bdecad5 import more stuff from the CLT proof; base the lborel measure on interval_measure; remove lebesgue measure hoelzl parents: 57275 diff changeset	72	fix l r :: "nat \<Rightarrow> real" and a b :: real
60615 e5fa1d5d3952 Useful lemmas. The theorem concerning swapping the variables in a double integral. paulson <lp15@cam.ac.uk> parents: 59741 diff changeset	73	assume l_r[simp]: "\<And>n. l n \<le> r n" and "a \<le> b" and disj: "disjoint_family (\<lambda>n. {l n<..r n})"
57447 87429bdecad5 import more stuff from the CLT proof; base the lborel measure on interval_measure; remove lebesgue measure hoelzl parents: 57275 diff changeset	74	assume lr_eq_ab: "(\<Union>i. {l i<..r i}) = {a<..b}"
87429bdecad5 import more stuff from the CLT proof; base the lborel measure on interval_measure; remove lebesgue measure hoelzl parents: 57275 diff changeset	75
61762 d50b993b4fb9 Removal of redundant lemmas (diff_less_iff, diff_le_iff) and of the abbreviation Exp. Addition of some new material. paulson <lp15@cam.ac.uk> parents: 61610 diff changeset	76	have [intro, simp]: "\<And>a b. a \<le> b \<Longrightarrow> F a \<le> F b"
d50b993b4fb9 Removal of redundant lemmas (diff_less_iff, diff_le_iff) and of the abbreviation Exp. Addition of some new material. paulson <lp15@cam.ac.uk> parents: 61610 diff changeset	77	by (auto intro!: l_r mono_F)
57447 87429bdecad5 import more stuff from the CLT proof; base the lborel measure on interval_measure; remove lebesgue measure hoelzl parents: 57275 diff changeset	78
87429bdecad5 import more stuff from the CLT proof; base the lborel measure on interval_measure; remove lebesgue measure hoelzl parents: 57275 diff changeset	79	{ fix S :: "nat set" assume "finite S"
61808 fc1556774cfe isabelle update_cartouches -c -t; wenzelm parents: 61762 diff changeset	80	moreover note \<open>a \<le> b\<close>
57447 87429bdecad5 import more stuff from the CLT proof; base the lborel measure on interval_measure; remove lebesgue measure hoelzl parents: 57275 diff changeset	81	moreover have "\<And>i. i \<in> S \<Longrightarrow> {l i <.. r i} \<subseteq> {a <.. b}"
87429bdecad5 import more stuff from the CLT proof; base the lborel measure on interval_measure; remove lebesgue measure hoelzl parents: 57275 diff changeset	82	unfolding lr_eq_ab[symmetric] by auto
87429bdecad5 import more stuff from the CLT proof; base the lborel measure on interval_measure; remove lebesgue measure hoelzl parents: 57275 diff changeset	83	ultimately have "(\<Sum>i\<in>S. F (r i) - F (l i)) \<le> F b - F a"
87429bdecad5 import more stuff from the CLT proof; base the lborel measure on interval_measure; remove lebesgue measure hoelzl parents: 57275 diff changeset	84	proof (induction S arbitrary: a rule: finite_psubset_induct)
87429bdecad5 import more stuff from the CLT proof; base the lborel measure on interval_measure; remove lebesgue measure hoelzl parents: 57275 diff changeset	85	case (psubset S)
87429bdecad5 import more stuff from the CLT proof; base the lborel measure on interval_measure; remove lebesgue measure hoelzl parents: 57275 diff changeset	86	show ?case
87429bdecad5 import more stuff from the CLT proof; base the lborel measure on interval_measure; remove lebesgue measure hoelzl parents: 57275 diff changeset	87	proof cases
87429bdecad5 import more stuff from the CLT proof; base the lborel measure on interval_measure; remove lebesgue measure hoelzl parents: 57275 diff changeset	88	assume "\<exists>i\<in>S. l i < r i"
61808 fc1556774cfe isabelle update_cartouches -c -t; wenzelm parents: 61762 diff changeset	89	with \<open>finite S\<close> have "Min (l ` {i\<in>S. l i < r i}) \<in> l ` {i\<in>S. l i < r i}"
57447 87429bdecad5 import more stuff from the CLT proof; base the lborel measure on interval_measure; remove lebesgue measure hoelzl parents: 57275 diff changeset	90	by (intro Min_in) auto
87429bdecad5 import more stuff from the CLT proof; base the lborel measure on interval_measure; remove lebesgue measure hoelzl parents: 57275 diff changeset	91	then obtain m where m: "m \<in> S" "l m < r m" "l m = Min (l ` {i\<in>S. l i < r i})"
87429bdecad5 import more stuff from the CLT proof; base the lborel measure on interval_measure; remove lebesgue measure hoelzl parents: 57275 diff changeset	92	by fastforce
50104 de19856feb54 move theorems to be more generally useable hoelzl parents: 50003 diff changeset	93
57447 87429bdecad5 import more stuff from the CLT proof; base the lborel measure on interval_measure; remove lebesgue measure hoelzl parents: 57275 diff changeset	94	have "(\<Sum>i\<in>S. F (r i) - F (l i)) = (F (r m) - F (l m)) + (\<Sum>i\<in>S - {m}. F (r i) - F (l i))"
64267 b9a1486e79be setsum -> sum nipkow parents: 64008 diff changeset	95	using m psubset by (intro sum.remove) auto
57447 87429bdecad5 import more stuff from the CLT proof; base the lborel measure on interval_measure; remove lebesgue measure hoelzl parents: 57275 diff changeset	96	also have "(\<Sum>i\<in>S - {m}. F (r i) - F (l i)) \<le> F b - F (r m)"
87429bdecad5 import more stuff from the CLT proof; base the lborel measure on interval_measure; remove lebesgue measure hoelzl parents: 57275 diff changeset	97	proof (intro psubset.IH)
87429bdecad5 import more stuff from the CLT proof; base the lborel measure on interval_measure; remove lebesgue measure hoelzl parents: 57275 diff changeset	98	show "S - {m} \<subset> S"
61808 fc1556774cfe isabelle update_cartouches -c -t; wenzelm parents: 61762 diff changeset	99	using \<open>m\<in>S\<close> by auto
57447 87429bdecad5 import more stuff from the CLT proof; base the lborel measure on interval_measure; remove lebesgue measure hoelzl parents: 57275 diff changeset	100	show "r m \<le> b"
61808 fc1556774cfe isabelle update_cartouches -c -t; wenzelm parents: 61762 diff changeset	101	using psubset.prems(2)[OF \<open>m\<in>S\<close>] \<open>l m < r m\<close> by auto
57447 87429bdecad5 import more stuff from the CLT proof; base the lborel measure on interval_measure; remove lebesgue measure hoelzl parents: 57275 diff changeset	102	next
87429bdecad5 import more stuff from the CLT proof; base the lborel measure on interval_measure; remove lebesgue measure hoelzl parents: 57275 diff changeset	103	fix i assume "i \<in> S - {m}"
87429bdecad5 import more stuff from the CLT proof; base the lborel measure on interval_measure; remove lebesgue measure hoelzl parents: 57275 diff changeset	104	then have i: "i \<in> S" "i \<noteq> m" by auto
87429bdecad5 import more stuff from the CLT proof; base the lborel measure on interval_measure; remove lebesgue measure hoelzl parents: 57275 diff changeset	105	{ assume i': "l i < r i" "l i < r m"
63540 f8652d0534fa tuned proofs -- avoid unstructured calculation; wenzelm parents: 63262 diff changeset	106	with \<open>finite S\<close> i m have "l m \<le> l i"
57447 87429bdecad5 import more stuff from the CLT proof; base the lborel measure on interval_measure; remove lebesgue measure hoelzl parents: 57275 diff changeset	107	by auto
63540 f8652d0534fa tuned proofs -- avoid unstructured calculation; wenzelm parents: 63262 diff changeset	108	with i' have "{l i <.. r i} \<inter> {l m <.. r m} \<noteq> {}"
57447 87429bdecad5 import more stuff from the CLT proof; base the lborel measure on interval_measure; remove lebesgue measure hoelzl parents: 57275 diff changeset	109	by auto
87429bdecad5 import more stuff from the CLT proof; base the lborel measure on interval_measure; remove lebesgue measure hoelzl parents: 57275 diff changeset	110	then have False
87429bdecad5 import more stuff from the CLT proof; base the lborel measure on interval_measure; remove lebesgue measure hoelzl parents: 57275 diff changeset	111	using disjoint_family_onD[OF disj, of i m] i by auto }
87429bdecad5 import more stuff from the CLT proof; base the lborel measure on interval_measure; remove lebesgue measure hoelzl parents: 57275 diff changeset	112	then have "l i \<noteq> r i \<Longrightarrow> r m \<le> l i"
87429bdecad5 import more stuff from the CLT proof; base the lborel measure on interval_measure; remove lebesgue measure hoelzl parents: 57275 diff changeset	113	unfolding not_less[symmetric] using l_r[of i] by auto
87429bdecad5 import more stuff from the CLT proof; base the lborel measure on interval_measure; remove lebesgue measure hoelzl parents: 57275 diff changeset	114	then show "{l i <.. r i} \<subseteq> {r m <.. b}"
61808 fc1556774cfe isabelle update_cartouches -c -t; wenzelm parents: 61762 diff changeset	115	using psubset.prems(2)[OF \<open>i\<in>S\<close>] by auto
57447 87429bdecad5 import more stuff from the CLT proof; base the lborel measure on interval_measure; remove lebesgue measure hoelzl parents: 57275 diff changeset	116	qed
87429bdecad5 import more stuff from the CLT proof; base the lborel measure on interval_measure; remove lebesgue measure hoelzl parents: 57275 diff changeset	117	also have "F (r m) - F (l m) \<le> F (r m) - F a"
61808 fc1556774cfe isabelle update_cartouches -c -t; wenzelm parents: 61762 diff changeset	118	using psubset.prems(2)[OF \<open>m \<in> S\<close>] \<open>l m < r m\<close>
57447 87429bdecad5 import more stuff from the CLT proof; base the lborel measure on interval_measure; remove lebesgue measure hoelzl parents: 57275 diff changeset	119	by (auto simp add: Ioc_subset_iff intro!: mono_F)
87429bdecad5 import more stuff from the CLT proof; base the lborel measure on interval_measure; remove lebesgue measure hoelzl parents: 57275 diff changeset	120	finally show ?case
87429bdecad5 import more stuff from the CLT proof; base the lborel measure on interval_measure; remove lebesgue measure hoelzl parents: 57275 diff changeset	121	by (auto intro: add_mono)
61808 fc1556774cfe isabelle update_cartouches -c -t; wenzelm parents: 61762 diff changeset	122	qed (auto simp add: \<open>a \<le> b\<close> less_le)
57447 87429bdecad5 import more stuff from the CLT proof; base the lborel measure on interval_measure; remove lebesgue measure hoelzl parents: 57275 diff changeset	123	qed }
87429bdecad5 import more stuff from the CLT proof; base the lborel measure on interval_measure; remove lebesgue measure hoelzl parents: 57275 diff changeset	124	note claim1 = this
87429bdecad5 import more stuff from the CLT proof; base the lborel measure on interval_measure; remove lebesgue measure hoelzl parents: 57275 diff changeset	125
87429bdecad5 import more stuff from the CLT proof; base the lborel measure on interval_measure; remove lebesgue measure hoelzl parents: 57275 diff changeset	126	(* second key induction: a lower bound on the measures of any finite collection of Ai's
87429bdecad5 import more stuff from the CLT proof; base the lborel measure on interval_measure; remove lebesgue measure hoelzl parents: 57275 diff changeset	127	that cover an interval {u..v} *)
87429bdecad5 import more stuff from the CLT proof; base the lborel measure on interval_measure; remove lebesgue measure hoelzl parents: 57275 diff changeset	128
87429bdecad5 import more stuff from the CLT proof; base the lborel measure on interval_measure; remove lebesgue measure hoelzl parents: 57275 diff changeset	129	{ fix S u v and l r :: "nat \<Rightarrow> real"
87429bdecad5 import more stuff from the CLT proof; base the lborel measure on interval_measure; remove lebesgue measure hoelzl parents: 57275 diff changeset	130	assume "finite S" "\<And>i. i\<in>S \<Longrightarrow> l i < r i" "{u..v} \<subseteq> (\<Union>i\<in>S. {l i<..< r i})"
87429bdecad5 import more stuff from the CLT proof; base the lborel measure on interval_measure; remove lebesgue measure hoelzl parents: 57275 diff changeset	131	then have "F v - F u \<le> (\<Sum>i\<in>S. F (r i) - F (l i))"
87429bdecad5 import more stuff from the CLT proof; base the lborel measure on interval_measure; remove lebesgue measure hoelzl parents: 57275 diff changeset	132	proof (induction arbitrary: v u rule: finite_psubset_induct)
87429bdecad5 import more stuff from the CLT proof; base the lborel measure on interval_measure; remove lebesgue measure hoelzl parents: 57275 diff changeset	133	case (psubset S)
87429bdecad5 import more stuff from the CLT proof; base the lborel measure on interval_measure; remove lebesgue measure hoelzl parents: 57275 diff changeset	134	show ?case
87429bdecad5 import more stuff from the CLT proof; base the lborel measure on interval_measure; remove lebesgue measure hoelzl parents: 57275 diff changeset	135	proof cases
87429bdecad5 import more stuff from the CLT proof; base the lborel measure on interval_measure; remove lebesgue measure hoelzl parents: 57275 diff changeset	136	assume "S = {}" then show ?case
87429bdecad5 import more stuff from the CLT proof; base the lborel measure on interval_measure; remove lebesgue measure hoelzl parents: 57275 diff changeset	137	using psubset by (simp add: mono_F)
87429bdecad5 import more stuff from the CLT proof; base the lborel measure on interval_measure; remove lebesgue measure hoelzl parents: 57275 diff changeset	138	next
87429bdecad5 import more stuff from the CLT proof; base the lborel measure on interval_measure; remove lebesgue measure hoelzl parents: 57275 diff changeset	139	assume "S \<noteq> {}"
87429bdecad5 import more stuff from the CLT proof; base the lborel measure on interval_measure; remove lebesgue measure hoelzl parents: 57275 diff changeset	140	then obtain j where "j \<in> S"
87429bdecad5 import more stuff from the CLT proof; base the lborel measure on interval_measure; remove lebesgue measure hoelzl parents: 57275 diff changeset	141	by auto
47694 05663f75964c reworked Probability theory hoelzl parents: 46905 diff changeset	142
57447 87429bdecad5 import more stuff from the CLT proof; base the lborel measure on interval_measure; remove lebesgue measure hoelzl parents: 57275 diff changeset	143	let ?R = "r j < u \<or> l j > v \<or> (\<exists>i\<in>S-{j}. l i \<le> l j \<and> r j \<le> r i)"
87429bdecad5 import more stuff from the CLT proof; base the lborel measure on interval_measure; remove lebesgue measure hoelzl parents: 57275 diff changeset	144	show ?case
87429bdecad5 import more stuff from the CLT proof; base the lborel measure on interval_measure; remove lebesgue measure hoelzl parents: 57275 diff changeset	145	proof cases
87429bdecad5 import more stuff from the CLT proof; base the lborel measure on interval_measure; remove lebesgue measure hoelzl parents: 57275 diff changeset	146	assume "?R"
61808 fc1556774cfe isabelle update_cartouches -c -t; wenzelm parents: 61762 diff changeset	147	with \<open>j \<in> S\<close> psubset.prems have "{u..v} \<subseteq> (\<Union>i\<in>S-{j}. {l i<..< r i})"
76786 50672d2d78db tidied some messy old proofs paulson <lp15@cam.ac.uk> parents: 75078 diff changeset	148	apply (simp add: subset_eq Ball_def Bex_def)
50672d2d78db tidied some messy old proofs paulson <lp15@cam.ac.uk> parents: 75078 diff changeset	149	by (metis order_le_less_trans order_less_le_trans order_less_not_sym)
61808 fc1556774cfe isabelle update_cartouches -c -t; wenzelm parents: 61762 diff changeset	150	with \<open>j \<in> S\<close> have "F v - F u \<le> (\<Sum>i\<in>S - {j}. F (r i) - F (l i))"
57447 87429bdecad5 import more stuff from the CLT proof; base the lborel measure on interval_measure; remove lebesgue measure hoelzl parents: 57275 diff changeset	151	by (intro psubset) auto
87429bdecad5 import more stuff from the CLT proof; base the lborel measure on interval_measure; remove lebesgue measure hoelzl parents: 57275 diff changeset	152	also have "\<dots> \<le> (\<Sum>i\<in>S. F (r i) - F (l i))"
87429bdecad5 import more stuff from the CLT proof; base the lborel measure on interval_measure; remove lebesgue measure hoelzl parents: 57275 diff changeset	153	using psubset.prems
64267 b9a1486e79be setsum -> sum nipkow parents: 64008 diff changeset	154	by (intro sum_mono2 psubset) (auto intro: less_imp_le)
57447 87429bdecad5 import more stuff from the CLT proof; base the lborel measure on interval_measure; remove lebesgue measure hoelzl parents: 57275 diff changeset	155	finally show ?thesis .
87429bdecad5 import more stuff from the CLT proof; base the lborel measure on interval_measure; remove lebesgue measure hoelzl parents: 57275 diff changeset	156	next
87429bdecad5 import more stuff from the CLT proof; base the lborel measure on interval_measure; remove lebesgue measure hoelzl parents: 57275 diff changeset	157	assume "\<not> ?R"
87429bdecad5 import more stuff from the CLT proof; base the lborel measure on interval_measure; remove lebesgue measure hoelzl parents: 57275 diff changeset	158	then have j: "u \<le> r j" "l j \<le> v" "\<And>i. i \<in> S - {j} \<Longrightarrow> r i < r j \<or> l i > l j"
87429bdecad5 import more stuff from the CLT proof; base the lborel measure on interval_measure; remove lebesgue measure hoelzl parents: 57275 diff changeset	159	by (auto simp: not_less)
87429bdecad5 import more stuff from the CLT proof; base the lborel measure on interval_measure; remove lebesgue measure hoelzl parents: 57275 diff changeset	160	let ?S1 = "{i \<in> S. l i < l j}"
87429bdecad5 import more stuff from the CLT proof; base the lborel measure on interval_measure; remove lebesgue measure hoelzl parents: 57275 diff changeset	161	let ?S2 = "{i \<in> S. r i > r j}"
76786 50672d2d78db tidied some messy old proofs paulson <lp15@cam.ac.uk> parents: 75078 diff changeset	162	have *: "?S1 \<inter> ?S2 = {}"
50672d2d78db tidied some messy old proofs paulson <lp15@cam.ac.uk> parents: 75078 diff changeset	163	using j by (fastforce simp add: disjoint_iff)
57447 87429bdecad5 import more stuff from the CLT proof; base the lborel measure on interval_measure; remove lebesgue measure hoelzl parents: 57275 diff changeset	164	have "(\<Sum>i\<in>S. F (r i) - F (l i)) \<ge> (\<Sum>i\<in>?S1 \<union> ?S2 \<union> {j}. F (r i) - F (l i))"
61808 fc1556774cfe isabelle update_cartouches -c -t; wenzelm parents: 61762 diff changeset	165	using \<open>j \<in> S\<close> \<open>finite S\<close> psubset.prems j
64267 b9a1486e79be setsum -> sum nipkow parents: 64008 diff changeset	166	by (intro sum_mono2) (auto intro: less_imp_le)
57447 87429bdecad5 import more stuff from the CLT proof; base the lborel measure on interval_measure; remove lebesgue measure hoelzl parents: 57275 diff changeset	167	also have "(\<Sum>i\<in>?S1 \<union> ?S2 \<union> {j}. F (r i) - F (l i)) =
87429bdecad5 import more stuff from the CLT proof; base the lborel measure on interval_measure; remove lebesgue measure hoelzl parents: 57275 diff changeset	168	(\<Sum>i\<in>?S1. F (r i) - F (l i)) + (\<Sum>i\<in>?S2 . F (r i) - F (l i)) + (F (r j) - F (l j))"
76786 50672d2d78db tidied some messy old proofs paulson <lp15@cam.ac.uk> parents: 75078 diff changeset	169	using psubset(1) by (simp add: * sum.union_disjoint disjoint_iff_not_equal)
57447 87429bdecad5 import more stuff from the CLT proof; base the lborel measure on interval_measure; remove lebesgue measure hoelzl parents: 57275 diff changeset	170	also (xtrans) have "(\<Sum>i\<in>?S1. F (r i) - F (l i)) \<ge> F (l j) - F u"
61808 fc1556774cfe isabelle update_cartouches -c -t; wenzelm parents: 61762 diff changeset	171	using \<open>j \<in> S\<close> \<open>finite S\<close> psubset.prems j
57447 87429bdecad5 import more stuff from the CLT proof; base the lborel measure on interval_measure; remove lebesgue measure hoelzl parents: 57275 diff changeset	172	apply (intro psubset.IH psubset)
87429bdecad5 import more stuff from the CLT proof; base the lborel measure on interval_measure; remove lebesgue measure hoelzl parents: 57275 diff changeset	173	apply (auto simp: subset_eq Ball_def)
87429bdecad5 import more stuff from the CLT proof; base the lborel measure on interval_measure; remove lebesgue measure hoelzl parents: 57275 diff changeset	174	apply (metis less_le_trans not_le)
87429bdecad5 import more stuff from the CLT proof; base the lborel measure on interval_measure; remove lebesgue measure hoelzl parents: 57275 diff changeset	175	done
87429bdecad5 import more stuff from the CLT proof; base the lborel measure on interval_measure; remove lebesgue measure hoelzl parents: 57275 diff changeset	176	also (xtrans) have "(\<Sum>i\<in>?S2. F (r i) - F (l i)) \<ge> F v - F (r j)"
61808 fc1556774cfe isabelle update_cartouches -c -t; wenzelm parents: 61762 diff changeset	177	using \<open>j \<in> S\<close> \<open>finite S\<close> psubset.prems j
57447 87429bdecad5 import more stuff from the CLT proof; base the lborel measure on interval_measure; remove lebesgue measure hoelzl parents: 57275 diff changeset	178	apply (intro psubset.IH psubset)
87429bdecad5 import more stuff from the CLT proof; base the lborel measure on interval_measure; remove lebesgue measure hoelzl parents: 57275 diff changeset	179	apply (auto simp: subset_eq Ball_def)
87429bdecad5 import more stuff from the CLT proof; base the lborel measure on interval_measure; remove lebesgue measure hoelzl parents: 57275 diff changeset	180	apply (metis le_less_trans not_le)
87429bdecad5 import more stuff from the CLT proof; base the lborel measure on interval_measure; remove lebesgue measure hoelzl parents: 57275 diff changeset	181	done
87429bdecad5 import more stuff from the CLT proof; base the lborel measure on interval_measure; remove lebesgue measure hoelzl parents: 57275 diff changeset	182	finally (xtrans) show ?case
87429bdecad5 import more stuff from the CLT proof; base the lborel measure on interval_measure; remove lebesgue measure hoelzl parents: 57275 diff changeset	183	by (auto simp: add_mono)
87429bdecad5 import more stuff from the CLT proof; base the lborel measure on interval_measure; remove lebesgue measure hoelzl parents: 57275 diff changeset	184	qed
87429bdecad5 import more stuff from the CLT proof; base the lborel measure on interval_measure; remove lebesgue measure hoelzl parents: 57275 diff changeset	185	qed
87429bdecad5 import more stuff from the CLT proof; base the lborel measure on interval_measure; remove lebesgue measure hoelzl parents: 57275 diff changeset	186	qed }
87429bdecad5 import more stuff from the CLT proof; base the lborel measure on interval_measure; remove lebesgue measure hoelzl parents: 57275 diff changeset	187	note claim2 = this
49777 6ac97ab9b295 tuned Lebesgue measure proofs hoelzl parents: 47757 diff changeset	188
57447 87429bdecad5 import more stuff from the CLT proof; base the lborel measure on interval_measure; remove lebesgue measure hoelzl parents: 57275 diff changeset	189	(* now prove the inequality going the other way *)
62975 1d066f6ab25d Probability: move emeasure and nn_integral from ereal to ennreal hoelzl parents: 62390 diff changeset	190	have "ennreal (F b - F a) \<le> (\<Sum>i. ennreal (F (r i) - F (l i)))"
1d066f6ab25d Probability: move emeasure and nn_integral from ereal to ennreal hoelzl parents: 62390 diff changeset	191	proof (rule ennreal_le_epsilon)
1d066f6ab25d Probability: move emeasure and nn_integral from ereal to ennreal hoelzl parents: 62390 diff changeset	192	fix epsilon :: real assume egt0: "epsilon > 0"
1d066f6ab25d Probability: move emeasure and nn_integral from ereal to ennreal hoelzl parents: 62390 diff changeset	193	have "\<forall>i. \<exists>d>0. F (r i + d) < F (r i) + epsilon / 2^(i+2)"
60615 e5fa1d5d3952 Useful lemmas. The theorem concerning swapping the variables in a double integral. paulson <lp15@cam.ac.uk> parents: 59741 diff changeset	194	proof
57447 87429bdecad5 import more stuff from the CLT proof; base the lborel measure on interval_measure; remove lebesgue measure hoelzl parents: 57275 diff changeset	195	fix i
87429bdecad5 import more stuff from the CLT proof; base the lborel measure on interval_measure; remove lebesgue measure hoelzl parents: 57275 diff changeset	196	note right_cont_F [of "r i"]
76786 50672d2d78db tidied some messy old proofs paulson <lp15@cam.ac.uk> parents: 75078 diff changeset	197	then have "\<exists>d>0. F (r i + d) - F (r i) < epsilon / 2 ^ (i + 2)"
50672d2d78db tidied some messy old proofs paulson <lp15@cam.ac.uk> parents: 75078 diff changeset	198	by (simp add: continuous_at_right_real_increasing egt0)
62975 1d066f6ab25d Probability: move emeasure and nn_integral from ereal to ennreal hoelzl parents: 62390 diff changeset	199	thus "\<exists>d>0. F (r i + d) < F (r i) + epsilon / 2^(i+2)"
76786 50672d2d78db tidied some messy old proofs paulson <lp15@cam.ac.uk> parents: 75078 diff changeset	200	by force
57447 87429bdecad5 import more stuff from the CLT proof; base the lborel measure on interval_measure; remove lebesgue measure hoelzl parents: 57275 diff changeset	201	qed
60615 e5fa1d5d3952 Useful lemmas. The theorem concerning swapping the variables in a double integral. paulson <lp15@cam.ac.uk> parents: 59741 diff changeset	202	then obtain delta where
57447 87429bdecad5 import more stuff from the CLT proof; base the lborel measure on interval_measure; remove lebesgue measure hoelzl parents: 57275 diff changeset	203	deltai_gt0: "\<And>i. delta i > 0" and
87429bdecad5 import more stuff from the CLT proof; base the lborel measure on interval_measure; remove lebesgue measure hoelzl parents: 57275 diff changeset	204	deltai_prop: "\<And>i. F (r i + delta i) < F (r i) + epsilon / 2^(i+2)"
87429bdecad5 import more stuff from the CLT proof; base the lborel measure on interval_measure; remove lebesgue measure hoelzl parents: 57275 diff changeset	205	by metis
87429bdecad5 import more stuff from the CLT proof; base the lborel measure on interval_measure; remove lebesgue measure hoelzl parents: 57275 diff changeset	206	have "\<exists>a' > a. F a' - F a < epsilon / 2"
76786 50672d2d78db tidied some messy old proofs paulson <lp15@cam.ac.uk> parents: 75078 diff changeset	207	using right_cont_F [of a]
50672d2d78db tidied some messy old proofs paulson <lp15@cam.ac.uk> parents: 75078 diff changeset	208	by (metis continuous_at_right_real_increasing egt0 half_gt_zero less_add_same_cancel1 mono_F)
60615 e5fa1d5d3952 Useful lemmas. The theorem concerning swapping the variables in a double integral. paulson <lp15@cam.ac.uk> parents: 59741 diff changeset	209	then obtain a' where a'lea [arith]: "a' > a" and
57447 87429bdecad5 import more stuff from the CLT proof; base the lborel measure on interval_measure; remove lebesgue measure hoelzl parents: 57275 diff changeset	210	a_prop: "F a' - F a < epsilon / 2"
87429bdecad5 import more stuff from the CLT proof; base the lborel measure on interval_measure; remove lebesgue measure hoelzl parents: 57275 diff changeset	211	by auto
63040 eb4ddd18d635 eliminated old 'def'; wenzelm parents: 62975 diff changeset	212	define S' where "S' = {i. l i < r i}"
76786 50672d2d78db tidied some messy old proofs paulson <lp15@cam.ac.uk> parents: 75078 diff changeset	213	obtain S :: "nat set" where "S \<subseteq> S'" and finS: "finite S"
50672d2d78db tidied some messy old proofs paulson <lp15@cam.ac.uk> parents: 75078 diff changeset	214	and Sprop: "{a'..b} \<subseteq> (\<Union>i \<in> S. {l i<..<r i + delta i})"
57447 87429bdecad5 import more stuff from the CLT proof; base the lborel measure on interval_measure; remove lebesgue measure hoelzl parents: 57275 diff changeset	215	proof (rule compactE_image)
87429bdecad5 import more stuff from the CLT proof; base the lborel measure on interval_measure; remove lebesgue measure hoelzl parents: 57275 diff changeset	216	show "compact {a'..b}"
87429bdecad5 import more stuff from the CLT proof; base the lborel measure on interval_measure; remove lebesgue measure hoelzl parents: 57275 diff changeset	217	by (rule compact_Icc)
65585 a043de9ad41e Some fixes related to compactE_image paulson <lp15@cam.ac.uk> parents: 65204 diff changeset	218	show "\<And>i. i \<in> S' \<Longrightarrow> open ({l i<..<r i + delta i})" by auto
57447 87429bdecad5 import more stuff from the CLT proof; base the lborel measure on interval_measure; remove lebesgue measure hoelzl parents: 57275 diff changeset	219	have "{a'..b} \<subseteq> {a <.. b}"
87429bdecad5 import more stuff from the CLT proof; base the lborel measure on interval_measure; remove lebesgue measure hoelzl parents: 57275 diff changeset	220	by auto
87429bdecad5 import more stuff from the CLT proof; base the lborel measure on interval_measure; remove lebesgue measure hoelzl parents: 57275 diff changeset	221	also have "{a <.. b} = (\<Union>i\<in>S'. {l i<..r i})"
87429bdecad5 import more stuff from the CLT proof; base the lborel measure on interval_measure; remove lebesgue measure hoelzl parents: 57275 diff changeset	222	unfolding lr_eq_ab[symmetric] by (fastforce simp add: S'_def intro: less_le_trans)
87429bdecad5 import more stuff from the CLT proof; base the lborel measure on interval_measure; remove lebesgue measure hoelzl parents: 57275 diff changeset	223	also have "\<dots> \<subseteq> (\<Union>i \<in> S'. {l i<..<r i + delta i})"
76786 50672d2d78db tidied some messy old proofs paulson <lp15@cam.ac.uk> parents: 75078 diff changeset	224	by (intro UN_mono; simp add: add.commute add_strict_increasing deltai_gt0 subset_iff)
57447 87429bdecad5 import more stuff from the CLT proof; base the lborel measure on interval_measure; remove lebesgue measure hoelzl parents: 57275 diff changeset	225	finally show "{a'..b} \<subseteq> (\<Union>i \<in> S'. {l i<..<r i + delta i})" .
87429bdecad5 import more stuff from the CLT proof; base the lborel measure on interval_measure; remove lebesgue measure hoelzl parents: 57275 diff changeset	226	qed
87429bdecad5 import more stuff from the CLT proof; base the lborel measure on interval_measure; remove lebesgue measure hoelzl parents: 57275 diff changeset	227	with S'_def have Sprop2: "\<And>i. i \<in> S \<Longrightarrow> l i < r i" by auto
76786 50672d2d78db tidied some messy old proofs paulson <lp15@cam.ac.uk> parents: 75078 diff changeset	228	obtain n where Sbound: "\<And>i. i \<in> S \<Longrightarrow> i \<le> n"
50672d2d78db tidied some messy old proofs paulson <lp15@cam.ac.uk> parents: 75078 diff changeset	229	using Max_ge finS by blast
57447 87429bdecad5 import more stuff from the CLT proof; base the lborel measure on interval_measure; remove lebesgue measure hoelzl parents: 57275 diff changeset	230	have "F b - F a = (F b - F a') + (F a' - F a)"
87429bdecad5 import more stuff from the CLT proof; base the lborel measure on interval_measure; remove lebesgue measure hoelzl parents: 57275 diff changeset	231	by auto
87429bdecad5 import more stuff from the CLT proof; base the lborel measure on interval_measure; remove lebesgue measure hoelzl parents: 57275 diff changeset	232	also have "... \<le> (F b - F a') + epsilon / 2"
87429bdecad5 import more stuff from the CLT proof; base the lborel measure on interval_measure; remove lebesgue measure hoelzl parents: 57275 diff changeset	233	using a_prop by (intro add_left_mono) simp
87429bdecad5 import more stuff from the CLT proof; base the lborel measure on interval_measure; remove lebesgue measure hoelzl parents: 57275 diff changeset	234	also have "... \<le> (\<Sum>i\<in>S. F (r i) - F (l i)) + epsilon / 2 + epsilon / 2"
76786 50672d2d78db tidied some messy old proofs paulson <lp15@cam.ac.uk> parents: 75078 diff changeset	235	proof -
50672d2d78db tidied some messy old proofs paulson <lp15@cam.ac.uk> parents: 75078 diff changeset	236	have "F b - F a' \<le> (\<Sum>i\<in>S. F (r i + delta i) - F (l i))"
50672d2d78db tidied some messy old proofs paulson <lp15@cam.ac.uk> parents: 75078 diff changeset	237	using claim2 l_r Sprop by (simp add: deltai_gt0 finS add.commute add_strict_increasing)
50672d2d78db tidied some messy old proofs paulson <lp15@cam.ac.uk> parents: 75078 diff changeset	238	also have "... \<le> (\<Sum>i \<in> S. F(r i) - F(l i) + epsilon / 2^(i+2))"
50672d2d78db tidied some messy old proofs paulson <lp15@cam.ac.uk> parents: 75078 diff changeset	239	by (smt (verit) sum_mono deltai_prop)
50672d2d78db tidied some messy old proofs paulson <lp15@cam.ac.uk> parents: 75078 diff changeset	240	also have "... = (\<Sum>i \<in> S. F(r i) - F(l i)) +
50672d2d78db tidied some messy old proofs paulson <lp15@cam.ac.uk> parents: 75078 diff changeset	241	(epsilon / 4) * (\<Sum>i \<in> S. (1 / 2)^i)" (is "_ = ?t + _")
50672d2d78db tidied some messy old proofs paulson <lp15@cam.ac.uk> parents: 75078 diff changeset	242	by (subst sum.distrib) (simp add: field_simps sum_distrib_left)
50672d2d78db tidied some messy old proofs paulson <lp15@cam.ac.uk> parents: 75078 diff changeset	243	also have "... \<le> ?t + (epsilon / 4) * (\<Sum> i < Suc n. (1 / 2)^i)"
50672d2d78db tidied some messy old proofs paulson <lp15@cam.ac.uk> parents: 75078 diff changeset	244	using egt0 Sbound by (intro add_left_mono mult_left_mono sum_mono2) force+
50672d2d78db tidied some messy old proofs paulson <lp15@cam.ac.uk> parents: 75078 diff changeset	245	also have "... \<le> ?t + (epsilon / 2)"
50672d2d78db tidied some messy old proofs paulson <lp15@cam.ac.uk> parents: 75078 diff changeset	246	using egt0 by (simp add: geometric_sum add_left_mono mult_left_mono)
50672d2d78db tidied some messy old proofs paulson <lp15@cam.ac.uk> parents: 75078 diff changeset	247	finally have "F b - F a' \<le> (\<Sum>i\<in>S. F (r i) - F (l i)) + epsilon / 2"
50672d2d78db tidied some messy old proofs paulson <lp15@cam.ac.uk> parents: 75078 diff changeset	248	by simp
50672d2d78db tidied some messy old proofs paulson <lp15@cam.ac.uk> parents: 75078 diff changeset	249	then show ?thesis
50672d2d78db tidied some messy old proofs paulson <lp15@cam.ac.uk> parents: 75078 diff changeset	250	by linarith
50672d2d78db tidied some messy old proofs paulson <lp15@cam.ac.uk> parents: 75078 diff changeset	251	qed
57447 87429bdecad5 import more stuff from the CLT proof; base the lborel measure on interval_measure; remove lebesgue measure hoelzl parents: 57275 diff changeset	252	also have "... = (\<Sum>i\<in>S. F (r i) - F (l i)) + epsilon"
87429bdecad5 import more stuff from the CLT proof; base the lborel measure on interval_measure; remove lebesgue measure hoelzl parents: 57275 diff changeset	253	by auto
87429bdecad5 import more stuff from the CLT proof; base the lborel measure on interval_measure; remove lebesgue measure hoelzl parents: 57275 diff changeset	254	also have "... \<le> (\<Sum>i\<le>n. F (r i) - F (l i)) + epsilon"
65680 378a2f11bec9 Simplification of some proofs. Also key lemmas using !! rather than ! in premises paulson <lp15@cam.ac.uk> parents: 65585 diff changeset	255	using finS Sbound Sprop by (auto intro!: add_right_mono sum_mono2)
62975 1d066f6ab25d Probability: move emeasure and nn_integral from ereal to ennreal hoelzl parents: 62390 diff changeset	256	finally have "ennreal (F b - F a) \<le> (\<Sum>i\<le>n. ennreal (F (r i) - F (l i))) + epsilon"
68403 223172b97d0b reorient -> split; documented split nipkow parents: 68120 diff changeset	257	using egt0 by (simp add: sum_nonneg flip: ennreal_plus)
62975 1d066f6ab25d Probability: move emeasure and nn_integral from ereal to ennreal hoelzl parents: 62390 diff changeset	258	then show "ennreal (F b - F a) \<le> (\<Sum>i. ennreal (F (r i) - F (l i))) + (epsilon :: real)"
64267 b9a1486e79be setsum -> sum nipkow parents: 64008 diff changeset	259	by (rule order_trans) (auto intro!: add_mono sum_le_suminf simp del: sum_ennreal)
62975 1d066f6ab25d Probability: move emeasure and nn_integral from ereal to ennreal hoelzl parents: 62390 diff changeset	260	qed
1d066f6ab25d Probability: move emeasure and nn_integral from ereal to ennreal hoelzl parents: 62390 diff changeset	261	moreover have "(\<Sum>i. ennreal (F (r i) - F (l i))) \<le> ennreal (F b - F a)"
1d066f6ab25d Probability: move emeasure and nn_integral from ereal to ennreal hoelzl parents: 62390 diff changeset	262	using \<open>a \<le> b\<close> by (auto intro!: suminf_le_const ennreal_le_iff[THEN iffD2] claim1)
1d066f6ab25d Probability: move emeasure and nn_integral from ereal to ennreal hoelzl parents: 62390 diff changeset	263	ultimately show "(\<Sum>n. ennreal (F (r n) - F (l n))) = ennreal (F b - F a)"
1d066f6ab25d Probability: move emeasure and nn_integral from ereal to ennreal hoelzl parents: 62390 diff changeset	264	by (rule antisym[rotated])
61762 d50b993b4fb9 Removal of redundant lemmas (diff_less_iff, diff_le_iff) and of the abbreviation Exp. Addition of some new material. paulson <lp15@cam.ac.uk> parents: 61610 diff changeset	265	qed (auto simp: Ioc_inj mono_F)
38656 d5d342611edb Rewrite the Probability theory. hoelzl parents: diff changeset	266
57447 87429bdecad5 import more stuff from the CLT proof; base the lborel measure on interval_measure; remove lebesgue measure hoelzl parents: 57275 diff changeset	267	lemma measure_interval_measure_Ioc:
70271 f7630118814c a few general lemmas paulson <lp15@cam.ac.uk> parents: 70136 diff changeset	268	assumes "a \<le> b" and "\<And>x y. x \<le> y \<Longrightarrow> F x \<le> F y" and "\<And>a. continuous (at_right a) F"
57447 87429bdecad5 import more stuff from the CLT proof; base the lborel measure on interval_measure; remove lebesgue measure hoelzl parents: 57275 diff changeset	269	shows "measure (interval_measure F) {a <.. b} = F b - F a"
87429bdecad5 import more stuff from the CLT proof; base the lborel measure on interval_measure; remove lebesgue measure hoelzl parents: 57275 diff changeset	270	unfolding measure_def
70271 f7630118814c a few general lemmas paulson <lp15@cam.ac.uk> parents: 70136 diff changeset	271	by (simp add: assms emeasure_interval_measure_Ioc)
57447 87429bdecad5 import more stuff from the CLT proof; base the lborel measure on interval_measure; remove lebesgue measure hoelzl parents: 57275 diff changeset	272
87429bdecad5 import more stuff from the CLT proof; base the lborel measure on interval_measure; remove lebesgue measure hoelzl parents: 57275 diff changeset	273	lemma emeasure_interval_measure_Ioc_eq:
87429bdecad5 import more stuff from the CLT proof; base the lborel measure on interval_measure; remove lebesgue measure hoelzl parents: 57275 diff changeset	274	"(\<And>x y. x \<le> y \<Longrightarrow> F x \<le> F y) \<Longrightarrow> (\<And>a. continuous (at_right a) F) \<Longrightarrow>
87429bdecad5 import more stuff from the CLT proof; base the lborel measure on interval_measure; remove lebesgue measure hoelzl parents: 57275 diff changeset	275	emeasure (interval_measure F) {a <.. b} = (if a \<le> b then F b - F a else 0)"
87429bdecad5 import more stuff from the CLT proof; base the lborel measure on interval_measure; remove lebesgue measure hoelzl parents: 57275 diff changeset	276	using emeasure_interval_measure_Ioc[of a b F] by auto
87429bdecad5 import more stuff from the CLT proof; base the lborel measure on interval_measure; remove lebesgue measure hoelzl parents: 57275 diff changeset	277
70136 f03a01a18c6e modernized tags: default scope excludes proof; wenzelm parents: 69922 diff changeset	278	lemma\<^marker>\<open>tag important\<close> sets_interval_measure [simp, measurable_cong]:
69447 b7b9cbe0bd43 Tagged some of HOL-Analysis eberlm <eberlm@in.tum.de> parents: 69260 diff changeset	279	"sets (interval_measure F) = sets borel"
76786 50672d2d78db tidied some messy old proofs paulson <lp15@cam.ac.uk> parents: 75078 diff changeset	280	apply (simp add: sets_extend_measure interval_measure_def borel_sigma_sets_Ioc image_def split: prod.split)
50672d2d78db tidied some messy old proofs paulson <lp15@cam.ac.uk> parents: 75078 diff changeset	281	by (metis greaterThanAtMost_empty nle_le)
57447 87429bdecad5 import more stuff from the CLT proof; base the lborel measure on interval_measure; remove lebesgue measure hoelzl parents: 57275 diff changeset	282
87429bdecad5 import more stuff from the CLT proof; base the lborel measure on interval_measure; remove lebesgue measure hoelzl parents: 57275 diff changeset	283	lemma space_interval_measure [simp]: "space (interval_measure F) = UNIV"
87429bdecad5 import more stuff from the CLT proof; base the lborel measure on interval_measure; remove lebesgue measure hoelzl parents: 57275 diff changeset	284	by (simp add: interval_measure_def space_extend_measure)
87429bdecad5 import more stuff from the CLT proof; base the lborel measure on interval_measure; remove lebesgue measure hoelzl parents: 57275 diff changeset	285
87429bdecad5 import more stuff from the CLT proof; base the lborel measure on interval_measure; remove lebesgue measure hoelzl parents: 57275 diff changeset	286	lemma emeasure_interval_measure_Icc:
87429bdecad5 import more stuff from the CLT proof; base the lborel measure on interval_measure; remove lebesgue measure hoelzl parents: 57275 diff changeset	287	assumes "a \<le> b"
87429bdecad5 import more stuff from the CLT proof; base the lborel measure on interval_measure; remove lebesgue measure hoelzl parents: 57275 diff changeset	288	assumes mono_F: "\<And>x y. x \<le> y \<Longrightarrow> F x \<le> F y"
60615 e5fa1d5d3952 Useful lemmas. The theorem concerning swapping the variables in a double integral. paulson <lp15@cam.ac.uk> parents: 59741 diff changeset	289	assumes cont_F : "continuous_on UNIV F"
57447 87429bdecad5 import more stuff from the CLT proof; base the lborel measure on interval_measure; remove lebesgue measure hoelzl parents: 57275 diff changeset	290	shows "emeasure (interval_measure F) {a .. b} = F b - F a"
87429bdecad5 import more stuff from the CLT proof; base the lborel measure on interval_measure; remove lebesgue measure hoelzl parents: 57275 diff changeset	291	proof (rule tendsto_unique)
87429bdecad5 import more stuff from the CLT proof; base the lborel measure on interval_measure; remove lebesgue measure hoelzl parents: 57275 diff changeset	292	{ fix a b :: real assume "a \<le> b" then have "emeasure (interval_measure F) {a <.. b} = F b - F a"
87429bdecad5 import more stuff from the CLT proof; base the lborel measure on interval_measure; remove lebesgue measure hoelzl parents: 57275 diff changeset	293	using cont_F
87429bdecad5 import more stuff from the CLT proof; base the lborel measure on interval_measure; remove lebesgue measure hoelzl parents: 57275 diff changeset	294	by (subst emeasure_interval_measure_Ioc)
87429bdecad5 import more stuff from the CLT proof; base the lborel measure on interval_measure; remove lebesgue measure hoelzl parents: 57275 diff changeset	295	(auto intro: mono_F continuous_within_subset simp: continuous_on_eq_continuous_within) }
87429bdecad5 import more stuff from the CLT proof; base the lborel measure on interval_measure; remove lebesgue measure hoelzl parents: 57275 diff changeset	296	note * = this
38656 d5d342611edb Rewrite the Probability theory. hoelzl parents: diff changeset	297
57447 87429bdecad5 import more stuff from the CLT proof; base the lborel measure on interval_measure; remove lebesgue measure hoelzl parents: 57275 diff changeset	298	let ?F = "interval_measure F"
61973 0c7e865fa7cb more symbols; wenzelm parents: 61969 diff changeset	299	show "((\<lambda>a. F b - F a) \<longlongrightarrow> emeasure ?F {a..b}) (at_left a)"
57447 87429bdecad5 import more stuff from the CLT proof; base the lborel measure on interval_measure; remove lebesgue measure hoelzl parents: 57275 diff changeset	300	proof (rule tendsto_at_left_sequentially)
87429bdecad5 import more stuff from the CLT proof; base the lborel measure on interval_measure; remove lebesgue measure hoelzl parents: 57275 diff changeset	301	show "a - 1 < a" by simp
76786 50672d2d78db tidied some messy old proofs paulson <lp15@cam.ac.uk> parents: 75078 diff changeset	302	fix X assume X: "\<And>n. X n < a" "incseq X" "X \<longlonglongrightarrow> a"
50672d2d78db tidied some messy old proofs paulson <lp15@cam.ac.uk> parents: 75078 diff changeset	303	then have "emeasure (interval_measure F) {X n<..b} \<noteq> \<infinity>" for n
50672d2d78db tidied some messy old proofs paulson <lp15@cam.ac.uk> parents: 75078 diff changeset	304	by (smt (verit) "*" \<open>a \<le> b\<close> ennreal_neq_top infinity_ennreal_def)
50672d2d78db tidied some messy old proofs paulson <lp15@cam.ac.uk> parents: 75078 diff changeset	305	with X have "(\<lambda>n. emeasure ?F {X n<..b}) \<longlonglongrightarrow> emeasure ?F (\<Inter>n. {X n <..b})"
50672d2d78db tidied some messy old proofs paulson <lp15@cam.ac.uk> parents: 75078 diff changeset	306	by (intro Lim_emeasure_decseq; force simp: decseq_def incseq_def emeasure_interval_measure_Ioc *)
57447 87429bdecad5 import more stuff from the CLT proof; base the lborel measure on interval_measure; remove lebesgue measure hoelzl parents: 57275 diff changeset	307	also have "(\<Inter>n. {X n <..b}) = {a..b}"
87429bdecad5 import more stuff from the CLT proof; base the lborel measure on interval_measure; remove lebesgue measure hoelzl parents: 57275 diff changeset	308	apply auto
61969 e01015e49041 more symbols; wenzelm parents: 61954 diff changeset	309	apply (rule LIMSEQ_le_const2[OF \<open>X \<longlonglongrightarrow> a\<close>])
76786 50672d2d78db tidied some messy old proofs paulson <lp15@cam.ac.uk> parents: 75078 diff changeset	310	using less_eq_real_def apply presburger
50672d2d78db tidied some messy old proofs paulson <lp15@cam.ac.uk> parents: 75078 diff changeset	311	using X(1) order_less_le_trans by blast
57447 87429bdecad5 import more stuff from the CLT proof; base the lborel measure on interval_measure; remove lebesgue measure hoelzl parents: 57275 diff changeset	312	also have "(\<lambda>n. emeasure ?F {X n<..b}) = (\<lambda>n. F b - F (X n))"
61808 fc1556774cfe isabelle update_cartouches -c -t; wenzelm parents: 61762 diff changeset	313	using \<open>\<And>n. X n < a\<close> \<open>a \<le> b\<close> by (subst *) (auto intro: less_imp_le less_le_trans)
61969 e01015e49041 more symbols; wenzelm parents: 61954 diff changeset	314	finally show "(\<lambda>n. F b - F (X n)) \<longlonglongrightarrow> emeasure ?F {a..b}" .
57447 87429bdecad5 import more stuff from the CLT proof; base the lborel measure on interval_measure; remove lebesgue measure hoelzl parents: 57275 diff changeset	315	qed
62975 1d066f6ab25d Probability: move emeasure and nn_integral from ereal to ennreal hoelzl parents: 62390 diff changeset	316	show "((\<lambda>a. ennreal (F b - F a)) \<longlongrightarrow> F b - F a) (at_left a)"
1d066f6ab25d Probability: move emeasure and nn_integral from ereal to ennreal hoelzl parents: 62390 diff changeset	317	by (rule continuous_on_tendsto_compose[where g="\<lambda>x. x" and s=UNIV])
71172 575b3a818de5 tuned nipkow parents: 70817 diff changeset	318	(auto simp: continuous_on_ennreal continuous_on_diff cont_F)
57447 87429bdecad5 import more stuff from the CLT proof; base the lborel measure on interval_measure; remove lebesgue measure hoelzl parents: 57275 diff changeset	319	qed (rule trivial_limit_at_left_real)
60615 e5fa1d5d3952 Useful lemmas. The theorem concerning swapping the variables in a double integral. paulson <lp15@cam.ac.uk> parents: 59741 diff changeset	320
70136 f03a01a18c6e modernized tags: default scope excludes proof; wenzelm parents: 69922 diff changeset	321	lemma\<^marker>\<open>tag important\<close> sigma_finite_interval_measure:
57447 87429bdecad5 import more stuff from the CLT proof; base the lborel measure on interval_measure; remove lebesgue measure hoelzl parents: 57275 diff changeset	322	assumes mono_F: "\<And>x y. x \<le> y \<Longrightarrow> F x \<le> F y"
60615 e5fa1d5d3952 Useful lemmas. The theorem concerning swapping the variables in a double integral. paulson <lp15@cam.ac.uk> parents: 59741 diff changeset	323	assumes right_cont_F : "\<And>a. continuous (at_right a) F"
57447 87429bdecad5 import more stuff from the CLT proof; base the lborel measure on interval_measure; remove lebesgue measure hoelzl parents: 57275 diff changeset	324	shows "sigma_finite_measure (interval_measure F)"
87429bdecad5 import more stuff from the CLT proof; base the lborel measure on interval_measure; remove lebesgue measure hoelzl parents: 57275 diff changeset	325	apply unfold_locales
87429bdecad5 import more stuff from the CLT proof; base the lborel measure on interval_measure; remove lebesgue measure hoelzl parents: 57275 diff changeset	326	apply (intro exI[of _ "(\<lambda>(a, b). {a <.. b}) ` (\<rat> \<times> \<rat>)"])
87429bdecad5 import more stuff from the CLT proof; base the lborel measure on interval_measure; remove lebesgue measure hoelzl parents: 57275 diff changeset	327	apply (auto intro!: Rats_no_top_le Rats_no_bot_less countable_rat simp: emeasure_interval_measure_Ioc_eq[OF assms])
87429bdecad5 import more stuff from the CLT proof; base the lborel measure on interval_measure; remove lebesgue measure hoelzl parents: 57275 diff changeset	328	done
87429bdecad5 import more stuff from the CLT proof; base the lborel measure on interval_measure; remove lebesgue measure hoelzl parents: 57275 diff changeset	329
61808 fc1556774cfe isabelle update_cartouches -c -t; wenzelm parents: 61762 diff changeset	330	subsection \<open>Lebesgue-Borel measure\<close>
57447 87429bdecad5 import more stuff from the CLT proof; base the lborel measure on interval_measure; remove lebesgue measure hoelzl parents: 57275 diff changeset	331
70136 f03a01a18c6e modernized tags: default scope excludes proof; wenzelm parents: 69922 diff changeset	332	definition\<^marker>\<open>tag important\<close> lborel :: "('a :: euclidean_space) measure" where
57447 87429bdecad5 import more stuff from the CLT proof; base the lborel measure on interval_measure; remove lebesgue measure hoelzl parents: 57275 diff changeset	333	"lborel = distr (\<Pi>\<^sub>M b\<in>Basis. interval_measure (\<lambda>x. x)) borel (\<lambda>f. \<Sum>b\<in>Basis. f b *\<^sub>R b)"
87429bdecad5 import more stuff from the CLT proof; base the lborel measure on interval_measure; remove lebesgue measure hoelzl parents: 57275 diff changeset	334
70136 f03a01a18c6e modernized tags: default scope excludes proof; wenzelm parents: 69922 diff changeset	335	abbreviation\<^marker>\<open>tag important\<close> lebesgue :: "'a::euclidean_space measure"
63958 02de4a58e210 HOL-Analysis: add measurable sets with finite measures, prove affine transformation rule for the Lebesgue measure hoelzl parents: 63918 diff changeset	336	where "lebesgue \<equiv> completion lborel"
02de4a58e210 HOL-Analysis: add measurable sets with finite measures, prove affine transformation rule for the Lebesgue measure hoelzl parents: 63918 diff changeset	337
70136 f03a01a18c6e modernized tags: default scope excludes proof; wenzelm parents: 69922 diff changeset	338	abbreviation\<^marker>\<open>tag important\<close> lebesgue_on :: "'a set \<Rightarrow> 'a::euclidean_space measure"
63958 02de4a58e210 HOL-Analysis: add measurable sets with finite measures, prove affine transformation rule for the Lebesgue measure hoelzl parents: 63918 diff changeset	339	where "lebesgue_on \<Omega> \<equiv> restrict_space (completion lborel) \<Omega>"
02de4a58e210 HOL-Analysis: add measurable sets with finite measures, prove affine transformation rule for the Lebesgue measure hoelzl parents: 63918 diff changeset	340
70380 2b0dca68c3ee More analysis / measure theory material paulson <lp15@cam.ac.uk> parents: 70378 diff changeset	341	lemma lebesgue_on_mono:
2b0dca68c3ee More analysis / measure theory material paulson <lp15@cam.ac.uk> parents: 70378 diff changeset	342	assumes major: "AE x in lebesgue_on S. P x" and minor: "\<And>x.\<lbrakk>P x; x \<in> S\<rbrakk> \<Longrightarrow> Q x"
2b0dca68c3ee More analysis / measure theory material paulson <lp15@cam.ac.uk> parents: 70378 diff changeset	343	shows "AE x in lebesgue_on S. Q x"
2b0dca68c3ee More analysis / measure theory material paulson <lp15@cam.ac.uk> parents: 70378 diff changeset	344	proof -
2b0dca68c3ee More analysis / measure theory material paulson <lp15@cam.ac.uk> parents: 70378 diff changeset	345	have "AE a in lebesgue_on S. P a \<longrightarrow> Q a"
2b0dca68c3ee More analysis / measure theory material paulson <lp15@cam.ac.uk> parents: 70378 diff changeset	346	using minor space_restrict_space by fastforce
2b0dca68c3ee More analysis / measure theory material paulson <lp15@cam.ac.uk> parents: 70378 diff changeset	347	then show ?thesis
2b0dca68c3ee More analysis / measure theory material paulson <lp15@cam.ac.uk> parents: 70378 diff changeset	348	using major by auto
2b0dca68c3ee More analysis / measure theory material paulson <lp15@cam.ac.uk> parents: 70378 diff changeset	349	qed
2b0dca68c3ee More analysis / measure theory material paulson <lp15@cam.ac.uk> parents: 70378 diff changeset	350
70547 7ce95a5c4aa8 new material on eqiintegrable functions, etc. paulson <lp15@cam.ac.uk> parents: 70532 diff changeset	351	lemma integral_eq_zero_null_sets:
7ce95a5c4aa8 new material on eqiintegrable functions, etc. paulson <lp15@cam.ac.uk> parents: 70532 diff changeset	352	assumes "S \<in> null_sets lebesgue"
7ce95a5c4aa8 new material on eqiintegrable functions, etc. paulson <lp15@cam.ac.uk> parents: 70532 diff changeset	353	shows "integral\<^sup>L (lebesgue_on S) f = 0"
7ce95a5c4aa8 new material on eqiintegrable functions, etc. paulson <lp15@cam.ac.uk> parents: 70532 diff changeset	354	proof (rule integral_eq_zero_AE)
7ce95a5c4aa8 new material on eqiintegrable functions, etc. paulson <lp15@cam.ac.uk> parents: 70532 diff changeset	355	show "AE x in lebesgue_on S. f x = 0"
7ce95a5c4aa8 new material on eqiintegrable functions, etc. paulson <lp15@cam.ac.uk> parents: 70532 diff changeset	356	by (metis (no_types, lifting) assms AE_not_in lebesgue_on_mono null_setsD2 null_sets_restrict_space order_refl)
7ce95a5c4aa8 new material on eqiintegrable functions, etc. paulson <lp15@cam.ac.uk> parents: 70532 diff changeset	357	qed
7ce95a5c4aa8 new material on eqiintegrable functions, etc. paulson <lp15@cam.ac.uk> parents: 70532 diff changeset	358
60615 e5fa1d5d3952 Useful lemmas. The theorem concerning swapping the variables in a double integral. paulson <lp15@cam.ac.uk> parents: 59741 diff changeset	359	lemma
59048 7dc8ac6f0895 add congruence solver to measurability prover hoelzl parents: 59000 diff changeset	360	shows sets_lborel[simp, measurable_cong]: "sets lborel = sets borel"
57447 87429bdecad5 import more stuff from the CLT proof; base the lborel measure on interval_measure; remove lebesgue measure hoelzl parents: 57275 diff changeset	361	and space_lborel[simp]: "space lborel = space borel"
87429bdecad5 import more stuff from the CLT proof; base the lborel measure on interval_measure; remove lebesgue measure hoelzl parents: 57275 diff changeset	362	and measurable_lborel1[simp]: "measurable M lborel = measurable M borel"
87429bdecad5 import more stuff from the CLT proof; base the lborel measure on interval_measure; remove lebesgue measure hoelzl parents: 57275 diff changeset	363	and measurable_lborel2[simp]: "measurable lborel M = measurable borel M"
87429bdecad5 import more stuff from the CLT proof; base the lborel measure on interval_measure; remove lebesgue measure hoelzl parents: 57275 diff changeset	364	by (simp_all add: lborel_def)
87429bdecad5 import more stuff from the CLT proof; base the lborel measure on interval_measure; remove lebesgue measure hoelzl parents: 57275 diff changeset	365
70378 ebd108578ab1 more new material about analysis paulson <lp15@cam.ac.uk> parents: 70271 diff changeset	366	lemma space_lebesgue_on [simp]: "space (lebesgue_on S) = S"
ebd108578ab1 more new material about analysis paulson <lp15@cam.ac.uk> parents: 70271 diff changeset	367	by (simp add: space_restrict_space)
ebd108578ab1 more new material about analysis paulson <lp15@cam.ac.uk> parents: 70271 diff changeset	368
66164 2d79288b042c New theorems and much tidying up of the old ones paulson <lp15@cam.ac.uk> parents: 65680 diff changeset	369	lemma sets_lebesgue_on_refl [iff]: "S \<in> sets (lebesgue_on S)"
2d79288b042c New theorems and much tidying up of the old ones paulson <lp15@cam.ac.uk> parents: 65680 diff changeset	370	by (metis inf_top.right_neutral sets.top space_borel space_completion space_lborel space_restrict_space)
2d79288b042c New theorems and much tidying up of the old ones paulson <lp15@cam.ac.uk> parents: 65680 diff changeset	371
2d79288b042c New theorems and much tidying up of the old ones paulson <lp15@cam.ac.uk> parents: 65680 diff changeset	372	lemma Compl_in_sets_lebesgue: "-A \<in> sets lebesgue \<longleftrightarrow> A \<in> sets lebesgue"
2d79288b042c New theorems and much tidying up of the old ones paulson <lp15@cam.ac.uk> parents: 65680 diff changeset	373	by (metis Compl_eq_Diff_UNIV double_compl space_borel space_completion space_lborel Sigma_Algebra.sets.compl_sets)
2d79288b042c New theorems and much tidying up of the old ones paulson <lp15@cam.ac.uk> parents: 65680 diff changeset	374
67982 7643b005b29a various new results on measures, integrals, etc., and some simplified proofs paulson <lp15@cam.ac.uk> parents: 67968 diff changeset	375	lemma measurable_lebesgue_cong:
7643b005b29a various new results on measures, integrals, etc., and some simplified proofs paulson <lp15@cam.ac.uk> parents: 67968 diff changeset	376	assumes "\<And>x. x \<in> S \<Longrightarrow> f x = g x"
7643b005b29a various new results on measures, integrals, etc., and some simplified proofs paulson <lp15@cam.ac.uk> parents: 67968 diff changeset	377	shows "f \<in> measurable (lebesgue_on S) M \<longleftrightarrow> g \<in> measurable (lebesgue_on S) M"
69546 27dae626822b prefer naming convention from datatype package for strong congruence rules haftmann parents: 69517 diff changeset	378	by (metis (mono_tags, lifting) IntD1 assms measurable_cong_simp space_restrict_space)
67982 7643b005b29a various new results on measures, integrals, etc., and some simplified proofs paulson <lp15@cam.ac.uk> parents: 67968 diff changeset	379
70532 fcf3b891ccb1 new material; rotated premises of Lim_transform_eventually paulson <lp15@cam.ac.uk> parents: 70381 diff changeset	380	lemma lebesgue_on_UNIV_eq: "lebesgue_on UNIV = lebesgue"
76786 50672d2d78db tidied some messy old proofs paulson <lp15@cam.ac.uk> parents: 75078 diff changeset	381	by (simp add: emeasure_restrict_space measure_eqI)
70532 fcf3b891ccb1 new material; rotated premises of Lim_transform_eventually paulson <lp15@cam.ac.uk> parents: 70381 diff changeset	382
fcf3b891ccb1 new material; rotated premises of Lim_transform_eventually paulson <lp15@cam.ac.uk> parents: 70381 diff changeset	383	lemma integral_restrict_Int:
fcf3b891ccb1 new material; rotated premises of Lim_transform_eventually paulson <lp15@cam.ac.uk> parents: 70381 diff changeset	384	fixes f :: "'a::euclidean_space \<Rightarrow> 'b::euclidean_space"
fcf3b891ccb1 new material; rotated premises of Lim_transform_eventually paulson <lp15@cam.ac.uk> parents: 70381 diff changeset	385	assumes "S \<in> sets lebesgue" "T \<in> sets lebesgue"
fcf3b891ccb1 new material; rotated premises of Lim_transform_eventually paulson <lp15@cam.ac.uk> parents: 70381 diff changeset	386	shows "integral\<^sup>L (lebesgue_on T) (\<lambda>x. if x \<in> S then f x else 0) = integral\<^sup>L (lebesgue_on (S \<inter> T)) f"
fcf3b891ccb1 new material; rotated premises of Lim_transform_eventually paulson <lp15@cam.ac.uk> parents: 70381 diff changeset	387	proof -
fcf3b891ccb1 new material; rotated premises of Lim_transform_eventually paulson <lp15@cam.ac.uk> parents: 70381 diff changeset	388	have "(\<lambda>x. indicat_real T x \<^sub>R (if x \<in> S then f x else 0)) = (\<lambda>x. indicat_real (S \<inter> T) x \<^sub>R f x)"
fcf3b891ccb1 new material; rotated premises of Lim_transform_eventually paulson <lp15@cam.ac.uk> parents: 70381 diff changeset	389	by (force simp: indicator_def)
fcf3b891ccb1 new material; rotated premises of Lim_transform_eventually paulson <lp15@cam.ac.uk> parents: 70381 diff changeset	390	then show ?thesis
fcf3b891ccb1 new material; rotated premises of Lim_transform_eventually paulson <lp15@cam.ac.uk> parents: 70381 diff changeset	391	by (simp add: assms sets.Int Bochner_Integration.integral_restrict_space)
fcf3b891ccb1 new material; rotated premises of Lim_transform_eventually paulson <lp15@cam.ac.uk> parents: 70381 diff changeset	392	qed
fcf3b891ccb1 new material; rotated premises of Lim_transform_eventually paulson <lp15@cam.ac.uk> parents: 70381 diff changeset	393
fcf3b891ccb1 new material; rotated premises of Lim_transform_eventually paulson <lp15@cam.ac.uk> parents: 70381 diff changeset	394	lemma integral_restrict:
fcf3b891ccb1 new material; rotated premises of Lim_transform_eventually paulson <lp15@cam.ac.uk> parents: 70381 diff changeset	395	fixes f :: "'a::euclidean_space \<Rightarrow> 'b::euclidean_space"
fcf3b891ccb1 new material; rotated premises of Lim_transform_eventually paulson <lp15@cam.ac.uk> parents: 70381 diff changeset	396	assumes "S \<subseteq> T" "S \<in> sets lebesgue" "T \<in> sets lebesgue"
fcf3b891ccb1 new material; rotated premises of Lim_transform_eventually paulson <lp15@cam.ac.uk> parents: 70381 diff changeset	397	shows "integral\<^sup>L (lebesgue_on T) (\<lambda>x. if x \<in> S then f x else 0) = integral\<^sup>L (lebesgue_on S) f"
fcf3b891ccb1 new material; rotated premises of Lim_transform_eventually paulson <lp15@cam.ac.uk> parents: 70381 diff changeset	398	using integral_restrict_Int [of S T f] assms
fcf3b891ccb1 new material; rotated premises of Lim_transform_eventually paulson <lp15@cam.ac.uk> parents: 70381 diff changeset	399	by (simp add: Int_absorb2)
fcf3b891ccb1 new material; rotated premises of Lim_transform_eventually paulson <lp15@cam.ac.uk> parents: 70381 diff changeset	400
fcf3b891ccb1 new material; rotated premises of Lim_transform_eventually paulson <lp15@cam.ac.uk> parents: 70381 diff changeset	401	lemma integral_restrict_UNIV:
fcf3b891ccb1 new material; rotated premises of Lim_transform_eventually paulson <lp15@cam.ac.uk> parents: 70381 diff changeset	402	fixes f :: "'a::euclidean_space \<Rightarrow> 'b::euclidean_space"
fcf3b891ccb1 new material; rotated premises of Lim_transform_eventually paulson <lp15@cam.ac.uk> parents: 70381 diff changeset	403	assumes "S \<in> sets lebesgue"
fcf3b891ccb1 new material; rotated premises of Lim_transform_eventually paulson <lp15@cam.ac.uk> parents: 70381 diff changeset	404	shows "integral\<^sup>L lebesgue (\<lambda>x. if x \<in> S then f x else 0) = integral\<^sup>L (lebesgue_on S) f"
fcf3b891ccb1 new material; rotated premises of Lim_transform_eventually paulson <lp15@cam.ac.uk> parents: 70381 diff changeset	405	using integral_restrict_Int [of S UNIV f] assms
fcf3b891ccb1 new material; rotated premises of Lim_transform_eventually paulson <lp15@cam.ac.uk> parents: 70381 diff changeset	406	by (simp add: lebesgue_on_UNIV_eq)
fcf3b891ccb1 new material; rotated premises of Lim_transform_eventually paulson <lp15@cam.ac.uk> parents: 70381 diff changeset	407
70688 3d894e1cfc75 new material on Analysis, plus some rearrangements paulson <lp15@cam.ac.uk> parents: 70547 diff changeset	408	lemma integrable_lebesgue_on_empty [iff]:
3d894e1cfc75 new material on Analysis, plus some rearrangements paulson <lp15@cam.ac.uk> parents: 70547 diff changeset	409	fixes f :: "'a::euclidean_space \<Rightarrow> 'b::{second_countable_topology,banach}"
3d894e1cfc75 new material on Analysis, plus some rearrangements paulson <lp15@cam.ac.uk> parents: 70547 diff changeset	410	shows "integrable (lebesgue_on {}) f"
3d894e1cfc75 new material on Analysis, plus some rearrangements paulson <lp15@cam.ac.uk> parents: 70547 diff changeset	411	by (simp add: integrable_restrict_space)
70271 f7630118814c a few general lemmas paulson <lp15@cam.ac.uk> parents: 70136 diff changeset	412
70688 3d894e1cfc75 new material on Analysis, plus some rearrangements paulson <lp15@cam.ac.uk> parents: 70547 diff changeset	413	lemma integral_lebesgue_on_empty [simp]:
3d894e1cfc75 new material on Analysis, plus some rearrangements paulson <lp15@cam.ac.uk> parents: 70547 diff changeset	414	fixes f :: "'a::euclidean_space \<Rightarrow> 'b::{second_countable_topology,banach}"
3d894e1cfc75 new material on Analysis, plus some rearrangements paulson <lp15@cam.ac.uk> parents: 70547 diff changeset	415	shows "integral\<^sup>L (lebesgue_on {}) f = 0"
3d894e1cfc75 new material on Analysis, plus some rearrangements paulson <lp15@cam.ac.uk> parents: 70547 diff changeset	416	by (simp add: Bochner_Integration.integral_empty)
3d894e1cfc75 new material on Analysis, plus some rearrangements paulson <lp15@cam.ac.uk> parents: 70547 diff changeset	417	lemma has_bochner_integral_restrict_space:
3d894e1cfc75 new material on Analysis, plus some rearrangements paulson <lp15@cam.ac.uk> parents: 70547 diff changeset	418	fixes f :: "'a \<Rightarrow> 'b::{banach, second_countable_topology}"
3d894e1cfc75 new material on Analysis, plus some rearrangements paulson <lp15@cam.ac.uk> parents: 70547 diff changeset	419	assumes \<Omega>: "\<Omega> \<inter> space M \<in> sets M"
3d894e1cfc75 new material on Analysis, plus some rearrangements paulson <lp15@cam.ac.uk> parents: 70547 diff changeset	420	shows "has_bochner_integral (restrict_space M \<Omega>) f i
3d894e1cfc75 new material on Analysis, plus some rearrangements paulson <lp15@cam.ac.uk> parents: 70547 diff changeset	421	\<longleftrightarrow> has_bochner_integral M (\<lambda>x. indicator \<Omega> x *\<^sub>R f x) i"
3d894e1cfc75 new material on Analysis, plus some rearrangements paulson <lp15@cam.ac.uk> parents: 70547 diff changeset	422	by (simp add: integrable_restrict_space [OF assms] integral_restrict_space [OF assms] has_bochner_integral_iff)
3d894e1cfc75 new material on Analysis, plus some rearrangements paulson <lp15@cam.ac.uk> parents: 70547 diff changeset	423
3d894e1cfc75 new material on Analysis, plus some rearrangements paulson <lp15@cam.ac.uk> parents: 70547 diff changeset	424	lemma integrable_restrict_UNIV:
3d894e1cfc75 new material on Analysis, plus some rearrangements paulson <lp15@cam.ac.uk> parents: 70547 diff changeset	425	fixes f :: "'a::euclidean_space \<Rightarrow> 'b::{banach, second_countable_topology}"
3d894e1cfc75 new material on Analysis, plus some rearrangements paulson <lp15@cam.ac.uk> parents: 70547 diff changeset	426	assumes S: "S \<in> sets lebesgue"
3d894e1cfc75 new material on Analysis, plus some rearrangements paulson <lp15@cam.ac.uk> parents: 70547 diff changeset	427	shows "integrable lebesgue (\<lambda>x. if x \<in> S then f x else 0) \<longleftrightarrow> integrable (lebesgue_on S) f"
3d894e1cfc75 new material on Analysis, plus some rearrangements paulson <lp15@cam.ac.uk> parents: 70547 diff changeset	428	using has_bochner_integral_restrict_space [of S lebesgue f] assms
3d894e1cfc75 new material on Analysis, plus some rearrangements paulson <lp15@cam.ac.uk> parents: 70547 diff changeset	429	by (simp add: integrable.simps indicator_scaleR_eq_if)
3d894e1cfc75 new material on Analysis, plus some rearrangements paulson <lp15@cam.ac.uk> parents: 70547 diff changeset	430
3d894e1cfc75 new material on Analysis, plus some rearrangements paulson <lp15@cam.ac.uk> parents: 70547 diff changeset	431	lemma integral_mono_lebesgue_on_AE:
3d894e1cfc75 new material on Analysis, plus some rearrangements paulson <lp15@cam.ac.uk> parents: 70547 diff changeset	432	fixes f::"_ \<Rightarrow> real"
3d894e1cfc75 new material on Analysis, plus some rearrangements paulson <lp15@cam.ac.uk> parents: 70547 diff changeset	433	assumes f: "integrable (lebesgue_on T) f"
3d894e1cfc75 new material on Analysis, plus some rearrangements paulson <lp15@cam.ac.uk> parents: 70547 diff changeset	434	and gf: "AE x in (lebesgue_on S). g x \<le> f x"
3d894e1cfc75 new material on Analysis, plus some rearrangements paulson <lp15@cam.ac.uk> parents: 70547 diff changeset	435	and f0: "AE x in (lebesgue_on T). 0 \<le> f x"
3d894e1cfc75 new material on Analysis, plus some rearrangements paulson <lp15@cam.ac.uk> parents: 70547 diff changeset	436	and "S \<subseteq> T" and S: "S \<in> sets lebesgue" and T: "T \<in> sets lebesgue"
3d894e1cfc75 new material on Analysis, plus some rearrangements paulson <lp15@cam.ac.uk> parents: 70547 diff changeset	437	shows "(\<integral>x. g x \<partial>(lebesgue_on S)) \<le> (\<integral>x. f x \<partial>(lebesgue_on T))"
3d894e1cfc75 new material on Analysis, plus some rearrangements paulson <lp15@cam.ac.uk> parents: 70547 diff changeset	438	proof -
3d894e1cfc75 new material on Analysis, plus some rearrangements paulson <lp15@cam.ac.uk> parents: 70547 diff changeset	439	have "(\<integral>x. g x \<partial>(lebesgue_on S)) = (\<integral>x. (if x \<in> S then g x else 0) \<partial>lebesgue)"
3d894e1cfc75 new material on Analysis, plus some rearrangements paulson <lp15@cam.ac.uk> parents: 70547 diff changeset	440	by (simp add: Lebesgue_Measure.integral_restrict_UNIV S)
3d894e1cfc75 new material on Analysis, plus some rearrangements paulson <lp15@cam.ac.uk> parents: 70547 diff changeset	441	also have "\<dots> \<le> (\<integral>x. (if x \<in> T then f x else 0) \<partial>lebesgue)"
3d894e1cfc75 new material on Analysis, plus some rearrangements paulson <lp15@cam.ac.uk> parents: 70547 diff changeset	442	proof (rule Bochner_Integration.integral_mono_AE')
3d894e1cfc75 new material on Analysis, plus some rearrangements paulson <lp15@cam.ac.uk> parents: 70547 diff changeset	443	show "integrable lebesgue (\<lambda>x. if x \<in> T then f x else 0)"
3d894e1cfc75 new material on Analysis, plus some rearrangements paulson <lp15@cam.ac.uk> parents: 70547 diff changeset	444	by (simp add: integrable_restrict_UNIV T f)
3d894e1cfc75 new material on Analysis, plus some rearrangements paulson <lp15@cam.ac.uk> parents: 70547 diff changeset	445	show "AE x in lebesgue. (if x \<in> S then g x else 0) \<le> (if x \<in> T then f x else 0)"
3d894e1cfc75 new material on Analysis, plus some rearrangements paulson <lp15@cam.ac.uk> parents: 70547 diff changeset	446	using assms by (auto simp: AE_restrict_space_iff)
3d894e1cfc75 new material on Analysis, plus some rearrangements paulson <lp15@cam.ac.uk> parents: 70547 diff changeset	447	show "AE x in lebesgue. 0 \<le> (if x \<in> T then f x else 0)"
3d894e1cfc75 new material on Analysis, plus some rearrangements paulson <lp15@cam.ac.uk> parents: 70547 diff changeset	448	using f0 by (simp add: AE_restrict_space_iff T)
3d894e1cfc75 new material on Analysis, plus some rearrangements paulson <lp15@cam.ac.uk> parents: 70547 diff changeset	449	qed
3d894e1cfc75 new material on Analysis, plus some rearrangements paulson <lp15@cam.ac.uk> parents: 70547 diff changeset	450	also have "\<dots> = (\<integral>x. f x \<partial>(lebesgue_on T))"
3d894e1cfc75 new material on Analysis, plus some rearrangements paulson <lp15@cam.ac.uk> parents: 70547 diff changeset	451	using Lebesgue_Measure.integral_restrict_UNIV T by blast
3d894e1cfc75 new material on Analysis, plus some rearrangements paulson <lp15@cam.ac.uk> parents: 70547 diff changeset	452	finally show ?thesis .
3d894e1cfc75 new material on Analysis, plus some rearrangements paulson <lp15@cam.ac.uk> parents: 70547 diff changeset	453	qed
3d894e1cfc75 new material on Analysis, plus some rearrangements paulson <lp15@cam.ac.uk> parents: 70547 diff changeset	454
3d894e1cfc75 new material on Analysis, plus some rearrangements paulson <lp15@cam.ac.uk> parents: 70547 diff changeset	455
3d894e1cfc75 new material on Analysis, plus some rearrangements paulson <lp15@cam.ac.uk> parents: 70547 diff changeset	456	subsection \<open>Borel measurability\<close>
3d894e1cfc75 new material on Analysis, plus some rearrangements paulson <lp15@cam.ac.uk> parents: 70547 diff changeset	457
3d894e1cfc75 new material on Analysis, plus some rearrangements paulson <lp15@cam.ac.uk> parents: 70547 diff changeset	458	lemma borel_measurable_if_I:
3d894e1cfc75 new material on Analysis, plus some rearrangements paulson <lp15@cam.ac.uk> parents: 70547 diff changeset	459	fixes f :: "'a::euclidean_space \<Rightarrow> 'b::euclidean_space"
3d894e1cfc75 new material on Analysis, plus some rearrangements paulson <lp15@cam.ac.uk> parents: 70547 diff changeset	460	assumes f: "f \<in> borel_measurable (lebesgue_on S)" and S: "S \<in> sets lebesgue"
3d894e1cfc75 new material on Analysis, plus some rearrangements paulson <lp15@cam.ac.uk> parents: 70547 diff changeset	461	shows "(\<lambda>x. if x \<in> S then f x else 0) \<in> borel_measurable lebesgue"
3d894e1cfc75 new material on Analysis, plus some rearrangements paulson <lp15@cam.ac.uk> parents: 70547 diff changeset	462	proof -
3d894e1cfc75 new material on Analysis, plus some rearrangements paulson <lp15@cam.ac.uk> parents: 70547 diff changeset	463	have eq: "{x. x \<notin> S} \<union> {x. f x \<in> Y} = {x. x \<notin> S} \<union> {x. f x \<in> Y} \<inter> S" for Y
3d894e1cfc75 new material on Analysis, plus some rearrangements paulson <lp15@cam.ac.uk> parents: 70547 diff changeset	464	by blast
3d894e1cfc75 new material on Analysis, plus some rearrangements paulson <lp15@cam.ac.uk> parents: 70547 diff changeset	465	show ?thesis
3d894e1cfc75 new material on Analysis, plus some rearrangements paulson <lp15@cam.ac.uk> parents: 70547 diff changeset	466	using f S
3d894e1cfc75 new material on Analysis, plus some rearrangements paulson <lp15@cam.ac.uk> parents: 70547 diff changeset	467	apply (simp add: vimage_def in_borel_measurable_borel Ball_def)
3d894e1cfc75 new material on Analysis, plus some rearrangements paulson <lp15@cam.ac.uk> parents: 70547 diff changeset	468	apply (elim all_forward imp_forward asm_rl)
3d894e1cfc75 new material on Analysis, plus some rearrangements paulson <lp15@cam.ac.uk> parents: 70547 diff changeset	469	apply (simp only: Collect_conj_eq Collect_disj_eq imp_conv_disj eq)
3d894e1cfc75 new material on Analysis, plus some rearrangements paulson <lp15@cam.ac.uk> parents: 70547 diff changeset	470	apply (auto simp: Compl_eq [symmetric] Compl_in_sets_lebesgue sets_restrict_space_iff)
3d894e1cfc75 new material on Analysis, plus some rearrangements paulson <lp15@cam.ac.uk> parents: 70547 diff changeset	471	done
3d894e1cfc75 new material on Analysis, plus some rearrangements paulson <lp15@cam.ac.uk> parents: 70547 diff changeset	472	qed
3d894e1cfc75 new material on Analysis, plus some rearrangements paulson <lp15@cam.ac.uk> parents: 70547 diff changeset	473
3d894e1cfc75 new material on Analysis, plus some rearrangements paulson <lp15@cam.ac.uk> parents: 70547 diff changeset	474	lemma borel_measurable_if_D:
3d894e1cfc75 new material on Analysis, plus some rearrangements paulson <lp15@cam.ac.uk> parents: 70547 diff changeset	475	fixes f :: "'a::euclidean_space \<Rightarrow> 'b::euclidean_space"
3d894e1cfc75 new material on Analysis, plus some rearrangements paulson <lp15@cam.ac.uk> parents: 70547 diff changeset	476	assumes "(\<lambda>x. if x \<in> S then f x else 0) \<in> borel_measurable lebesgue"
3d894e1cfc75 new material on Analysis, plus some rearrangements paulson <lp15@cam.ac.uk> parents: 70547 diff changeset	477	shows "f \<in> borel_measurable (lebesgue_on S)"
76786 50672d2d78db tidied some messy old proofs paulson <lp15@cam.ac.uk> parents: 75078 diff changeset	478	using assms by (smt (verit) measurable_lebesgue_cong measurable_restrict_space1)
70688 3d894e1cfc75 new material on Analysis, plus some rearrangements paulson <lp15@cam.ac.uk> parents: 70547 diff changeset	479
3d894e1cfc75 new material on Analysis, plus some rearrangements paulson <lp15@cam.ac.uk> parents: 70547 diff changeset	480	lemma borel_measurable_if:
3d894e1cfc75 new material on Analysis, plus some rearrangements paulson <lp15@cam.ac.uk> parents: 70547 diff changeset	481	fixes f :: "'a::euclidean_space \<Rightarrow> 'b::euclidean_space"
3d894e1cfc75 new material on Analysis, plus some rearrangements paulson <lp15@cam.ac.uk> parents: 70547 diff changeset	482	assumes "S \<in> sets lebesgue"
3d894e1cfc75 new material on Analysis, plus some rearrangements paulson <lp15@cam.ac.uk> parents: 70547 diff changeset	483	shows "(\<lambda>x. if x \<in> S then f x else 0) \<in> borel_measurable lebesgue \<longleftrightarrow> f \<in> borel_measurable (lebesgue_on S)"
3d894e1cfc75 new material on Analysis, plus some rearrangements paulson <lp15@cam.ac.uk> parents: 70547 diff changeset	484	using assms borel_measurable_if_D borel_measurable_if_I by blast
3d894e1cfc75 new material on Analysis, plus some rearrangements paulson <lp15@cam.ac.uk> parents: 70547 diff changeset	485
70694 ae37b8fbf023 New theory Equivalence_Measurable_On_Borel, with the HOL Light notion of measurable_on and its equivalence to ours paulson <lp15@cam.ac.uk> parents: 70688 diff changeset	486	lemma borel_measurable_if_lebesgue_on:
ae37b8fbf023 New theory Equivalence_Measurable_On_Borel, with the HOL Light notion of measurable_on and its equivalence to ours paulson <lp15@cam.ac.uk> parents: 70688 diff changeset	487	fixes f :: "'a::euclidean_space \<Rightarrow> 'b::euclidean_space"
ae37b8fbf023 New theory Equivalence_Measurable_On_Borel, with the HOL Light notion of measurable_on and its equivalence to ours paulson <lp15@cam.ac.uk> parents: 70688 diff changeset	488	assumes "S \<in> sets lebesgue" "T \<in> sets lebesgue" "S \<subseteq> T"
ae37b8fbf023 New theory Equivalence_Measurable_On_Borel, with the HOL Light notion of measurable_on and its equivalence to ours paulson <lp15@cam.ac.uk> parents: 70688 diff changeset	489	shows "(\<lambda>x. if x \<in> S then f x else 0) \<in> borel_measurable (lebesgue_on T) \<longleftrightarrow> f \<in> borel_measurable (lebesgue_on S)"
ae37b8fbf023 New theory Equivalence_Measurable_On_Borel, with the HOL Light notion of measurable_on and its equivalence to ours paulson <lp15@cam.ac.uk> parents: 70688 diff changeset	490	(is "?lhs = ?rhs")
ae37b8fbf023 New theory Equivalence_Measurable_On_Borel, with the HOL Light notion of measurable_on and its equivalence to ours paulson <lp15@cam.ac.uk> parents: 70688 diff changeset	491	proof
ae37b8fbf023 New theory Equivalence_Measurable_On_Borel, with the HOL Light notion of measurable_on and its equivalence to ours paulson <lp15@cam.ac.uk> parents: 70688 diff changeset	492	assume ?lhs then show ?rhs
ae37b8fbf023 New theory Equivalence_Measurable_On_Borel, with the HOL Light notion of measurable_on and its equivalence to ours paulson <lp15@cam.ac.uk> parents: 70688 diff changeset	493	using measurable_restrict_mono [OF _ \<open>S \<subseteq> T\<close>]
ae37b8fbf023 New theory Equivalence_Measurable_On_Borel, with the HOL Light notion of measurable_on and its equivalence to ours paulson <lp15@cam.ac.uk> parents: 70688 diff changeset	494	by (subst measurable_lebesgue_cong [where g = "(\<lambda>x. if x \<in> S then f x else 0)"]) auto
ae37b8fbf023 New theory Equivalence_Measurable_On_Borel, with the HOL Light notion of measurable_on and its equivalence to ours paulson <lp15@cam.ac.uk> parents: 70688 diff changeset	495	next
ae37b8fbf023 New theory Equivalence_Measurable_On_Borel, with the HOL Light notion of measurable_on and its equivalence to ours paulson <lp15@cam.ac.uk> parents: 70688 diff changeset	496	assume ?rhs then show ?lhs
ae37b8fbf023 New theory Equivalence_Measurable_On_Borel, with the HOL Light notion of measurable_on and its equivalence to ours paulson <lp15@cam.ac.uk> parents: 70688 diff changeset	497	by (simp add: \<open>S \<in> sets lebesgue\<close> borel_measurable_if_I measurable_restrict_space1)
ae37b8fbf023 New theory Equivalence_Measurable_On_Borel, with the HOL Light notion of measurable_on and its equivalence to ours paulson <lp15@cam.ac.uk> parents: 70688 diff changeset	498	qed
ae37b8fbf023 New theory Equivalence_Measurable_On_Borel, with the HOL Light notion of measurable_on and its equivalence to ours paulson <lp15@cam.ac.uk> parents: 70688 diff changeset	499
70688 3d894e1cfc75 new material on Analysis, plus some rearrangements paulson <lp15@cam.ac.uk> parents: 70547 diff changeset	500	lemma borel_measurable_vimage_halfspace_component_lt:
3d894e1cfc75 new material on Analysis, plus some rearrangements paulson <lp15@cam.ac.uk> parents: 70547 diff changeset	501	"f \<in> borel_measurable (lebesgue_on S) \<longleftrightarrow>
3d894e1cfc75 new material on Analysis, plus some rearrangements paulson <lp15@cam.ac.uk> parents: 70547 diff changeset	502	(\<forall>a i. i \<in> Basis \<longrightarrow> {x \<in> S. f x \<bullet> i < a} \<in> sets (lebesgue_on S))"
76786 50672d2d78db tidied some messy old proofs paulson <lp15@cam.ac.uk> parents: 75078 diff changeset	503	by (force simp add: space_restrict_space trans [OF borel_measurable_iff_halfspace_less])
70688 3d894e1cfc75 new material on Analysis, plus some rearrangements paulson <lp15@cam.ac.uk> parents: 70547 diff changeset	504
3d894e1cfc75 new material on Analysis, plus some rearrangements paulson <lp15@cam.ac.uk> parents: 70547 diff changeset	505	lemma borel_measurable_vimage_halfspace_component_ge:
3d894e1cfc75 new material on Analysis, plus some rearrangements paulson <lp15@cam.ac.uk> parents: 70547 diff changeset	506	fixes f :: "'a::euclidean_space \<Rightarrow> 'b::euclidean_space"
3d894e1cfc75 new material on Analysis, plus some rearrangements paulson <lp15@cam.ac.uk> parents: 70547 diff changeset	507	shows "f \<in> borel_measurable (lebesgue_on S) \<longleftrightarrow>
3d894e1cfc75 new material on Analysis, plus some rearrangements paulson <lp15@cam.ac.uk> parents: 70547 diff changeset	508	(\<forall>a i. i \<in> Basis \<longrightarrow> {x \<in> S. f x \<bullet> i \<ge> a} \<in> sets (lebesgue_on S))"
76786 50672d2d78db tidied some messy old proofs paulson <lp15@cam.ac.uk> parents: 75078 diff changeset	509	by (force simp add: space_restrict_space trans [OF borel_measurable_iff_halfspace_ge])
70688 3d894e1cfc75 new material on Analysis, plus some rearrangements paulson <lp15@cam.ac.uk> parents: 70547 diff changeset	510
3d894e1cfc75 new material on Analysis, plus some rearrangements paulson <lp15@cam.ac.uk> parents: 70547 diff changeset	511	lemma borel_measurable_vimage_halfspace_component_gt:
3d894e1cfc75 new material on Analysis, plus some rearrangements paulson <lp15@cam.ac.uk> parents: 70547 diff changeset	512	fixes f :: "'a::euclidean_space \<Rightarrow> 'b::euclidean_space"
3d894e1cfc75 new material on Analysis, plus some rearrangements paulson <lp15@cam.ac.uk> parents: 70547 diff changeset	513	shows "f \<in> borel_measurable (lebesgue_on S) \<longleftrightarrow>
3d894e1cfc75 new material on Analysis, plus some rearrangements paulson <lp15@cam.ac.uk> parents: 70547 diff changeset	514	(\<forall>a i. i \<in> Basis \<longrightarrow> {x \<in> S. f x \<bullet> i > a} \<in> sets (lebesgue_on S))"
76786 50672d2d78db tidied some messy old proofs paulson <lp15@cam.ac.uk> parents: 75078 diff changeset	515	by (force simp add: space_restrict_space trans [OF borel_measurable_iff_halfspace_greater])
70688 3d894e1cfc75 new material on Analysis, plus some rearrangements paulson <lp15@cam.ac.uk> parents: 70547 diff changeset	516
3d894e1cfc75 new material on Analysis, plus some rearrangements paulson <lp15@cam.ac.uk> parents: 70547 diff changeset	517	lemma borel_measurable_vimage_halfspace_component_le:
3d894e1cfc75 new material on Analysis, plus some rearrangements paulson <lp15@cam.ac.uk> parents: 70547 diff changeset	518	fixes f :: "'a::euclidean_space \<Rightarrow> 'b::euclidean_space"
3d894e1cfc75 new material on Analysis, plus some rearrangements paulson <lp15@cam.ac.uk> parents: 70547 diff changeset	519	shows "f \<in> borel_measurable (lebesgue_on S) \<longleftrightarrow>
3d894e1cfc75 new material on Analysis, plus some rearrangements paulson <lp15@cam.ac.uk> parents: 70547 diff changeset	520	(\<forall>a i. i \<in> Basis \<longrightarrow> {x \<in> S. f x \<bullet> i \<le> a} \<in> sets (lebesgue_on S))"
76786 50672d2d78db tidied some messy old proofs paulson <lp15@cam.ac.uk> parents: 75078 diff changeset	521	by (force simp add: space_restrict_space trans [OF borel_measurable_iff_halfspace_le])
70688 3d894e1cfc75 new material on Analysis, plus some rearrangements paulson <lp15@cam.ac.uk> parents: 70547 diff changeset	522
3d894e1cfc75 new material on Analysis, plus some rearrangements paulson <lp15@cam.ac.uk> parents: 70547 diff changeset	523	lemma
3d894e1cfc75 new material on Analysis, plus some rearrangements paulson <lp15@cam.ac.uk> parents: 70547 diff changeset	524	fixes f :: "'a::euclidean_space \<Rightarrow> 'b::euclidean_space"
3d894e1cfc75 new material on Analysis, plus some rearrangements paulson <lp15@cam.ac.uk> parents: 70547 diff changeset	525	shows borel_measurable_vimage_open_interval:
3d894e1cfc75 new material on Analysis, plus some rearrangements paulson <lp15@cam.ac.uk> parents: 70547 diff changeset	526	"f \<in> borel_measurable (lebesgue_on S) \<longleftrightarrow>
3d894e1cfc75 new material on Analysis, plus some rearrangements paulson <lp15@cam.ac.uk> parents: 70547 diff changeset	527	(\<forall>a b. {x \<in> S. f x \<in> box a b} \<in> sets (lebesgue_on S))" (is ?thesis1)
3d894e1cfc75 new material on Analysis, plus some rearrangements paulson <lp15@cam.ac.uk> parents: 70547 diff changeset	528	and borel_measurable_vimage_open:
3d894e1cfc75 new material on Analysis, plus some rearrangements paulson <lp15@cam.ac.uk> parents: 70547 diff changeset	529	"f \<in> borel_measurable (lebesgue_on S) \<longleftrightarrow>
3d894e1cfc75 new material on Analysis, plus some rearrangements paulson <lp15@cam.ac.uk> parents: 70547 diff changeset	530	(\<forall>T. open T \<longrightarrow> {x \<in> S. f x \<in> T} \<in> sets (lebesgue_on S))" (is ?thesis2)
3d894e1cfc75 new material on Analysis, plus some rearrangements paulson <lp15@cam.ac.uk> parents: 70547 diff changeset	531	proof -
3d894e1cfc75 new material on Analysis, plus some rearrangements paulson <lp15@cam.ac.uk> parents: 70547 diff changeset	532	have "{x \<in> S. f x \<in> box a b} \<in> sets (lebesgue_on S)" if "f \<in> borel_measurable (lebesgue_on S)" for a b
3d894e1cfc75 new material on Analysis, plus some rearrangements paulson <lp15@cam.ac.uk> parents: 70547 diff changeset	533	proof -
3d894e1cfc75 new material on Analysis, plus some rearrangements paulson <lp15@cam.ac.uk> parents: 70547 diff changeset	534	have "S = S \<inter> space lebesgue"
3d894e1cfc75 new material on Analysis, plus some rearrangements paulson <lp15@cam.ac.uk> parents: 70547 diff changeset	535	by simp
3d894e1cfc75 new material on Analysis, plus some rearrangements paulson <lp15@cam.ac.uk> parents: 70547 diff changeset	536	then have "S \<inter> (f -` box a b) \<in> sets (lebesgue_on S)"
3d894e1cfc75 new material on Analysis, plus some rearrangements paulson <lp15@cam.ac.uk> parents: 70547 diff changeset	537	by (metis (no_types) box_borel in_borel_measurable_borel inf_sup_aci(1) space_restrict_space that)
3d894e1cfc75 new material on Analysis, plus some rearrangements paulson <lp15@cam.ac.uk> parents: 70547 diff changeset	538	then show ?thesis
3d894e1cfc75 new material on Analysis, plus some rearrangements paulson <lp15@cam.ac.uk> parents: 70547 diff changeset	539	by (simp add: Collect_conj_eq vimage_def)
3d894e1cfc75 new material on Analysis, plus some rearrangements paulson <lp15@cam.ac.uk> parents: 70547 diff changeset	540	qed
3d894e1cfc75 new material on Analysis, plus some rearrangements paulson <lp15@cam.ac.uk> parents: 70547 diff changeset	541	moreover
3d894e1cfc75 new material on Analysis, plus some rearrangements paulson <lp15@cam.ac.uk> parents: 70547 diff changeset	542	have "{x \<in> S. f x \<in> T} \<in> sets (lebesgue_on S)"
3d894e1cfc75 new material on Analysis, plus some rearrangements paulson <lp15@cam.ac.uk> parents: 70547 diff changeset	543	if T: "\<And>a b. {x \<in> S. f x \<in> box a b} \<in> sets (lebesgue_on S)" "open T" for T
3d894e1cfc75 new material on Analysis, plus some rearrangements paulson <lp15@cam.ac.uk> parents: 70547 diff changeset	544	proof -
3d894e1cfc75 new material on Analysis, plus some rearrangements paulson <lp15@cam.ac.uk> parents: 70547 diff changeset	545	obtain \<D> where "countable \<D>" and \<D>: "\<And>X. X \<in> \<D> \<Longrightarrow> \<exists>a b. X = box a b" "\<Union>\<D> = T"
3d894e1cfc75 new material on Analysis, plus some rearrangements paulson <lp15@cam.ac.uk> parents: 70547 diff changeset	546	using open_countable_Union_open_box that \<open>open T\<close> by metis
3d894e1cfc75 new material on Analysis, plus some rearrangements paulson <lp15@cam.ac.uk> parents: 70547 diff changeset	547	then have eq: "{x \<in> S. f x \<in> T} = (\<Union>U \<in> \<D>. {x \<in> S. f x \<in> U})"
3d894e1cfc75 new material on Analysis, plus some rearrangements paulson <lp15@cam.ac.uk> parents: 70547 diff changeset	548	by blast
3d894e1cfc75 new material on Analysis, plus some rearrangements paulson <lp15@cam.ac.uk> parents: 70547 diff changeset	549	have "{x \<in> S. f x \<in> U} \<in> sets (lebesgue_on S)" if "U \<in> \<D>" for U
3d894e1cfc75 new material on Analysis, plus some rearrangements paulson <lp15@cam.ac.uk> parents: 70547 diff changeset	550	using that T \<D> by blast
3d894e1cfc75 new material on Analysis, plus some rearrangements paulson <lp15@cam.ac.uk> parents: 70547 diff changeset	551	then show ?thesis
3d894e1cfc75 new material on Analysis, plus some rearrangements paulson <lp15@cam.ac.uk> parents: 70547 diff changeset	552	by (auto simp: eq intro: Sigma_Algebra.sets.countable_UN' [OF \<open>countable \<D>\<close>])
3d894e1cfc75 new material on Analysis, plus some rearrangements paulson <lp15@cam.ac.uk> parents: 70547 diff changeset	553	qed
3d894e1cfc75 new material on Analysis, plus some rearrangements paulson <lp15@cam.ac.uk> parents: 70547 diff changeset	554	moreover
3d894e1cfc75 new material on Analysis, plus some rearrangements paulson <lp15@cam.ac.uk> parents: 70547 diff changeset	555	have eq: "{x \<in> S. f x \<bullet> i < a} = {x \<in> S. f x \<in> {y. y \<bullet> i < a}}" for i a
3d894e1cfc75 new material on Analysis, plus some rearrangements paulson <lp15@cam.ac.uk> parents: 70547 diff changeset	556	by auto
3d894e1cfc75 new material on Analysis, plus some rearrangements paulson <lp15@cam.ac.uk> parents: 70547 diff changeset	557	have "f \<in> borel_measurable (lebesgue_on S)"
3d894e1cfc75 new material on Analysis, plus some rearrangements paulson <lp15@cam.ac.uk> parents: 70547 diff changeset	558	if "\<And>T. open T \<Longrightarrow> {x \<in> S. f x \<in> T} \<in> sets (lebesgue_on S)"
3d894e1cfc75 new material on Analysis, plus some rearrangements paulson <lp15@cam.ac.uk> parents: 70547 diff changeset	559	by (metis (no_types) eq borel_measurable_vimage_halfspace_component_lt open_halfspace_component_lt that)
3d894e1cfc75 new material on Analysis, plus some rearrangements paulson <lp15@cam.ac.uk> parents: 70547 diff changeset	560	ultimately show "?thesis1" "?thesis2"
3d894e1cfc75 new material on Analysis, plus some rearrangements paulson <lp15@cam.ac.uk> parents: 70547 diff changeset	561	by blast+
3d894e1cfc75 new material on Analysis, plus some rearrangements paulson <lp15@cam.ac.uk> parents: 70547 diff changeset	562	qed
3d894e1cfc75 new material on Analysis, plus some rearrangements paulson <lp15@cam.ac.uk> parents: 70547 diff changeset	563
3d894e1cfc75 new material on Analysis, plus some rearrangements paulson <lp15@cam.ac.uk> parents: 70547 diff changeset	564	lemma borel_measurable_vimage_closed:
3d894e1cfc75 new material on Analysis, plus some rearrangements paulson <lp15@cam.ac.uk> parents: 70547 diff changeset	565	fixes f :: "'a::euclidean_space \<Rightarrow> 'b::euclidean_space"
3d894e1cfc75 new material on Analysis, plus some rearrangements paulson <lp15@cam.ac.uk> parents: 70547 diff changeset	566	shows "f \<in> borel_measurable (lebesgue_on S) \<longleftrightarrow>
3d894e1cfc75 new material on Analysis, plus some rearrangements paulson <lp15@cam.ac.uk> parents: 70547 diff changeset	567	(\<forall>T. closed T \<longrightarrow> {x \<in> S. f x \<in> T} \<in> sets (lebesgue_on S))"
3d894e1cfc75 new material on Analysis, plus some rearrangements paulson <lp15@cam.ac.uk> parents: 70547 diff changeset	568	proof -
76786 50672d2d78db tidied some messy old proofs paulson <lp15@cam.ac.uk> parents: 75078 diff changeset	569	have eq: "{x \<in> S. f x \<in> T} = S - (S \<inter> f -` (- T))" for T
70688 3d894e1cfc75 new material on Analysis, plus some rearrangements paulson <lp15@cam.ac.uk> parents: 70547 diff changeset	570	by auto
3d894e1cfc75 new material on Analysis, plus some rearrangements paulson <lp15@cam.ac.uk> parents: 70547 diff changeset	571	show ?thesis
76786 50672d2d78db tidied some messy old proofs paulson <lp15@cam.ac.uk> parents: 75078 diff changeset	572	unfolding borel_measurable_vimage_open eq
50672d2d78db tidied some messy old proofs paulson <lp15@cam.ac.uk> parents: 75078 diff changeset	573	by (metis Diff_Diff_Int closed_Compl diff_eq open_Compl sets.Diff sets_lebesgue_on_refl vimage_Compl)
70688 3d894e1cfc75 new material on Analysis, plus some rearrangements paulson <lp15@cam.ac.uk> parents: 70547 diff changeset	574	qed
3d894e1cfc75 new material on Analysis, plus some rearrangements paulson <lp15@cam.ac.uk> parents: 70547 diff changeset	575
3d894e1cfc75 new material on Analysis, plus some rearrangements paulson <lp15@cam.ac.uk> parents: 70547 diff changeset	576	lemma borel_measurable_vimage_closed_interval:
3d894e1cfc75 new material on Analysis, plus some rearrangements paulson <lp15@cam.ac.uk> parents: 70547 diff changeset	577	fixes f :: "'a::euclidean_space \<Rightarrow> 'b::euclidean_space"
3d894e1cfc75 new material on Analysis, plus some rearrangements paulson <lp15@cam.ac.uk> parents: 70547 diff changeset	578	shows "f \<in> borel_measurable (lebesgue_on S) \<longleftrightarrow>
3d894e1cfc75 new material on Analysis, plus some rearrangements paulson <lp15@cam.ac.uk> parents: 70547 diff changeset	579	(\<forall>a b. {x \<in> S. f x \<in> cbox a b} \<in> sets (lebesgue_on S))"
3d894e1cfc75 new material on Analysis, plus some rearrangements paulson <lp15@cam.ac.uk> parents: 70547 diff changeset	580	(is "?lhs = ?rhs")
3d894e1cfc75 new material on Analysis, plus some rearrangements paulson <lp15@cam.ac.uk> parents: 70547 diff changeset	581	proof
3d894e1cfc75 new material on Analysis, plus some rearrangements paulson <lp15@cam.ac.uk> parents: 70547 diff changeset	582	assume ?lhs then show ?rhs
3d894e1cfc75 new material on Analysis, plus some rearrangements paulson <lp15@cam.ac.uk> parents: 70547 diff changeset	583	using borel_measurable_vimage_closed by blast
3d894e1cfc75 new material on Analysis, plus some rearrangements paulson <lp15@cam.ac.uk> parents: 70547 diff changeset	584	next
3d894e1cfc75 new material on Analysis, plus some rearrangements paulson <lp15@cam.ac.uk> parents: 70547 diff changeset	585	assume RHS: ?rhs
3d894e1cfc75 new material on Analysis, plus some rearrangements paulson <lp15@cam.ac.uk> parents: 70547 diff changeset	586	have "{x \<in> S. f x \<in> T} \<in> sets (lebesgue_on S)" if "open T" for T
3d894e1cfc75 new material on Analysis, plus some rearrangements paulson <lp15@cam.ac.uk> parents: 70547 diff changeset	587	proof -
3d894e1cfc75 new material on Analysis, plus some rearrangements paulson <lp15@cam.ac.uk> parents: 70547 diff changeset	588	obtain \<D> where "countable \<D>" and \<D>: "\<D> \<subseteq> Pow T" "\<And>X. X \<in> \<D> \<Longrightarrow> \<exists>a b. X = cbox a b" "\<Union>\<D> = T"
3d894e1cfc75 new material on Analysis, plus some rearrangements paulson <lp15@cam.ac.uk> parents: 70547 diff changeset	589	using open_countable_Union_open_cbox that \<open>open T\<close> by metis
3d894e1cfc75 new material on Analysis, plus some rearrangements paulson <lp15@cam.ac.uk> parents: 70547 diff changeset	590	then have eq: "{x \<in> S. f x \<in> T} = (\<Union>U \<in> \<D>. {x \<in> S. f x \<in> U})"
3d894e1cfc75 new material on Analysis, plus some rearrangements paulson <lp15@cam.ac.uk> parents: 70547 diff changeset	591	by blast
3d894e1cfc75 new material on Analysis, plus some rearrangements paulson <lp15@cam.ac.uk> parents: 70547 diff changeset	592	have "{x \<in> S. f x \<in> U} \<in> sets (lebesgue_on S)" if "U \<in> \<D>" for U
3d894e1cfc75 new material on Analysis, plus some rearrangements paulson <lp15@cam.ac.uk> parents: 70547 diff changeset	593	using that \<D> by (metis RHS)
3d894e1cfc75 new material on Analysis, plus some rearrangements paulson <lp15@cam.ac.uk> parents: 70547 diff changeset	594	then show ?thesis
3d894e1cfc75 new material on Analysis, plus some rearrangements paulson <lp15@cam.ac.uk> parents: 70547 diff changeset	595	by (auto simp: eq intro: Sigma_Algebra.sets.countable_UN' [OF \<open>countable \<D>\<close>])
3d894e1cfc75 new material on Analysis, plus some rearrangements paulson <lp15@cam.ac.uk> parents: 70547 diff changeset	596	qed
3d894e1cfc75 new material on Analysis, plus some rearrangements paulson <lp15@cam.ac.uk> parents: 70547 diff changeset	597	then show ?lhs
3d894e1cfc75 new material on Analysis, plus some rearrangements paulson <lp15@cam.ac.uk> parents: 70547 diff changeset	598	by (simp add: borel_measurable_vimage_open)
3d894e1cfc75 new material on Analysis, plus some rearrangements paulson <lp15@cam.ac.uk> parents: 70547 diff changeset	599	qed
3d894e1cfc75 new material on Analysis, plus some rearrangements paulson <lp15@cam.ac.uk> parents: 70547 diff changeset	600
3d894e1cfc75 new material on Analysis, plus some rearrangements paulson <lp15@cam.ac.uk> parents: 70547 diff changeset	601	lemma borel_measurable_vimage_borel:
3d894e1cfc75 new material on Analysis, plus some rearrangements paulson <lp15@cam.ac.uk> parents: 70547 diff changeset	602	fixes f :: "'a::euclidean_space \<Rightarrow> 'b::euclidean_space"
3d894e1cfc75 new material on Analysis, plus some rearrangements paulson <lp15@cam.ac.uk> parents: 70547 diff changeset	603	shows "f \<in> borel_measurable (lebesgue_on S) \<longleftrightarrow>
3d894e1cfc75 new material on Analysis, plus some rearrangements paulson <lp15@cam.ac.uk> parents: 70547 diff changeset	604	(\<forall>T. T \<in> sets borel \<longrightarrow> {x \<in> S. f x \<in> T} \<in> sets (lebesgue_on S))"
3d894e1cfc75 new material on Analysis, plus some rearrangements paulson <lp15@cam.ac.uk> parents: 70547 diff changeset	605	(is "?lhs = ?rhs")
3d894e1cfc75 new material on Analysis, plus some rearrangements paulson <lp15@cam.ac.uk> parents: 70547 diff changeset	606	proof
3d894e1cfc75 new material on Analysis, plus some rearrangements paulson <lp15@cam.ac.uk> parents: 70547 diff changeset	607	assume f: ?lhs
3d894e1cfc75 new material on Analysis, plus some rearrangements paulson <lp15@cam.ac.uk> parents: 70547 diff changeset	608	then show ?rhs
3d894e1cfc75 new material on Analysis, plus some rearrangements paulson <lp15@cam.ac.uk> parents: 70547 diff changeset	609	using measurable_sets [OF f]
3d894e1cfc75 new material on Analysis, plus some rearrangements paulson <lp15@cam.ac.uk> parents: 70547 diff changeset	610	by (simp add: Collect_conj_eq inf_sup_aci(1) space_restrict_space vimage_def)
3d894e1cfc75 new material on Analysis, plus some rearrangements paulson <lp15@cam.ac.uk> parents: 70547 diff changeset	611	qed (simp add: borel_measurable_vimage_open_interval)
3d894e1cfc75 new material on Analysis, plus some rearrangements paulson <lp15@cam.ac.uk> parents: 70547 diff changeset	612
3d894e1cfc75 new material on Analysis, plus some rearrangements paulson <lp15@cam.ac.uk> parents: 70547 diff changeset	613	lemma lebesgue_measurable_vimage_borel:
3d894e1cfc75 new material on Analysis, plus some rearrangements paulson <lp15@cam.ac.uk> parents: 70547 diff changeset	614	fixes f :: "'a::euclidean_space \<Rightarrow> 'b::euclidean_space"
3d894e1cfc75 new material on Analysis, plus some rearrangements paulson <lp15@cam.ac.uk> parents: 70547 diff changeset	615	assumes "f \<in> borel_measurable lebesgue" "T \<in> sets borel"
3d894e1cfc75 new material on Analysis, plus some rearrangements paulson <lp15@cam.ac.uk> parents: 70547 diff changeset	616	shows "{x. f x \<in> T} \<in> sets lebesgue"
3d894e1cfc75 new material on Analysis, plus some rearrangements paulson <lp15@cam.ac.uk> parents: 70547 diff changeset	617	using assms borel_measurable_vimage_borel [of f UNIV] by auto
3d894e1cfc75 new material on Analysis, plus some rearrangements paulson <lp15@cam.ac.uk> parents: 70547 diff changeset	618
3d894e1cfc75 new material on Analysis, plus some rearrangements paulson <lp15@cam.ac.uk> parents: 70547 diff changeset	619	lemma borel_measurable_lebesgue_preimage_borel:
3d894e1cfc75 new material on Analysis, plus some rearrangements paulson <lp15@cam.ac.uk> parents: 70547 diff changeset	620	fixes f :: "'a::euclidean_space \<Rightarrow> 'b::euclidean_space"
3d894e1cfc75 new material on Analysis, plus some rearrangements paulson <lp15@cam.ac.uk> parents: 70547 diff changeset	621	shows "f \<in> borel_measurable lebesgue \<longleftrightarrow>
3d894e1cfc75 new material on Analysis, plus some rearrangements paulson <lp15@cam.ac.uk> parents: 70547 diff changeset	622	(\<forall>T. T \<in> sets borel \<longrightarrow> {x. f x \<in> T} \<in> sets lebesgue)"
76786 50672d2d78db tidied some messy old proofs paulson <lp15@cam.ac.uk> parents: 75078 diff changeset	623	by (smt (verit, best) Collect_cong UNIV_I borel_measurable_vimage_borel lebesgue_on_UNIV_eq)
70688 3d894e1cfc75 new material on Analysis, plus some rearrangements paulson <lp15@cam.ac.uk> parents: 70547 diff changeset	624
3d894e1cfc75 new material on Analysis, plus some rearrangements paulson <lp15@cam.ac.uk> parents: 70547 diff changeset	625
3d894e1cfc75 new material on Analysis, plus some rearrangements paulson <lp15@cam.ac.uk> parents: 70547 diff changeset	626	subsection \<^marker>\<open>tag unimportant\<close> \<open>Measurability of continuous functions\<close>
69447 b7b9cbe0bd43 Tagged some of HOL-Analysis eberlm <eberlm@in.tum.de> parents: 69260 diff changeset	627
67982 7643b005b29a various new results on measures, integrals, etc., and some simplified proofs paulson <lp15@cam.ac.uk> parents: 67968 diff changeset	628	lemma continuous_imp_measurable_on_sets_lebesgue:
7643b005b29a various new results on measures, integrals, etc., and some simplified proofs paulson <lp15@cam.ac.uk> parents: 67968 diff changeset	629	assumes f: "continuous_on S f" and S: "S \<in> sets lebesgue"
7643b005b29a various new results on measures, integrals, etc., and some simplified proofs paulson <lp15@cam.ac.uk> parents: 67968 diff changeset	630	shows "f \<in> borel_measurable (lebesgue_on S)"
76786 50672d2d78db tidied some messy old proofs paulson <lp15@cam.ac.uk> parents: 75078 diff changeset	631	by (metis borel_measurable_continuous_on_restrict borel_measurable_subalgebra f
50672d2d78db tidied some messy old proofs paulson <lp15@cam.ac.uk> parents: 75078 diff changeset	632	lebesgue_on_UNIV_eq mono_restrict_space sets_completionI_sets sets_lborel space_borel
50672d2d78db tidied some messy old proofs paulson <lp15@cam.ac.uk> parents: 75078 diff changeset	633	space_lebesgue_on space_restrict_space subsetI)
67982 7643b005b29a various new results on measures, integrals, etc., and some simplified proofs paulson <lp15@cam.ac.uk> parents: 67968 diff changeset	634
70380 2b0dca68c3ee More analysis / measure theory material paulson <lp15@cam.ac.uk> parents: 70378 diff changeset	635	lemma id_borel_measurable_lebesgue [iff]: "id \<in> borel_measurable lebesgue"
2b0dca68c3ee More analysis / measure theory material paulson <lp15@cam.ac.uk> parents: 70378 diff changeset	636	by (simp add: measurable_completion)
2b0dca68c3ee More analysis / measure theory material paulson <lp15@cam.ac.uk> parents: 70378 diff changeset	637
2b0dca68c3ee More analysis / measure theory material paulson <lp15@cam.ac.uk> parents: 70378 diff changeset	638	lemma id_borel_measurable_lebesgue_on [iff]: "id \<in> borel_measurable (lebesgue_on S)"
2b0dca68c3ee More analysis / measure theory material paulson <lp15@cam.ac.uk> parents: 70378 diff changeset	639	by (simp add: measurable_completion measurable_restrict_space1)
2b0dca68c3ee More analysis / measure theory material paulson <lp15@cam.ac.uk> parents: 70378 diff changeset	640
57447 87429bdecad5 import more stuff from the CLT proof; base the lborel measure on interval_measure; remove lebesgue measure hoelzl parents: 57275 diff changeset	641	context
87429bdecad5 import more stuff from the CLT proof; base the lborel measure on interval_measure; remove lebesgue measure hoelzl parents: 57275 diff changeset	642	begin
87429bdecad5 import more stuff from the CLT proof; base the lborel measure on interval_measure; remove lebesgue measure hoelzl parents: 57275 diff changeset	643
87429bdecad5 import more stuff from the CLT proof; base the lborel measure on interval_measure; remove lebesgue measure hoelzl parents: 57275 diff changeset	644	interpretation sigma_finite_measure "interval_measure (\<lambda>x. x)"
87429bdecad5 import more stuff from the CLT proof; base the lborel measure on interval_measure; remove lebesgue measure hoelzl parents: 57275 diff changeset	645	by (rule sigma_finite_interval_measure) auto
87429bdecad5 import more stuff from the CLT proof; base the lborel measure on interval_measure; remove lebesgue measure hoelzl parents: 57275 diff changeset	646	interpretation finite_product_sigma_finite "\<lambda>_. interval_measure (\<lambda>x. x)" Basis
87429bdecad5 import more stuff from the CLT proof; base the lborel measure on interval_measure; remove lebesgue measure hoelzl parents: 57275 diff changeset	647	proof qed simp
87429bdecad5 import more stuff from the CLT proof; base the lborel measure on interval_measure; remove lebesgue measure hoelzl parents: 57275 diff changeset	648
87429bdecad5 import more stuff from the CLT proof; base the lborel measure on interval_measure; remove lebesgue measure hoelzl parents: 57275 diff changeset	649	lemma lborel_eq_real: "lborel = interval_measure (\<lambda>x. x)"
87429bdecad5 import more stuff from the CLT proof; base the lborel measure on interval_measure; remove lebesgue measure hoelzl parents: 57275 diff changeset	650	unfolding lborel_def Basis_real_def
87429bdecad5 import more stuff from the CLT proof; base the lborel measure on interval_measure; remove lebesgue measure hoelzl parents: 57275 diff changeset	651	using distr_id[of "interval_measure (\<lambda>x. x)"]
87429bdecad5 import more stuff from the CLT proof; base the lborel measure on interval_measure; remove lebesgue measure hoelzl parents: 57275 diff changeset	652	by (subst distr_component[symmetric])
87429bdecad5 import more stuff from the CLT proof; base the lborel measure on interval_measure; remove lebesgue measure hoelzl parents: 57275 diff changeset	653	(simp_all add: distr_distr comp_def del: distr_id cong: distr_cong)
87429bdecad5 import more stuff from the CLT proof; base the lborel measure on interval_measure; remove lebesgue measure hoelzl parents: 57275 diff changeset	654
87429bdecad5 import more stuff from the CLT proof; base the lborel measure on interval_measure; remove lebesgue measure hoelzl parents: 57275 diff changeset	655	lemma lborel_eq: "lborel = distr (\<Pi>\<^sub>M b\<in>Basis. lborel) borel (\<lambda>f. \<Sum>b\<in>Basis. f b *\<^sub>R b)"
87429bdecad5 import more stuff from the CLT proof; base the lborel measure on interval_measure; remove lebesgue measure hoelzl parents: 57275 diff changeset	656	by (subst lborel_def) (simp add: lborel_eq_real)
87429bdecad5 import more stuff from the CLT proof; base the lborel measure on interval_measure; remove lebesgue measure hoelzl parents: 57275 diff changeset	657
64272 f76b6dda2e56 setprod -> prod nipkow parents: 64267 diff changeset	658	lemma nn_integral_lborel_prod:
57447 87429bdecad5 import more stuff from the CLT proof; base the lborel measure on interval_measure; remove lebesgue measure hoelzl parents: 57275 diff changeset	659	assumes [measurable]: "\<And>b. b \<in> Basis \<Longrightarrow> f b \<in> borel_measurable borel"
87429bdecad5 import more stuff from the CLT proof; base the lborel measure on interval_measure; remove lebesgue measure hoelzl parents: 57275 diff changeset	660	assumes nn[simp]: "\<And>b x. b \<in> Basis \<Longrightarrow> 0 \<le> f b x"
87429bdecad5 import more stuff from the CLT proof; base the lborel measure on interval_measure; remove lebesgue measure hoelzl parents: 57275 diff changeset	661	shows "(\<integral>\<^sup>+x. (\<Prod>b\<in>Basis. f b (x \<bullet> b)) \<partial>lborel) = (\<Prod>b\<in>Basis. (\<integral>\<^sup>+x. f b x \<partial>lborel))"
64272 f76b6dda2e56 setprod -> prod nipkow parents: 64267 diff changeset	662	by (simp add: lborel_def nn_integral_distr product_nn_integral_prod
57447 87429bdecad5 import more stuff from the CLT proof; base the lborel measure on interval_measure; remove lebesgue measure hoelzl parents: 57275 diff changeset	663	product_nn_integral_singleton)
87429bdecad5 import more stuff from the CLT proof; base the lborel measure on interval_measure; remove lebesgue measure hoelzl parents: 57275 diff changeset	664
60615 e5fa1d5d3952 Useful lemmas. The theorem concerning swapping the variables in a double integral. paulson <lp15@cam.ac.uk> parents: 59741 diff changeset	665	lemma emeasure_lborel_Icc[simp]:
57447 87429bdecad5 import more stuff from the CLT proof; base the lborel measure on interval_measure; remove lebesgue measure hoelzl parents: 57275 diff changeset	666	fixes l u :: real
87429bdecad5 import more stuff from the CLT proof; base the lborel measure on interval_measure; remove lebesgue measure hoelzl parents: 57275 diff changeset	667	assumes [simp]: "l \<le> u"
87429bdecad5 import more stuff from the CLT proof; base the lborel measure on interval_measure; remove lebesgue measure hoelzl parents: 57275 diff changeset	668	shows "emeasure lborel {l .. u} = u - l"
76786 50672d2d78db tidied some messy old proofs paulson <lp15@cam.ac.uk> parents: 75078 diff changeset	669	by (simp add: emeasure_interval_measure_Icc lborel_eq_real)
50104 de19856feb54 move theorems to be more generally useable hoelzl parents: 50003 diff changeset	670
62975 1d066f6ab25d Probability: move emeasure and nn_integral from ereal to ennreal hoelzl parents: 62390 diff changeset	671	lemma emeasure_lborel_Icc_eq: "emeasure lborel {l .. u} = ennreal (if l \<le> u then u - l else 0)"
57447 87429bdecad5 import more stuff from the CLT proof; base the lborel measure on interval_measure; remove lebesgue measure hoelzl parents: 57275 diff changeset	672	by simp
47694 05663f75964c reworked Probability theory hoelzl parents: 46905 diff changeset	673
70136 f03a01a18c6e modernized tags: default scope excludes proof; wenzelm parents: 69922 diff changeset	674	lemma\<^marker>\<open>tag important\<close> emeasure_lborel_cbox[simp]:
57447 87429bdecad5 import more stuff from the CLT proof; base the lborel measure on interval_measure; remove lebesgue measure hoelzl parents: 57275 diff changeset	675	assumes [simp]: "\<And>b. b \<in> Basis \<Longrightarrow> l \<bullet> b \<le> u \<bullet> b"
87429bdecad5 import more stuff from the CLT proof; base the lborel measure on interval_measure; remove lebesgue measure hoelzl parents: 57275 diff changeset	676	shows "emeasure lborel (cbox l u) = (\<Prod>b\<in>Basis. (u - l) \<bullet> b)"
70136 f03a01a18c6e modernized tags: default scope excludes proof; wenzelm parents: 69922 diff changeset	677	proof -
62975 1d066f6ab25d Probability: move emeasure and nn_integral from ereal to ennreal hoelzl parents: 62390 diff changeset	678	have "(\<lambda>x. \<Prod>b\<in>Basis. indicator {l\<bullet>b .. u\<bullet>b} (x \<bullet> b) :: ennreal) = indicator (cbox l u)"
1d066f6ab25d Probability: move emeasure and nn_integral from ereal to ennreal hoelzl parents: 62390 diff changeset	679	by (auto simp: fun_eq_iff cbox_def split: split_indicator)
57447 87429bdecad5 import more stuff from the CLT proof; base the lborel measure on interval_measure; remove lebesgue measure hoelzl parents: 57275 diff changeset	680	then have "emeasure lborel (cbox l u) = (\<integral>\<^sup>+x. (\<Prod>b\<in>Basis. indicator {l\<bullet>b .. u\<bullet>b} (x \<bullet> b)) \<partial>lborel)"
87429bdecad5 import more stuff from the CLT proof; base the lborel measure on interval_measure; remove lebesgue measure hoelzl parents: 57275 diff changeset	681	by simp
87429bdecad5 import more stuff from the CLT proof; base the lborel measure on interval_measure; remove lebesgue measure hoelzl parents: 57275 diff changeset	682	also have "\<dots> = (\<Prod>b\<in>Basis. (u - l) \<bullet> b)"
64272 f76b6dda2e56 setprod -> prod nipkow parents: 64267 diff changeset	683	by (subst nn_integral_lborel_prod) (simp_all add: prod_ennreal inner_diff_left)
47694 05663f75964c reworked Probability theory hoelzl parents: 46905 diff changeset	684	finally show ?thesis .
38656 d5d342611edb Rewrite the Probability theory. hoelzl parents: diff changeset	685	qed
d5d342611edb Rewrite the Probability theory. hoelzl parents: diff changeset	686
57447 87429bdecad5 import more stuff from the CLT proof; base the lborel measure on interval_measure; remove lebesgue measure hoelzl parents: 57275 diff changeset	687	lemma AE_lborel_singleton: "AE x in lborel::'a::euclidean_space measure. x \<noteq> c"
62975 1d066f6ab25d Probability: move emeasure and nn_integral from ereal to ennreal hoelzl parents: 62390 diff changeset	688	using SOME_Basis AE_discrete_difference [of "{c}" lborel] emeasure_lborel_cbox [of c c]
67982 7643b005b29a various new results on measures, integrals, etc., and some simplified proofs paulson <lp15@cam.ac.uk> parents: 67968 diff changeset	689	by (auto simp add: power_0_left)
47757 5e6fe71e2390 equate positive Lebesgue integral and MV-Analysis' Gauge integral hoelzl parents: 47694 diff changeset	690
57447 87429bdecad5 import more stuff from the CLT proof; base the lborel measure on interval_measure; remove lebesgue measure hoelzl parents: 57275 diff changeset	691	lemma emeasure_lborel_Ioo[simp]:
87429bdecad5 import more stuff from the CLT proof; base the lborel measure on interval_measure; remove lebesgue measure hoelzl parents: 57275 diff changeset	692	assumes [simp]: "l \<le> u"
62975 1d066f6ab25d Probability: move emeasure and nn_integral from ereal to ennreal hoelzl parents: 62390 diff changeset	693	shows "emeasure lborel {l <..< u} = ennreal (u - l)"
40859 de0b30e6c2d2 Support product spaces on sigma finite measures. hoelzl parents: 38656 diff changeset	694	proof -
57447 87429bdecad5 import more stuff from the CLT proof; base the lborel measure on interval_measure; remove lebesgue measure hoelzl parents: 57275 diff changeset	695	have "emeasure lborel {l <..< u} = emeasure lborel {l .. u}"
87429bdecad5 import more stuff from the CLT proof; base the lborel measure on interval_measure; remove lebesgue measure hoelzl parents: 57275 diff changeset	696	using AE_lborel_singleton[of u] AE_lborel_singleton[of l] by (intro emeasure_eq_AE) auto
47694 05663f75964c reworked Probability theory hoelzl parents: 46905 diff changeset	697	then show ?thesis
57447 87429bdecad5 import more stuff from the CLT proof; base the lborel measure on interval_measure; remove lebesgue measure hoelzl parents: 57275 diff changeset	698	by simp
41981 cdf7693bbe08 reworked Probability theory: measures are not type restricted to positive extended reals hoelzl parents: 41831 diff changeset	699	qed
38656 d5d342611edb Rewrite the Probability theory. hoelzl parents: diff changeset	700
57447 87429bdecad5 import more stuff from the CLT proof; base the lborel measure on interval_measure; remove lebesgue measure hoelzl parents: 57275 diff changeset	701	lemma emeasure_lborel_Ioc[simp]:
87429bdecad5 import more stuff from the CLT proof; base the lborel measure on interval_measure; remove lebesgue measure hoelzl parents: 57275 diff changeset	702	assumes [simp]: "l \<le> u"
62975 1d066f6ab25d Probability: move emeasure and nn_integral from ereal to ennreal hoelzl parents: 62390 diff changeset	703	shows "emeasure lborel {l <.. u} = ennreal (u - l)"
76786 50672d2d78db tidied some messy old proofs paulson <lp15@cam.ac.uk> parents: 75078 diff changeset	704	by (simp add: emeasure_interval_measure_Ioc lborel_eq_real)
38656 d5d342611edb Rewrite the Probability theory. hoelzl parents: diff changeset	705
57447 87429bdecad5 import more stuff from the CLT proof; base the lborel measure on interval_measure; remove lebesgue measure hoelzl parents: 57275 diff changeset	706	lemma emeasure_lborel_Ico[simp]:
87429bdecad5 import more stuff from the CLT proof; base the lborel measure on interval_measure; remove lebesgue measure hoelzl parents: 57275 diff changeset	707	assumes [simp]: "l \<le> u"
62975 1d066f6ab25d Probability: move emeasure and nn_integral from ereal to ennreal hoelzl parents: 62390 diff changeset	708	shows "emeasure lborel {l ..< u} = ennreal (u - l)"
57447 87429bdecad5 import more stuff from the CLT proof; base the lborel measure on interval_measure; remove lebesgue measure hoelzl parents: 57275 diff changeset	709	proof -
87429bdecad5 import more stuff from the CLT proof; base the lborel measure on interval_measure; remove lebesgue measure hoelzl parents: 57275 diff changeset	710	have "emeasure lborel {l ..< u} = emeasure lborel {l .. u}"
87429bdecad5 import more stuff from the CLT proof; base the lborel measure on interval_measure; remove lebesgue measure hoelzl parents: 57275 diff changeset	711	using AE_lborel_singleton[of u] AE_lborel_singleton[of l] by (intro emeasure_eq_AE) auto
87429bdecad5 import more stuff from the CLT proof; base the lborel measure on interval_measure; remove lebesgue measure hoelzl parents: 57275 diff changeset	712	then show ?thesis
87429bdecad5 import more stuff from the CLT proof; base the lborel measure on interval_measure; remove lebesgue measure hoelzl parents: 57275 diff changeset	713	by simp
38656 d5d342611edb Rewrite the Probability theory. hoelzl parents: diff changeset	714	qed
d5d342611edb Rewrite the Probability theory. hoelzl parents: diff changeset	715
57447 87429bdecad5 import more stuff from the CLT proof; base the lborel measure on interval_measure; remove lebesgue measure hoelzl parents: 57275 diff changeset	716	lemma emeasure_lborel_box[simp]:
87429bdecad5 import more stuff from the CLT proof; base the lborel measure on interval_measure; remove lebesgue measure hoelzl parents: 57275 diff changeset	717	assumes [simp]: "\<And>b. b \<in> Basis \<Longrightarrow> l \<bullet> b \<le> u \<bullet> b"
87429bdecad5 import more stuff from the CLT proof; base the lborel measure on interval_measure; remove lebesgue measure hoelzl parents: 57275 diff changeset	718	shows "emeasure lborel (box l u) = (\<Prod>b\<in>Basis. (u - l) \<bullet> b)"
87429bdecad5 import more stuff from the CLT proof; base the lborel measure on interval_measure; remove lebesgue measure hoelzl parents: 57275 diff changeset	719	proof -
62975 1d066f6ab25d Probability: move emeasure and nn_integral from ereal to ennreal hoelzl parents: 62390 diff changeset	720	have "(\<lambda>x. \<Prod>b\<in>Basis. indicator {l\<bullet>b <..< u\<bullet>b} (x \<bullet> b) :: ennreal) = indicator (box l u)"
1d066f6ab25d Probability: move emeasure and nn_integral from ereal to ennreal hoelzl parents: 62390 diff changeset	721	by (auto simp: fun_eq_iff box_def split: split_indicator)
57447 87429bdecad5 import more stuff from the CLT proof; base the lborel measure on interval_measure; remove lebesgue measure hoelzl parents: 57275 diff changeset	722	then have "emeasure lborel (box l u) = (\<integral>\<^sup>+x. (\<Prod>b\<in>Basis. indicator {l\<bullet>b <..< u\<bullet>b} (x \<bullet> b)) \<partial>lborel)"
87429bdecad5 import more stuff from the CLT proof; base the lborel measure on interval_measure; remove lebesgue measure hoelzl parents: 57275 diff changeset	723	by simp
87429bdecad5 import more stuff from the CLT proof; base the lborel measure on interval_measure; remove lebesgue measure hoelzl parents: 57275 diff changeset	724	also have "\<dots> = (\<Prod>b\<in>Basis. (u - l) \<bullet> b)"
64272 f76b6dda2e56 setprod -> prod nipkow parents: 64267 diff changeset	725	by (subst nn_integral_lborel_prod) (simp_all add: prod_ennreal inner_diff_left)
57447 87429bdecad5 import more stuff from the CLT proof; base the lborel measure on interval_measure; remove lebesgue measure hoelzl parents: 57275 diff changeset	726	finally show ?thesis .
40859 de0b30e6c2d2 Support product spaces on sigma finite measures. hoelzl parents: 38656 diff changeset	727	qed
38656 d5d342611edb Rewrite the Probability theory. hoelzl parents: diff changeset	728
57447 87429bdecad5 import more stuff from the CLT proof; base the lborel measure on interval_measure; remove lebesgue measure hoelzl parents: 57275 diff changeset	729	lemma emeasure_lborel_cbox_eq:
87429bdecad5 import more stuff from the CLT proof; base the lborel measure on interval_measure; remove lebesgue measure hoelzl parents: 57275 diff changeset	730	"emeasure lborel (cbox l u) = (if \<forall>b\<in>Basis. l \<bullet> b \<le> u \<bullet> b then \<Prod>b\<in>Basis. (u - l) \<bullet> b else 0)"
87429bdecad5 import more stuff from the CLT proof; base the lborel measure on interval_measure; remove lebesgue measure hoelzl parents: 57275 diff changeset	731	using box_eq_empty(2)[THEN iffD2, of u l] by (auto simp: not_le)
41654 32fe42892983 Gauge measure removed hoelzl parents: 41546 diff changeset	732
57447 87429bdecad5 import more stuff from the CLT proof; base the lborel measure on interval_measure; remove lebesgue measure hoelzl parents: 57275 diff changeset	733	lemma emeasure_lborel_box_eq:
87429bdecad5 import more stuff from the CLT proof; base the lborel measure on interval_measure; remove lebesgue measure hoelzl parents: 57275 diff changeset	734	"emeasure lborel (box l u) = (if \<forall>b\<in>Basis. l \<bullet> b \<le> u \<bullet> b then \<Prod>b\<in>Basis. (u - l) \<bullet> b else 0)"
87429bdecad5 import more stuff from the CLT proof; base the lborel measure on interval_measure; remove lebesgue measure hoelzl parents: 57275 diff changeset	735	using box_eq_empty(1)[THEN iffD2, of u l] by (auto simp: not_le dest!: less_imp_le) force
40859 de0b30e6c2d2 Support product spaces on sigma finite measures. hoelzl parents: 38656 diff changeset	736
63886 685fb01256af move Henstock-Kurzweil integration after Lebesgue_Measure; replace content by abbreviation measure lborel hoelzl parents: 63627 diff changeset	737	lemma emeasure_lborel_singleton[simp]: "emeasure lborel {x} = 0"
685fb01256af move Henstock-Kurzweil integration after Lebesgue_Measure; replace content by abbreviation measure lborel hoelzl parents: 63627 diff changeset	738	using emeasure_lborel_cbox[of x x] nonempty_Basis
71172 575b3a818de5 tuned nipkow parents: 70817 diff changeset	739	by (auto simp del: emeasure_lborel_cbox nonempty_Basis)
66164 2d79288b042c New theorems and much tidying up of the old ones paulson <lp15@cam.ac.uk> parents: 65680 diff changeset	740
71192 a8ccea88b725 Flattened dependency tree of HOL-Analysis Manuel Eberl <eberlm@in.tum.de> parents: 71172 diff changeset	741	lemma emeasure_lborel_cbox_finite: "emeasure lborel (cbox a b) < \<infinity>"
a8ccea88b725 Flattened dependency tree of HOL-Analysis Manuel Eberl <eberlm@in.tum.de> parents: 71172 diff changeset	742	by (auto simp: emeasure_lborel_cbox_eq)
a8ccea88b725 Flattened dependency tree of HOL-Analysis Manuel Eberl <eberlm@in.tum.de> parents: 71172 diff changeset	743
a8ccea88b725 Flattened dependency tree of HOL-Analysis Manuel Eberl <eberlm@in.tum.de> parents: 71172 diff changeset	744	lemma emeasure_lborel_box_finite: "emeasure lborel (box a b) < \<infinity>"
a8ccea88b725 Flattened dependency tree of HOL-Analysis Manuel Eberl <eberlm@in.tum.de> parents: 71172 diff changeset	745	by (auto simp: emeasure_lborel_box_eq)
a8ccea88b725 Flattened dependency tree of HOL-Analysis Manuel Eberl <eberlm@in.tum.de> parents: 71172 diff changeset	746
a8ccea88b725 Flattened dependency tree of HOL-Analysis Manuel Eberl <eberlm@in.tum.de> parents: 71172 diff changeset	747	lemma emeasure_lborel_ball_finite: "emeasure lborel (ball c r) < \<infinity>"
76786 50672d2d78db tidied some messy old proofs paulson <lp15@cam.ac.uk> parents: 75078 diff changeset	748	by (metis bounded_ball bounded_subset_cbox_symmetric cbox_borel emeasure_lborel_cbox_finite
50672d2d78db tidied some messy old proofs paulson <lp15@cam.ac.uk> parents: 75078 diff changeset	749	emeasure_mono order_le_less_trans sets_lborel)
71192 a8ccea88b725 Flattened dependency tree of HOL-Analysis Manuel Eberl <eberlm@in.tum.de> parents: 71172 diff changeset	750
a8ccea88b725 Flattened dependency tree of HOL-Analysis Manuel Eberl <eberlm@in.tum.de> parents: 71172 diff changeset	751	lemma emeasure_lborel_cball_finite: "emeasure lborel (cball c r) < \<infinity>"
76786 50672d2d78db tidied some messy old proofs paulson <lp15@cam.ac.uk> parents: 75078 diff changeset	752	by (metis bounded_cball bounded_subset_cbox_symmetric cbox_borel emeasure_lborel_cbox_finite
50672d2d78db tidied some messy old proofs paulson <lp15@cam.ac.uk> parents: 75078 diff changeset	753	emeasure_mono order_le_less_trans sets_lborel)
71192 a8ccea88b725 Flattened dependency tree of HOL-Analysis Manuel Eberl <eberlm@in.tum.de> parents: 71172 diff changeset	754
66164 2d79288b042c New theorems and much tidying up of the old ones paulson <lp15@cam.ac.uk> parents: 65680 diff changeset	755	lemma fmeasurable_cbox [iff]: "cbox a b \<in> fmeasurable lborel"
2d79288b042c New theorems and much tidying up of the old ones paulson <lp15@cam.ac.uk> parents: 65680 diff changeset	756	and fmeasurable_box [iff]: "box a b \<in> fmeasurable lborel"
2d79288b042c New theorems and much tidying up of the old ones paulson <lp15@cam.ac.uk> parents: 65680 diff changeset	757	by (auto simp: fmeasurable_def emeasure_lborel_box_eq emeasure_lborel_cbox_eq)
63886 685fb01256af move Henstock-Kurzweil integration after Lebesgue_Measure; replace content by abbreviation measure lborel hoelzl parents: 63627 diff changeset	758
40859 de0b30e6c2d2 Support product spaces on sigma finite measures. hoelzl parents: 38656 diff changeset	759	lemma
57447 87429bdecad5 import more stuff from the CLT proof; base the lborel measure on interval_measure; remove lebesgue measure hoelzl parents: 57275 diff changeset	760	fixes l u :: real
87429bdecad5 import more stuff from the CLT proof; base the lborel measure on interval_measure; remove lebesgue measure hoelzl parents: 57275 diff changeset	761	assumes [simp]: "l \<le> u"
87429bdecad5 import more stuff from the CLT proof; base the lborel measure on interval_measure; remove lebesgue measure hoelzl parents: 57275 diff changeset	762	shows measure_lborel_Icc[simp]: "measure lborel {l .. u} = u - l"
87429bdecad5 import more stuff from the CLT proof; base the lborel measure on interval_measure; remove lebesgue measure hoelzl parents: 57275 diff changeset	763	and measure_lborel_Ico[simp]: "measure lborel {l ..< u} = u - l"
87429bdecad5 import more stuff from the CLT proof; base the lborel measure on interval_measure; remove lebesgue measure hoelzl parents: 57275 diff changeset	764	and measure_lborel_Ioc[simp]: "measure lborel {l <.. u} = u - l"
87429bdecad5 import more stuff from the CLT proof; base the lborel measure on interval_measure; remove lebesgue measure hoelzl parents: 57275 diff changeset	765	and measure_lborel_Ioo[simp]: "measure lborel {l <..< u} = u - l"
87429bdecad5 import more stuff from the CLT proof; base the lborel measure on interval_measure; remove lebesgue measure hoelzl parents: 57275 diff changeset	766	by (simp_all add: measure_def)
40859 de0b30e6c2d2 Support product spaces on sigma finite measures. hoelzl parents: 38656 diff changeset	767
60615 e5fa1d5d3952 Useful lemmas. The theorem concerning swapping the variables in a double integral. paulson <lp15@cam.ac.uk> parents: 59741 diff changeset	768	lemma
57447 87429bdecad5 import more stuff from the CLT proof; base the lborel measure on interval_measure; remove lebesgue measure hoelzl parents: 57275 diff changeset	769	assumes [simp]: "\<And>b. b \<in> Basis \<Longrightarrow> l \<bullet> b \<le> u \<bullet> b"
87429bdecad5 import more stuff from the CLT proof; base the lborel measure on interval_measure; remove lebesgue measure hoelzl parents: 57275 diff changeset	770	shows measure_lborel_box[simp]: "measure lborel (box l u) = (\<Prod>b\<in>Basis. (u - l) \<bullet> b)"
87429bdecad5 import more stuff from the CLT proof; base the lborel measure on interval_measure; remove lebesgue measure hoelzl parents: 57275 diff changeset	771	and measure_lborel_cbox[simp]: "measure lborel (cbox l u) = (\<Prod>b\<in>Basis. (u - l) \<bullet> b)"
64272 f76b6dda2e56 setprod -> prod nipkow parents: 64267 diff changeset	772	by (simp_all add: measure_def inner_diff_left prod_nonneg)
41654 32fe42892983 Gauge measure removed hoelzl parents: 41546 diff changeset	773
63886 685fb01256af move Henstock-Kurzweil integration after Lebesgue_Measure; replace content by abbreviation measure lborel hoelzl parents: 63627 diff changeset	774	lemma measure_lborel_cbox_eq:
685fb01256af move Henstock-Kurzweil integration after Lebesgue_Measure; replace content by abbreviation measure lborel hoelzl parents: 63627 diff changeset	775	"measure lborel (cbox l u) = (if \<forall>b\<in>Basis. l \<bullet> b \<le> u \<bullet> b then \<Prod>b\<in>Basis. (u - l) \<bullet> b else 0)"
685fb01256af move Henstock-Kurzweil integration after Lebesgue_Measure; replace content by abbreviation measure lborel hoelzl parents: 63627 diff changeset	776	using box_eq_empty(2)[THEN iffD2, of u l] by (auto simp: not_le)
685fb01256af move Henstock-Kurzweil integration after Lebesgue_Measure; replace content by abbreviation measure lborel hoelzl parents: 63627 diff changeset	777
685fb01256af move Henstock-Kurzweil integration after Lebesgue_Measure; replace content by abbreviation measure lborel hoelzl parents: 63627 diff changeset	778	lemma measure_lborel_box_eq:
685fb01256af move Henstock-Kurzweil integration after Lebesgue_Measure; replace content by abbreviation measure lborel hoelzl parents: 63627 diff changeset	779	"measure lborel (box l u) = (if \<forall>b\<in>Basis. l \<bullet> b \<le> u \<bullet> b then \<Prod>b\<in>Basis. (u - l) \<bullet> b else 0)"
685fb01256af move Henstock-Kurzweil integration after Lebesgue_Measure; replace content by abbreviation measure lborel hoelzl parents: 63627 diff changeset	780	using box_eq_empty(1)[THEN iffD2, of u l] by (auto simp: not_le dest!: less_imp_le) force
685fb01256af move Henstock-Kurzweil integration after Lebesgue_Measure; replace content by abbreviation measure lborel hoelzl parents: 63627 diff changeset	781
685fb01256af move Henstock-Kurzweil integration after Lebesgue_Measure; replace content by abbreviation measure lborel hoelzl parents: 63627 diff changeset	782	lemma measure_lborel_singleton[simp]: "measure lborel {x} = 0"
685fb01256af move Henstock-Kurzweil integration after Lebesgue_Measure; replace content by abbreviation measure lborel hoelzl parents: 63627 diff changeset	783	by (simp add: measure_def)
685fb01256af move Henstock-Kurzweil integration after Lebesgue_Measure; replace content by abbreviation measure lborel hoelzl parents: 63627 diff changeset	784
57447 87429bdecad5 import more stuff from the CLT proof; base the lborel measure on interval_measure; remove lebesgue measure hoelzl parents: 57275 diff changeset	785	lemma sigma_finite_lborel: "sigma_finite_measure lborel"
87429bdecad5 import more stuff from the CLT proof; base the lborel measure on interval_measure; remove lebesgue measure hoelzl parents: 57275 diff changeset	786	proof
87429bdecad5 import more stuff from the CLT proof; base the lborel measure on interval_measure; remove lebesgue measure hoelzl parents: 57275 diff changeset	787	show "\<exists>A::'a set set. countable A \<and> A \<subseteq> sets lborel \<and> \<Union>A = space lborel \<and> (\<forall>a\<in>A. emeasure lborel a \<noteq> \<infinity>)"
87429bdecad5 import more stuff from the CLT proof; base the lborel measure on interval_measure; remove lebesgue measure hoelzl parents: 57275 diff changeset	788	by (intro exI[of _ "range (\<lambda>n::nat. box (- real n \<^sub>R One) (real n \<^sub>R One))"])
87429bdecad5 import more stuff from the CLT proof; base the lborel measure on interval_measure; remove lebesgue measure hoelzl parents: 57275 diff changeset	789	(auto simp: emeasure_lborel_cbox_eq UN_box_eq_UNIV)
49777 6ac97ab9b295 tuned Lebesgue measure proofs hoelzl parents: 47757 diff changeset	790	qed
40859 de0b30e6c2d2 Support product spaces on sigma finite measures. hoelzl parents: 38656 diff changeset	791
57447 87429bdecad5 import more stuff from the CLT proof; base the lborel measure on interval_measure; remove lebesgue measure hoelzl parents: 57275 diff changeset	792	end
41689 3e39b0e730d6 the measure valuation is again part of the measure_space type, instead of an explicit parameter to the locale; hoelzl parents: 41661 diff changeset	793
67982 7643b005b29a various new results on measures, integrals, etc., and some simplified proofs paulson <lp15@cam.ac.uk> parents: 67968 diff changeset	794	lemma emeasure_lborel_UNIV [simp]: "emeasure lborel (UNIV::'a::euclidean_space set) = \<infinity>"
59741 5b762cd73a8e Lots of new material on complex-valued functions. Modified simplification of (x/n)^k paulson <lp15@cam.ac.uk> parents: 59554 diff changeset	795	proof -
5b762cd73a8e Lots of new material on complex-valued functions. Modified simplification of (x/n)^k paulson <lp15@cam.ac.uk> parents: 59554 diff changeset	796	{ fix n::nat
5b762cd73a8e Lots of new material on complex-valued functions. Modified simplification of (x/n)^k paulson <lp15@cam.ac.uk> parents: 59554 diff changeset	797	let ?Ba = "Basis :: 'a set"
5b762cd73a8e Lots of new material on complex-valued functions. Modified simplification of (x/n)^k paulson <lp15@cam.ac.uk> parents: 59554 diff changeset	798	have "real n \<le> (2::real) ^ card ?Ba * real n"
5b762cd73a8e Lots of new material on complex-valued functions. Modified simplification of (x/n)^k paulson <lp15@cam.ac.uk> parents: 59554 diff changeset	799	by (simp add: mult_le_cancel_right1)
60615 e5fa1d5d3952 Useful lemmas. The theorem concerning swapping the variables in a double integral. paulson <lp15@cam.ac.uk> parents: 59741 diff changeset	800	also
59741 5b762cd73a8e Lots of new material on complex-valued functions. Modified simplification of (x/n)^k paulson <lp15@cam.ac.uk> parents: 59554 diff changeset	801	have "... \<le> (2::real) ^ card ?Ba * real (Suc n) ^ card ?Ba"
5b762cd73a8e Lots of new material on complex-valued functions. Modified simplification of (x/n)^k paulson <lp15@cam.ac.uk> parents: 59554 diff changeset	802	apply (rule mult_left_mono)
61609 77b453bd616f Coercion "real" now has type nat => real only and is no longer overloaded. Type class "real_of" is gone. Many duplicate theorems removed. paulson <lp15@cam.ac.uk> parents: 61284 diff changeset	803	apply (metis DIM_positive One_nat_def less_eq_Suc_le less_imp_le of_nat_le_iff of_nat_power self_le_power zero_less_Suc)
71172 575b3a818de5 tuned nipkow parents: 70817 diff changeset	804	apply (simp)
59741 5b762cd73a8e Lots of new material on complex-valued functions. Modified simplification of (x/n)^k paulson <lp15@cam.ac.uk> parents: 59554 diff changeset	805	done
5b762cd73a8e Lots of new material on complex-valued functions. Modified simplification of (x/n)^k paulson <lp15@cam.ac.uk> parents: 59554 diff changeset	806	finally have "real n \<le> (2::real) ^ card ?Ba * real (Suc n) ^ card ?Ba" .
5b762cd73a8e Lots of new material on complex-valued functions. Modified simplification of (x/n)^k paulson <lp15@cam.ac.uk> parents: 59554 diff changeset	807	} note [intro!] = this
5b762cd73a8e Lots of new material on complex-valued functions. Modified simplification of (x/n)^k paulson <lp15@cam.ac.uk> parents: 59554 diff changeset	808	show ?thesis
5b762cd73a8e Lots of new material on complex-valued functions. Modified simplification of (x/n)^k paulson <lp15@cam.ac.uk> parents: 59554 diff changeset	809	unfolding UN_box_eq_UNIV[symmetric]
5b762cd73a8e Lots of new material on complex-valued functions. Modified simplification of (x/n)^k paulson <lp15@cam.ac.uk> parents: 59554 diff changeset	810	apply (subst SUP_emeasure_incseq[symmetric])
71172 575b3a818de5 tuned nipkow parents: 70817 diff changeset	811	apply (auto simp: incseq_def subset_box inner_add_left
62975 1d066f6ab25d Probability: move emeasure and nn_integral from ereal to ennreal hoelzl parents: 62390 diff changeset	812	simp del: Sup_eq_top_iff SUP_eq_top_iff
1d066f6ab25d Probability: move emeasure and nn_integral from ereal to ennreal hoelzl parents: 62390 diff changeset	813	intro!: ennreal_SUP_eq_top)
60615 e5fa1d5d3952 Useful lemmas. The theorem concerning swapping the variables in a double integral. paulson <lp15@cam.ac.uk> parents: 59741 diff changeset	814	done
59741 5b762cd73a8e Lots of new material on complex-valued functions. Modified simplification of (x/n)^k paulson <lp15@cam.ac.uk> parents: 59554 diff changeset	815	qed
40859 de0b30e6c2d2 Support product spaces on sigma finite measures. hoelzl parents: 38656 diff changeset	816
57447 87429bdecad5 import more stuff from the CLT proof; base the lborel measure on interval_measure; remove lebesgue measure hoelzl parents: 57275 diff changeset	817	lemma emeasure_lborel_countable:
87429bdecad5 import more stuff from the CLT proof; base the lborel measure on interval_measure; remove lebesgue measure hoelzl parents: 57275 diff changeset	818	fixes A :: "'a::euclidean_space set"
87429bdecad5 import more stuff from the CLT proof; base the lborel measure on interval_measure; remove lebesgue measure hoelzl parents: 57275 diff changeset	819	assumes "countable A"
87429bdecad5 import more stuff from the CLT proof; base the lborel measure on interval_measure; remove lebesgue measure hoelzl parents: 57275 diff changeset	820	shows "emeasure lborel A = 0"
87429bdecad5 import more stuff from the CLT proof; base the lborel measure on interval_measure; remove lebesgue measure hoelzl parents: 57275 diff changeset	821	proof -
87429bdecad5 import more stuff from the CLT proof; base the lborel measure on interval_measure; remove lebesgue measure hoelzl parents: 57275 diff changeset	822	have "A \<subseteq> (\<Union>i. {from_nat_into A i})" using from_nat_into_surj assms by force
63262 e497387de7af remove smt call in Lebesge_Measure hoelzl parents: 63040 diff changeset	823	then have "emeasure lborel A \<le> emeasure lborel (\<Union>i. {from_nat_into A i})"
e497387de7af remove smt call in Lebesge_Measure hoelzl parents: 63040 diff changeset	824	by (intro emeasure_mono) auto
e497387de7af remove smt call in Lebesge_Measure hoelzl parents: 63040 diff changeset	825	also have "emeasure lborel (\<Union>i. {from_nat_into A i}) = 0"
57447 87429bdecad5 import more stuff from the CLT proof; base the lborel measure on interval_measure; remove lebesgue measure hoelzl parents: 57275 diff changeset	826	by (rule emeasure_UN_eq_0) auto
63262 e497387de7af remove smt call in Lebesge_Measure hoelzl parents: 63040 diff changeset	827	finally show ?thesis
76786 50672d2d78db tidied some messy old proofs paulson <lp15@cam.ac.uk> parents: 75078 diff changeset	828	by simp
40859 de0b30e6c2d2 Support product spaces on sigma finite measures. hoelzl parents: 38656 diff changeset	829	qed
de0b30e6c2d2 Support product spaces on sigma finite measures. hoelzl parents: 38656 diff changeset	830
59425 c5e79df8cc21 import general thms from Density_Compiler hoelzl parents: 59357 diff changeset	831	lemma countable_imp_null_set_lborel: "countable A \<Longrightarrow> A \<in> null_sets lborel"
c5e79df8cc21 import general thms from Density_Compiler hoelzl parents: 59357 diff changeset	832	by (simp add: null_sets_def emeasure_lborel_countable sets.countable)
c5e79df8cc21 import general thms from Density_Compiler hoelzl parents: 59357 diff changeset	833
c5e79df8cc21 import general thms from Density_Compiler hoelzl parents: 59357 diff changeset	834	lemma finite_imp_null_set_lborel: "finite A \<Longrightarrow> A \<in> null_sets lborel"
c5e79df8cc21 import general thms from Density_Compiler hoelzl parents: 59357 diff changeset	835	by (intro countable_imp_null_set_lborel countable_finite)
c5e79df8cc21 import general thms from Density_Compiler hoelzl parents: 59357 diff changeset	836
70380 2b0dca68c3ee More analysis / measure theory material paulson <lp15@cam.ac.uk> parents: 70378 diff changeset	837	lemma insert_null_sets_iff [simp]: "insert a N \<in> null_sets lebesgue \<longleftrightarrow> N \<in> null_sets lebesgue"
76786 50672d2d78db tidied some messy old proofs paulson <lp15@cam.ac.uk> parents: 75078 diff changeset	838	by (meson completion.complete2 finite.simps finite_imp_null_set_lborel null_sets.insert_in_sets
50672d2d78db tidied some messy old proofs paulson <lp15@cam.ac.uk> parents: 75078 diff changeset	839	null_sets_completionI subset_insertI)
70380 2b0dca68c3ee More analysis / measure theory material paulson <lp15@cam.ac.uk> parents: 70378 diff changeset	840
2b0dca68c3ee More analysis / measure theory material paulson <lp15@cam.ac.uk> parents: 70378 diff changeset	841	lemma insert_null_sets_lebesgue_on_iff [simp]:
2b0dca68c3ee More analysis / measure theory material paulson <lp15@cam.ac.uk> parents: 70378 diff changeset	842	assumes "a \<in> S" "S \<in> sets lebesgue"
2b0dca68c3ee More analysis / measure theory material paulson <lp15@cam.ac.uk> parents: 70378 diff changeset	843	shows "insert a N \<in> null_sets (lebesgue_on S) \<longleftrightarrow> N \<in> null_sets (lebesgue_on S)"
2b0dca68c3ee More analysis / measure theory material paulson <lp15@cam.ac.uk> parents: 70378 diff changeset	844	by (simp add: assms null_sets_restrict_space)
2b0dca68c3ee More analysis / measure theory material paulson <lp15@cam.ac.uk> parents: 70378 diff changeset	845
76786 50672d2d78db tidied some messy old proofs paulson <lp15@cam.ac.uk> parents: 75078 diff changeset	846	lemma lborel_neq_count_space[simp]:
50672d2d78db tidied some messy old proofs paulson <lp15@cam.ac.uk> parents: 75078 diff changeset	847	fixes A :: "('a::ordered_euclidean_space) set"
50672d2d78db tidied some messy old proofs paulson <lp15@cam.ac.uk> parents: 75078 diff changeset	848	shows "lborel \<noteq> count_space A"
50672d2d78db tidied some messy old proofs paulson <lp15@cam.ac.uk> parents: 75078 diff changeset	849	by (metis finite.simps finite_imp_null_set_lborel insert_not_empty null_sets_count_space singleton_iff)
59425 c5e79df8cc21 import general thms from Density_Compiler hoelzl parents: 59357 diff changeset	850
65204 d23eded35a33 modernized construction of type bcontfun; base explicit theorems on Uniform_Limit.thy; added some lemmas immler parents: 64272 diff changeset	851	lemma mem_closed_if_AE_lebesgue_open:
d23eded35a33 modernized construction of type bcontfun; base explicit theorems on Uniform_Limit.thy; added some lemmas immler parents: 64272 diff changeset	852	assumes "open S" "closed C"
d23eded35a33 modernized construction of type bcontfun; base explicit theorems on Uniform_Limit.thy; added some lemmas immler parents: 64272 diff changeset	853	assumes "AE x \<in> S in lebesgue. x \<in> C"
d23eded35a33 modernized construction of type bcontfun; base explicit theorems on Uniform_Limit.thy; added some lemmas immler parents: 64272 diff changeset	854	assumes "x \<in> S"
d23eded35a33 modernized construction of type bcontfun; base explicit theorems on Uniform_Limit.thy; added some lemmas immler parents: 64272 diff changeset	855	shows "x \<in> C"
d23eded35a33 modernized construction of type bcontfun; base explicit theorems on Uniform_Limit.thy; added some lemmas immler parents: 64272 diff changeset	856	proof (rule ccontr)
d23eded35a33 modernized construction of type bcontfun; base explicit theorems on Uniform_Limit.thy; added some lemmas immler parents: 64272 diff changeset	857	assume xC: "x \<notin> C"
d23eded35a33 modernized construction of type bcontfun; base explicit theorems on Uniform_Limit.thy; added some lemmas immler parents: 64272 diff changeset	858	with openE[of "S - C"] assms
d23eded35a33 modernized construction of type bcontfun; base explicit theorems on Uniform_Limit.thy; added some lemmas immler parents: 64272 diff changeset	859	obtain e where e: "0 < e" "ball x e \<subseteq> S - C"
d23eded35a33 modernized construction of type bcontfun; base explicit theorems on Uniform_Limit.thy; added some lemmas immler parents: 64272 diff changeset	860	by blast
d23eded35a33 modernized construction of type bcontfun; base explicit theorems on Uniform_Limit.thy; added some lemmas immler parents: 64272 diff changeset	861	then obtain a b where box: "x \<in> box a b" "box a b \<subseteq> S - C"
d23eded35a33 modernized construction of type bcontfun; base explicit theorems on Uniform_Limit.thy; added some lemmas immler parents: 64272 diff changeset	862	by (metis rational_boxes order_trans)
d23eded35a33 modernized construction of type bcontfun; base explicit theorems on Uniform_Limit.thy; added some lemmas immler parents: 64272 diff changeset	863	then have "0 < emeasure lebesgue (box a b)"
d23eded35a33 modernized construction of type bcontfun; base explicit theorems on Uniform_Limit.thy; added some lemmas immler parents: 64272 diff changeset	864	by (auto simp: emeasure_lborel_box_eq mem_box algebra_simps intro!: prod_pos)
d23eded35a33 modernized construction of type bcontfun; base explicit theorems on Uniform_Limit.thy; added some lemmas immler parents: 64272 diff changeset	865	also have "\<dots> \<le> emeasure lebesgue (S - C)"
d23eded35a33 modernized construction of type bcontfun; base explicit theorems on Uniform_Limit.thy; added some lemmas immler parents: 64272 diff changeset	866	using assms box
d23eded35a33 modernized construction of type bcontfun; base explicit theorems on Uniform_Limit.thy; added some lemmas immler parents: 64272 diff changeset	867	by (auto intro!: emeasure_mono)
d23eded35a33 modernized construction of type bcontfun; base explicit theorems on Uniform_Limit.thy; added some lemmas immler parents: 64272 diff changeset	868	also have "\<dots> = 0"
d23eded35a33 modernized construction of type bcontfun; base explicit theorems on Uniform_Limit.thy; added some lemmas immler parents: 64272 diff changeset	869	using assms
d23eded35a33 modernized construction of type bcontfun; base explicit theorems on Uniform_Limit.thy; added some lemmas immler parents: 64272 diff changeset	870	by (auto simp: eventually_ae_filter completion.complete2 set_diff_eq null_setsD1)
d23eded35a33 modernized construction of type bcontfun; base explicit theorems on Uniform_Limit.thy; added some lemmas immler parents: 64272 diff changeset	871	finally show False by simp
d23eded35a33 modernized construction of type bcontfun; base explicit theorems on Uniform_Limit.thy; added some lemmas immler parents: 64272 diff changeset	872	qed
d23eded35a33 modernized construction of type bcontfun; base explicit theorems on Uniform_Limit.thy; added some lemmas immler parents: 64272 diff changeset	873
d23eded35a33 modernized construction of type bcontfun; base explicit theorems on Uniform_Limit.thy; added some lemmas immler parents: 64272 diff changeset	874	lemma mem_closed_if_AE_lebesgue: "closed C \<Longrightarrow> (AE x in lebesgue. x \<in> C) \<Longrightarrow> x \<in> C"
d23eded35a33 modernized construction of type bcontfun; base explicit theorems on Uniform_Limit.thy; added some lemmas immler parents: 64272 diff changeset	875	using mem_closed_if_AE_lebesgue_open[OF open_UNIV] by simp
d23eded35a33 modernized construction of type bcontfun; base explicit theorems on Uniform_Limit.thy; added some lemmas immler parents: 64272 diff changeset	876
d23eded35a33 modernized construction of type bcontfun; base explicit theorems on Uniform_Limit.thy; added some lemmas immler parents: 64272 diff changeset	877
61808 fc1556774cfe isabelle update_cartouches -c -t; wenzelm parents: 61762 diff changeset	878	subsection \<open>Affine transformation on the Lebesgue-Borel\<close>
49777 6ac97ab9b295 tuned Lebesgue measure proofs hoelzl parents: 47757 diff changeset	879
70136 f03a01a18c6e modernized tags: default scope excludes proof; wenzelm parents: 69922 diff changeset	880	lemma\<^marker>\<open>tag important\<close> lborel_eqI:
57447 87429bdecad5 import more stuff from the CLT proof; base the lborel measure on interval_measure; remove lebesgue measure hoelzl parents: 57275 diff changeset	881	fixes M :: "'a::euclidean_space measure"
87429bdecad5 import more stuff from the CLT proof; base the lborel measure on interval_measure; remove lebesgue measure hoelzl parents: 57275 diff changeset	882	assumes emeasure_eq: "\<And>l u. (\<And>b. b \<in> Basis \<Longrightarrow> l \<bullet> b \<le> u \<bullet> b) \<Longrightarrow> emeasure M (box l u) = (\<Prod>b\<in>Basis. (u - l) \<bullet> b)"
49777 6ac97ab9b295 tuned Lebesgue measure proofs hoelzl parents: 47757 diff changeset	883	assumes sets_eq: "sets M = sets borel"
6ac97ab9b295 tuned Lebesgue measure proofs hoelzl parents: 47757 diff changeset	884	shows "lborel = M"
70136 f03a01a18c6e modernized tags: default scope excludes proof; wenzelm parents: 69922 diff changeset	885	proof (rule measure_eqI_generator_eq)
57447 87429bdecad5 import more stuff from the CLT proof; base the lborel measure on interval_measure; remove lebesgue measure hoelzl parents: 57275 diff changeset	886	let ?E = "range (\<lambda>(a, b). box a b::'a set)"
87429bdecad5 import more stuff from the CLT proof; base the lborel measure on interval_measure; remove lebesgue measure hoelzl parents: 57275 diff changeset	887	show "Int_stable ?E"
87429bdecad5 import more stuff from the CLT proof; base the lborel measure on interval_measure; remove lebesgue measure hoelzl parents: 57275 diff changeset	888	by (auto simp: Int_stable_def box_Int_box)
87429bdecad5 import more stuff from the CLT proof; base the lborel measure on interval_measure; remove lebesgue measure hoelzl parents: 57275 diff changeset	889
49777 6ac97ab9b295 tuned Lebesgue measure proofs hoelzl parents: 47757 diff changeset	890	show "?E \<subseteq> Pow UNIV" "sets lborel = sigma_sets UNIV ?E" "sets M = sigma_sets UNIV ?E"
57447 87429bdecad5 import more stuff from the CLT proof; base the lborel measure on interval_measure; remove lebesgue measure hoelzl parents: 57275 diff changeset	891	by (simp_all add: borel_eq_box sets_eq)
49777 6ac97ab9b295 tuned Lebesgue measure proofs hoelzl parents: 47757 diff changeset	892
57447 87429bdecad5 import more stuff from the CLT proof; base the lborel measure on interval_measure; remove lebesgue measure hoelzl parents: 57275 diff changeset	893	let ?A = "\<lambda>n::nat. box (- (real n \<^sub>R One)) (real n \<^sub>R One) :: 'a set"
87429bdecad5 import more stuff from the CLT proof; base the lborel measure on interval_measure; remove lebesgue measure hoelzl parents: 57275 diff changeset	894	show "range ?A \<subseteq> ?E" "(\<Union>i. ?A i) = UNIV"
87429bdecad5 import more stuff from the CLT proof; base the lborel measure on interval_measure; remove lebesgue measure hoelzl parents: 57275 diff changeset	895	unfolding UN_box_eq_UNIV by auto
76786 50672d2d78db tidied some messy old proofs paulson <lp15@cam.ac.uk> parents: 75078 diff changeset	896	show "emeasure lborel (?A i) \<noteq> \<infinity>" for i by auto
50672d2d78db tidied some messy old proofs paulson <lp15@cam.ac.uk> parents: 75078 diff changeset	897	show "emeasure lborel X = emeasure M X" if "X \<in> ?E" for X
50672d2d78db tidied some messy old proofs paulson <lp15@cam.ac.uk> parents: 75078 diff changeset	898	using that box_eq_empty(1) by (fastforce simp: emeasure_eq emeasure_lborel_box_eq)
49777 6ac97ab9b295 tuned Lebesgue measure proofs hoelzl parents: 47757 diff changeset	899	qed
6ac97ab9b295 tuned Lebesgue measure proofs hoelzl parents: 47757 diff changeset	900
70136 f03a01a18c6e modernized tags: default scope excludes proof; wenzelm parents: 69922 diff changeset	901	lemma\<^marker>\<open>tag important\<close> lborel_affine_euclidean:
63886 685fb01256af move Henstock-Kurzweil integration after Lebesgue_Measure; replace content by abbreviation measure lborel hoelzl parents: 63627 diff changeset	902	fixes c :: "'a::euclidean_space \<Rightarrow> real" and t
685fb01256af move Henstock-Kurzweil integration after Lebesgue_Measure; replace content by abbreviation measure lborel hoelzl parents: 63627 diff changeset	903	defines "T x \<equiv> t + (\<Sum>j\<in>Basis. (c j * (x \<bullet> j)) *\<^sub>R j)"
685fb01256af move Henstock-Kurzweil integration after Lebesgue_Measure; replace content by abbreviation measure lborel hoelzl parents: 63627 diff changeset	904	assumes c: "\<And>j. j \<in> Basis \<Longrightarrow> c j \<noteq> 0"
685fb01256af move Henstock-Kurzweil integration after Lebesgue_Measure; replace content by abbreviation measure lborel hoelzl parents: 63627 diff changeset	905	shows "lborel = density (distr lborel borel T) (\<lambda>_. (\<Prod>j\<in>Basis. \<bar>c j\<bar>))" (is "_ = ?D")
70136 f03a01a18c6e modernized tags: default scope excludes proof; wenzelm parents: 69922 diff changeset	906	proof (rule lborel_eqI)
57447 87429bdecad5 import more stuff from the CLT proof; base the lborel measure on interval_measure; remove lebesgue measure hoelzl parents: 57275 diff changeset	907	let ?B = "Basis :: 'a set"
87429bdecad5 import more stuff from the CLT proof; base the lborel measure on interval_measure; remove lebesgue measure hoelzl parents: 57275 diff changeset	908	fix l u assume le: "\<And>b. b \<in> ?B \<Longrightarrow> l \<bullet> b \<le> u \<bullet> b"
63886 685fb01256af move Henstock-Kurzweil integration after Lebesgue_Measure; replace content by abbreviation measure lborel hoelzl parents: 63627 diff changeset	909	have [measurable]: "T \<in> borel \<rightarrow>\<^sub>M borel"
685fb01256af move Henstock-Kurzweil integration after Lebesgue_Measure; replace content by abbreviation measure lborel hoelzl parents: 63627 diff changeset	910	by (simp add: T_def[abs_def])
685fb01256af move Henstock-Kurzweil integration after Lebesgue_Measure; replace content by abbreviation measure lborel hoelzl parents: 63627 diff changeset	911	have eq: "T -` box l u = box
685fb01256af move Henstock-Kurzweil integration after Lebesgue_Measure; replace content by abbreviation measure lborel hoelzl parents: 63627 diff changeset	912	(\<Sum>j\<in>Basis. (((if 0 < c j then l - t else u - t) \<bullet> j) / c j) *\<^sub>R j)
685fb01256af move Henstock-Kurzweil integration after Lebesgue_Measure; replace content by abbreviation measure lborel hoelzl parents: 63627 diff changeset	913	(\<Sum>j\<in>Basis. (((if 0 < c j then u - t else l - t) \<bullet> j) / c j) *\<^sub>R j)"
685fb01256af move Henstock-Kurzweil integration after Lebesgue_Measure; replace content by abbreviation measure lborel hoelzl parents: 63627 diff changeset	914	using c by (auto simp: box_def T_def field_simps inner_simps divide_less_eq)
685fb01256af move Henstock-Kurzweil integration after Lebesgue_Measure; replace content by abbreviation measure lborel hoelzl parents: 63627 diff changeset	915	with le c show "emeasure ?D (box l u) = (\<Prod>b\<in>?B. (u - l) \<bullet> b)"
685fb01256af move Henstock-Kurzweil integration after Lebesgue_Measure; replace content by abbreviation measure lborel hoelzl parents: 63627 diff changeset	916	by (auto simp: emeasure_density emeasure_distr nn_integral_multc emeasure_lborel_box_eq inner_simps
71172 575b3a818de5 tuned nipkow parents: 70817 diff changeset	917	field_split_simps ennreal_mult'[symmetric] prod_nonneg prod.distrib[symmetric]
64272 f76b6dda2e56 setprod -> prod nipkow parents: 64267 diff changeset	918	intro!: prod.cong)
49777 6ac97ab9b295 tuned Lebesgue measure proofs hoelzl parents: 47757 diff changeset	919	qed simp
6ac97ab9b295 tuned Lebesgue measure proofs hoelzl parents: 47757 diff changeset	920
63886 685fb01256af move Henstock-Kurzweil integration after Lebesgue_Measure; replace content by abbreviation measure lborel hoelzl parents: 63627 diff changeset	921	lemma lborel_affine:
685fb01256af move Henstock-Kurzweil integration after Lebesgue_Measure; replace content by abbreviation measure lborel hoelzl parents: 63627 diff changeset	922	fixes t :: "'a::euclidean_space"
685fb01256af move Henstock-Kurzweil integration after Lebesgue_Measure; replace content by abbreviation measure lborel hoelzl parents: 63627 diff changeset	923	shows "c \<noteq> 0 \<Longrightarrow> lborel = density (distr lborel borel (\<lambda>x. t + c *\<^sub>R x)) (\<lambda>_. \<bar>c\<bar>^DIM('a))"
685fb01256af move Henstock-Kurzweil integration after Lebesgue_Measure; replace content by abbreviation measure lborel hoelzl parents: 63627 diff changeset	924	using lborel_affine_euclidean[where c="\<lambda>_::'a. c" and t=t]
64272 f76b6dda2e56 setprod -> prod nipkow parents: 64267 diff changeset	925	unfolding scaleR_scaleR[symmetric] scaleR_sum_right[symmetric] euclidean_representation prod_constant by simp
63886 685fb01256af move Henstock-Kurzweil integration after Lebesgue_Measure; replace content by abbreviation measure lborel hoelzl parents: 63627 diff changeset	926
57447 87429bdecad5 import more stuff from the CLT proof; base the lborel measure on interval_measure; remove lebesgue measure hoelzl parents: 57275 diff changeset	927	lemma lborel_real_affine:
62975 1d066f6ab25d Probability: move emeasure and nn_integral from ereal to ennreal hoelzl parents: 62390 diff changeset	928	"c \<noteq> 0 \<Longrightarrow> lborel = density (distr lborel borel (\<lambda>x. t + c * x)) (\<lambda>_. ennreal (abs c))"
57447 87429bdecad5 import more stuff from the CLT proof; base the lborel measure on interval_measure; remove lebesgue measure hoelzl parents: 57275 diff changeset	929	using lborel_affine[of c t] by simp
87429bdecad5 import more stuff from the CLT proof; base the lborel measure on interval_measure; remove lebesgue measure hoelzl parents: 57275 diff changeset	930
60615 e5fa1d5d3952 Useful lemmas. The theorem concerning swapping the variables in a double integral. paulson <lp15@cam.ac.uk> parents: 59741 diff changeset	931	lemma AE_borel_affine:
57447 87429bdecad5 import more stuff from the CLT proof; base the lborel measure on interval_measure; remove lebesgue measure hoelzl parents: 57275 diff changeset	932	fixes P :: "real \<Rightarrow> bool"
87429bdecad5 import more stuff from the CLT proof; base the lborel measure on interval_measure; remove lebesgue measure hoelzl parents: 57275 diff changeset	933	shows "c \<noteq> 0 \<Longrightarrow> Measurable.pred borel P \<Longrightarrow> AE x in lborel. P x \<Longrightarrow> AE x in lborel. P (t + c * x)"
87429bdecad5 import more stuff from the CLT proof; base the lborel measure on interval_measure; remove lebesgue measure hoelzl parents: 57275 diff changeset	934	by (subst lborel_real_affine[where t="- t / c" and c="1 / c"])
87429bdecad5 import more stuff from the CLT proof; base the lborel measure on interval_measure; remove lebesgue measure hoelzl parents: 57275 diff changeset	935	(simp_all add: AE_density AE_distr_iff field_simps)
87429bdecad5 import more stuff from the CLT proof; base the lborel measure on interval_measure; remove lebesgue measure hoelzl parents: 57275 diff changeset	936
56996 891e992e510f renamed positive_integral to nn_integral hoelzl parents: 56993 diff changeset	937	lemma nn_integral_real_affine:
56993 e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces hoelzl parents: 56218 diff changeset	938	fixes c :: real assumes [measurable]: "f \<in> borel_measurable borel" and c: "c \<noteq> 0"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces hoelzl parents: 56218 diff changeset	939	shows "(\<integral>\<^sup>+x. f x \<partial>lborel) = \<bar>c\<bar> * (\<integral>\<^sup>+x. f (t + c * x) \<partial>lborel)"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces hoelzl parents: 56218 diff changeset	940	by (subst lborel_real_affine[OF c, of t])
56996 891e992e510f renamed positive_integral to nn_integral hoelzl parents: 56993 diff changeset	941	(simp add: nn_integral_density nn_integral_distr nn_integral_cmult)
56993 e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces hoelzl parents: 56218 diff changeset	942
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces hoelzl parents: 56218 diff changeset	943	lemma lborel_integrable_real_affine:
57447 87429bdecad5 import more stuff from the CLT proof; base the lborel measure on interval_measure; remove lebesgue measure hoelzl parents: 57275 diff changeset	944	fixes f :: "real \<Rightarrow> 'a :: {banach, second_countable_topology}"
56993 e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces hoelzl parents: 56218 diff changeset	945	assumes f: "integrable lborel f"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces hoelzl parents: 56218 diff changeset	946	shows "c \<noteq> 0 \<Longrightarrow> integrable lborel (\<lambda>x. f (t + c * x))"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces hoelzl parents: 56218 diff changeset	947	using f f[THEN borel_measurable_integrable] unfolding integrable_iff_bounded
62975 1d066f6ab25d Probability: move emeasure and nn_integral from ereal to ennreal hoelzl parents: 62390 diff changeset	948	by (subst (asm) nn_integral_real_affine[where c=c and t=t]) (auto simp: ennreal_mult_less_top)
56993 e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces hoelzl parents: 56218 diff changeset	949
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces hoelzl parents: 56218 diff changeset	950	lemma lborel_integrable_real_affine_iff:
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces hoelzl parents: 56218 diff changeset	951	fixes f :: "real \<Rightarrow> 'a :: {banach, second_countable_topology}"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces hoelzl parents: 56218 diff changeset	952	shows "c \<noteq> 0 \<Longrightarrow> integrable lborel (\<lambda>x. f (t + c * x)) \<longleftrightarrow> integrable lborel f"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces hoelzl parents: 56218 diff changeset	953	using
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces hoelzl parents: 56218 diff changeset	954	lborel_integrable_real_affine[of f c t]
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces hoelzl parents: 56218 diff changeset	955	lborel_integrable_real_affine[of "\<lambda>x. f (t + c * x)" "1/c" "-t/c"]
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces hoelzl parents: 56218 diff changeset	956	by (auto simp add: field_simps)
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces hoelzl parents: 56218 diff changeset	957
70136 f03a01a18c6e modernized tags: default scope excludes proof; wenzelm parents: 69922 diff changeset	958	lemma\<^marker>\<open>tag important\<close> lborel_integral_real_affine:
56993 e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces hoelzl parents: 56218 diff changeset	959	fixes f :: "real \<Rightarrow> 'a :: {banach, second_countable_topology}" and c :: real
57166 5cfcc616d485 use 0 as integral-value for non-integrable functions, simplify a couple of rewrite rules hoelzl parents: 57138 diff changeset	960	assumes c: "c \<noteq> 0" shows "(\<integral>x. f x \<partial> lborel) = \<bar>c\<bar> \<^sub>R (\<integral>x. f (t + c x) \<partial>lborel)"
70136 f03a01a18c6e modernized tags: default scope excludes proof; wenzelm parents: 69922 diff changeset	961	proof cases
57166 5cfcc616d485 use 0 as integral-value for non-integrable functions, simplify a couple of rewrite rules hoelzl parents: 57138 diff changeset	962	assume f[measurable]: "integrable lborel f" then show ?thesis
5cfcc616d485 use 0 as integral-value for non-integrable functions, simplify a couple of rewrite rules hoelzl parents: 57138 diff changeset	963	using c f f[THEN borel_measurable_integrable] f[THEN lborel_integrable_real_affine, of c t]
57447 87429bdecad5 import more stuff from the CLT proof; base the lborel measure on interval_measure; remove lebesgue measure hoelzl parents: 57275 diff changeset	964	by (subst lborel_real_affine[OF c, of t])
87429bdecad5 import more stuff from the CLT proof; base the lborel measure on interval_measure; remove lebesgue measure hoelzl parents: 57275 diff changeset	965	(simp add: integral_density integral_distr)
57166 5cfcc616d485 use 0 as integral-value for non-integrable functions, simplify a couple of rewrite rules hoelzl parents: 57138 diff changeset	966	next
5cfcc616d485 use 0 as integral-value for non-integrable functions, simplify a couple of rewrite rules hoelzl parents: 57138 diff changeset	967	assume "\<not> integrable lborel f" with c show ?thesis
5cfcc616d485 use 0 as integral-value for non-integrable functions, simplify a couple of rewrite rules hoelzl parents: 57138 diff changeset	968	by (simp add: lborel_integrable_real_affine_iff not_integrable_integral_eq)
5cfcc616d485 use 0 as integral-value for non-integrable functions, simplify a couple of rewrite rules hoelzl parents: 57138 diff changeset	969	qed
56993 e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces hoelzl parents: 56218 diff changeset	970
63958 02de4a58e210 HOL-Analysis: add measurable sets with finite measures, prove affine transformation rule for the Lebesgue measure hoelzl parents: 63918 diff changeset	971	lemma
02de4a58e210 HOL-Analysis: add measurable sets with finite measures, prove affine transformation rule for the Lebesgue measure hoelzl parents: 63918 diff changeset	972	fixes c :: "'a::euclidean_space \<Rightarrow> real" and t
02de4a58e210 HOL-Analysis: add measurable sets with finite measures, prove affine transformation rule for the Lebesgue measure hoelzl parents: 63918 diff changeset	973	assumes c: "\<And>j. j \<in> Basis \<Longrightarrow> c j \<noteq> 0"
02de4a58e210 HOL-Analysis: add measurable sets with finite measures, prove affine transformation rule for the Lebesgue measure hoelzl parents: 63918 diff changeset	974	defines "T == (\<lambda>x. t + (\<Sum>j\<in>Basis. (c j * (x \<bullet> j)) *\<^sub>R j))"
02de4a58e210 HOL-Analysis: add measurable sets with finite measures, prove affine transformation rule for the Lebesgue measure hoelzl parents: 63918 diff changeset	975	shows lebesgue_affine_euclidean: "lebesgue = density (distr lebesgue lebesgue T) (\<lambda>_. (\<Prod>j\<in>Basis. \<bar>c j\<bar>))" (is "_ = ?D")
02de4a58e210 HOL-Analysis: add measurable sets with finite measures, prove affine transformation rule for the Lebesgue measure hoelzl parents: 63918 diff changeset	976	and lebesgue_affine_measurable: "T \<in> lebesgue \<rightarrow>\<^sub>M lebesgue"
02de4a58e210 HOL-Analysis: add measurable sets with finite measures, prove affine transformation rule for the Lebesgue measure hoelzl parents: 63918 diff changeset	977	proof -
02de4a58e210 HOL-Analysis: add measurable sets with finite measures, prove affine transformation rule for the Lebesgue measure hoelzl parents: 63918 diff changeset	978	have T_borel[measurable]: "T \<in> borel \<rightarrow>\<^sub>M borel"
02de4a58e210 HOL-Analysis: add measurable sets with finite measures, prove affine transformation rule for the Lebesgue measure hoelzl parents: 63918 diff changeset	979	by (auto simp: T_def[abs_def])
02de4a58e210 HOL-Analysis: add measurable sets with finite measures, prove affine transformation rule for the Lebesgue measure hoelzl parents: 63918 diff changeset	980	{ fix A :: "'a set" assume A: "A \<in> sets borel"
02de4a58e210 HOL-Analysis: add measurable sets with finite measures, prove affine transformation rule for the Lebesgue measure hoelzl parents: 63918 diff changeset	981	then have "emeasure lborel A = 0 \<longleftrightarrow> emeasure (density (distr lborel borel T) (\<lambda>_. (\<Prod>j\<in>Basis. \<bar>c j\<bar>))) A = 0"
02de4a58e210 HOL-Analysis: add measurable sets with finite measures, prove affine transformation rule for the Lebesgue measure hoelzl parents: 63918 diff changeset	982	unfolding T_def using c by (subst lborel_affine_euclidean[symmetric]) auto
02de4a58e210 HOL-Analysis: add measurable sets with finite measures, prove affine transformation rule for the Lebesgue measure hoelzl parents: 63918 diff changeset	983	also have "\<dots> \<longleftrightarrow> emeasure (distr lebesgue lborel T) A = 0"
64272 f76b6dda2e56 setprod -> prod nipkow parents: 64267 diff changeset	984	using A c by (simp add: distr_completion emeasure_density nn_integral_cmult prod_nonneg cong: distr_cong)
63958 02de4a58e210 HOL-Analysis: add measurable sets with finite measures, prove affine transformation rule for the Lebesgue measure hoelzl parents: 63918 diff changeset	985	finally have "emeasure lborel A = 0 \<longleftrightarrow> emeasure (distr lebesgue lborel T) A = 0" . }
02de4a58e210 HOL-Analysis: add measurable sets with finite measures, prove affine transformation rule for the Lebesgue measure hoelzl parents: 63918 diff changeset	986	then have eq: "null_sets lborel = null_sets (distr lebesgue lborel T)"
02de4a58e210 HOL-Analysis: add measurable sets with finite measures, prove affine transformation rule for the Lebesgue measure hoelzl parents: 63918 diff changeset	987	by (auto simp: null_sets_def)
02de4a58e210 HOL-Analysis: add measurable sets with finite measures, prove affine transformation rule for the Lebesgue measure hoelzl parents: 63918 diff changeset	988
02de4a58e210 HOL-Analysis: add measurable sets with finite measures, prove affine transformation rule for the Lebesgue measure hoelzl parents: 63918 diff changeset	989	show "T \<in> lebesgue \<rightarrow>\<^sub>M lebesgue"
76786 50672d2d78db tidied some messy old proofs paulson <lp15@cam.ac.uk> parents: 75078 diff changeset	990	by (simp add: completion.measurable_completion2 eq measurable_completion)
63958 02de4a58e210 HOL-Analysis: add measurable sets with finite measures, prove affine transformation rule for the Lebesgue measure hoelzl parents: 63918 diff changeset	991
02de4a58e210 HOL-Analysis: add measurable sets with finite measures, prove affine transformation rule for the Lebesgue measure hoelzl parents: 63918 diff changeset	992	have "lebesgue = completion (density (distr lborel borel T) (\<lambda>_. (\<Prod>j\<in>Basis. \<bar>c j\<bar>)))"
02de4a58e210 HOL-Analysis: add measurable sets with finite measures, prove affine transformation rule for the Lebesgue measure hoelzl parents: 63918 diff changeset	993	using c by (subst lborel_affine_euclidean[of c t]) (simp_all add: T_def[abs_def])
02de4a58e210 HOL-Analysis: add measurable sets with finite measures, prove affine transformation rule for the Lebesgue measure hoelzl parents: 63918 diff changeset	994	also have "\<dots> = density (completion (distr lebesgue lborel T)) (\<lambda>_. (\<Prod>j\<in>Basis. \<bar>c j\<bar>))"
64272 f76b6dda2e56 setprod -> prod nipkow parents: 64267 diff changeset	995	using c by (auto intro!: always_eventually prod_pos completion_density_eq simp: distr_completion cong: distr_cong)
63958 02de4a58e210 HOL-Analysis: add measurable sets with finite measures, prove affine transformation rule for the Lebesgue measure hoelzl parents: 63918 diff changeset	996	also have "\<dots> = density (distr lebesgue lebesgue T) (\<lambda>_. (\<Prod>j\<in>Basis. \<bar>c j\<bar>))"
02de4a58e210 HOL-Analysis: add measurable sets with finite measures, prove affine transformation rule for the Lebesgue measure hoelzl parents: 63918 diff changeset	997	by (subst completion.completion_distr_eq) (auto simp: eq measurable_completion)
02de4a58e210 HOL-Analysis: add measurable sets with finite measures, prove affine transformation rule for the Lebesgue measure hoelzl parents: 63918 diff changeset	998	finally show "lebesgue = density (distr lebesgue lebesgue T) (\<lambda>_. (\<Prod>j\<in>Basis. \<bar>c j\<bar>))" .
02de4a58e210 HOL-Analysis: add measurable sets with finite measures, prove affine transformation rule for the Lebesgue measure hoelzl parents: 63918 diff changeset	999	qed
02de4a58e210 HOL-Analysis: add measurable sets with finite measures, prove affine transformation rule for the Lebesgue measure hoelzl parents: 63918 diff changeset	1000
70547 7ce95a5c4aa8 new material on eqiintegrable functions, etc. paulson <lp15@cam.ac.uk> parents: 70532 diff changeset	1001	corollary lebesgue_real_affine:
7ce95a5c4aa8 new material on eqiintegrable functions, etc. paulson <lp15@cam.ac.uk> parents: 70532 diff changeset	1002	"c \<noteq> 0 \<Longrightarrow> lebesgue = density (distr lebesgue lebesgue (\<lambda>x. t + c * x)) (\<lambda>_. ennreal (abs c))"
7ce95a5c4aa8 new material on eqiintegrable functions, etc. paulson <lp15@cam.ac.uk> parents: 70532 diff changeset	1003	using lebesgue_affine_euclidean [where c= "\<lambda>x::real. c"] by simp
7ce95a5c4aa8 new material on eqiintegrable functions, etc. paulson <lp15@cam.ac.uk> parents: 70532 diff changeset	1004
7ce95a5c4aa8 new material on eqiintegrable functions, etc. paulson <lp15@cam.ac.uk> parents: 70532 diff changeset	1005	lemma nn_integral_real_affine_lebesgue:
7ce95a5c4aa8 new material on eqiintegrable functions, etc. paulson <lp15@cam.ac.uk> parents: 70532 diff changeset	1006	fixes c :: real assumes f[measurable]: "f \<in> borel_measurable lebesgue" and c: "c \<noteq> 0"
7ce95a5c4aa8 new material on eqiintegrable functions, etc. paulson <lp15@cam.ac.uk> parents: 70532 diff changeset	1007	shows "(\<integral>\<^sup>+x. f x \<partial>lebesgue) = ennreal\<bar>c\<bar> * (\<integral>\<^sup>+x. f(t + c * x) \<partial>lebesgue)"
7ce95a5c4aa8 new material on eqiintegrable functions, etc. paulson <lp15@cam.ac.uk> parents: 70532 diff changeset	1008	proof -
7ce95a5c4aa8 new material on eqiintegrable functions, etc. paulson <lp15@cam.ac.uk> parents: 70532 diff changeset	1009	have "(\<integral>\<^sup>+x. f x \<partial>lebesgue) = (\<integral>\<^sup>+x. f x \<partial>density (distr lebesgue lebesgue (\<lambda>x. t + c * x)) (\<lambda>x. ennreal \<bar>c\<bar>))"
7ce95a5c4aa8 new material on eqiintegrable functions, etc. paulson <lp15@cam.ac.uk> parents: 70532 diff changeset	1010	using lebesgue_real_affine c by auto
7ce95a5c4aa8 new material on eqiintegrable functions, etc. paulson <lp15@cam.ac.uk> parents: 70532 diff changeset	1011	also have "\<dots> = \<integral>\<^sup>+ x. ennreal \<bar>c\<bar> * f x \<partial>distr lebesgue lebesgue (\<lambda>x. t + c * x)"
7ce95a5c4aa8 new material on eqiintegrable functions, etc. paulson <lp15@cam.ac.uk> parents: 70532 diff changeset	1012	by (subst nn_integral_density) auto
7ce95a5c4aa8 new material on eqiintegrable functions, etc. paulson <lp15@cam.ac.uk> parents: 70532 diff changeset	1013	also have "\<dots> = ennreal \<bar>c\<bar> * integral\<^sup>N (distr lebesgue lebesgue (\<lambda>x. t + c * x)) f"
7ce95a5c4aa8 new material on eqiintegrable functions, etc. paulson <lp15@cam.ac.uk> parents: 70532 diff changeset	1014	using f measurable_distr_eq1 nn_integral_cmult by blast
7ce95a5c4aa8 new material on eqiintegrable functions, etc. paulson <lp15@cam.ac.uk> parents: 70532 diff changeset	1015	also have "\<dots> = \<bar>c\<bar> * (\<integral>\<^sup>+x. f(t + c * x) \<partial>lebesgue)"
7ce95a5c4aa8 new material on eqiintegrable functions, etc. paulson <lp15@cam.ac.uk> parents: 70532 diff changeset	1016	using lebesgue_affine_measurable[where c= "\<lambda>x::real. c"]
7ce95a5c4aa8 new material on eqiintegrable functions, etc. paulson <lp15@cam.ac.uk> parents: 70532 diff changeset	1017	by (subst nn_integral_distr) (force+)
7ce95a5c4aa8 new material on eqiintegrable functions, etc. paulson <lp15@cam.ac.uk> parents: 70532 diff changeset	1018	finally show ?thesis .
7ce95a5c4aa8 new material on eqiintegrable functions, etc. paulson <lp15@cam.ac.uk> parents: 70532 diff changeset	1019	qed
7ce95a5c4aa8 new material on eqiintegrable functions, etc. paulson <lp15@cam.ac.uk> parents: 70532 diff changeset	1020
69064 5840724b1d71 Prefix form of infix with * on either side no longer needs special treatment nipkow parents: 68403 diff changeset	1021	lemma lebesgue_measurable_scaling[measurable]: "(*\<^sub>R) x \<in> lebesgue \<rightarrow>\<^sub>M lebesgue"
63959 f77dca1abf1b HOL-Analysis: prove that a starlike set is negligible (based on HOL Light proof ported by L. C. Paulson) hoelzl parents: 63958 diff changeset	1022	proof cases
76786 50672d2d78db tidied some messy old proofs paulson <lp15@cam.ac.uk> parents: 75078 diff changeset	1023	assume "x = 0"
69064 5840724b1d71 Prefix form of infix with * on either side no longer needs special treatment nipkow parents: 68403 diff changeset	1024	then have "(*\<^sub>R) x = (\<lambda>x. 0::'a)"
63959 f77dca1abf1b HOL-Analysis: prove that a starlike set is negligible (based on HOL Light proof ported by L. C. Paulson) hoelzl parents: 63958 diff changeset	1025	by (auto simp: fun_eq_iff)
f77dca1abf1b HOL-Analysis: prove that a starlike set is negligible (based on HOL Light proof ported by L. C. Paulson) hoelzl parents: 63958 diff changeset	1026	then show ?thesis by auto
f77dca1abf1b HOL-Analysis: prove that a starlike set is negligible (based on HOL Light proof ported by L. C. Paulson) hoelzl parents: 63958 diff changeset	1027	next
f77dca1abf1b HOL-Analysis: prove that a starlike set is negligible (based on HOL Light proof ported by L. C. Paulson) hoelzl parents: 63958 diff changeset	1028	assume "x \<noteq> 0" then show ?thesis
f77dca1abf1b HOL-Analysis: prove that a starlike set is negligible (based on HOL Light proof ported by L. C. Paulson) hoelzl parents: 63958 diff changeset	1029	using lebesgue_affine_measurable[of "\<lambda>_. x" 0]
64267 b9a1486e79be setsum -> sum nipkow parents: 64008 diff changeset	1030	unfolding scaleR_scaleR[symmetric] scaleR_sum_right[symmetric] euclidean_representation
63959 f77dca1abf1b HOL-Analysis: prove that a starlike set is negligible (based on HOL Light proof ported by L. C. Paulson) hoelzl parents: 63958 diff changeset	1031	by (auto simp add: ac_simps)
f77dca1abf1b HOL-Analysis: prove that a starlike set is negligible (based on HOL Light proof ported by L. C. Paulson) hoelzl parents: 63958 diff changeset	1032	qed
f77dca1abf1b HOL-Analysis: prove that a starlike set is negligible (based on HOL Light proof ported by L. C. Paulson) hoelzl parents: 63958 diff changeset	1033
63958 02de4a58e210 HOL-Analysis: add measurable sets with finite measures, prove affine transformation rule for the Lebesgue measure hoelzl parents: 63918 diff changeset	1034	lemma
02de4a58e210 HOL-Analysis: add measurable sets with finite measures, prove affine transformation rule for the Lebesgue measure hoelzl parents: 63918 diff changeset	1035	fixes m :: real and \<delta> :: "'a::euclidean_space"
02de4a58e210 HOL-Analysis: add measurable sets with finite measures, prove affine transformation rule for the Lebesgue measure hoelzl parents: 63918 diff changeset	1036	defines "T r d x \<equiv> r *\<^sub>R x + d"
02de4a58e210 HOL-Analysis: add measurable sets with finite measures, prove affine transformation rule for the Lebesgue measure hoelzl parents: 63918 diff changeset	1037	shows emeasure_lebesgue_affine: "emeasure lebesgue (T m \<delta> ` S) = \<bar>m\<bar> ^ DIM('a) * emeasure lebesgue S" (is ?e)
02de4a58e210 HOL-Analysis: add measurable sets with finite measures, prove affine transformation rule for the Lebesgue measure hoelzl parents: 63918 diff changeset	1038	and measure_lebesgue_affine: "measure lebesgue (T m \<delta> ` S) = \<bar>m\<bar> ^ DIM('a) * measure lebesgue S" (is ?m)
02de4a58e210 HOL-Analysis: add measurable sets with finite measures, prove affine transformation rule for the Lebesgue measure hoelzl parents: 63918 diff changeset	1039	proof -
02de4a58e210 HOL-Analysis: add measurable sets with finite measures, prove affine transformation rule for the Lebesgue measure hoelzl parents: 63918 diff changeset	1040	show ?e
02de4a58e210 HOL-Analysis: add measurable sets with finite measures, prove affine transformation rule for the Lebesgue measure hoelzl parents: 63918 diff changeset	1041	proof cases
02de4a58e210 HOL-Analysis: add measurable sets with finite measures, prove affine transformation rule for the Lebesgue measure hoelzl parents: 63918 diff changeset	1042	assume "m = 0" then show ?thesis
02de4a58e210 HOL-Analysis: add measurable sets with finite measures, prove affine transformation rule for the Lebesgue measure hoelzl parents: 63918 diff changeset	1043	by (simp add: image_constant_conv T_def[abs_def])
02de4a58e210 HOL-Analysis: add measurable sets with finite measures, prove affine transformation rule for the Lebesgue measure hoelzl parents: 63918 diff changeset	1044	next
02de4a58e210 HOL-Analysis: add measurable sets with finite measures, prove affine transformation rule for the Lebesgue measure hoelzl parents: 63918 diff changeset	1045	let ?T = "T m \<delta>" and ?T' = "T (1 / m) (- ((1/m) *\<^sub>R \<delta>))"
02de4a58e210 HOL-Analysis: add measurable sets with finite measures, prove affine transformation rule for the Lebesgue measure hoelzl parents: 63918 diff changeset	1046	assume "m \<noteq> 0"
02de4a58e210 HOL-Analysis: add measurable sets with finite measures, prove affine transformation rule for the Lebesgue measure hoelzl parents: 63918 diff changeset	1047	then have s_comp_s: "?T' \<circ> ?T = id" "?T \<circ> ?T' = id"
02de4a58e210 HOL-Analysis: add measurable sets with finite measures, prove affine transformation rule for the Lebesgue measure hoelzl parents: 63918 diff changeset	1048	by (auto simp: T_def[abs_def] fun_eq_iff scaleR_add_right scaleR_diff_right)
02de4a58e210 HOL-Analysis: add measurable sets with finite measures, prove affine transformation rule for the Lebesgue measure hoelzl parents: 63918 diff changeset	1049	then have "inv ?T' = ?T" "bij ?T'"
02de4a58e210 HOL-Analysis: add measurable sets with finite measures, prove affine transformation rule for the Lebesgue measure hoelzl parents: 63918 diff changeset	1050	by (auto intro: inv_unique_comp o_bij)
02de4a58e210 HOL-Analysis: add measurable sets with finite measures, prove affine transformation rule for the Lebesgue measure hoelzl parents: 63918 diff changeset	1051	then have eq: "T m \<delta> ` S = T (1 / m) ((-1/m) *\<^sub>R \<delta>) -` S \<inter> space lebesgue"
02de4a58e210 HOL-Analysis: add measurable sets with finite measures, prove affine transformation rule for the Lebesgue measure hoelzl parents: 63918 diff changeset	1052	using bij_vimage_eq_inv_image[OF \<open>bij ?T'\<close>, of S] by auto
02de4a58e210 HOL-Analysis: add measurable sets with finite measures, prove affine transformation rule for the Lebesgue measure hoelzl parents: 63918 diff changeset	1053
02de4a58e210 HOL-Analysis: add measurable sets with finite measures, prove affine transformation rule for the Lebesgue measure hoelzl parents: 63918 diff changeset	1054	have trans_eq_T: "(\<lambda>x. \<delta> + (\<Sum>j\<in>Basis. (m * (x \<bullet> j)) *\<^sub>R j)) = T m \<delta>" for m \<delta>
64267 b9a1486e79be setsum -> sum nipkow parents: 64008 diff changeset	1055	unfolding T_def[abs_def] scaleR_scaleR[symmetric] scaleR_sum_right[symmetric]
63958 02de4a58e210 HOL-Analysis: add measurable sets with finite measures, prove affine transformation rule for the Lebesgue measure hoelzl parents: 63918 diff changeset	1056	by (auto simp add: euclidean_representation ac_simps)
02de4a58e210 HOL-Analysis: add measurable sets with finite measures, prove affine transformation rule for the Lebesgue measure hoelzl parents: 63918 diff changeset	1057
02de4a58e210 HOL-Analysis: add measurable sets with finite measures, prove affine transformation rule for the Lebesgue measure hoelzl parents: 63918 diff changeset	1058	have T[measurable]: "T r d \<in> lebesgue \<rightarrow>\<^sub>M lebesgue" for r d
02de4a58e210 HOL-Analysis: add measurable sets with finite measures, prove affine transformation rule for the Lebesgue measure hoelzl parents: 63918 diff changeset	1059	using lebesgue_affine_measurable[of "\<lambda>_. r" d]
02de4a58e210 HOL-Analysis: add measurable sets with finite measures, prove affine transformation rule for the Lebesgue measure hoelzl parents: 63918 diff changeset	1060	by (cases "r = 0") (auto simp: trans_eq_T T_def[abs_def])
02de4a58e210 HOL-Analysis: add measurable sets with finite measures, prove affine transformation rule for the Lebesgue measure hoelzl parents: 63918 diff changeset	1061
02de4a58e210 HOL-Analysis: add measurable sets with finite measures, prove affine transformation rule for the Lebesgue measure hoelzl parents: 63918 diff changeset	1062	show ?thesis
02de4a58e210 HOL-Analysis: add measurable sets with finite measures, prove affine transformation rule for the Lebesgue measure hoelzl parents: 63918 diff changeset	1063	proof cases
02de4a58e210 HOL-Analysis: add measurable sets with finite measures, prove affine transformation rule for the Lebesgue measure hoelzl parents: 63918 diff changeset	1064	assume "S \<in> sets lebesgue" with \<open>m \<noteq> 0\<close> show ?thesis
02de4a58e210 HOL-Analysis: add measurable sets with finite measures, prove affine transformation rule for the Lebesgue measure hoelzl parents: 63918 diff changeset	1065	unfolding eq
02de4a58e210 HOL-Analysis: add measurable sets with finite measures, prove affine transformation rule for the Lebesgue measure hoelzl parents: 63918 diff changeset	1066	apply (subst lebesgue_affine_euclidean[of "\<lambda>_. m" \<delta>])
02de4a58e210 HOL-Analysis: add measurable sets with finite measures, prove affine transformation rule for the Lebesgue measure hoelzl parents: 63918 diff changeset	1067	apply (simp_all add: emeasure_density trans_eq_T nn_integral_cmult emeasure_distr
02de4a58e210 HOL-Analysis: add measurable sets with finite measures, prove affine transformation rule for the Lebesgue measure hoelzl parents: 63918 diff changeset	1068	del: space_completion emeasure_completion)
71172 575b3a818de5 tuned nipkow parents: 70817 diff changeset	1069	apply (simp add: vimage_comp s_comp_s)
63958 02de4a58e210 HOL-Analysis: add measurable sets with finite measures, prove affine transformation rule for the Lebesgue measure hoelzl parents: 63918 diff changeset	1070	done
02de4a58e210 HOL-Analysis: add measurable sets with finite measures, prove affine transformation rule for the Lebesgue measure hoelzl parents: 63918 diff changeset	1071	next
02de4a58e210 HOL-Analysis: add measurable sets with finite measures, prove affine transformation rule for the Lebesgue measure hoelzl parents: 63918 diff changeset	1072	assume "S \<notin> sets lebesgue"
02de4a58e210 HOL-Analysis: add measurable sets with finite measures, prove affine transformation rule for the Lebesgue measure hoelzl parents: 63918 diff changeset	1073	moreover have "?T ` S \<notin> sets lebesgue"
02de4a58e210 HOL-Analysis: add measurable sets with finite measures, prove affine transformation rule for the Lebesgue measure hoelzl parents: 63918 diff changeset	1074	proof
02de4a58e210 HOL-Analysis: add measurable sets with finite measures, prove affine transformation rule for the Lebesgue measure hoelzl parents: 63918 diff changeset	1075	assume "?T ` S \<in> sets lebesgue"
02de4a58e210 HOL-Analysis: add measurable sets with finite measures, prove affine transformation rule for the Lebesgue measure hoelzl parents: 63918 diff changeset	1076	then have "?T -` (?T ` S) \<inter> space lebesgue \<in> sets lebesgue"
02de4a58e210 HOL-Analysis: add measurable sets with finite measures, prove affine transformation rule for the Lebesgue measure hoelzl parents: 63918 diff changeset	1077	by (rule measurable_sets[OF T])
02de4a58e210 HOL-Analysis: add measurable sets with finite measures, prove affine transformation rule for the Lebesgue measure hoelzl parents: 63918 diff changeset	1078	also have "?T -` (?T ` S) \<inter> space lebesgue = S"
02de4a58e210 HOL-Analysis: add measurable sets with finite measures, prove affine transformation rule for the Lebesgue measure hoelzl parents: 63918 diff changeset	1079	by (simp add: vimage_comp s_comp_s eq)
02de4a58e210 HOL-Analysis: add measurable sets with finite measures, prove affine transformation rule for the Lebesgue measure hoelzl parents: 63918 diff changeset	1080	finally show False using \<open>S \<notin> sets lebesgue\<close> by auto
02de4a58e210 HOL-Analysis: add measurable sets with finite measures, prove affine transformation rule for the Lebesgue measure hoelzl parents: 63918 diff changeset	1081	qed
02de4a58e210 HOL-Analysis: add measurable sets with finite measures, prove affine transformation rule for the Lebesgue measure hoelzl parents: 63918 diff changeset	1082	ultimately show ?thesis
02de4a58e210 HOL-Analysis: add measurable sets with finite measures, prove affine transformation rule for the Lebesgue measure hoelzl parents: 63918 diff changeset	1083	by (simp add: emeasure_notin_sets)
02de4a58e210 HOL-Analysis: add measurable sets with finite measures, prove affine transformation rule for the Lebesgue measure hoelzl parents: 63918 diff changeset	1084	qed
02de4a58e210 HOL-Analysis: add measurable sets with finite measures, prove affine transformation rule for the Lebesgue measure hoelzl parents: 63918 diff changeset	1085	qed
02de4a58e210 HOL-Analysis: add measurable sets with finite measures, prove affine transformation rule for the Lebesgue measure hoelzl parents: 63918 diff changeset	1086	show ?m
64272 f76b6dda2e56 setprod -> prod nipkow parents: 64267 diff changeset	1087	unfolding measure_def \<open>?e\<close> by (simp add: enn2real_mult prod_nonneg)
63958 02de4a58e210 HOL-Analysis: add measurable sets with finite measures, prove affine transformation rule for the Lebesgue measure hoelzl parents: 63918 diff changeset	1088	qed
02de4a58e210 HOL-Analysis: add measurable sets with finite measures, prove affine transformation rule for the Lebesgue measure hoelzl parents: 63918 diff changeset	1089
67135 1a94352812f4 Moved material from AFP to Analysis/Number_Theory Manuel Eberl <eberlm@in.tum.de> parents: 66164 diff changeset	1090	lemma lebesgue_real_scale:
1a94352812f4 Moved material from AFP to Analysis/Number_Theory Manuel Eberl <eberlm@in.tum.de> parents: 66164 diff changeset	1091	assumes "c \<noteq> 0"
1a94352812f4 Moved material from AFP to Analysis/Number_Theory Manuel Eberl <eberlm@in.tum.de> parents: 66164 diff changeset	1092	shows "lebesgue = density (distr lebesgue lebesgue (\<lambda>x. c * x)) (\<lambda>x. ennreal \<bar>c\<bar>)"
1a94352812f4 Moved material from AFP to Analysis/Number_Theory Manuel Eberl <eberlm@in.tum.de> parents: 66164 diff changeset	1093	using assms by (subst lebesgue_affine_euclidean[of "\<lambda>_. c" 0]) simp_all
1a94352812f4 Moved material from AFP to Analysis/Number_Theory Manuel Eberl <eberlm@in.tum.de> parents: 66164 diff changeset	1094
56993 e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces hoelzl parents: 56218 diff changeset	1095	lemma lborel_has_bochner_integral_real_affine_iff:
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces hoelzl parents: 56218 diff changeset	1096	fixes x :: "'a :: {banach, second_countable_topology}"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces hoelzl parents: 56218 diff changeset	1097	shows "c \<noteq> 0 \<Longrightarrow>
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces hoelzl parents: 56218 diff changeset	1098	has_bochner_integral lborel f x \<longleftrightarrow>
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces hoelzl parents: 56218 diff changeset	1099	has_bochner_integral lborel (\<lambda>x. f (t + c * x)) (x /\<^sub>R \<bar>c\<bar>)"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces hoelzl parents: 56218 diff changeset	1100	unfolding has_bochner_integral_iff lborel_integrable_real_affine_iff
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces hoelzl parents: 56218 diff changeset	1101	by (simp_all add: lborel_integral_real_affine[symmetric] divideR_right cong: conj_cong)
49777 6ac97ab9b295 tuned Lebesgue measure proofs hoelzl parents: 47757 diff changeset	1102
59425 c5e79df8cc21 import general thms from Density_Compiler hoelzl parents: 59357 diff changeset	1103	lemma lborel_distr_uminus: "distr lborel borel uminus = (lborel :: real measure)"
60615 e5fa1d5d3952 Useful lemmas. The theorem concerning swapping the variables in a double integral. paulson <lp15@cam.ac.uk> parents: 59741 diff changeset	1104	by (subst lborel_real_affine[of "-1" 0])
62975 1d066f6ab25d Probability: move emeasure and nn_integral from ereal to ennreal hoelzl parents: 62390 diff changeset	1105	(auto simp: density_1 one_ennreal_def[symmetric])
59425 c5e79df8cc21 import general thms from Density_Compiler hoelzl parents: 59357 diff changeset	1106
60615 e5fa1d5d3952 Useful lemmas. The theorem concerning swapping the variables in a double integral. paulson <lp15@cam.ac.uk> parents: 59741 diff changeset	1107	lemma lborel_distr_mult:
59425 c5e79df8cc21 import general thms from Density_Compiler hoelzl parents: 59357 diff changeset	1108	assumes "(c::real) \<noteq> 0"
69064 5840724b1d71 Prefix form of infix with * on either side no longer needs special treatment nipkow parents: 68403 diff changeset	1109	shows "distr lborel borel ((*) c) = density lborel (\<lambda>_. inverse \<bar>c\<bar>)"
59425 c5e79df8cc21 import general thms from Density_Compiler hoelzl parents: 59357 diff changeset	1110	proof-
69064 5840724b1d71 Prefix form of infix with * on either side no longer needs special treatment nipkow parents: 68403 diff changeset	1111	have "distr lborel borel (() c) = distr lborel lborel (() c)" by (simp cong: distr_cong)
59425 c5e79df8cc21 import general thms from Density_Compiler hoelzl parents: 59357 diff changeset	1112	also from assms have "... = density lborel (\<lambda>_. inverse \<bar>c\<bar>)"
c5e79df8cc21 import general thms from Density_Compiler hoelzl parents: 59357 diff changeset	1113	by (subst lborel_real_affine[of "inverse c" 0]) (auto simp: o_def distr_density_distr)
c5e79df8cc21 import general thms from Density_Compiler hoelzl parents: 59357 diff changeset	1114	finally show ?thesis .
c5e79df8cc21 import general thms from Density_Compiler hoelzl parents: 59357 diff changeset	1115	qed
c5e79df8cc21 import general thms from Density_Compiler hoelzl parents: 59357 diff changeset	1116
60615 e5fa1d5d3952 Useful lemmas. The theorem concerning swapping the variables in a double integral. paulson <lp15@cam.ac.uk> parents: 59741 diff changeset	1117	lemma lborel_distr_mult':
59425 c5e79df8cc21 import general thms from Density_Compiler hoelzl parents: 59357 diff changeset	1118	assumes "(c::real) \<noteq> 0"
69064 5840724b1d71 Prefix form of infix with * on either side no longer needs special treatment nipkow parents: 68403 diff changeset	1119	shows "lborel = density (distr lborel borel ((*) c)) (\<lambda>_. \<bar>c\<bar>)"
59425 c5e79df8cc21 import general thms from Density_Compiler hoelzl parents: 59357 diff changeset	1120	proof-
c5e79df8cc21 import general thms from Density_Compiler hoelzl parents: 59357 diff changeset	1121	have "lborel = density lborel (\<lambda>_. 1)" by (rule density_1[symmetric])
62975 1d066f6ab25d Probability: move emeasure and nn_integral from ereal to ennreal hoelzl parents: 62390 diff changeset	1122	also from assms have "(\<lambda>_. 1 :: ennreal) = (\<lambda>_. inverse \<bar>c\<bar> * \<bar>c\<bar>)" by (intro ext) simp
61945 1135b8de26c3 more symbols; wenzelm parents: 61808 diff changeset	1123	also have "density lborel ... = density (density lborel (\<lambda>_. inverse \<bar>c\<bar>)) (\<lambda>_. \<bar>c\<bar>)"
62975 1d066f6ab25d Probability: move emeasure and nn_integral from ereal to ennreal hoelzl parents: 62390 diff changeset	1124	by (subst density_density_eq) (auto simp: ennreal_mult)
69064 5840724b1d71 Prefix form of infix with * on either side no longer needs special treatment nipkow parents: 68403 diff changeset	1125	also from assms have "density lborel (\<lambda>_. inverse \<bar>c\<bar>) = distr lborel borel ((*) c)"
59425 c5e79df8cc21 import general thms from Density_Compiler hoelzl parents: 59357 diff changeset	1126	by (rule lborel_distr_mult[symmetric])
c5e79df8cc21 import general thms from Density_Compiler hoelzl parents: 59357 diff changeset	1127	finally show ?thesis .
c5e79df8cc21 import general thms from Density_Compiler hoelzl parents: 59357 diff changeset	1128	qed
c5e79df8cc21 import general thms from Density_Compiler hoelzl parents: 59357 diff changeset	1129
70723 4e39d87c9737 imported new material mostly due to Sébastien Gouëzel paulson <lp15@cam.ac.uk> parents: 70707 diff changeset	1130	lemma lborel_distr_plus:
4e39d87c9737 imported new material mostly due to Sébastien Gouëzel paulson <lp15@cam.ac.uk> parents: 70707 diff changeset	1131	fixes c :: "'a::euclidean_space"
4e39d87c9737 imported new material mostly due to Sébastien Gouëzel paulson <lp15@cam.ac.uk> parents: 70707 diff changeset	1132	shows "distr lborel borel ((+) c) = lborel"
4e39d87c9737 imported new material mostly due to Sébastien Gouëzel paulson <lp15@cam.ac.uk> parents: 70707 diff changeset	1133	by (subst lborel_affine[of 1 c], auto simp: density_1)
59425 c5e79df8cc21 import general thms from Density_Compiler hoelzl parents: 59357 diff changeset	1134
61605 1bf7b186542e qualifier is mandatory by default; wenzelm parents: 61284 diff changeset	1135	interpretation lborel: sigma_finite_measure lborel
57447 87429bdecad5 import more stuff from the CLT proof; base the lborel measure on interval_measure; remove lebesgue measure hoelzl parents: 57275 diff changeset	1136	by (rule sigma_finite_lborel)
87429bdecad5 import more stuff from the CLT proof; base the lborel measure on interval_measure; remove lebesgue measure hoelzl parents: 57275 diff changeset	1137
87429bdecad5 import more stuff from the CLT proof; base the lborel measure on interval_measure; remove lebesgue measure hoelzl parents: 57275 diff changeset	1138	interpretation lborel_pair: pair_sigma_finite lborel lborel ..
87429bdecad5 import more stuff from the CLT proof; base the lborel measure on interval_measure; remove lebesgue measure hoelzl parents: 57275 diff changeset	1139
70136 f03a01a18c6e modernized tags: default scope excludes proof; wenzelm parents: 69922 diff changeset	1140	lemma\<^marker>\<open>tag important\<close> lborel_prod:
59425 c5e79df8cc21 import general thms from Density_Compiler hoelzl parents: 59357 diff changeset	1141	"lborel \<Otimes>\<^sub>M lborel = (lborel :: ('a::euclidean_space \<times> 'b::euclidean_space) measure)"
70136 f03a01a18c6e modernized tags: default scope excludes proof; wenzelm parents: 69922 diff changeset	1142	proof (rule lborel_eqI[symmetric], clarify)
59425 c5e79df8cc21 import general thms from Density_Compiler hoelzl parents: 59357 diff changeset	1143	fix la ua :: 'a and lb ub :: 'b
c5e79df8cc21 import general thms from Density_Compiler hoelzl parents: 59357 diff changeset	1144	assume lu: "\<And>a b. (a, b) \<in> Basis \<Longrightarrow> (la, lb) \<bullet> (a, b) \<le> (ua, ub) \<bullet> (a, b)"
c5e79df8cc21 import general thms from Density_Compiler hoelzl parents: 59357 diff changeset	1145	have [simp]:
c5e79df8cc21 import general thms from Density_Compiler hoelzl parents: 59357 diff changeset	1146	"\<And>b. b \<in> Basis \<Longrightarrow> la \<bullet> b \<le> ua \<bullet> b"
c5e79df8cc21 import general thms from Density_Compiler hoelzl parents: 59357 diff changeset	1147	"\<And>b. b \<in> Basis \<Longrightarrow> lb \<bullet> b \<le> ub \<bullet> b"
c5e79df8cc21 import general thms from Density_Compiler hoelzl parents: 59357 diff changeset	1148	"inj_on (\<lambda>u. (u, 0)) Basis" "inj_on (\<lambda>u. (0, u)) Basis"
c5e79df8cc21 import general thms from Density_Compiler hoelzl parents: 59357 diff changeset	1149	"(\<lambda>u. (u, 0)) ` Basis \<inter> (\<lambda>u. (0, u)) ` Basis = {}"
c5e79df8cc21 import general thms from Density_Compiler hoelzl parents: 59357 diff changeset	1150	"box (la, lb) (ua, ub) = box la ua \<times> box lb ub"
c5e79df8cc21 import general thms from Density_Compiler hoelzl parents: 59357 diff changeset	1151	using lu[of _ 0] lu[of 0] by (auto intro!: inj_onI simp add: Basis_prod_def ball_Un box_def)
c5e79df8cc21 import general thms from Density_Compiler hoelzl parents: 59357 diff changeset	1152	show "emeasure (lborel \<Otimes>\<^sub>M lborel) (box (la, lb) (ua, ub)) =
67399 eab6ce8368fa ran isabelle update_op on all sources nipkow parents: 67135 diff changeset	1153	ennreal (prod ((\<bullet>) ((ua, ub) - (la, lb))) Basis)"
64272 f76b6dda2e56 setprod -> prod nipkow parents: 64267 diff changeset	1154	by (simp add: lborel.emeasure_pair_measure_Times Basis_prod_def prod.union_disjoint
f76b6dda2e56 setprod -> prod nipkow parents: 64267 diff changeset	1155	prod.reindex ennreal_mult inner_diff_left prod_nonneg)
59425 c5e79df8cc21 import general thms from Density_Compiler hoelzl parents: 59357 diff changeset	1156	qed (simp add: borel_prod[symmetric])
c5e79df8cc21 import general thms from Density_Compiler hoelzl parents: 59357 diff changeset	1157
57447 87429bdecad5 import more stuff from the CLT proof; base the lborel measure on interval_measure; remove lebesgue measure hoelzl parents: 57275 diff changeset	1158	(* FIXME: conversion in measurable prover *)
68120 2f161c6910f7 tidying more messy proofs paulson <lp15@cam.ac.uk> parents: 68046 diff changeset	1159	lemma lborelD_Collect[measurable (raw)]: "{x\<in>space borel. P x} \<in> sets borel \<Longrightarrow> {x\<in>space lborel. P x} \<in> sets lborel"
2f161c6910f7 tidying more messy proofs paulson <lp15@cam.ac.uk> parents: 68046 diff changeset	1160	by simp
2f161c6910f7 tidying more messy proofs paulson <lp15@cam.ac.uk> parents: 68046 diff changeset	1161
2f161c6910f7 tidying more messy proofs paulson <lp15@cam.ac.uk> parents: 68046 diff changeset	1162	lemma lborelD[measurable (raw)]: "A \<in> sets borel \<Longrightarrow> A \<in> sets lborel"
2f161c6910f7 tidying more messy proofs paulson <lp15@cam.ac.uk> parents: 68046 diff changeset	1163	by simp
57447 87429bdecad5 import more stuff from the CLT proof; base the lborel measure on interval_measure; remove lebesgue measure hoelzl parents: 57275 diff changeset	1164
57138 7b3146180291 generalizd measurability on restricted space; rule for integrability on compact sets hoelzl parents: 57137 diff changeset	1165	lemma emeasure_bounded_finite:
7b3146180291 generalizd measurability on restricted space; rule for integrability on compact sets hoelzl parents: 57137 diff changeset	1166	assumes "bounded A" shows "emeasure lborel A < \<infinity>"
7b3146180291 generalizd measurability on restricted space; rule for integrability on compact sets hoelzl parents: 57137 diff changeset	1167	proof -
68120 2f161c6910f7 tidying more messy proofs paulson <lp15@cam.ac.uk> parents: 68046 diff changeset	1168	obtain a b where "A \<subseteq> cbox a b"
2f161c6910f7 tidying more messy proofs paulson <lp15@cam.ac.uk> parents: 68046 diff changeset	1169	by (meson bounded_subset_cbox_symmetric \<open>bounded A\<close>)
57138 7b3146180291 generalizd measurability on restricted space; rule for integrability on compact sets hoelzl parents: 57137 diff changeset	1170	then have "emeasure lborel A \<le> emeasure lborel (cbox a b)"
7b3146180291 generalizd measurability on restricted space; rule for integrability on compact sets hoelzl parents: 57137 diff changeset	1171	by (intro emeasure_mono) auto
7b3146180291 generalizd measurability on restricted space; rule for integrability on compact sets hoelzl parents: 57137 diff changeset	1172	then show ?thesis
64272 f76b6dda2e56 setprod -> prod nipkow parents: 64267 diff changeset	1173	by (auto simp: emeasure_lborel_cbox_eq prod_nonneg less_top[symmetric] top_unique split: if_split_asm)
57138 7b3146180291 generalizd measurability on restricted space; rule for integrability on compact sets hoelzl parents: 57137 diff changeset	1174	qed
7b3146180291 generalizd measurability on restricted space; rule for integrability on compact sets hoelzl parents: 57137 diff changeset	1175
7b3146180291 generalizd measurability on restricted space; rule for integrability on compact sets hoelzl parents: 57137 diff changeset	1176	lemma emeasure_compact_finite: "compact A \<Longrightarrow> emeasure lborel A < \<infinity>"
7b3146180291 generalizd measurability on restricted space; rule for integrability on compact sets hoelzl parents: 57137 diff changeset	1177	using emeasure_bounded_finite[of A] by (auto intro: compact_imp_bounded)
7b3146180291 generalizd measurability on restricted space; rule for integrability on compact sets hoelzl parents: 57137 diff changeset	1178
7b3146180291 generalizd measurability on restricted space; rule for integrability on compact sets hoelzl parents: 57137 diff changeset	1179	lemma borel_integrable_compact:
57447 87429bdecad5 import more stuff from the CLT proof; base the lborel measure on interval_measure; remove lebesgue measure hoelzl parents: 57275 diff changeset	1180	fixes f :: "'a::euclidean_space \<Rightarrow> 'b::{banach, second_countable_topology}"
57138 7b3146180291 generalizd measurability on restricted space; rule for integrability on compact sets hoelzl parents: 57137 diff changeset	1181	assumes "compact S" "continuous_on S f"
7b3146180291 generalizd measurability on restricted space; rule for integrability on compact sets hoelzl parents: 57137 diff changeset	1182	shows "integrable lborel (\<lambda>x. indicator S x *\<^sub>R f x)"
7b3146180291 generalizd measurability on restricted space; rule for integrability on compact sets hoelzl parents: 57137 diff changeset	1183	proof cases
7b3146180291 generalizd measurability on restricted space; rule for integrability on compact sets hoelzl parents: 57137 diff changeset	1184	assume "S \<noteq> {}"
7b3146180291 generalizd measurability on restricted space; rule for integrability on compact sets hoelzl parents: 57137 diff changeset	1185	have "continuous_on S (\<lambda>x. norm (f x))"
7b3146180291 generalizd measurability on restricted space; rule for integrability on compact sets hoelzl parents: 57137 diff changeset	1186	using assms by (intro continuous_intros)
61808 fc1556774cfe isabelle update_cartouches -c -t; wenzelm parents: 61762 diff changeset	1187	from continuous_attains_sup[OF \<open>compact S\<close> \<open>S \<noteq> {}\<close> this]
57138 7b3146180291 generalizd measurability on restricted space; rule for integrability on compact sets hoelzl parents: 57137 diff changeset	1188	obtain M where M: "\<And>x. x \<in> S \<Longrightarrow> norm (f x) \<le> M"
7b3146180291 generalizd measurability on restricted space; rule for integrability on compact sets hoelzl parents: 57137 diff changeset	1189	by auto
7b3146180291 generalizd measurability on restricted space; rule for integrability on compact sets hoelzl parents: 57137 diff changeset	1190	show ?thesis
7b3146180291 generalizd measurability on restricted space; rule for integrability on compact sets hoelzl parents: 57137 diff changeset	1191	proof (rule integrable_bound)
7b3146180291 generalizd measurability on restricted space; rule for integrability on compact sets hoelzl parents: 57137 diff changeset	1192	show "integrable lborel (\<lambda>x. indicator S x * M)"
7b3146180291 generalizd measurability on restricted space; rule for integrability on compact sets hoelzl parents: 57137 diff changeset	1193	using assms by (auto intro!: emeasure_compact_finite borel_compact integrable_mult_left)
7b3146180291 generalizd measurability on restricted space; rule for integrability on compact sets hoelzl parents: 57137 diff changeset	1194	show "(\<lambda>x. indicator S x *\<^sub>R f x) \<in> borel_measurable lborel"
7b3146180291 generalizd measurability on restricted space; rule for integrability on compact sets hoelzl parents: 57137 diff changeset	1195	using assms by (auto intro!: borel_measurable_continuous_on_indicator borel_compact)
7b3146180291 generalizd measurability on restricted space; rule for integrability on compact sets hoelzl parents: 57137 diff changeset	1196	show "AE x in lborel. norm (indicator S x \<^sub>R f x) \<le> norm (indicator S x M)"
7b3146180291 generalizd measurability on restricted space; rule for integrability on compact sets hoelzl parents: 57137 diff changeset	1197	by (auto split: split_indicator simp: abs_real_def dest!: M)
7b3146180291 generalizd measurability on restricted space; rule for integrability on compact sets hoelzl parents: 57137 diff changeset	1198	qed
7b3146180291 generalizd measurability on restricted space; rule for integrability on compact sets hoelzl parents: 57137 diff changeset	1199	qed simp
7b3146180291 generalizd measurability on restricted space; rule for integrability on compact sets hoelzl parents: 57137 diff changeset	1200
50418 bd68cf816dd3 fundamental theorem of calculus for the Lebesgue integral hoelzl parents: 50385 diff changeset	1201	lemma borel_integrable_atLeastAtMost:
56993 e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces hoelzl parents: 56218 diff changeset	1202	fixes f :: "real \<Rightarrow> real"
50418 bd68cf816dd3 fundamental theorem of calculus for the Lebesgue integral hoelzl parents: 50385 diff changeset	1203	assumes f: "\<And>x. a \<le> x \<Longrightarrow> x \<le> b \<Longrightarrow> isCont f x"
bd68cf816dd3 fundamental theorem of calculus for the Lebesgue integral hoelzl parents: 50385 diff changeset	1204	shows "integrable lborel (\<lambda>x. f x * indicator {a .. b} x)" (is "integrable _ ?f")
57138 7b3146180291 generalizd measurability on restricted space; rule for integrability on compact sets hoelzl parents: 57137 diff changeset	1205	proof -
7b3146180291 generalizd measurability on restricted space; rule for integrability on compact sets hoelzl parents: 57137 diff changeset	1206	have "integrable lborel (\<lambda>x. indicator {a .. b} x *\<^sub>R f x)"
7b3146180291 generalizd measurability on restricted space; rule for integrability on compact sets hoelzl parents: 57137 diff changeset	1207	proof (rule borel_integrable_compact)
7b3146180291 generalizd measurability on restricted space; rule for integrability on compact sets hoelzl parents: 57137 diff changeset	1208	from f show "continuous_on {a..b} f"
7b3146180291 generalizd measurability on restricted space; rule for integrability on compact sets hoelzl parents: 57137 diff changeset	1209	by (auto intro: continuous_at_imp_continuous_on)
7b3146180291 generalizd measurability on restricted space; rule for integrability on compact sets hoelzl parents: 57137 diff changeset	1210	qed simp
7b3146180291 generalizd measurability on restricted space; rule for integrability on compact sets hoelzl parents: 57137 diff changeset	1211	then show ?thesis
57512 cc97b347b301 reduced name variants for assoc and commute on plus and mult haftmann parents: 57447 diff changeset	1212	by (auto simp: mult.commute)
57138 7b3146180291 generalizd measurability on restricted space; rule for integrability on compact sets hoelzl parents: 57137 diff changeset	1213	qed
50418 bd68cf816dd3 fundamental theorem of calculus for the Lebesgue integral hoelzl parents: 50385 diff changeset	1214
69447 b7b9cbe0bd43 Tagged some of HOL-Analysis eberlm <eberlm@in.tum.de> parents: 69260 diff changeset	1215	subsection \<open>Lebesgue measurable sets\<close>
67984 adc1a992c470 a few more results paulson <lp15@cam.ac.uk> parents: 67982 diff changeset	1216
70136 f03a01a18c6e modernized tags: default scope excludes proof; wenzelm parents: 69922 diff changeset	1217	abbreviation\<^marker>\<open>tag important\<close> lmeasurable :: "'a::euclidean_space set set"
63958 02de4a58e210 HOL-Analysis: add measurable sets with finite measures, prove affine transformation rule for the Lebesgue measure hoelzl parents: 63918 diff changeset	1218	where
02de4a58e210 HOL-Analysis: add measurable sets with finite measures, prove affine transformation rule for the Lebesgue measure hoelzl parents: 63918 diff changeset	1219	"lmeasurable \<equiv> fmeasurable lebesgue"
02de4a58e210 HOL-Analysis: add measurable sets with finite measures, prove affine transformation rule for the Lebesgue measure hoelzl parents: 63918 diff changeset	1220
67982 7643b005b29a various new results on measures, integrals, etc., and some simplified proofs paulson <lp15@cam.ac.uk> parents: 67968 diff changeset	1221	lemma not_measurable_UNIV [simp]: "UNIV \<notin> lmeasurable"
7643b005b29a various new results on measures, integrals, etc., and some simplified proofs paulson <lp15@cam.ac.uk> parents: 67968 diff changeset	1222	by (simp add: fmeasurable_def)
7643b005b29a various new results on measures, integrals, etc., and some simplified proofs paulson <lp15@cam.ac.uk> parents: 67968 diff changeset	1223
70136 f03a01a18c6e modernized tags: default scope excludes proof; wenzelm parents: 69922 diff changeset	1224	lemma\<^marker>\<open>tag important\<close> lmeasurable_iff_integrable:
63958 02de4a58e210 HOL-Analysis: add measurable sets with finite measures, prove affine transformation rule for the Lebesgue measure hoelzl parents: 63918 diff changeset	1225	"S \<in> lmeasurable \<longleftrightarrow> integrable lebesgue (indicator S :: 'a::euclidean_space \<Rightarrow> real)"
02de4a58e210 HOL-Analysis: add measurable sets with finite measures, prove affine transformation rule for the Lebesgue measure hoelzl parents: 63918 diff changeset	1226	by (auto simp: fmeasurable_def integrable_iff_bounded borel_measurable_indicator_iff ennreal_indicator)
02de4a58e210 HOL-Analysis: add measurable sets with finite measures, prove affine transformation rule for the Lebesgue measure hoelzl parents: 63918 diff changeset	1227
02de4a58e210 HOL-Analysis: add measurable sets with finite measures, prove affine transformation rule for the Lebesgue measure hoelzl parents: 63918 diff changeset	1228	lemma lmeasurable_cbox [iff]: "cbox a b \<in> lmeasurable"
02de4a58e210 HOL-Analysis: add measurable sets with finite measures, prove affine transformation rule for the Lebesgue measure hoelzl parents: 63918 diff changeset	1229	and lmeasurable_box [iff]: "box a b \<in> lmeasurable"
02de4a58e210 HOL-Analysis: add measurable sets with finite measures, prove affine transformation rule for the Lebesgue measure hoelzl parents: 63918 diff changeset	1230	by (auto simp: fmeasurable_def emeasure_lborel_box_eq emeasure_lborel_cbox_eq)
02de4a58e210 HOL-Analysis: add measurable sets with finite measures, prove affine transformation rule for the Lebesgue measure hoelzl parents: 63918 diff changeset	1231
70532 fcf3b891ccb1 new material; rotated premises of Lim_transform_eventually paulson <lp15@cam.ac.uk> parents: 70381 diff changeset	1232	lemma
fcf3b891ccb1 new material; rotated premises of Lim_transform_eventually paulson <lp15@cam.ac.uk> parents: 70381 diff changeset	1233	fixes a::real
fcf3b891ccb1 new material; rotated premises of Lim_transform_eventually paulson <lp15@cam.ac.uk> parents: 70381 diff changeset	1234	shows lmeasurable_interval [iff]: "{a..b} \<in> lmeasurable" "{a<..<b} \<in> lmeasurable"
76786 50672d2d78db tidied some messy old proofs paulson <lp15@cam.ac.uk> parents: 75078 diff changeset	1235	by (metis box_real lmeasurable_box lmeasurable_cbox)+
70532 fcf3b891ccb1 new material; rotated premises of Lim_transform_eventually paulson <lp15@cam.ac.uk> parents: 70381 diff changeset	1236
67989 706f86afff43 more results about measure and negligibility paulson <lp15@cam.ac.uk> parents: 67986 diff changeset	1237	lemma fmeasurable_compact: "compact S \<Longrightarrow> S \<in> fmeasurable lborel"
706f86afff43 more results about measure and negligibility paulson <lp15@cam.ac.uk> parents: 67986 diff changeset	1238	using emeasure_compact_finite[of S] by (intro fmeasurableI) (auto simp: borel_compact)
706f86afff43 more results about measure and negligibility paulson <lp15@cam.ac.uk> parents: 67986 diff changeset	1239
63959 f77dca1abf1b HOL-Analysis: prove that a starlike set is negligible (based on HOL Light proof ported by L. C. Paulson) hoelzl parents: 63958 diff changeset	1240	lemma lmeasurable_compact: "compact S \<Longrightarrow> S \<in> lmeasurable"
67989 706f86afff43 more results about measure and negligibility paulson <lp15@cam.ac.uk> parents: 67986 diff changeset	1241	using fmeasurable_compact by (force simp: fmeasurable_def)
706f86afff43 more results about measure and negligibility paulson <lp15@cam.ac.uk> parents: 67986 diff changeset	1242
706f86afff43 more results about measure and negligibility paulson <lp15@cam.ac.uk> parents: 67986 diff changeset	1243	lemma measure_frontier:
706f86afff43 more results about measure and negligibility paulson <lp15@cam.ac.uk> parents: 67986 diff changeset	1244	"bounded S \<Longrightarrow> measure lebesgue (frontier S) = measure lebesgue (closure S) - measure lebesgue (interior S)"
706f86afff43 more results about measure and negligibility paulson <lp15@cam.ac.uk> parents: 67986 diff changeset	1245	using closure_subset interior_subset
706f86afff43 more results about measure and negligibility paulson <lp15@cam.ac.uk> parents: 67986 diff changeset	1246	by (auto simp: frontier_def fmeasurable_compact intro!: measurable_measure_Diff)
706f86afff43 more results about measure and negligibility paulson <lp15@cam.ac.uk> parents: 67986 diff changeset	1247
706f86afff43 more results about measure and negligibility paulson <lp15@cam.ac.uk> parents: 67986 diff changeset	1248	lemma lmeasurable_closure:
706f86afff43 more results about measure and negligibility paulson <lp15@cam.ac.uk> parents: 67986 diff changeset	1249	"bounded S \<Longrightarrow> closure S \<in> lmeasurable"
706f86afff43 more results about measure and negligibility paulson <lp15@cam.ac.uk> parents: 67986 diff changeset	1250	by (simp add: lmeasurable_compact)
706f86afff43 more results about measure and negligibility paulson <lp15@cam.ac.uk> parents: 67986 diff changeset	1251
706f86afff43 more results about measure and negligibility paulson <lp15@cam.ac.uk> parents: 67986 diff changeset	1252	lemma lmeasurable_frontier:
706f86afff43 more results about measure and negligibility paulson <lp15@cam.ac.uk> parents: 67986 diff changeset	1253	"bounded S \<Longrightarrow> frontier S \<in> lmeasurable"
706f86afff43 more results about measure and negligibility paulson <lp15@cam.ac.uk> parents: 67986 diff changeset	1254	by (simp add: compact_frontier_bounded lmeasurable_compact)
63959 f77dca1abf1b HOL-Analysis: prove that a starlike set is negligible (based on HOL Light proof ported by L. C. Paulson) hoelzl parents: 63958 diff changeset	1255
f77dca1abf1b HOL-Analysis: prove that a starlike set is negligible (based on HOL Light proof ported by L. C. Paulson) hoelzl parents: 63958 diff changeset	1256	lemma lmeasurable_open: "bounded S \<Longrightarrow> open S \<Longrightarrow> S \<in> lmeasurable"
f77dca1abf1b HOL-Analysis: prove that a starlike set is negligible (based on HOL Light proof ported by L. C. Paulson) hoelzl parents: 63958 diff changeset	1257	using emeasure_bounded_finite[of S] by (intro fmeasurableI) (auto simp: borel_open)
f77dca1abf1b HOL-Analysis: prove that a starlike set is negligible (based on HOL Light proof ported by L. C. Paulson) hoelzl parents: 63958 diff changeset	1258
67990 c0ebecf6e3eb some more random results paulson <lp15@cam.ac.uk> parents: 67989 diff changeset	1259	lemma lmeasurable_ball [simp]: "ball a r \<in> lmeasurable"
63959 f77dca1abf1b HOL-Analysis: prove that a starlike set is negligible (based on HOL Light proof ported by L. C. Paulson) hoelzl parents: 63958 diff changeset	1260	by (simp add: lmeasurable_open)
f77dca1abf1b HOL-Analysis: prove that a starlike set is negligible (based on HOL Light proof ported by L. C. Paulson) hoelzl parents: 63958 diff changeset	1261
67990 c0ebecf6e3eb some more random results paulson <lp15@cam.ac.uk> parents: 67989 diff changeset	1262	lemma lmeasurable_cball [simp]: "cball a r \<in> lmeasurable"
c0ebecf6e3eb some more random results paulson <lp15@cam.ac.uk> parents: 67989 diff changeset	1263	by (simp add: lmeasurable_compact)
c0ebecf6e3eb some more random results paulson <lp15@cam.ac.uk> parents: 67989 diff changeset	1264
63959 f77dca1abf1b HOL-Analysis: prove that a starlike set is negligible (based on HOL Light proof ported by L. C. Paulson) hoelzl parents: 63958 diff changeset	1265	lemma lmeasurable_interior: "bounded S \<Longrightarrow> interior S \<in> lmeasurable"
f77dca1abf1b HOL-Analysis: prove that a starlike set is negligible (based on HOL Light proof ported by L. C. Paulson) hoelzl parents: 63958 diff changeset	1266	by (simp add: bounded_interior lmeasurable_open)
f77dca1abf1b HOL-Analysis: prove that a starlike set is negligible (based on HOL Light proof ported by L. C. Paulson) hoelzl parents: 63958 diff changeset	1267
f77dca1abf1b HOL-Analysis: prove that a starlike set is negligible (based on HOL Light proof ported by L. C. Paulson) hoelzl parents: 63958 diff changeset	1268	lemma null_sets_cbox_Diff_box: "cbox a b - box a b \<in> null_sets lborel"
76786 50672d2d78db tidied some messy old proofs paulson <lp15@cam.ac.uk> parents: 75078 diff changeset	1269	by (simp add: emeasure_Diff emeasure_lborel_box_eq emeasure_lborel_cbox_eq null_setsI subset_box)
67968 a5ad4c015d1c removed dots at the end of (sub)titles nipkow parents: 67673 diff changeset	1270
67984 adc1a992c470 a few more results paulson <lp15@cam.ac.uk> parents: 67982 diff changeset	1271	lemma bounded_set_imp_lmeasurable:
adc1a992c470 a few more results paulson <lp15@cam.ac.uk> parents: 67982 diff changeset	1272	assumes "bounded S" "S \<in> sets lebesgue" shows "S \<in> lmeasurable"
adc1a992c470 a few more results paulson <lp15@cam.ac.uk> parents: 67982 diff changeset	1273	by (metis assms bounded_Un emeasure_bounded_finite emeasure_completion fmeasurableI main_part_null_part_Un)
adc1a992c470 a few more results paulson <lp15@cam.ac.uk> parents: 67982 diff changeset	1274
70381 b151d1f00204 More results about measure and integration theory paulson <lp15@cam.ac.uk> parents: 70380 diff changeset	1275	lemma finite_measure_lebesgue_on: "S \<in> lmeasurable \<Longrightarrow> finite_measure (lebesgue_on S)"
b151d1f00204 More results about measure and integration theory paulson <lp15@cam.ac.uk> parents: 70380 diff changeset	1276	by (auto simp: finite_measureI fmeasurable_def emeasure_restrict_space)
b151d1f00204 More results about measure and integration theory paulson <lp15@cam.ac.uk> parents: 70380 diff changeset	1277
b151d1f00204 More results about measure and integration theory paulson <lp15@cam.ac.uk> parents: 70380 diff changeset	1278	lemma integrable_const_ivl [iff]:
b151d1f00204 More results about measure and integration theory paulson <lp15@cam.ac.uk> parents: 70380 diff changeset	1279	fixes a::"'a::ordered_euclidean_space"
b151d1f00204 More results about measure and integration theory paulson <lp15@cam.ac.uk> parents: 70380 diff changeset	1280	shows "integrable (lebesgue_on {a..b}) (\<lambda>x. c)"
b151d1f00204 More results about measure and integration theory paulson <lp15@cam.ac.uk> parents: 70380 diff changeset	1281	by (metis cbox_interval finite_measure.integrable_const finite_measure_lebesgue_on lmeasurable_cbox)
67986 b65c4a6a015e quite a few more results about negligibility, etc., and a bit of tidying up paulson <lp15@cam.ac.uk> parents: 67984 diff changeset	1282
70136 f03a01a18c6e modernized tags: default scope excludes proof; wenzelm parents: 69922 diff changeset	1283	subsection\<^marker>\<open>tag unimportant\<close>\<open>Translation preserves Lebesgue measure\<close>
67986 b65c4a6a015e quite a few more results about negligibility, etc., and a bit of tidying up paulson <lp15@cam.ac.uk> parents: 67984 diff changeset	1284
b65c4a6a015e quite a few more results about negligibility, etc., and a bit of tidying up paulson <lp15@cam.ac.uk> parents: 67984 diff changeset	1285	lemma sigma_sets_image:
b65c4a6a015e quite a few more results about negligibility, etc., and a bit of tidying up paulson <lp15@cam.ac.uk> parents: 67984 diff changeset	1286	assumes S: "S \<in> sigma_sets \<Omega> M" and "M \<subseteq> Pow \<Omega>" "f ` \<Omega> = \<Omega>" "inj_on f \<Omega>"
b65c4a6a015e quite a few more results about negligibility, etc., and a bit of tidying up paulson <lp15@cam.ac.uk> parents: 67984 diff changeset	1287	and M: "\<And>y. y \<in> M \<Longrightarrow> f ` y \<in> M"
b65c4a6a015e quite a few more results about negligibility, etc., and a bit of tidying up paulson <lp15@cam.ac.uk> parents: 67984 diff changeset	1288	shows "(f ` S) \<in> sigma_sets \<Omega> M"
b65c4a6a015e quite a few more results about negligibility, etc., and a bit of tidying up paulson <lp15@cam.ac.uk> parents: 67984 diff changeset	1289	using S
b65c4a6a015e quite a few more results about negligibility, etc., and a bit of tidying up paulson <lp15@cam.ac.uk> parents: 67984 diff changeset	1290	proof (induct S rule: sigma_sets.induct)
b65c4a6a015e quite a few more results about negligibility, etc., and a bit of tidying up paulson <lp15@cam.ac.uk> parents: 67984 diff changeset	1291	case (Basic a) then show ?case
b65c4a6a015e quite a few more results about negligibility, etc., and a bit of tidying up paulson <lp15@cam.ac.uk> parents: 67984 diff changeset	1292	by (simp add: M)
b65c4a6a015e quite a few more results about negligibility, etc., and a bit of tidying up paulson <lp15@cam.ac.uk> parents: 67984 diff changeset	1293	next
b65c4a6a015e quite a few more results about negligibility, etc., and a bit of tidying up paulson <lp15@cam.ac.uk> parents: 67984 diff changeset	1294	case Empty then show ?case
b65c4a6a015e quite a few more results about negligibility, etc., and a bit of tidying up paulson <lp15@cam.ac.uk> parents: 67984 diff changeset	1295	by (simp add: sigma_sets.Empty)
b65c4a6a015e quite a few more results about negligibility, etc., and a bit of tidying up paulson <lp15@cam.ac.uk> parents: 67984 diff changeset	1296	next
b65c4a6a015e quite a few more results about negligibility, etc., and a bit of tidying up paulson <lp15@cam.ac.uk> parents: 67984 diff changeset	1297	case (Compl a)
76786 50672d2d78db tidied some messy old proofs paulson <lp15@cam.ac.uk> parents: 75078 diff changeset	1298	with assms show ?case
50672d2d78db tidied some messy old proofs paulson <lp15@cam.ac.uk> parents: 75078 diff changeset	1299	by (metis inj_on_image_set_diff sigma_sets.Compl sigma_sets_into_sp)
67986 b65c4a6a015e quite a few more results about negligibility, etc., and a bit of tidying up paulson <lp15@cam.ac.uk> parents: 67984 diff changeset	1300	next
b65c4a6a015e quite a few more results about negligibility, etc., and a bit of tidying up paulson <lp15@cam.ac.uk> parents: 67984 diff changeset	1301	case (Union a) then show ?case
b65c4a6a015e quite a few more results about negligibility, etc., and a bit of tidying up paulson <lp15@cam.ac.uk> parents: 67984 diff changeset	1302	by (metis image_UN sigma_sets.simps)
b65c4a6a015e quite a few more results about negligibility, etc., and a bit of tidying up paulson <lp15@cam.ac.uk> parents: 67984 diff changeset	1303	qed
b65c4a6a015e quite a few more results about negligibility, etc., and a bit of tidying up paulson <lp15@cam.ac.uk> parents: 67984 diff changeset	1304
b65c4a6a015e quite a few more results about negligibility, etc., and a bit of tidying up paulson <lp15@cam.ac.uk> parents: 67984 diff changeset	1305	lemma null_sets_translation:
b65c4a6a015e quite a few more results about negligibility, etc., and a bit of tidying up paulson <lp15@cam.ac.uk> parents: 67984 diff changeset	1306	assumes "N \<in> null_sets lborel" shows "{x. x - a \<in> N} \<in> null_sets lborel"
b65c4a6a015e quite a few more results about negligibility, etc., and a bit of tidying up paulson <lp15@cam.ac.uk> parents: 67984 diff changeset	1307	proof -
b65c4a6a015e quite a few more results about negligibility, etc., and a bit of tidying up paulson <lp15@cam.ac.uk> parents: 67984 diff changeset	1308	have [simp]: "(\<lambda>x. x + a) ` N = {x. x - a \<in> N}"
b65c4a6a015e quite a few more results about negligibility, etc., and a bit of tidying up paulson <lp15@cam.ac.uk> parents: 67984 diff changeset	1309	by force
b65c4a6a015e quite a few more results about negligibility, etc., and a bit of tidying up paulson <lp15@cam.ac.uk> parents: 67984 diff changeset	1310	show ?thesis
b65c4a6a015e quite a few more results about negligibility, etc., and a bit of tidying up paulson <lp15@cam.ac.uk> parents: 67984 diff changeset	1311	using assms emeasure_lebesgue_affine [of 1 a N] by (auto simp: null_sets_def)
b65c4a6a015e quite a few more results about negligibility, etc., and a bit of tidying up paulson <lp15@cam.ac.uk> parents: 67984 diff changeset	1312	qed
b65c4a6a015e quite a few more results about negligibility, etc., and a bit of tidying up paulson <lp15@cam.ac.uk> parents: 67984 diff changeset	1313
b65c4a6a015e quite a few more results about negligibility, etc., and a bit of tidying up paulson <lp15@cam.ac.uk> parents: 67984 diff changeset	1314	lemma lebesgue_sets_translation:
b65c4a6a015e quite a few more results about negligibility, etc., and a bit of tidying up paulson <lp15@cam.ac.uk> parents: 67984 diff changeset	1315	fixes f :: "'a \<Rightarrow> 'a::euclidean_space"
b65c4a6a015e quite a few more results about negligibility, etc., and a bit of tidying up paulson <lp15@cam.ac.uk> parents: 67984 diff changeset	1316	assumes S: "S \<in> sets lebesgue"
b65c4a6a015e quite a few more results about negligibility, etc., and a bit of tidying up paulson <lp15@cam.ac.uk> parents: 67984 diff changeset	1317	shows "((\<lambda>x. a + x) ` S) \<in> sets lebesgue"
b65c4a6a015e quite a few more results about negligibility, etc., and a bit of tidying up paulson <lp15@cam.ac.uk> parents: 67984 diff changeset	1318	proof -
b65c4a6a015e quite a few more results about negligibility, etc., and a bit of tidying up paulson <lp15@cam.ac.uk> parents: 67984 diff changeset	1319	have im_eq: "(+) a ` A = {x. x - a \<in> A}" for A
b65c4a6a015e quite a few more results about negligibility, etc., and a bit of tidying up paulson <lp15@cam.ac.uk> parents: 67984 diff changeset	1320	by force
b65c4a6a015e quite a few more results about negligibility, etc., and a bit of tidying up paulson <lp15@cam.ac.uk> parents: 67984 diff changeset	1321	have "((\<lambda>x. a + x) ` S) = ((\<lambda>x. -a + x) -` S) \<inter> (space lebesgue)"
b65c4a6a015e quite a few more results about negligibility, etc., and a bit of tidying up paulson <lp15@cam.ac.uk> parents: 67984 diff changeset	1322	using image_iff by fastforce
b65c4a6a015e quite a few more results about negligibility, etc., and a bit of tidying up paulson <lp15@cam.ac.uk> parents: 67984 diff changeset	1323	also have "\<dots> \<in> sets lebesgue"
b65c4a6a015e quite a few more results about negligibility, etc., and a bit of tidying up paulson <lp15@cam.ac.uk> parents: 67984 diff changeset	1324	proof (rule measurable_sets [OF measurableI assms])
b65c4a6a015e quite a few more results about negligibility, etc., and a bit of tidying up paulson <lp15@cam.ac.uk> parents: 67984 diff changeset	1325	fix A :: "'b set"
b65c4a6a015e quite a few more results about negligibility, etc., and a bit of tidying up paulson <lp15@cam.ac.uk> parents: 67984 diff changeset	1326	assume A: "A \<in> sets lebesgue"
b65c4a6a015e quite a few more results about negligibility, etc., and a bit of tidying up paulson <lp15@cam.ac.uk> parents: 67984 diff changeset	1327	have vim_eq: "(\<lambda>x. x - a) -` A = (+) a ` A" for A
b65c4a6a015e quite a few more results about negligibility, etc., and a bit of tidying up paulson <lp15@cam.ac.uk> parents: 67984 diff changeset	1328	by force
b65c4a6a015e quite a few more results about negligibility, etc., and a bit of tidying up paulson <lp15@cam.ac.uk> parents: 67984 diff changeset	1329	have "\<exists>s n N'. (+) a ` (S \<union> N) = s \<union> n \<and> s \<in> sets borel \<and> N' \<in> null_sets lborel \<and> n \<subseteq> N'"
b65c4a6a015e quite a few more results about negligibility, etc., and a bit of tidying up paulson <lp15@cam.ac.uk> parents: 67984 diff changeset	1330	if "S \<in> sets borel" and "N' \<in> null_sets lborel" and "N \<subseteq> N'" for S N N'
b65c4a6a015e quite a few more results about negligibility, etc., and a bit of tidying up paulson <lp15@cam.ac.uk> parents: 67984 diff changeset	1331	proof (intro exI conjI)
b65c4a6a015e quite a few more results about negligibility, etc., and a bit of tidying up paulson <lp15@cam.ac.uk> parents: 67984 diff changeset	1332	show "(+) a ` (S \<union> N) = (\<lambda>x. a + x) ` S \<union> (\<lambda>x. a + x) ` N"
b65c4a6a015e quite a few more results about negligibility, etc., and a bit of tidying up paulson <lp15@cam.ac.uk> parents: 67984 diff changeset	1333	by auto
b65c4a6a015e quite a few more results about negligibility, etc., and a bit of tidying up paulson <lp15@cam.ac.uk> parents: 67984 diff changeset	1334	show "(\<lambda>x. a + x) ` N' \<in> null_sets lborel"
b65c4a6a015e quite a few more results about negligibility, etc., and a bit of tidying up paulson <lp15@cam.ac.uk> parents: 67984 diff changeset	1335	using that by (auto simp: null_sets_translation im_eq)
b65c4a6a015e quite a few more results about negligibility, etc., and a bit of tidying up paulson <lp15@cam.ac.uk> parents: 67984 diff changeset	1336	qed (use that im_eq in auto)
b65c4a6a015e quite a few more results about negligibility, etc., and a bit of tidying up paulson <lp15@cam.ac.uk> parents: 67984 diff changeset	1337	with A have "(\<lambda>x. x - a) -` A \<in> sets lebesgue"
b65c4a6a015e quite a few more results about negligibility, etc., and a bit of tidying up paulson <lp15@cam.ac.uk> parents: 67984 diff changeset	1338	by (force simp: vim_eq completion_def intro!: sigma_sets_image)
b65c4a6a015e quite a few more results about negligibility, etc., and a bit of tidying up paulson <lp15@cam.ac.uk> parents: 67984 diff changeset	1339	then show "(+) (- a) -` A \<inter> space lebesgue \<in> sets lebesgue"
b65c4a6a015e quite a few more results about negligibility, etc., and a bit of tidying up paulson <lp15@cam.ac.uk> parents: 67984 diff changeset	1340	by (auto simp: vimage_def im_eq)
b65c4a6a015e quite a few more results about negligibility, etc., and a bit of tidying up paulson <lp15@cam.ac.uk> parents: 67984 diff changeset	1341	qed auto
b65c4a6a015e quite a few more results about negligibility, etc., and a bit of tidying up paulson <lp15@cam.ac.uk> parents: 67984 diff changeset	1342	finally show ?thesis .
b65c4a6a015e quite a few more results about negligibility, etc., and a bit of tidying up paulson <lp15@cam.ac.uk> parents: 67984 diff changeset	1343	qed
b65c4a6a015e quite a few more results about negligibility, etc., and a bit of tidying up paulson <lp15@cam.ac.uk> parents: 67984 diff changeset	1344
b65c4a6a015e quite a few more results about negligibility, etc., and a bit of tidying up paulson <lp15@cam.ac.uk> parents: 67984 diff changeset	1345	lemma measurable_translation:
69661 a03a63b81f44 tuned proofs haftmann parents: 69546 diff changeset	1346	"S \<in> lmeasurable \<Longrightarrow> ((+) a ` S) \<in> lmeasurable"
a03a63b81f44 tuned proofs haftmann parents: 69546 diff changeset	1347	using emeasure_lebesgue_affine [of 1 a S]
76786 50672d2d78db tidied some messy old proofs paulson <lp15@cam.ac.uk> parents: 75078 diff changeset	1348	by (smt (verit, best) add.commute ennreal_1 fmeasurable_def image_cong lambda_one
50672d2d78db tidied some messy old proofs paulson <lp15@cam.ac.uk> parents: 75078 diff changeset	1349	lebesgue_sets_translation mem_Collect_eq power_one scaleR_one)
69661 a03a63b81f44 tuned proofs haftmann parents: 69546 diff changeset	1350
a03a63b81f44 tuned proofs haftmann parents: 69546 diff changeset	1351	lemma measurable_translation_subtract:
a03a63b81f44 tuned proofs haftmann parents: 69546 diff changeset	1352	"S \<in> lmeasurable \<Longrightarrow> ((\<lambda>x. x - a) ` S) \<in> lmeasurable"
a03a63b81f44 tuned proofs haftmann parents: 69546 diff changeset	1353	using measurable_translation [of S "- a"] by (simp cong: image_cong_simp)
67986 b65c4a6a015e quite a few more results about negligibility, etc., and a bit of tidying up paulson <lp15@cam.ac.uk> parents: 67984 diff changeset	1354
b65c4a6a015e quite a few more results about negligibility, etc., and a bit of tidying up paulson <lp15@cam.ac.uk> parents: 67984 diff changeset	1355	lemma measure_translation:
69661 a03a63b81f44 tuned proofs haftmann parents: 69546 diff changeset	1356	"measure lebesgue ((+) a ` S) = measure lebesgue S"
a03a63b81f44 tuned proofs haftmann parents: 69546 diff changeset	1357	using measure_lebesgue_affine [of 1 a S] by (simp add: ac_simps cong: image_cong_simp)
a03a63b81f44 tuned proofs haftmann parents: 69546 diff changeset	1358
a03a63b81f44 tuned proofs haftmann parents: 69546 diff changeset	1359	lemma measure_translation_subtract:
a03a63b81f44 tuned proofs haftmann parents: 69546 diff changeset	1360	"measure lebesgue ((\<lambda>x. x - a) ` S) = measure lebesgue S"
a03a63b81f44 tuned proofs haftmann parents: 69546 diff changeset	1361	using measure_translation [of "- a"] by (simp cong: image_cong_simp)
a03a63b81f44 tuned proofs haftmann parents: 69546 diff changeset	1362
67986 b65c4a6a015e quite a few more results about negligibility, etc., and a bit of tidying up paulson <lp15@cam.ac.uk> parents: 67984 diff changeset	1363
67968 a5ad4c015d1c removed dots at the end of (sub)titles nipkow parents: 67673 diff changeset	1364	subsection \<open>A nice lemma for negligibility proofs\<close>
63959 f77dca1abf1b HOL-Analysis: prove that a starlike set is negligible (based on HOL Light proof ported by L. C. Paulson) hoelzl parents: 63958 diff changeset	1365
f77dca1abf1b HOL-Analysis: prove that a starlike set is negligible (based on HOL Light proof ported by L. C. Paulson) hoelzl parents: 63958 diff changeset	1366	lemma summable_iff_suminf_neq_top: "(\<And>n. f n \<ge> 0) \<Longrightarrow> \<not> summable f \<Longrightarrow> (\<Sum>i. ennreal (f i)) = top"
f77dca1abf1b HOL-Analysis: prove that a starlike set is negligible (based on HOL Light proof ported by L. C. Paulson) hoelzl parents: 63958 diff changeset	1367	by (metis summable_suminf_not_top)
f77dca1abf1b HOL-Analysis: prove that a starlike set is negligible (based on HOL Light proof ported by L. C. Paulson) hoelzl parents: 63958 diff changeset	1368
70136 f03a01a18c6e modernized tags: default scope excludes proof; wenzelm parents: 69922 diff changeset	1369	proposition\<^marker>\<open>tag important\<close> starlike_negligible_bounded_gmeasurable:
63959 f77dca1abf1b HOL-Analysis: prove that a starlike set is negligible (based on HOL Light proof ported by L. C. Paulson) hoelzl parents: 63958 diff changeset	1370	fixes S :: "'a :: euclidean_space set"
f77dca1abf1b HOL-Analysis: prove that a starlike set is negligible (based on HOL Light proof ported by L. C. Paulson) hoelzl parents: 63958 diff changeset	1371	assumes S: "S \<in> sets lebesgue" and "bounded S"
f77dca1abf1b HOL-Analysis: prove that a starlike set is negligible (based on HOL Light proof ported by L. C. Paulson) hoelzl parents: 63958 diff changeset	1372	and eq1: "\<And>c x. \<lbrakk>(c *\<^sub>R x) \<in> S; 0 \<le> c; x \<in> S\<rbrakk> \<Longrightarrow> c = 1"
f77dca1abf1b HOL-Analysis: prove that a starlike set is negligible (based on HOL Light proof ported by L. C. Paulson) hoelzl parents: 63958 diff changeset	1373	shows "S \<in> null_sets lebesgue"
70136 f03a01a18c6e modernized tags: default scope excludes proof; wenzelm parents: 69922 diff changeset	1374	proof -
63959 f77dca1abf1b HOL-Analysis: prove that a starlike set is negligible (based on HOL Light proof ported by L. C. Paulson) hoelzl parents: 63958 diff changeset	1375	obtain M where "0 < M" "S \<subseteq> ball 0 M"
f77dca1abf1b HOL-Analysis: prove that a starlike set is negligible (based on HOL Light proof ported by L. C. Paulson) hoelzl parents: 63958 diff changeset	1376	using \<open>bounded S\<close> by (auto dest: bounded_subset_ballD)
f77dca1abf1b HOL-Analysis: prove that a starlike set is negligible (based on HOL Light proof ported by L. C. Paulson) hoelzl parents: 63958 diff changeset	1377
f77dca1abf1b HOL-Analysis: prove that a starlike set is negligible (based on HOL Light proof ported by L. C. Paulson) hoelzl parents: 63958 diff changeset	1378	let ?f = "\<lambda>n. root DIM('a) (Suc n)"
f77dca1abf1b HOL-Analysis: prove that a starlike set is negligible (based on HOL Light proof ported by L. C. Paulson) hoelzl parents: 63958 diff changeset	1379
76786 50672d2d78db tidied some messy old proofs paulson <lp15@cam.ac.uk> parents: 75078 diff changeset	1380	have "?f n \<^sub>R x \<in> S \<Longrightarrow> x \<in> (\<^sub>R) (1 / ?f n) ` S" for x n
50672d2d78db tidied some messy old proofs paulson <lp15@cam.ac.uk> parents: 75078 diff changeset	1381	by (rule image_eqI[of _ _ "?f n *\<^sub>R x"]) auto
50672d2d78db tidied some messy old proofs paulson <lp15@cam.ac.uk> parents: 75078 diff changeset	1382	then have vimage_eq_image: "(\<^sub>R) (?f n) -` S = (\<^sub>R) (1 / ?f n) ` S" for n
50672d2d78db tidied some messy old proofs paulson <lp15@cam.ac.uk> parents: 75078 diff changeset	1383	by auto
63959 f77dca1abf1b HOL-Analysis: prove that a starlike set is negligible (based on HOL Light proof ported by L. C. Paulson) hoelzl parents: 63958 diff changeset	1384
f77dca1abf1b HOL-Analysis: prove that a starlike set is negligible (based on HOL Light proof ported by L. C. Paulson) hoelzl parents: 63958 diff changeset	1385	have eq: "(1 / ?f n) ^ DIM('a) = 1 / Suc n" for n
f77dca1abf1b HOL-Analysis: prove that a starlike set is negligible (based on HOL Light proof ported by L. C. Paulson) hoelzl parents: 63958 diff changeset	1386	by (simp add: field_simps)
f77dca1abf1b HOL-Analysis: prove that a starlike set is negligible (based on HOL Light proof ported by L. C. Paulson) hoelzl parents: 63958 diff changeset	1387
f77dca1abf1b HOL-Analysis: prove that a starlike set is negligible (based on HOL Light proof ported by L. C. Paulson) hoelzl parents: 63958 diff changeset	1388	{ fix n x assume x: "root DIM('a) (1 + real n) *\<^sub>R x \<in> S"
f77dca1abf1b HOL-Analysis: prove that a starlike set is negligible (based on HOL Light proof ported by L. C. Paulson) hoelzl parents: 63958 diff changeset	1389	have "1 * norm x \<le> root DIM('a) (1 + real n) * norm x"
f77dca1abf1b HOL-Analysis: prove that a starlike set is negligible (based on HOL Light proof ported by L. C. Paulson) hoelzl parents: 63958 diff changeset	1390	by (rule mult_mono) auto
f77dca1abf1b HOL-Analysis: prove that a starlike set is negligible (based on HOL Light proof ported by L. C. Paulson) hoelzl parents: 63958 diff changeset	1391	also have "\<dots> < M"
f77dca1abf1b HOL-Analysis: prove that a starlike set is negligible (based on HOL Light proof ported by L. C. Paulson) hoelzl parents: 63958 diff changeset	1392	using x \<open>S \<subseteq> ball 0 M\<close> by auto
f77dca1abf1b HOL-Analysis: prove that a starlike set is negligible (based on HOL Light proof ported by L. C. Paulson) hoelzl parents: 63958 diff changeset	1393	finally have "norm x < M" by simp }
f77dca1abf1b HOL-Analysis: prove that a starlike set is negligible (based on HOL Light proof ported by L. C. Paulson) hoelzl parents: 63958 diff changeset	1394	note less_M = this
f77dca1abf1b HOL-Analysis: prove that a starlike set is negligible (based on HOL Light proof ported by L. C. Paulson) hoelzl parents: 63958 diff changeset	1395
f77dca1abf1b HOL-Analysis: prove that a starlike set is negligible (based on HOL Light proof ported by L. C. Paulson) hoelzl parents: 63958 diff changeset	1396	have "(\<Sum>n. ennreal (1 / Suc n)) = top"
f77dca1abf1b HOL-Analysis: prove that a starlike set is negligible (based on HOL Light proof ported by L. C. Paulson) hoelzl parents: 63958 diff changeset	1397	using not_summable_harmonic[where 'a=real] summable_Suc_iff[where f="\<lambda>n. 1 / (real n)"]
f77dca1abf1b HOL-Analysis: prove that a starlike set is negligible (based on HOL Light proof ported by L. C. Paulson) hoelzl parents: 63958 diff changeset	1398	by (intro summable_iff_suminf_neq_top) (auto simp add: inverse_eq_divide)
f77dca1abf1b HOL-Analysis: prove that a starlike set is negligible (based on HOL Light proof ported by L. C. Paulson) hoelzl parents: 63958 diff changeset	1399	then have "top * emeasure lebesgue S = (\<Sum>n. (1 / ?f n)^DIM('a) * emeasure lebesgue S)"
f77dca1abf1b HOL-Analysis: prove that a starlike set is negligible (based on HOL Light proof ported by L. C. Paulson) hoelzl parents: 63958 diff changeset	1400	unfolding ennreal_suminf_multc eq by simp
69064 5840724b1d71 Prefix form of infix with * on either side no longer needs special treatment nipkow parents: 68403 diff changeset	1401	also have "\<dots> = (\<Sum>n. emeasure lebesgue ((*\<^sub>R) (?f n) -` S))"
63959 f77dca1abf1b HOL-Analysis: prove that a starlike set is negligible (based on HOL Light proof ported by L. C. Paulson) hoelzl parents: 63958 diff changeset	1402	unfolding vimage_eq_image using emeasure_lebesgue_affine[of "1 / ?f n" 0 S for n] by simp
69064 5840724b1d71 Prefix form of infix with * on either side no longer needs special treatment nipkow parents: 68403 diff changeset	1403	also have "\<dots> = emeasure lebesgue (\<Union>n. (*\<^sub>R) (?f n) -` S)"
63959 f77dca1abf1b HOL-Analysis: prove that a starlike set is negligible (based on HOL Light proof ported by L. C. Paulson) hoelzl parents: 63958 diff changeset	1404	proof (intro suminf_emeasure)
69064 5840724b1d71 Prefix form of infix with * on either side no longer needs special treatment nipkow parents: 68403 diff changeset	1405	show "disjoint_family (\<lambda>n. (*\<^sub>R) (?f n) -` S)"
63959 f77dca1abf1b HOL-Analysis: prove that a starlike set is negligible (based on HOL Light proof ported by L. C. Paulson) hoelzl parents: 63958 diff changeset	1406	unfolding disjoint_family_on_def
f77dca1abf1b HOL-Analysis: prove that a starlike set is negligible (based on HOL Light proof ported by L. C. Paulson) hoelzl parents: 63958 diff changeset	1407	proof safe
f77dca1abf1b HOL-Analysis: prove that a starlike set is negligible (based on HOL Light proof ported by L. C. Paulson) hoelzl parents: 63958 diff changeset	1408	fix m n :: nat and x assume "m \<noteq> n" "?f m \<^sub>R x \<in> S" "?f n \<^sub>R x \<in> S"
f77dca1abf1b HOL-Analysis: prove that a starlike set is negligible (based on HOL Light proof ported by L. C. Paulson) hoelzl parents: 63958 diff changeset	1409	with eq1[of "?f m / ?f n" "?f n *\<^sub>R x"] show "x \<in> {}"
f77dca1abf1b HOL-Analysis: prove that a starlike set is negligible (based on HOL Light proof ported by L. C. Paulson) hoelzl parents: 63958 diff changeset	1410	by auto
f77dca1abf1b HOL-Analysis: prove that a starlike set is negligible (based on HOL Light proof ported by L. C. Paulson) hoelzl parents: 63958 diff changeset	1411	qed
69064 5840724b1d71 Prefix form of infix with * on either side no longer needs special treatment nipkow parents: 68403 diff changeset	1412	have "(*\<^sub>R) (?f i) -` S \<in> sets lebesgue" for i
63959 f77dca1abf1b HOL-Analysis: prove that a starlike set is negligible (based on HOL Light proof ported by L. C. Paulson) hoelzl parents: 63958 diff changeset	1413	using measurable_sets[OF lebesgue_measurable_scaling[of "?f i"] S] by auto
69064 5840724b1d71 Prefix form of infix with * on either side no longer needs special treatment nipkow parents: 68403 diff changeset	1414	then show "range (\<lambda>i. (*\<^sub>R) (?f i) -` S) \<subseteq> sets lebesgue"
63959 f77dca1abf1b HOL-Analysis: prove that a starlike set is negligible (based on HOL Light proof ported by L. C. Paulson) hoelzl parents: 63958 diff changeset	1415	by auto
f77dca1abf1b HOL-Analysis: prove that a starlike set is negligible (based on HOL Light proof ported by L. C. Paulson) hoelzl parents: 63958 diff changeset	1416	qed
f77dca1abf1b HOL-Analysis: prove that a starlike set is negligible (based on HOL Light proof ported by L. C. Paulson) hoelzl parents: 63958 diff changeset	1417	also have "\<dots> \<le> emeasure lebesgue (ball 0 M :: 'a set)"
f77dca1abf1b HOL-Analysis: prove that a starlike set is negligible (based on HOL Light proof ported by L. C. Paulson) hoelzl parents: 63958 diff changeset	1418	using less_M by (intro emeasure_mono) auto
f77dca1abf1b HOL-Analysis: prove that a starlike set is negligible (based on HOL Light proof ported by L. C. Paulson) hoelzl parents: 63958 diff changeset	1419	also have "\<dots> < top"
f77dca1abf1b HOL-Analysis: prove that a starlike set is negligible (based on HOL Light proof ported by L. C. Paulson) hoelzl parents: 63958 diff changeset	1420	using lmeasurable_ball by (auto simp: fmeasurable_def)
f77dca1abf1b HOL-Analysis: prove that a starlike set is negligible (based on HOL Light proof ported by L. C. Paulson) hoelzl parents: 63958 diff changeset	1421	finally have "emeasure lebesgue S = 0"
f77dca1abf1b HOL-Analysis: prove that a starlike set is negligible (based on HOL Light proof ported by L. C. Paulson) hoelzl parents: 63958 diff changeset	1422	by (simp add: ennreal_top_mult split: if_split_asm)
f77dca1abf1b HOL-Analysis: prove that a starlike set is negligible (based on HOL Light proof ported by L. C. Paulson) hoelzl parents: 63958 diff changeset	1423	then show "S \<in> null_sets lebesgue"
f77dca1abf1b HOL-Analysis: prove that a starlike set is negligible (based on HOL Light proof ported by L. C. Paulson) hoelzl parents: 63958 diff changeset	1424	unfolding null_sets_def using \<open>S \<in> sets lebesgue\<close> by auto
f77dca1abf1b HOL-Analysis: prove that a starlike set is negligible (based on HOL Light proof ported by L. C. Paulson) hoelzl parents: 63958 diff changeset	1425	qed
f77dca1abf1b HOL-Analysis: prove that a starlike set is negligible (based on HOL Light proof ported by L. C. Paulson) hoelzl parents: 63958 diff changeset	1426
f77dca1abf1b HOL-Analysis: prove that a starlike set is negligible (based on HOL Light proof ported by L. C. Paulson) hoelzl parents: 63958 diff changeset	1427	corollary starlike_negligible_compact:
f77dca1abf1b HOL-Analysis: prove that a starlike set is negligible (based on HOL Light proof ported by L. C. Paulson) hoelzl parents: 63958 diff changeset	1428	"compact S \<Longrightarrow> (\<And>c x. \<lbrakk>(c *\<^sub>R x) \<in> S; 0 \<le> c; x \<in> S\<rbrakk> \<Longrightarrow> c = 1) \<Longrightarrow> S \<in> null_sets lebesgue"
f77dca1abf1b HOL-Analysis: prove that a starlike set is negligible (based on HOL Light proof ported by L. C. Paulson) hoelzl parents: 63958 diff changeset	1429	using starlike_negligible_bounded_gmeasurable[of S] by (auto simp: compact_eq_bounded_closed)
f77dca1abf1b HOL-Analysis: prove that a starlike set is negligible (based on HOL Light proof ported by L. C. Paulson) hoelzl parents: 63958 diff changeset	1430
67998 73a5a33486ee Change of variables proof paulson <lp15@cam.ac.uk> parents: 67990 diff changeset	1431	proposition outer_regular_lborel_le:
73a5a33486ee Change of variables proof paulson <lp15@cam.ac.uk> parents: 67990 diff changeset	1432	assumes B[measurable]: "B \<in> sets borel" and "0 < (e::real)"
73a5a33486ee Change of variables proof paulson <lp15@cam.ac.uk> parents: 67990 diff changeset	1433	obtains U where "open U" "B \<subseteq> U" and "emeasure lborel (U - B) \<le> e"
63968 4359400adfe7 HOL-Analysis: the image of a negligible set under a Lipschitz continuous function is negligible (based on HOL Light proof ported by L. C. Paulson) hoelzl parents: 63959 diff changeset	1434	proof -
4359400adfe7 HOL-Analysis: the image of a negligible set under a Lipschitz continuous function is negligible (based on HOL Light proof ported by L. C. Paulson) hoelzl parents: 63959 diff changeset	1435	let ?\<mu> = "emeasure lborel"
4359400adfe7 HOL-Analysis: the image of a negligible set under a Lipschitz continuous function is negligible (based on HOL Light proof ported by L. C. Paulson) hoelzl parents: 63959 diff changeset	1436	let ?B = "\<lambda>n::nat. ball 0 n :: 'a set"
4359400adfe7 HOL-Analysis: the image of a negligible set under a Lipschitz continuous function is negligible (based on HOL Light proof ported by L. C. Paulson) hoelzl parents: 63959 diff changeset	1437	let ?e = "\<lambda>n. e*((1/2)^Suc n)"
4359400adfe7 HOL-Analysis: the image of a negligible set under a Lipschitz continuous function is negligible (based on HOL Light proof ported by L. C. Paulson) hoelzl parents: 63959 diff changeset	1438	have "\<forall>n. \<exists>U. open U \<and> ?B n \<inter> B \<subseteq> U \<and> ?\<mu> (U - B) < ?e n"
4359400adfe7 HOL-Analysis: the image of a negligible set under a Lipschitz continuous function is negligible (based on HOL Light proof ported by L. C. Paulson) hoelzl parents: 63959 diff changeset	1439	proof
4359400adfe7 HOL-Analysis: the image of a negligible set under a Lipschitz continuous function is negligible (based on HOL Light proof ported by L. C. Paulson) hoelzl parents: 63959 diff changeset	1440	fix n :: nat
4359400adfe7 HOL-Analysis: the image of a negligible set under a Lipschitz continuous function is negligible (based on HOL Light proof ported by L. C. Paulson) hoelzl parents: 63959 diff changeset	1441	let ?A = "density lborel (indicator (?B n))"
4359400adfe7 HOL-Analysis: the image of a negligible set under a Lipschitz continuous function is negligible (based on HOL Light proof ported by L. C. Paulson) hoelzl parents: 63959 diff changeset	1442	have emeasure_A: "X \<in> sets borel \<Longrightarrow> emeasure ?A X = ?\<mu> (?B n \<inter> X)" for X
67998 73a5a33486ee Change of variables proof paulson <lp15@cam.ac.uk> parents: 67990 diff changeset	1443	by (auto simp: emeasure_density borel_measurable_indicator indicator_inter_arith[symmetric])
63968 4359400adfe7 HOL-Analysis: the image of a negligible set under a Lipschitz continuous function is negligible (based on HOL Light proof ported by L. C. Paulson) hoelzl parents: 63959 diff changeset	1444
4359400adfe7 HOL-Analysis: the image of a negligible set under a Lipschitz continuous function is negligible (based on HOL Light proof ported by L. C. Paulson) hoelzl parents: 63959 diff changeset	1445	have finite_A: "emeasure ?A (space ?A) \<noteq> \<infinity>"
67998 73a5a33486ee Change of variables proof paulson <lp15@cam.ac.uk> parents: 67990 diff changeset	1446	using emeasure_bounded_finite[of "?B n"] by (auto simp: emeasure_A)
63968 4359400adfe7 HOL-Analysis: the image of a negligible set under a Lipschitz continuous function is negligible (based on HOL Light proof ported by L. C. Paulson) hoelzl parents: 63959 diff changeset	1447	interpret A: finite_measure ?A
4359400adfe7 HOL-Analysis: the image of a negligible set under a Lipschitz continuous function is negligible (based on HOL Light proof ported by L. C. Paulson) hoelzl parents: 63959 diff changeset	1448	by rule fact
69260 0a9688695a1b removed relics of ASCII syntax for indexed big operators haftmann parents: 69064 diff changeset	1449	have "emeasure ?A B + ?e n > (INF U\<in>{U. B \<subseteq> U \<and> open U}. emeasure ?A U)"
63968 4359400adfe7 HOL-Analysis: the image of a negligible set under a Lipschitz continuous function is negligible (based on HOL Light proof ported by L. C. Paulson) hoelzl parents: 63959 diff changeset	1450	using \<open>0<e\<close> by (auto simp: outer_regular[OF _ finite_A B, symmetric])
67998 73a5a33486ee Change of variables proof paulson <lp15@cam.ac.uk> parents: 67990 diff changeset	1451	then obtain U where U: "B \<subseteq> U" "open U" and muU: "?\<mu> (?B n \<inter> B) + ?e n > ?\<mu> (?B n \<inter> U)"
63968 4359400adfe7 HOL-Analysis: the image of a negligible set under a Lipschitz continuous function is negligible (based on HOL Light proof ported by L. C. Paulson) hoelzl parents: 63959 diff changeset	1452	unfolding INF_less_iff by (auto simp: emeasure_A)
4359400adfe7 HOL-Analysis: the image of a negligible set under a Lipschitz continuous function is negligible (based on HOL Light proof ported by L. C. Paulson) hoelzl parents: 63959 diff changeset	1453	moreover
4359400adfe7 HOL-Analysis: the image of a negligible set under a Lipschitz continuous function is negligible (based on HOL Light proof ported by L. C. Paulson) hoelzl parents: 63959 diff changeset	1454	{ have "?\<mu> ((?B n \<inter> U) - B) = ?\<mu> ((?B n \<inter> U) - (?B n \<inter> B))"
4359400adfe7 HOL-Analysis: the image of a negligible set under a Lipschitz continuous function is negligible (based on HOL Light proof ported by L. C. Paulson) hoelzl parents: 63959 diff changeset	1455	using U by (intro arg_cong[where f="?\<mu>"]) auto
4359400adfe7 HOL-Analysis: the image of a negligible set under a Lipschitz continuous function is negligible (based on HOL Light proof ported by L. C. Paulson) hoelzl parents: 63959 diff changeset	1456	also have "\<dots> = ?\<mu> (?B n \<inter> U) - ?\<mu> (?B n \<inter> B)"
4359400adfe7 HOL-Analysis: the image of a negligible set under a Lipschitz continuous function is negligible (based on HOL Light proof ported by L. C. Paulson) hoelzl parents: 63959 diff changeset	1457	using U A.emeasure_finite[of B]
4359400adfe7 HOL-Analysis: the image of a negligible set under a Lipschitz continuous function is negligible (based on HOL Light proof ported by L. C. Paulson) hoelzl parents: 63959 diff changeset	1458	by (intro emeasure_Diff) (auto simp del: A.emeasure_finite simp: emeasure_A)
4359400adfe7 HOL-Analysis: the image of a negligible set under a Lipschitz continuous function is negligible (based on HOL Light proof ported by L. C. Paulson) hoelzl parents: 63959 diff changeset	1459	also have "\<dots> < ?e n"
67998 73a5a33486ee Change of variables proof paulson <lp15@cam.ac.uk> parents: 67990 diff changeset	1460	using U muU A.emeasure_finite[of B]
63968 4359400adfe7 HOL-Analysis: the image of a negligible set under a Lipschitz continuous function is negligible (based on HOL Light proof ported by L. C. Paulson) hoelzl parents: 63959 diff changeset	1461	by (subst minus_less_iff_ennreal)
4359400adfe7 HOL-Analysis: the image of a negligible set under a Lipschitz continuous function is negligible (based on HOL Light proof ported by L. C. Paulson) hoelzl parents: 63959 diff changeset	1462	(auto simp del: A.emeasure_finite simp: emeasure_A less_top ac_simps intro!: emeasure_mono)
4359400adfe7 HOL-Analysis: the image of a negligible set under a Lipschitz continuous function is negligible (based on HOL Light proof ported by L. C. Paulson) hoelzl parents: 63959 diff changeset	1463	finally have "?\<mu> ((?B n \<inter> U) - B) < ?e n" . }
4359400adfe7 HOL-Analysis: the image of a negligible set under a Lipschitz continuous function is negligible (based on HOL Light proof ported by L. C. Paulson) hoelzl parents: 63959 diff changeset	1464	ultimately show "\<exists>U. open U \<and> ?B n \<inter> B \<subseteq> U \<and> ?\<mu> (U - B) < ?e n"
4359400adfe7 HOL-Analysis: the image of a negligible set under a Lipschitz continuous function is negligible (based on HOL Light proof ported by L. C. Paulson) hoelzl parents: 63959 diff changeset	1465	by (intro exI[of _ "?B n \<inter> U"]) auto
4359400adfe7 HOL-Analysis: the image of a negligible set under a Lipschitz continuous function is negligible (based on HOL Light proof ported by L. C. Paulson) hoelzl parents: 63959 diff changeset	1466	qed
4359400adfe7 HOL-Analysis: the image of a negligible set under a Lipschitz continuous function is negligible (based on HOL Light proof ported by L. C. Paulson) hoelzl parents: 63959 diff changeset	1467	then obtain U
4359400adfe7 HOL-Analysis: the image of a negligible set under a Lipschitz continuous function is negligible (based on HOL Light proof ported by L. C. Paulson) hoelzl parents: 63959 diff changeset	1468	where U: "\<And>n. open (U n)" "\<And>n. ?B n \<inter> B \<subseteq> U n" "\<And>n. ?\<mu> (U n - B) < ?e n"
4359400adfe7 HOL-Analysis: the image of a negligible set under a Lipschitz continuous function is negligible (based on HOL Light proof ported by L. C. Paulson) hoelzl parents: 63959 diff changeset	1469	by metis
67998 73a5a33486ee Change of variables proof paulson <lp15@cam.ac.uk> parents: 67990 diff changeset	1470	show ?thesis
73a5a33486ee Change of variables proof paulson <lp15@cam.ac.uk> parents: 67990 diff changeset	1471	proof
63968 4359400adfe7 HOL-Analysis: the image of a negligible set under a Lipschitz continuous function is negligible (based on HOL Light proof ported by L. C. Paulson) hoelzl parents: 63959 diff changeset	1472	{ fix x assume "x \<in> B"
4359400adfe7 HOL-Analysis: the image of a negligible set under a Lipschitz continuous function is negligible (based on HOL Light proof ported by L. C. Paulson) hoelzl parents: 63959 diff changeset	1473	moreover
67998 73a5a33486ee Change of variables proof paulson <lp15@cam.ac.uk> parents: 67990 diff changeset	1474	obtain n where "norm x < real n"
73a5a33486ee Change of variables proof paulson <lp15@cam.ac.uk> parents: 67990 diff changeset	1475	using reals_Archimedean2 by blast
63968 4359400adfe7 HOL-Analysis: the image of a negligible set under a Lipschitz continuous function is negligible (based on HOL Light proof ported by L. C. Paulson) hoelzl parents: 63959 diff changeset	1476	ultimately have "x \<in> (\<Union>n. U n)"
4359400adfe7 HOL-Analysis: the image of a negligible set under a Lipschitz continuous function is negligible (based on HOL Light proof ported by L. C. Paulson) hoelzl parents: 63959 diff changeset	1477	using U(2)[of n] by auto }
4359400adfe7 HOL-Analysis: the image of a negligible set under a Lipschitz continuous function is negligible (based on HOL Light proof ported by L. C. Paulson) hoelzl parents: 63959 diff changeset	1478	note * = this
4359400adfe7 HOL-Analysis: the image of a negligible set under a Lipschitz continuous function is negligible (based on HOL Light proof ported by L. C. Paulson) hoelzl parents: 63959 diff changeset	1479	then show "open (\<Union>n. U n)" "B \<subseteq> (\<Union>n. U n)"
67998 73a5a33486ee Change of variables proof paulson <lp15@cam.ac.uk> parents: 67990 diff changeset	1480	using U by auto
73a5a33486ee Change of variables proof paulson <lp15@cam.ac.uk> parents: 67990 diff changeset	1481	have "?\<mu> (\<Union>n. U n - B) \<le> (\<Sum>n. ?\<mu> (U n - B))"
73a5a33486ee Change of variables proof paulson <lp15@cam.ac.uk> parents: 67990 diff changeset	1482	using U(1) by (intro emeasure_subadditive_countably) auto
73a5a33486ee Change of variables proof paulson <lp15@cam.ac.uk> parents: 67990 diff changeset	1483	also have "\<dots> \<le> (\<Sum>n. ennreal (?e n))"
73a5a33486ee Change of variables proof paulson <lp15@cam.ac.uk> parents: 67990 diff changeset	1484	using U(3) by (intro suminf_le) (auto intro: less_imp_le)
73a5a33486ee Change of variables proof paulson <lp15@cam.ac.uk> parents: 67990 diff changeset	1485	also have "\<dots> = ennreal (e * 1)"
63968 4359400adfe7 HOL-Analysis: the image of a negligible set under a Lipschitz continuous function is negligible (based on HOL Light proof ported by L. C. Paulson) hoelzl parents: 63959 diff changeset	1486	using \<open>0<e\<close> by (intro suminf_ennreal_eq sums_mult power_half_series) auto
67998 73a5a33486ee Change of variables proof paulson <lp15@cam.ac.uk> parents: 67990 diff changeset	1487	finally show "emeasure lborel ((\<Union>n. U n) - B) \<le> ennreal e"
63968 4359400adfe7 HOL-Analysis: the image of a negligible set under a Lipschitz continuous function is negligible (based on HOL Light proof ported by L. C. Paulson) hoelzl parents: 63959 diff changeset	1488	by simp
4359400adfe7 HOL-Analysis: the image of a negligible set under a Lipschitz continuous function is negligible (based on HOL Light proof ported by L. C. Paulson) hoelzl parents: 63959 diff changeset	1489	qed
4359400adfe7 HOL-Analysis: the image of a negligible set under a Lipschitz continuous function is negligible (based on HOL Light proof ported by L. C. Paulson) hoelzl parents: 63959 diff changeset	1490	qed
4359400adfe7 HOL-Analysis: the image of a negligible set under a Lipschitz continuous function is negligible (based on HOL Light proof ported by L. C. Paulson) hoelzl parents: 63959 diff changeset	1491
70136 f03a01a18c6e modernized tags: default scope excludes proof; wenzelm parents: 69922 diff changeset	1492	lemma\<^marker>\<open>tag important\<close> outer_regular_lborel:
67998 73a5a33486ee Change of variables proof paulson <lp15@cam.ac.uk> parents: 67990 diff changeset	1493	assumes B: "B \<in> sets borel" and "0 < (e::real)"
73a5a33486ee Change of variables proof paulson <lp15@cam.ac.uk> parents: 67990 diff changeset	1494	obtains U where "open U" "B \<subseteq> U" "emeasure lborel (U - B) < e"
70136 f03a01a18c6e modernized tags: default scope excludes proof; wenzelm parents: 69922 diff changeset	1495	proof -
67998 73a5a33486ee Change of variables proof paulson <lp15@cam.ac.uk> parents: 67990 diff changeset	1496	obtain U where U: "open U" "B \<subseteq> U" and "emeasure lborel (U-B) \<le> e/2"
73a5a33486ee Change of variables proof paulson <lp15@cam.ac.uk> parents: 67990 diff changeset	1497	using outer_regular_lborel_le [OF B, of "e/2"] \<open>e > 0\<close>
73a5a33486ee Change of variables proof paulson <lp15@cam.ac.uk> parents: 67990 diff changeset	1498	by force
73a5a33486ee Change of variables proof paulson <lp15@cam.ac.uk> parents: 67990 diff changeset	1499	moreover have "ennreal (e/2) < ennreal e"
73a5a33486ee Change of variables proof paulson <lp15@cam.ac.uk> parents: 67990 diff changeset	1500	using \<open>e > 0\<close> by (simp add: ennreal_lessI)
73a5a33486ee Change of variables proof paulson <lp15@cam.ac.uk> parents: 67990 diff changeset	1501	ultimately have "emeasure lborel (U-B) < e"
73a5a33486ee Change of variables proof paulson <lp15@cam.ac.uk> parents: 67990 diff changeset	1502	by auto
73a5a33486ee Change of variables proof paulson <lp15@cam.ac.uk> parents: 67990 diff changeset	1503	with U show ?thesis
73a5a33486ee Change of variables proof paulson <lp15@cam.ac.uk> parents: 67990 diff changeset	1504	using that by auto
73a5a33486ee Change of variables proof paulson <lp15@cam.ac.uk> parents: 67990 diff changeset	1505	qed
73a5a33486ee Change of variables proof paulson <lp15@cam.ac.uk> parents: 67990 diff changeset	1506
73a5a33486ee Change of variables proof paulson <lp15@cam.ac.uk> parents: 67990 diff changeset	1507	lemma completion_upper:
73a5a33486ee Change of variables proof paulson <lp15@cam.ac.uk> parents: 67990 diff changeset	1508	assumes A: "A \<in> sets (completion M)"
73a5a33486ee Change of variables proof paulson <lp15@cam.ac.uk> parents: 67990 diff changeset	1509	obtains A' where "A \<subseteq> A'" "A' \<in> sets M" "A' - A \<in> null_sets (completion M)"
73a5a33486ee Change of variables proof paulson <lp15@cam.ac.uk> parents: 67990 diff changeset	1510	"emeasure (completion M) A = emeasure M A'"
63968 4359400adfe7 HOL-Analysis: the image of a negligible set under a Lipschitz continuous function is negligible (based on HOL Light proof ported by L. C. Paulson) hoelzl parents: 63959 diff changeset	1511	proof -
67998 73a5a33486ee Change of variables proof paulson <lp15@cam.ac.uk> parents: 67990 diff changeset	1512	from AE_notin_null_part[OF A] obtain N where N: "N \<in> null_sets M" "null_part M A \<subseteq> N"
76786 50672d2d78db tidied some messy old proofs paulson <lp15@cam.ac.uk> parents: 75078 diff changeset	1513	by (meson assms null_part)
67998 73a5a33486ee Change of variables proof paulson <lp15@cam.ac.uk> parents: 67990 diff changeset	1514	let ?A' = "main_part M A \<union> N"
73a5a33486ee Change of variables proof paulson <lp15@cam.ac.uk> parents: 67990 diff changeset	1515	show ?thesis
73a5a33486ee Change of variables proof paulson <lp15@cam.ac.uk> parents: 67990 diff changeset	1516	proof
73a5a33486ee Change of variables proof paulson <lp15@cam.ac.uk> parents: 67990 diff changeset	1517	show "A \<subseteq> ?A'"
76786 50672d2d78db tidied some messy old proofs paulson <lp15@cam.ac.uk> parents: 75078 diff changeset	1518	using \<open>null_part M A \<subseteq> N\<close> assms main_part_null_part_Un by blast
67998 73a5a33486ee Change of variables proof paulson <lp15@cam.ac.uk> parents: 67990 diff changeset	1519	have "main_part M A \<subseteq> A"
73a5a33486ee Change of variables proof paulson <lp15@cam.ac.uk> parents: 67990 diff changeset	1520	using assms main_part_null_part_Un by auto
73a5a33486ee Change of variables proof paulson <lp15@cam.ac.uk> parents: 67990 diff changeset	1521	then have "?A' - A \<subseteq> N"
73a5a33486ee Change of variables proof paulson <lp15@cam.ac.uk> parents: 67990 diff changeset	1522	by blast
73a5a33486ee Change of variables proof paulson <lp15@cam.ac.uk> parents: 67990 diff changeset	1523	with N show "?A' - A \<in> null_sets (completion M)"
73a5a33486ee Change of variables proof paulson <lp15@cam.ac.uk> parents: 67990 diff changeset	1524	by (blast intro: null_sets_completionI completion.complete_measure_axioms complete_measure.complete2)
73a5a33486ee Change of variables proof paulson <lp15@cam.ac.uk> parents: 67990 diff changeset	1525	show "emeasure (completion M) A = emeasure M (main_part M A \<union> N)"
73a5a33486ee Change of variables proof paulson <lp15@cam.ac.uk> parents: 67990 diff changeset	1526	using A \<open>N \<in> null_sets M\<close> by (simp add: emeasure_Un_null_set)
73a5a33486ee Change of variables proof paulson <lp15@cam.ac.uk> parents: 67990 diff changeset	1527	qed (use A N in auto)
73a5a33486ee Change of variables proof paulson <lp15@cam.ac.uk> parents: 67990 diff changeset	1528	qed
73a5a33486ee Change of variables proof paulson <lp15@cam.ac.uk> parents: 67990 diff changeset	1529
70378 ebd108578ab1 more new material about analysis paulson <lp15@cam.ac.uk> parents: 70271 diff changeset	1530	lemma sets_lebesgue_outer_open:
ebd108578ab1 more new material about analysis paulson <lp15@cam.ac.uk> parents: 70271 diff changeset	1531	fixes e::real
67998 73a5a33486ee Change of variables proof paulson <lp15@cam.ac.uk> parents: 67990 diff changeset	1532	assumes S: "S \<in> sets lebesgue" and "e > 0"
70378 ebd108578ab1 more new material about analysis paulson <lp15@cam.ac.uk> parents: 70271 diff changeset	1533	obtains T where "open T" "S \<subseteq> T" "(T - S) \<in> lmeasurable" "emeasure lebesgue (T - S) < ennreal e"
67998 73a5a33486ee Change of variables proof paulson <lp15@cam.ac.uk> parents: 67990 diff changeset	1534	proof -
73a5a33486ee Change of variables proof paulson <lp15@cam.ac.uk> parents: 67990 diff changeset	1535	obtain S' where S': "S \<subseteq> S'" "S' \<in> sets borel"
73a5a33486ee Change of variables proof paulson <lp15@cam.ac.uk> parents: 67990 diff changeset	1536	and null: "S' - S \<in> null_sets lebesgue"
73a5a33486ee Change of variables proof paulson <lp15@cam.ac.uk> parents: 67990 diff changeset	1537	and em: "emeasure lebesgue S = emeasure lborel S'"
63968 4359400adfe7 HOL-Analysis: the image of a negligible set under a Lipschitz continuous function is negligible (based on HOL Light proof ported by L. C. Paulson) hoelzl parents: 63959 diff changeset	1538	using completion_upper[of S lborel] S by auto
67998 73a5a33486ee Change of variables proof paulson <lp15@cam.ac.uk> parents: 67990 diff changeset	1539	then have f_S': "S' \<in> sets borel"
63968 4359400adfe7 HOL-Analysis: the image of a negligible set under a Lipschitz continuous function is negligible (based on HOL Light proof ported by L. C. Paulson) hoelzl parents: 63959 diff changeset	1540	using S by (auto simp: fmeasurable_def)
67998 73a5a33486ee Change of variables proof paulson <lp15@cam.ac.uk> parents: 67990 diff changeset	1541	with outer_regular_lborel[OF _ \<open>0<e\<close>]
73a5a33486ee Change of variables proof paulson <lp15@cam.ac.uk> parents: 67990 diff changeset	1542	obtain U where U: "open U" "S' \<subseteq> U" "emeasure lborel (U - S') < e"
73a5a33486ee Change of variables proof paulson <lp15@cam.ac.uk> parents: 67990 diff changeset	1543	by blast
63968 4359400adfe7 HOL-Analysis: the image of a negligible set under a Lipschitz continuous function is negligible (based on HOL Light proof ported by L. C. Paulson) hoelzl parents: 63959 diff changeset	1544	show thesis
67998 73a5a33486ee Change of variables proof paulson <lp15@cam.ac.uk> parents: 67990 diff changeset	1545	proof
73a5a33486ee Change of variables proof paulson <lp15@cam.ac.uk> parents: 67990 diff changeset	1546	show "open U" "S \<subseteq> U"
73a5a33486ee Change of variables proof paulson <lp15@cam.ac.uk> parents: 67990 diff changeset	1547	using f_S' U S' by auto
73a5a33486ee Change of variables proof paulson <lp15@cam.ac.uk> parents: 67990 diff changeset	1548	have "(U - S) = (U - S') \<union> (S' - S)"
73a5a33486ee Change of variables proof paulson <lp15@cam.ac.uk> parents: 67990 diff changeset	1549	using S' U by auto
73a5a33486ee Change of variables proof paulson <lp15@cam.ac.uk> parents: 67990 diff changeset	1550	then have eq: "emeasure lebesgue (U - S) = emeasure lborel (U - S')"
73a5a33486ee Change of variables proof paulson <lp15@cam.ac.uk> parents: 67990 diff changeset	1551	using null by (simp add: U(1) emeasure_Un_null_set f_S' sets.Diff)
73a5a33486ee Change of variables proof paulson <lp15@cam.ac.uk> parents: 67990 diff changeset	1552	have "(U - S) \<in> sets lebesgue"
73a5a33486ee Change of variables proof paulson <lp15@cam.ac.uk> parents: 67990 diff changeset	1553	by (simp add: S U(1) sets.Diff)
73a5a33486ee Change of variables proof paulson <lp15@cam.ac.uk> parents: 67990 diff changeset	1554	then show "(U - S) \<in> lmeasurable"
73a5a33486ee Change of variables proof paulson <lp15@cam.ac.uk> parents: 67990 diff changeset	1555	unfolding fmeasurable_def using U(3) eq less_le_trans by fastforce
70378 ebd108578ab1 more new material about analysis paulson <lp15@cam.ac.uk> parents: 70271 diff changeset	1556	with eq U show "emeasure lebesgue (U - S) < e"
ebd108578ab1 more new material about analysis paulson <lp15@cam.ac.uk> parents: 70271 diff changeset	1557	by (simp add: eq)
63968 4359400adfe7 HOL-Analysis: the image of a negligible set under a Lipschitz continuous function is negligible (based on HOL Light proof ported by L. C. Paulson) hoelzl parents: 63959 diff changeset	1558	qed
4359400adfe7 HOL-Analysis: the image of a negligible set under a Lipschitz continuous function is negligible (based on HOL Light proof ported by L. C. Paulson) hoelzl parents: 63959 diff changeset	1559	qed
4359400adfe7 HOL-Analysis: the image of a negligible set under a Lipschitz continuous function is negligible (based on HOL Light proof ported by L. C. Paulson) hoelzl parents: 63959 diff changeset	1560
67999 1b05f74f2e5f tidying up including contributions from Paulo Emílio de Vilhena paulson <lp15@cam.ac.uk> parents: 67998 diff changeset	1561	lemma sets_lebesgue_inner_closed:
70378 ebd108578ab1 more new material about analysis paulson <lp15@cam.ac.uk> parents: 70271 diff changeset	1562	fixes e::real
67999 1b05f74f2e5f tidying up including contributions from Paulo Emílio de Vilhena paulson <lp15@cam.ac.uk> parents: 67998 diff changeset	1563	assumes "S \<in> sets lebesgue" "e > 0"
70378 ebd108578ab1 more new material about analysis paulson <lp15@cam.ac.uk> parents: 70271 diff changeset	1564	obtains T where "closed T" "T \<subseteq> S" "S-T \<in> lmeasurable" "emeasure lebesgue (S - T) < ennreal e"
67999 1b05f74f2e5f tidying up including contributions from Paulo Emílio de Vilhena paulson <lp15@cam.ac.uk> parents: 67998 diff changeset	1565	proof -
1b05f74f2e5f tidying up including contributions from Paulo Emílio de Vilhena paulson <lp15@cam.ac.uk> parents: 67998 diff changeset	1566	have "-S \<in> sets lebesgue"
1b05f74f2e5f tidying up including contributions from Paulo Emílio de Vilhena paulson <lp15@cam.ac.uk> parents: 67998 diff changeset	1567	using assms by (simp add: Compl_in_sets_lebesgue)
1b05f74f2e5f tidying up including contributions from Paulo Emílio de Vilhena paulson <lp15@cam.ac.uk> parents: 67998 diff changeset	1568	then obtain T where "open T" "-S \<subseteq> T"
70378 ebd108578ab1 more new material about analysis paulson <lp15@cam.ac.uk> parents: 70271 diff changeset	1569	and T: "(T - -S) \<in> lmeasurable" "emeasure lebesgue (T - -S) < e"
ebd108578ab1 more new material about analysis paulson <lp15@cam.ac.uk> parents: 70271 diff changeset	1570	using sets_lebesgue_outer_open assms by blast
67999 1b05f74f2e5f tidying up including contributions from Paulo Emílio de Vilhena paulson <lp15@cam.ac.uk> parents: 67998 diff changeset	1571	show thesis
1b05f74f2e5f tidying up including contributions from Paulo Emílio de Vilhena paulson <lp15@cam.ac.uk> parents: 67998 diff changeset	1572	proof
1b05f74f2e5f tidying up including contributions from Paulo Emílio de Vilhena paulson <lp15@cam.ac.uk> parents: 67998 diff changeset	1573	show "closed (-T)"
1b05f74f2e5f tidying up including contributions from Paulo Emílio de Vilhena paulson <lp15@cam.ac.uk> parents: 67998 diff changeset	1574	using \<open>open T\<close> by blast
1b05f74f2e5f tidying up including contributions from Paulo Emílio de Vilhena paulson <lp15@cam.ac.uk> parents: 67998 diff changeset	1575	show "-T \<subseteq> S"
1b05f74f2e5f tidying up including contributions from Paulo Emílio de Vilhena paulson <lp15@cam.ac.uk> parents: 67998 diff changeset	1576	using \<open>- S \<subseteq> T\<close> by auto
70378 ebd108578ab1 more new material about analysis paulson <lp15@cam.ac.uk> parents: 70271 diff changeset	1577	show "S - ( -T) \<in> lmeasurable" "emeasure lebesgue (S - (- T)) < e"
67999 1b05f74f2e5f tidying up including contributions from Paulo Emílio de Vilhena paulson <lp15@cam.ac.uk> parents: 67998 diff changeset	1578	using T by (auto simp: Int_commute)
1b05f74f2e5f tidying up including contributions from Paulo Emílio de Vilhena paulson <lp15@cam.ac.uk> parents: 67998 diff changeset	1579	qed
1b05f74f2e5f tidying up including contributions from Paulo Emílio de Vilhena paulson <lp15@cam.ac.uk> parents: 67998 diff changeset	1580	qed
1b05f74f2e5f tidying up including contributions from Paulo Emílio de Vilhena paulson <lp15@cam.ac.uk> parents: 67998 diff changeset	1581
67673 c8caefb20564 lots of new material, ultimately related to measure theory paulson <lp15@cam.ac.uk> parents: 67399 diff changeset	1582	lemma lebesgue_openin:
69922 4a9167f377b0 new material about topology, etc.; also fixes for yesterday's paulson <lp15@cam.ac.uk> parents: 69661 diff changeset	1583	"\<lbrakk>openin (top_of_set S) T; S \<in> sets lebesgue\<rbrakk> \<Longrightarrow> T \<in> sets lebesgue"
67673 c8caefb20564 lots of new material, ultimately related to measure theory paulson <lp15@cam.ac.uk> parents: 67399 diff changeset	1584	by (metis borel_open openin_open sets.Int sets_completionI_sets sets_lborel)
c8caefb20564 lots of new material, ultimately related to measure theory paulson <lp15@cam.ac.uk> parents: 67399 diff changeset	1585
c8caefb20564 lots of new material, ultimately related to measure theory paulson <lp15@cam.ac.uk> parents: 67399 diff changeset	1586	lemma lebesgue_closedin:
69922 4a9167f377b0 new material about topology, etc.; also fixes for yesterday's paulson <lp15@cam.ac.uk> parents: 69661 diff changeset	1587	"\<lbrakk>closedin (top_of_set S) T; S \<in> sets lebesgue\<rbrakk> \<Longrightarrow> T \<in> sets lebesgue"
67673 c8caefb20564 lots of new material, ultimately related to measure theory paulson <lp15@cam.ac.uk> parents: 67399 diff changeset	1588	by (metis borel_closed closedin_closed sets.Int sets_completionI_sets sets_lborel)
c8caefb20564 lots of new material, ultimately related to measure theory paulson <lp15@cam.ac.uk> parents: 67399 diff changeset	1589
70378 ebd108578ab1 more new material about analysis paulson <lp15@cam.ac.uk> parents: 70271 diff changeset	1590
ebd108578ab1 more new material about analysis paulson <lp15@cam.ac.uk> parents: 70271 diff changeset	1591	subsection\<open>\<open>F_sigma\<close> and \<open>G_delta\<close> sets.\<close>
ebd108578ab1 more new material about analysis paulson <lp15@cam.ac.uk> parents: 70271 diff changeset	1592
ebd108578ab1 more new material about analysis paulson <lp15@cam.ac.uk> parents: 70271 diff changeset	1593	\<comment> \<open>\<^url>\<open>https://en.wikipedia.org/wiki/F-sigma_set\<close>\<close>
ebd108578ab1 more new material about analysis paulson <lp15@cam.ac.uk> parents: 70271 diff changeset	1594	inductive\<^marker>\<open>tag important\<close> fsigma :: "'a::topological_space set \<Rightarrow> bool" where
ebd108578ab1 more new material about analysis paulson <lp15@cam.ac.uk> parents: 70271 diff changeset	1595	"(\<And>n::nat. closed (F n)) \<Longrightarrow> fsigma (\<Union>(F ` UNIV))"
ebd108578ab1 more new material about analysis paulson <lp15@cam.ac.uk> parents: 70271 diff changeset	1596
ebd108578ab1 more new material about analysis paulson <lp15@cam.ac.uk> parents: 70271 diff changeset	1597	inductive\<^marker>\<open>tag important\<close> gdelta :: "'a::topological_space set \<Rightarrow> bool" where
ebd108578ab1 more new material about analysis paulson <lp15@cam.ac.uk> parents: 70271 diff changeset	1598	"(\<And>n::nat. open (F n)) \<Longrightarrow> gdelta (\<Inter>(F ` UNIV))"
ebd108578ab1 more new material about analysis paulson <lp15@cam.ac.uk> parents: 70271 diff changeset	1599
75078 ec86cb2418e1 an assortment of new or stronger lemmas paulson <lp15@cam.ac.uk> parents: 71192 diff changeset	1600	lemma fsigma_UNIV [iff]: "fsigma (UNIV :: 'a::real_inner set)"
ec86cb2418e1 an assortment of new or stronger lemmas paulson <lp15@cam.ac.uk> parents: 71192 diff changeset	1601	proof -
ec86cb2418e1 an assortment of new or stronger lemmas paulson <lp15@cam.ac.uk> parents: 71192 diff changeset	1602	have "(UNIV ::'a set) = (\<Union>i. cball 0 (of_nat i))"
ec86cb2418e1 an assortment of new or stronger lemmas paulson <lp15@cam.ac.uk> parents: 71192 diff changeset	1603	by (auto simp: real_arch_simple)
ec86cb2418e1 an assortment of new or stronger lemmas paulson <lp15@cam.ac.uk> parents: 71192 diff changeset	1604	then show ?thesis
ec86cb2418e1 an assortment of new or stronger lemmas paulson <lp15@cam.ac.uk> parents: 71192 diff changeset	1605	by (metis closed_cball fsigma.intros)
ec86cb2418e1 an assortment of new or stronger lemmas paulson <lp15@cam.ac.uk> parents: 71192 diff changeset	1606	qed
ec86cb2418e1 an assortment of new or stronger lemmas paulson <lp15@cam.ac.uk> parents: 71192 diff changeset	1607
70378 ebd108578ab1 more new material about analysis paulson <lp15@cam.ac.uk> parents: 70271 diff changeset	1608	lemma fsigma_Union_compact:
ebd108578ab1 more new material about analysis paulson <lp15@cam.ac.uk> parents: 70271 diff changeset	1609	fixes S :: "'a::{real_normed_vector,heine_borel} set"
ebd108578ab1 more new material about analysis paulson <lp15@cam.ac.uk> parents: 70271 diff changeset	1610	shows "fsigma S \<longleftrightarrow> (\<exists>F::nat \<Rightarrow> 'a set. range F \<subseteq> Collect compact \<and> S = \<Union>(F ` UNIV))"
ebd108578ab1 more new material about analysis paulson <lp15@cam.ac.uk> parents: 70271 diff changeset	1611	proof safe
ebd108578ab1 more new material about analysis paulson <lp15@cam.ac.uk> parents: 70271 diff changeset	1612	assume "fsigma S"
ebd108578ab1 more new material about analysis paulson <lp15@cam.ac.uk> parents: 70271 diff changeset	1613	then obtain F :: "nat \<Rightarrow> 'a set" where F: "range F \<subseteq> Collect closed" "S = \<Union>(F ` UNIV)"
ebd108578ab1 more new material about analysis paulson <lp15@cam.ac.uk> parents: 70271 diff changeset	1614	by (meson fsigma.cases image_subsetI mem_Collect_eq)
ebd108578ab1 more new material about analysis paulson <lp15@cam.ac.uk> parents: 70271 diff changeset	1615	then have "\<exists>D::nat \<Rightarrow> 'a set. range D \<subseteq> Collect compact \<and> \<Union>(D ` UNIV) = F i" for i
ebd108578ab1 more new material about analysis paulson <lp15@cam.ac.uk> parents: 70271 diff changeset	1616	using closed_Union_compact_subsets [of "F i"]
ebd108578ab1 more new material about analysis paulson <lp15@cam.ac.uk> parents: 70271 diff changeset	1617	by (metis image_subsetI mem_Collect_eq range_subsetD)
ebd108578ab1 more new material about analysis paulson <lp15@cam.ac.uk> parents: 70271 diff changeset	1618	then obtain D :: "nat \<Rightarrow> nat \<Rightarrow> 'a set"
ebd108578ab1 more new material about analysis paulson <lp15@cam.ac.uk> parents: 70271 diff changeset	1619	where D: "\<And>i. range (D i) \<subseteq> Collect compact \<and> \<Union>((D i) ` UNIV) = F i"
ebd108578ab1 more new material about analysis paulson <lp15@cam.ac.uk> parents: 70271 diff changeset	1620	by metis
ebd108578ab1 more new material about analysis paulson <lp15@cam.ac.uk> parents: 70271 diff changeset	1621	let ?DD = "\<lambda>n. (\<lambda>(i,j). D i j) (prod_decode n)"
ebd108578ab1 more new material about analysis paulson <lp15@cam.ac.uk> parents: 70271 diff changeset	1622	show "\<exists>F::nat \<Rightarrow> 'a set. range F \<subseteq> Collect compact \<and> S = \<Union>(F ` UNIV)"
ebd108578ab1 more new material about analysis paulson <lp15@cam.ac.uk> parents: 70271 diff changeset	1623	proof (intro exI conjI)
ebd108578ab1 more new material about analysis paulson <lp15@cam.ac.uk> parents: 70271 diff changeset	1624	show "range ?DD \<subseteq> Collect compact"
ebd108578ab1 more new material about analysis paulson <lp15@cam.ac.uk> parents: 70271 diff changeset	1625	using D by clarsimp (metis mem_Collect_eq rangeI split_conv subsetCE surj_pair)
ebd108578ab1 more new material about analysis paulson <lp15@cam.ac.uk> parents: 70271 diff changeset	1626	show "S = \<Union> (range ?DD)"
ebd108578ab1 more new material about analysis paulson <lp15@cam.ac.uk> parents: 70271 diff changeset	1627	proof
ebd108578ab1 more new material about analysis paulson <lp15@cam.ac.uk> parents: 70271 diff changeset	1628	show "S \<subseteq> \<Union> (range ?DD)"
ebd108578ab1 more new material about analysis paulson <lp15@cam.ac.uk> parents: 70271 diff changeset	1629	using D F
ebd108578ab1 more new material about analysis paulson <lp15@cam.ac.uk> parents: 70271 diff changeset	1630	by clarsimp (metis UN_iff old.prod.case prod_decode_inverse prod_encode_eq)
ebd108578ab1 more new material about analysis paulson <lp15@cam.ac.uk> parents: 70271 diff changeset	1631	show "\<Union> (range ?DD) \<subseteq> S"
ebd108578ab1 more new material about analysis paulson <lp15@cam.ac.uk> parents: 70271 diff changeset	1632	using D F by fastforce
ebd108578ab1 more new material about analysis paulson <lp15@cam.ac.uk> parents: 70271 diff changeset	1633	qed
ebd108578ab1 more new material about analysis paulson <lp15@cam.ac.uk> parents: 70271 diff changeset	1634	qed
ebd108578ab1 more new material about analysis paulson <lp15@cam.ac.uk> parents: 70271 diff changeset	1635	next
ebd108578ab1 more new material about analysis paulson <lp15@cam.ac.uk> parents: 70271 diff changeset	1636	fix F :: "nat \<Rightarrow> 'a set"
ebd108578ab1 more new material about analysis paulson <lp15@cam.ac.uk> parents: 70271 diff changeset	1637	assume "range F \<subseteq> Collect compact" and "S = \<Union>(F ` UNIV)"
ebd108578ab1 more new material about analysis paulson <lp15@cam.ac.uk> parents: 70271 diff changeset	1638	then show "fsigma (\<Union>(F ` UNIV))"
ebd108578ab1 more new material about analysis paulson <lp15@cam.ac.uk> parents: 70271 diff changeset	1639	by (simp add: compact_imp_closed fsigma.intros image_subset_iff)
ebd108578ab1 more new material about analysis paulson <lp15@cam.ac.uk> parents: 70271 diff changeset	1640	qed
ebd108578ab1 more new material about analysis paulson <lp15@cam.ac.uk> parents: 70271 diff changeset	1641
ebd108578ab1 more new material about analysis paulson <lp15@cam.ac.uk> parents: 70271 diff changeset	1642	lemma gdelta_imp_fsigma: "gdelta S \<Longrightarrow> fsigma (- S)"
ebd108578ab1 more new material about analysis paulson <lp15@cam.ac.uk> parents: 70271 diff changeset	1643	proof (induction rule: gdelta.induct)
ebd108578ab1 more new material about analysis paulson <lp15@cam.ac.uk> parents: 70271 diff changeset	1644	case (1 F)
ebd108578ab1 more new material about analysis paulson <lp15@cam.ac.uk> parents: 70271 diff changeset	1645	have "- \<Inter>(F ` UNIV) = (\<Union>i. -(F i))"
ebd108578ab1 more new material about analysis paulson <lp15@cam.ac.uk> parents: 70271 diff changeset	1646	by auto
ebd108578ab1 more new material about analysis paulson <lp15@cam.ac.uk> parents: 70271 diff changeset	1647	then show ?case
ebd108578ab1 more new material about analysis paulson <lp15@cam.ac.uk> parents: 70271 diff changeset	1648	by (simp add: fsigma.intros closed_Compl 1)
ebd108578ab1 more new material about analysis paulson <lp15@cam.ac.uk> parents: 70271 diff changeset	1649	qed
ebd108578ab1 more new material about analysis paulson <lp15@cam.ac.uk> parents: 70271 diff changeset	1650
ebd108578ab1 more new material about analysis paulson <lp15@cam.ac.uk> parents: 70271 diff changeset	1651	lemma fsigma_imp_gdelta: "fsigma S \<Longrightarrow> gdelta (- S)"
ebd108578ab1 more new material about analysis paulson <lp15@cam.ac.uk> parents: 70271 diff changeset	1652	proof (induction rule: fsigma.induct)
ebd108578ab1 more new material about analysis paulson <lp15@cam.ac.uk> parents: 70271 diff changeset	1653	case (1 F)
ebd108578ab1 more new material about analysis paulson <lp15@cam.ac.uk> parents: 70271 diff changeset	1654	have "- \<Union>(F ` UNIV) = (\<Inter>i. -(F i))"
ebd108578ab1 more new material about analysis paulson <lp15@cam.ac.uk> parents: 70271 diff changeset	1655	by auto
ebd108578ab1 more new material about analysis paulson <lp15@cam.ac.uk> parents: 70271 diff changeset	1656	then show ?case
ebd108578ab1 more new material about analysis paulson <lp15@cam.ac.uk> parents: 70271 diff changeset	1657	by (simp add: 1 gdelta.intros open_closed)
ebd108578ab1 more new material about analysis paulson <lp15@cam.ac.uk> parents: 70271 diff changeset	1658	qed
ebd108578ab1 more new material about analysis paulson <lp15@cam.ac.uk> parents: 70271 diff changeset	1659
ebd108578ab1 more new material about analysis paulson <lp15@cam.ac.uk> parents: 70271 diff changeset	1660	lemma gdelta_complement: "gdelta(- S) \<longleftrightarrow> fsigma S"
ebd108578ab1 more new material about analysis paulson <lp15@cam.ac.uk> parents: 70271 diff changeset	1661	using fsigma_imp_gdelta gdelta_imp_fsigma by force
ebd108578ab1 more new material about analysis paulson <lp15@cam.ac.uk> parents: 70271 diff changeset	1662
70380 2b0dca68c3ee More analysis / measure theory material paulson <lp15@cam.ac.uk> parents: 70378 diff changeset	1663	lemma lebesgue_set_almost_fsigma:
2b0dca68c3ee More analysis / measure theory material paulson <lp15@cam.ac.uk> parents: 70378 diff changeset	1664	assumes "S \<in> sets lebesgue"
2b0dca68c3ee More analysis / measure theory material paulson <lp15@cam.ac.uk> parents: 70378 diff changeset	1665	obtains C T where "fsigma C" "T \<in> null_sets lebesgue" "C \<union> T = S" "disjnt C T"
2b0dca68c3ee More analysis / measure theory material paulson <lp15@cam.ac.uk> parents: 70378 diff changeset	1666	proof -
2b0dca68c3ee More analysis / measure theory material paulson <lp15@cam.ac.uk> parents: 70378 diff changeset	1667	{ fix n::nat
2b0dca68c3ee More analysis / measure theory material paulson <lp15@cam.ac.uk> parents: 70378 diff changeset	1668	obtain T where "closed T" "T \<subseteq> S" "S-T \<in> lmeasurable" "emeasure lebesgue (S - T) < ennreal (1 / Suc n)"
2b0dca68c3ee More analysis / measure theory material paulson <lp15@cam.ac.uk> parents: 70378 diff changeset	1669	using sets_lebesgue_inner_closed [OF assms]
2b0dca68c3ee More analysis / measure theory material paulson <lp15@cam.ac.uk> parents: 70378 diff changeset	1670	by (metis of_nat_0_less_iff zero_less_Suc zero_less_divide_1_iff)
2b0dca68c3ee More analysis / measure theory material paulson <lp15@cam.ac.uk> parents: 70378 diff changeset	1671	then have "\<exists>T. closed T \<and> T \<subseteq> S \<and> S - T \<in> lmeasurable \<and> measure lebesgue (S-T) < 1 / Suc n"
2b0dca68c3ee More analysis / measure theory material paulson <lp15@cam.ac.uk> parents: 70378 diff changeset	1672	by (metis emeasure_eq_measure2 ennreal_leI not_le)
2b0dca68c3ee More analysis / measure theory material paulson <lp15@cam.ac.uk> parents: 70378 diff changeset	1673	}
2b0dca68c3ee More analysis / measure theory material paulson <lp15@cam.ac.uk> parents: 70378 diff changeset	1674	then obtain F where F: "\<And>n::nat. closed (F n) \<and> F n \<subseteq> S \<and> S - F n \<in> lmeasurable \<and> measure lebesgue (S - F n) < 1 / Suc n"
2b0dca68c3ee More analysis / measure theory material paulson <lp15@cam.ac.uk> parents: 70378 diff changeset	1675	by metis
2b0dca68c3ee More analysis / measure theory material paulson <lp15@cam.ac.uk> parents: 70378 diff changeset	1676	let ?C = "\<Union>(F ` UNIV)"
2b0dca68c3ee More analysis / measure theory material paulson <lp15@cam.ac.uk> parents: 70378 diff changeset	1677	show thesis
2b0dca68c3ee More analysis / measure theory material paulson <lp15@cam.ac.uk> parents: 70378 diff changeset	1678	proof
2b0dca68c3ee More analysis / measure theory material paulson <lp15@cam.ac.uk> parents: 70378 diff changeset	1679	show "fsigma ?C"
2b0dca68c3ee More analysis / measure theory material paulson <lp15@cam.ac.uk> parents: 70378 diff changeset	1680	using F by (simp add: fsigma.intros)
2b0dca68c3ee More analysis / measure theory material paulson <lp15@cam.ac.uk> parents: 70378 diff changeset	1681	show "(S - ?C) \<in> null_sets lebesgue"
2b0dca68c3ee More analysis / measure theory material paulson <lp15@cam.ac.uk> parents: 70378 diff changeset	1682	proof (clarsimp simp add: completion.null_sets_outer_le)
2b0dca68c3ee More analysis / measure theory material paulson <lp15@cam.ac.uk> parents: 70378 diff changeset	1683	fix e :: "real"
2b0dca68c3ee More analysis / measure theory material paulson <lp15@cam.ac.uk> parents: 70378 diff changeset	1684	assume "0 < e"
2b0dca68c3ee More analysis / measure theory material paulson <lp15@cam.ac.uk> parents: 70378 diff changeset	1685	then obtain n where n: "1 / Suc n < e"
2b0dca68c3ee More analysis / measure theory material paulson <lp15@cam.ac.uk> parents: 70378 diff changeset	1686	using nat_approx_posE by metis
2b0dca68c3ee More analysis / measure theory material paulson <lp15@cam.ac.uk> parents: 70378 diff changeset	1687	show "\<exists>T \<in> lmeasurable. S - (\<Union>x. F x) \<subseteq> T \<and> measure lebesgue T \<le> e"
2b0dca68c3ee More analysis / measure theory material paulson <lp15@cam.ac.uk> parents: 70378 diff changeset	1688	proof (intro bexI conjI)
2b0dca68c3ee More analysis / measure theory material paulson <lp15@cam.ac.uk> parents: 70378 diff changeset	1689	show "measure lebesgue (S - F n) \<le> e"
2b0dca68c3ee More analysis / measure theory material paulson <lp15@cam.ac.uk> parents: 70378 diff changeset	1690	by (meson F n less_trans not_le order.asym)
2b0dca68c3ee More analysis / measure theory material paulson <lp15@cam.ac.uk> parents: 70378 diff changeset	1691	qed (use F in auto)
2b0dca68c3ee More analysis / measure theory material paulson <lp15@cam.ac.uk> parents: 70378 diff changeset	1692	qed
2b0dca68c3ee More analysis / measure theory material paulson <lp15@cam.ac.uk> parents: 70378 diff changeset	1693	show "?C \<union> (S - ?C) = S"
2b0dca68c3ee More analysis / measure theory material paulson <lp15@cam.ac.uk> parents: 70378 diff changeset	1694	using F by blast
2b0dca68c3ee More analysis / measure theory material paulson <lp15@cam.ac.uk> parents: 70378 diff changeset	1695	show "disjnt ?C (S - ?C)"
2b0dca68c3ee More analysis / measure theory material paulson <lp15@cam.ac.uk> parents: 70378 diff changeset	1696	by (auto simp: disjnt_def)
2b0dca68c3ee More analysis / measure theory material paulson <lp15@cam.ac.uk> parents: 70378 diff changeset	1697	qed
2b0dca68c3ee More analysis / measure theory material paulson <lp15@cam.ac.uk> parents: 70378 diff changeset	1698	qed
2b0dca68c3ee More analysis / measure theory material paulson <lp15@cam.ac.uk> parents: 70378 diff changeset	1699
2b0dca68c3ee More analysis / measure theory material paulson <lp15@cam.ac.uk> parents: 70378 diff changeset	1700	lemma lebesgue_set_almost_gdelta:
2b0dca68c3ee More analysis / measure theory material paulson <lp15@cam.ac.uk> parents: 70378 diff changeset	1701	assumes "S \<in> sets lebesgue"
2b0dca68c3ee More analysis / measure theory material paulson <lp15@cam.ac.uk> parents: 70378 diff changeset	1702	obtains C T where "gdelta C" "T \<in> null_sets lebesgue" "S \<union> T = C" "disjnt S T"
2b0dca68c3ee More analysis / measure theory material paulson <lp15@cam.ac.uk> parents: 70378 diff changeset	1703	proof -
2b0dca68c3ee More analysis / measure theory material paulson <lp15@cam.ac.uk> parents: 70378 diff changeset	1704	have "-S \<in> sets lebesgue"
2b0dca68c3ee More analysis / measure theory material paulson <lp15@cam.ac.uk> parents: 70378 diff changeset	1705	using assms Compl_in_sets_lebesgue by blast
2b0dca68c3ee More analysis / measure theory material paulson <lp15@cam.ac.uk> parents: 70378 diff changeset	1706	then obtain C T where C: "fsigma C" "T \<in> null_sets lebesgue" "C \<union> T = -S" "disjnt C T"
2b0dca68c3ee More analysis / measure theory material paulson <lp15@cam.ac.uk> parents: 70378 diff changeset	1707	using lebesgue_set_almost_fsigma by metis
2b0dca68c3ee More analysis / measure theory material paulson <lp15@cam.ac.uk> parents: 70378 diff changeset	1708	show thesis
2b0dca68c3ee More analysis / measure theory material paulson <lp15@cam.ac.uk> parents: 70378 diff changeset	1709	proof
2b0dca68c3ee More analysis / measure theory material paulson <lp15@cam.ac.uk> parents: 70378 diff changeset	1710	show "gdelta (-C)"
2b0dca68c3ee More analysis / measure theory material paulson <lp15@cam.ac.uk> parents: 70378 diff changeset	1711	by (simp add: \<open>fsigma C\<close> fsigma_imp_gdelta)
2b0dca68c3ee More analysis / measure theory material paulson <lp15@cam.ac.uk> parents: 70378 diff changeset	1712	show "S \<union> T = -C" "disjnt S T"
2b0dca68c3ee More analysis / measure theory material paulson <lp15@cam.ac.uk> parents: 70378 diff changeset	1713	using C by (auto simp: disjnt_def)
2b0dca68c3ee More analysis / measure theory material paulson <lp15@cam.ac.uk> parents: 70378 diff changeset	1714	qed (use C in auto)
2b0dca68c3ee More analysis / measure theory material paulson <lp15@cam.ac.uk> parents: 70378 diff changeset	1715	qed
2b0dca68c3ee More analysis / measure theory material paulson <lp15@cam.ac.uk> parents: 70378 diff changeset	1716
38656 d5d342611edb Rewrite the Probability theory. hoelzl parents: diff changeset	1717	end

author	paulson <lp15@cam.ac.uk>
	Sat, 09 Sep 2023 19:26:08 +0100
changeset 78656	4da1e18a9633
parent 76786	50672d2d78db
permissions	-rw-r--r--