src/HOL/Probability/Sigma_Algebra.thy
author wenzelm
Mon, 28 Dec 2015 17:43:30 +0100
changeset 61952 546958347e05
parent 61847 9e38cde3d672
child 62083 7582b39f51ed
permissions -rw-r--r--
prefer symbols for "Union", "Inter";
Ignore whitespace changes - Everywhere: Within whitespace: At end of lines:
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(*  Title:      HOL/Probability/Sigma_Algebra.thy
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    Author:     Stefan Richter, Markus Wenzel, TU München
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    Author:     Johannes Hölzl, TU München
41981
cdf7693bbe08 reworked Probability theory: measures are not type restricted to positive extended reals
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    Plus material from the Hurd/Coble measure theory development,
cdf7693bbe08 reworked Probability theory: measures are not type restricted to positive extended reals
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    translated by Lawrence Paulson.
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*)
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section \<open>Describing measurable sets\<close>
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64cd30d6b0b8 explicit file specifications -- avoid secondary load path;
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theory Sigma_Algebra
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imports
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8448713d48b7 proved caratheodory_empty_continuous
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  Complex_Main
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dea9363887a6 based countable topological basis on Countable_Set
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  "~~/src/HOL/Library/Countable_Set"
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  "~~/src/HOL/Library/FuncSet"
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    15
  "~~/src/HOL/Library/Indicator_Function"
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    16
  "~~/src/HOL/Library/Extended_Real"
60727
53697011b03a move disjoint sets to their own theory
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    17
  "~~/src/HOL/Library/Disjoint_Sets"
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begin
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text \<open>Sigma algebras are an elementary concept in measure
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  theory. To measure --- that is to integrate --- functions, we first have
7be66dee1a5a New theory Probability, which contains a development of measure theory
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parents:
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  to measure sets. Unfortunately, when dealing with a large universe,
7be66dee1a5a New theory Probability, which contains a development of measure theory
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  it is often not possible to consistently assign a measure to every
7be66dee1a5a New theory Probability, which contains a development of measure theory
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  subset. Therefore it is necessary to define the set of measurable
7be66dee1a5a New theory Probability, which contains a development of measure theory
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  subsets of the universe. A sigma algebra is such a set that has
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  three very natural and desirable properties.\<close>
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subsection \<open>Families of sets\<close>
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locale subset_class =
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  fixes \<Omega> :: "'a set" and M :: "'a set set"
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  assumes space_closed: "M \<subseteq> Pow \<Omega>"
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lemma (in subset_class) sets_into_space: "x \<in> M \<Longrightarrow> x \<subseteq> \<Omega>"
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  by (metis PowD contra_subsetD space_closed)
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parents:
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subsubsection \<open>Semiring of sets\<close>
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d31085f07f60 add Caratheodories theorem for semi-rings of sets
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locale semiring_of_sets = subset_class +
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  assumes empty_sets[iff]: "{} \<in> M"
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  assumes Int[intro]: "\<And>a b. a \<in> M \<Longrightarrow> b \<in> M \<Longrightarrow> a \<inter> b \<in> M"
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  assumes Diff_cover:
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    "\<And>a b. a \<in> M \<Longrightarrow> b \<in> M \<Longrightarrow> \<exists>C\<subseteq>M. finite C \<and> disjoint C \<and> a - b = \<Union>C"
d31085f07f60 add Caratheodories theorem for semi-rings of sets
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d31085f07f60 add Caratheodories theorem for semi-rings of sets
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lemma (in semiring_of_sets) finite_INT[intro]:
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  assumes "finite I" "I \<noteq> {}" "\<And>i. i \<in> I \<Longrightarrow> A i \<in> M"
d31085f07f60 add Caratheodories theorem for semi-rings of sets
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  shows "(\<Inter>i\<in>I. A i) \<in> M"
d31085f07f60 add Caratheodories theorem for semi-rings of sets
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  using assms by (induct rule: finite_ne_induct) auto
d31085f07f60 add Caratheodories theorem for semi-rings of sets
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    49
d31085f07f60 add Caratheodories theorem for semi-rings of sets
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lemma (in semiring_of_sets) Int_space_eq1 [simp]: "x \<in> M \<Longrightarrow> \<Omega> \<inter> x = x"
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  by (metis Int_absorb1 sets_into_space)
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d31085f07f60 add Caratheodories theorem for semi-rings of sets
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lemma (in semiring_of_sets) Int_space_eq2 [simp]: "x \<in> M \<Longrightarrow> x \<inter> \<Omega> = x"
d31085f07f60 add Caratheodories theorem for semi-rings of sets
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  by (metis Int_absorb2 sets_into_space)
d31085f07f60 add Caratheodories theorem for semi-rings of sets
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    55
d31085f07f60 add Caratheodories theorem for semi-rings of sets
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lemma (in semiring_of_sets) sets_Collect_conj:
d31085f07f60 add Caratheodories theorem for semi-rings of sets
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  assumes "{x\<in>\<Omega>. P x} \<in> M" "{x\<in>\<Omega>. Q x} \<in> M"
d31085f07f60 add Caratheodories theorem for semi-rings of sets
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parents: 47756
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    58
  shows "{x\<in>\<Omega>. Q x \<and> P x} \<in> M"
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parents:
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    59
proof -
47762
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    60
  have "{x\<in>\<Omega>. Q x \<and> P x} = {x\<in>\<Omega>. Q x} \<inter> {x\<in>\<Omega>. P x}"
42065
2b98b4c2e2f1 add ring_of_sets and subset_class as basis for algebra
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    61
    by auto
47762
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    62
  with assms show ?thesis by auto
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7be66dee1a5a New theory Probability, which contains a development of measure theory
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qed
7be66dee1a5a New theory Probability, which contains a development of measure theory
paulson
parents:
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    64
50002
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lemma (in semiring_of_sets) sets_Collect_finite_All':
47762
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  assumes "\<And>i. i \<in> S \<Longrightarrow> {x\<in>\<Omega>. P i x} \<in> M" "finite S" "S \<noteq> {}"
d31085f07f60 add Caratheodories theorem for semi-rings of sets
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parents: 47756
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    67
  shows "{x\<in>\<Omega>. \<forall>i\<in>S. P i x} \<in> M"
d31085f07f60 add Caratheodories theorem for semi-rings of sets
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    68
proof -
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hoelzl
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    69
  have "{x\<in>\<Omega>. \<forall>i\<in>S. P i x} = (\<Inter>i\<in>S. {x\<in>\<Omega>. P i x})"
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    using \<open>S \<noteq> {}\<close> by auto
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  with assms show ?thesis by auto
d31085f07f60 add Caratheodories theorem for semi-rings of sets
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qed
d31085f07f60 add Caratheodories theorem for semi-rings of sets
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locale ring_of_sets = semiring_of_sets +
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  assumes Un [intro]: "\<And>a b. a \<in> M \<Longrightarrow> b \<in> M \<Longrightarrow> a \<union> b \<in> M"
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    76
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lemma (in ring_of_sets) finite_Union [intro]:
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  "finite X \<Longrightarrow> X \<subseteq> M \<Longrightarrow> \<Union>X \<in> M"
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  by (induct set: finite) (auto simp add: Un)
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lemma (in ring_of_sets) finite_UN[intro]:
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  assumes "finite I" and "\<And>i. i \<in> I \<Longrightarrow> A i \<in> M"
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  shows "(\<Union>i\<in>I. A i) \<in> M"
41981
cdf7693bbe08 reworked Probability theory: measures are not type restricted to positive extended reals
hoelzl
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    84
  using assms by induct auto
cdf7693bbe08 reworked Probability theory: measures are not type restricted to positive extended reals
hoelzl
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    85
47762
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lemma (in ring_of_sets) Diff [intro]:
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    87
  assumes "a \<in> M" "b \<in> M" shows "a - b \<in> M"
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    88
  using Diff_cover[OF assms] by auto
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lemma ring_of_setsI:
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  assumes space_closed: "M \<subseteq> Pow \<Omega>"
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    92
  assumes empty_sets[iff]: "{} \<in> M"
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    93
  assumes Un[intro]: "\<And>a b. a \<in> M \<Longrightarrow> b \<in> M \<Longrightarrow> a \<union> b \<in> M"
d31085f07f60 add Caratheodories theorem for semi-rings of sets
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    94
  assumes Diff[intro]: "\<And>a b. a \<in> M \<Longrightarrow> b \<in> M \<Longrightarrow> a - b \<in> M"
d31085f07f60 add Caratheodories theorem for semi-rings of sets
hoelzl
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    95
  shows "ring_of_sets \<Omega> M"
d31085f07f60 add Caratheodories theorem for semi-rings of sets
hoelzl
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    96
proof
d31085f07f60 add Caratheodories theorem for semi-rings of sets
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    97
  fix a b assume ab: "a \<in> M" "b \<in> M"
d31085f07f60 add Caratheodories theorem for semi-rings of sets
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    98
  from ab show "\<exists>C\<subseteq>M. finite C \<and> disjoint C \<and> a - b = \<Union>C"
d31085f07f60 add Caratheodories theorem for semi-rings of sets
hoelzl
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diff changeset
    99
    by (intro exI[of _ "{a - b}"]) (auto simp: disjoint_def)
d31085f07f60 add Caratheodories theorem for semi-rings of sets
hoelzl
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diff changeset
   100
  have "a \<inter> b = a - (a - b)" by auto
d31085f07f60 add Caratheodories theorem for semi-rings of sets
hoelzl
parents: 47756
diff changeset
   101
  also have "\<dots> \<in> M" using ab by auto
d31085f07f60 add Caratheodories theorem for semi-rings of sets
hoelzl
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   102
  finally show "a \<inter> b \<in> M" .
d31085f07f60 add Caratheodories theorem for semi-rings of sets
hoelzl
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   103
qed fact+
d31085f07f60 add Caratheodories theorem for semi-rings of sets
hoelzl
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diff changeset
   104
d31085f07f60 add Caratheodories theorem for semi-rings of sets
hoelzl
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   105
lemma ring_of_sets_iff: "ring_of_sets \<Omega> M \<longleftrightarrow> M \<subseteq> Pow \<Omega> \<and> {} \<in> M \<and> (\<forall>a\<in>M. \<forall>b\<in>M. a \<union> b \<in> M) \<and> (\<forall>a\<in>M. \<forall>b\<in>M. a - b \<in> M)"
d31085f07f60 add Caratheodories theorem for semi-rings of sets
hoelzl
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diff changeset
   106
proof
d31085f07f60 add Caratheodories theorem for semi-rings of sets
hoelzl
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diff changeset
   107
  assume "ring_of_sets \<Omega> M"
d31085f07f60 add Caratheodories theorem for semi-rings of sets
hoelzl
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   108
  then interpret ring_of_sets \<Omega> M .
d31085f07f60 add Caratheodories theorem for semi-rings of sets
hoelzl
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diff changeset
   109
  show "M \<subseteq> Pow \<Omega> \<and> {} \<in> M \<and> (\<forall>a\<in>M. \<forall>b\<in>M. a \<union> b \<in> M) \<and> (\<forall>a\<in>M. \<forall>b\<in>M. a - b \<in> M)"
d31085f07f60 add Caratheodories theorem for semi-rings of sets
hoelzl
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diff changeset
   110
    using space_closed by auto
d31085f07f60 add Caratheodories theorem for semi-rings of sets
hoelzl
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diff changeset
   111
qed (auto intro!: ring_of_setsI)
41981
cdf7693bbe08 reworked Probability theory: measures are not type restricted to positive extended reals
hoelzl
parents: 41959
diff changeset
   112
42065
2b98b4c2e2f1 add ring_of_sets and subset_class as basis for algebra
hoelzl
parents: 41983
diff changeset
   113
lemma (in ring_of_sets) insert_in_sets:
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   114
  assumes "{x} \<in> M" "A \<in> M" shows "insert x A \<in> M"
38656
d5d342611edb Rewrite the Probability theory.
hoelzl
parents: 37032
diff changeset
   115
proof -
47694
05663f75964c reworked Probability theory
hoelzl
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diff changeset
   116
  have "{x} \<union> A \<in> M" using assms by (rule Un)
38656
d5d342611edb Rewrite the Probability theory.
hoelzl
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diff changeset
   117
  thus ?thesis by auto
d5d342611edb Rewrite the Probability theory.
hoelzl
parents: 37032
diff changeset
   118
qed
d5d342611edb Rewrite the Probability theory.
hoelzl
parents: 37032
diff changeset
   119
42867
760094e49a2c Collect intro-rules for sigma-algebras
hoelzl
parents: 42864
diff changeset
   120
lemma (in ring_of_sets) sets_Collect_disj:
47694
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   121
  assumes "{x\<in>\<Omega>. P x} \<in> M" "{x\<in>\<Omega>. Q x} \<in> M"
05663f75964c reworked Probability theory
hoelzl
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diff changeset
   122
  shows "{x\<in>\<Omega>. Q x \<or> P x} \<in> M"
42867
760094e49a2c Collect intro-rules for sigma-algebras
hoelzl
parents: 42864
diff changeset
   123
proof -
47694
05663f75964c reworked Probability theory
hoelzl
parents: 46731
diff changeset
   124
  have "{x\<in>\<Omega>. Q x \<or> P x} = {x\<in>\<Omega>. Q x} \<union> {x\<in>\<Omega>. P x}"
42867
760094e49a2c Collect intro-rules for sigma-algebras
hoelzl
parents: 42864
diff changeset
   125
    by auto
760094e49a2c Collect intro-rules for sigma-algebras
hoelzl
parents: 42864
diff changeset
   126
  with assms show ?thesis by auto
760094e49a2c Collect intro-rules for sigma-algebras
hoelzl
parents: 42864
diff changeset
   127
qed
760094e49a2c Collect intro-rules for sigma-algebras
hoelzl
parents: 42864
diff changeset
   128
760094e49a2c Collect intro-rules for sigma-algebras
hoelzl
parents: 42864
diff changeset
   129
lemma (in ring_of_sets) sets_Collect_finite_Ex:
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   130
  assumes "\<And>i. i \<in> S \<Longrightarrow> {x\<in>\<Omega>. P i x} \<in> M" "finite S"
05663f75964c reworked Probability theory
hoelzl
parents: 46731
diff changeset
   131
  shows "{x\<in>\<Omega>. \<exists>i\<in>S. P i x} \<in> M"
42867
760094e49a2c Collect intro-rules for sigma-algebras
hoelzl
parents: 42864
diff changeset
   132
proof -
47694
05663f75964c reworked Probability theory
hoelzl
parents: 46731
diff changeset
   133
  have "{x\<in>\<Omega>. \<exists>i\<in>S. P i x} = (\<Union>i\<in>S. {x\<in>\<Omega>. P i x})"
42867
760094e49a2c Collect intro-rules for sigma-algebras
hoelzl
parents: 42864
diff changeset
   134
    by auto
760094e49a2c Collect intro-rules for sigma-algebras
hoelzl
parents: 42864
diff changeset
   135
  with assms show ?thesis by auto
760094e49a2c Collect intro-rules for sigma-algebras
hoelzl
parents: 42864
diff changeset
   136
qed
760094e49a2c Collect intro-rules for sigma-algebras
hoelzl
parents: 42864
diff changeset
   137
42065
2b98b4c2e2f1 add ring_of_sets and subset_class as basis for algebra
hoelzl
parents: 41983
diff changeset
   138
locale algebra = ring_of_sets +
47694
05663f75964c reworked Probability theory
hoelzl
parents: 46731
diff changeset
   139
  assumes top [iff]: "\<Omega> \<in> M"
42065
2b98b4c2e2f1 add ring_of_sets and subset_class as basis for algebra
hoelzl
parents: 41983
diff changeset
   140
2b98b4c2e2f1 add ring_of_sets and subset_class as basis for algebra
hoelzl
parents: 41983
diff changeset
   141
lemma (in algebra) compl_sets [intro]:
47694
05663f75964c reworked Probability theory
hoelzl
parents: 46731
diff changeset
   142
  "a \<in> M \<Longrightarrow> \<Omega> - a \<in> M"
42065
2b98b4c2e2f1 add ring_of_sets and subset_class as basis for algebra
hoelzl
parents: 41983
diff changeset
   143
  by auto
2b98b4c2e2f1 add ring_of_sets and subset_class as basis for algebra
hoelzl
parents: 41983
diff changeset
   144
2b98b4c2e2f1 add ring_of_sets and subset_class as basis for algebra
hoelzl
parents: 41983
diff changeset
   145
lemma algebra_iff_Un:
47694
05663f75964c reworked Probability theory
hoelzl
parents: 46731
diff changeset
   146
  "algebra \<Omega> M \<longleftrightarrow>
05663f75964c reworked Probability theory
hoelzl
parents: 46731
diff changeset
   147
    M \<subseteq> Pow \<Omega> \<and>
05663f75964c reworked Probability theory
hoelzl
parents: 46731
diff changeset
   148
    {} \<in> M \<and>
05663f75964c reworked Probability theory
hoelzl
parents: 46731
diff changeset
   149
    (\<forall>a \<in> M. \<Omega> - a \<in> M) \<and>
05663f75964c reworked Probability theory
hoelzl
parents: 46731
diff changeset
   150
    (\<forall>a \<in> M. \<forall> b \<in> M. a \<union> b \<in> M)" (is "_ \<longleftrightarrow> ?Un")
42065
2b98b4c2e2f1 add ring_of_sets and subset_class as basis for algebra
hoelzl
parents: 41983
diff changeset
   151
proof
47694
05663f75964c reworked Probability theory
hoelzl
parents: 46731
diff changeset
   152
  assume "algebra \<Omega> M"
05663f75964c reworked Probability theory
hoelzl
parents: 46731
diff changeset
   153
  then interpret algebra \<Omega> M .
42065
2b98b4c2e2f1 add ring_of_sets and subset_class as basis for algebra
hoelzl
parents: 41983
diff changeset
   154
  show ?Un using sets_into_space by auto
2b98b4c2e2f1 add ring_of_sets and subset_class as basis for algebra
hoelzl
parents: 41983
diff changeset
   155
next
2b98b4c2e2f1 add ring_of_sets and subset_class as basis for algebra
hoelzl
parents: 41983
diff changeset
   156
  assume ?Un
47762
d31085f07f60 add Caratheodories theorem for semi-rings of sets
hoelzl
parents: 47756
diff changeset
   157
  then have "\<Omega> \<in> M" by auto
d31085f07f60 add Caratheodories theorem for semi-rings of sets
hoelzl
parents: 47756
diff changeset
   158
  interpret ring_of_sets \<Omega> M
d31085f07f60 add Caratheodories theorem for semi-rings of sets
hoelzl
parents: 47756
diff changeset
   159
  proof (rule ring_of_setsI)
d31085f07f60 add Caratheodories theorem for semi-rings of sets
hoelzl
parents: 47756
diff changeset
   160
    show \<Omega>: "M \<subseteq> Pow \<Omega>" "{} \<in> M"
61808
fc1556774cfe isabelle update_cartouches -c -t;
wenzelm
parents: 61633
diff changeset
   161
      using \<open>?Un\<close> by auto
47694
05663f75964c reworked Probability theory
hoelzl
parents: 46731
diff changeset
   162
    fix a b assume a: "a \<in> M" and b: "b \<in> M"
61808
fc1556774cfe isabelle update_cartouches -c -t;
wenzelm
parents: 61633
diff changeset
   163
    then show "a \<union> b \<in> M" using \<open>?Un\<close> by auto
47694
05663f75964c reworked Probability theory
hoelzl
parents: 46731
diff changeset
   164
    have "a - b = \<Omega> - ((\<Omega> - a) \<union> b)"
05663f75964c reworked Probability theory
hoelzl
parents: 46731
diff changeset
   165
      using \<Omega> a b by auto
05663f75964c reworked Probability theory
hoelzl
parents: 46731
diff changeset
   166
    then show "a - b \<in> M"
61808
fc1556774cfe isabelle update_cartouches -c -t;
wenzelm
parents: 61633
diff changeset
   167
      using a b  \<open>?Un\<close> by auto
42065
2b98b4c2e2f1 add ring_of_sets and subset_class as basis for algebra
hoelzl
parents: 41983
diff changeset
   168
  qed
47762
d31085f07f60 add Caratheodories theorem for semi-rings of sets
hoelzl
parents: 47756
diff changeset
   169
  show "algebra \<Omega> M" proof qed fact
42065
2b98b4c2e2f1 add ring_of_sets and subset_class as basis for algebra
hoelzl
parents: 41983
diff changeset
   170
qed
2b98b4c2e2f1 add ring_of_sets and subset_class as basis for algebra
hoelzl
parents: 41983
diff changeset
   171
2b98b4c2e2f1 add ring_of_sets and subset_class as basis for algebra
hoelzl
parents: 41983
diff changeset
   172
lemma algebra_iff_Int:
47694
05663f75964c reworked Probability theory
hoelzl
parents: 46731
diff changeset
   173
     "algebra \<Omega> M \<longleftrightarrow>
05663f75964c reworked Probability theory
hoelzl
parents: 46731
diff changeset
   174
       M \<subseteq> Pow \<Omega> & {} \<in> M &
05663f75964c reworked Probability theory
hoelzl
parents: 46731
diff changeset
   175
       (\<forall>a \<in> M. \<Omega> - a \<in> M) &
05663f75964c reworked Probability theory
hoelzl
parents: 46731
diff changeset
   176
       (\<forall>a \<in> M. \<forall> b \<in> M. a \<inter> b \<in> M)" (is "_ \<longleftrightarrow> ?Int")
42065
2b98b4c2e2f1 add ring_of_sets and subset_class as basis for algebra
hoelzl
parents: 41983
diff changeset
   177
proof
47694
05663f75964c reworked Probability theory
hoelzl
parents: 46731
diff changeset
   178
  assume "algebra \<Omega> M"
05663f75964c reworked Probability theory
hoelzl
parents: 46731
diff changeset
   179
  then interpret algebra \<Omega> M .
42065
2b98b4c2e2f1 add ring_of_sets and subset_class as basis for algebra
hoelzl
parents: 41983
diff changeset
   180
  show ?Int using sets_into_space by auto
2b98b4c2e2f1 add ring_of_sets and subset_class as basis for algebra
hoelzl
parents: 41983
diff changeset
   181
next
2b98b4c2e2f1 add ring_of_sets and subset_class as basis for algebra
hoelzl
parents: 41983
diff changeset
   182
  assume ?Int
47694
05663f75964c reworked Probability theory
hoelzl
parents: 46731
diff changeset
   183
  show "algebra \<Omega> M"
42065
2b98b4c2e2f1 add ring_of_sets and subset_class as basis for algebra
hoelzl
parents: 41983
diff changeset
   184
  proof (unfold algebra_iff_Un, intro conjI ballI)
47694
05663f75964c reworked Probability theory
hoelzl
parents: 46731
diff changeset
   185
    show \<Omega>: "M \<subseteq> Pow \<Omega>" "{} \<in> M"
61808
fc1556774cfe isabelle update_cartouches -c -t;
wenzelm
parents: 61633
diff changeset
   186
      using \<open>?Int\<close> by auto
fc1556774cfe isabelle update_cartouches -c -t;
wenzelm
parents: 61633
diff changeset
   187
    from \<open>?Int\<close> show "\<And>a. a \<in> M \<Longrightarrow> \<Omega> - a \<in> M" by auto
47694
05663f75964c reworked Probability theory
hoelzl
parents: 46731
diff changeset
   188
    fix a b assume M: "a \<in> M" "b \<in> M"
05663f75964c reworked Probability theory
hoelzl
parents: 46731
diff changeset
   189
    hence "a \<union> b = \<Omega> - ((\<Omega> - a) \<inter> (\<Omega> - b))"
05663f75964c reworked Probability theory
hoelzl
parents: 46731
diff changeset
   190
      using \<Omega> by blast
05663f75964c reworked Probability theory
hoelzl
parents: 46731
diff changeset
   191
    also have "... \<in> M"
61808
fc1556774cfe isabelle update_cartouches -c -t;
wenzelm
parents: 61633
diff changeset
   192
      using M \<open>?Int\<close> by auto
47694
05663f75964c reworked Probability theory
hoelzl
parents: 46731
diff changeset
   193
    finally show "a \<union> b \<in> M" .
42065
2b98b4c2e2f1 add ring_of_sets and subset_class as basis for algebra
hoelzl
parents: 41983
diff changeset
   194
  qed
2b98b4c2e2f1 add ring_of_sets and subset_class as basis for algebra
hoelzl
parents: 41983
diff changeset
   195
qed
2b98b4c2e2f1 add ring_of_sets and subset_class as basis for algebra
hoelzl
parents: 41983
diff changeset
   196
42867
760094e49a2c Collect intro-rules for sigma-algebras
hoelzl
parents: 42864
diff changeset
   197
lemma (in algebra) sets_Collect_neg:
47694
05663f75964c reworked Probability theory
hoelzl
parents: 46731
diff changeset
   198
  assumes "{x\<in>\<Omega>. P x} \<in> M"
05663f75964c reworked Probability theory
hoelzl
parents: 46731
diff changeset
   199
  shows "{x\<in>\<Omega>. \<not> P x} \<in> M"
42867
760094e49a2c Collect intro-rules for sigma-algebras
hoelzl
parents: 42864
diff changeset
   200
proof -
47694
05663f75964c reworked Probability theory
hoelzl
parents: 46731
diff changeset
   201
  have "{x\<in>\<Omega>. \<not> P x} = \<Omega> - {x\<in>\<Omega>. P x}" by auto
42867
760094e49a2c Collect intro-rules for sigma-algebras
hoelzl
parents: 42864
diff changeset
   202
  with assms show ?thesis by auto
760094e49a2c Collect intro-rules for sigma-algebras
hoelzl
parents: 42864
diff changeset
   203
qed
760094e49a2c Collect intro-rules for sigma-algebras
hoelzl
parents: 42864
diff changeset
   204
760094e49a2c Collect intro-rules for sigma-algebras
hoelzl
parents: 42864
diff changeset
   205
lemma (in algebra) sets_Collect_imp:
47694
05663f75964c reworked Probability theory
hoelzl
parents: 46731
diff changeset
   206
  "{x\<in>\<Omega>. P x} \<in> M \<Longrightarrow> {x\<in>\<Omega>. Q x} \<in> M \<Longrightarrow> {x\<in>\<Omega>. Q x \<longrightarrow> P x} \<in> M"
42867
760094e49a2c Collect intro-rules for sigma-algebras
hoelzl
parents: 42864
diff changeset
   207
  unfolding imp_conv_disj by (intro sets_Collect_disj sets_Collect_neg)
760094e49a2c Collect intro-rules for sigma-algebras
hoelzl
parents: 42864
diff changeset
   208
760094e49a2c Collect intro-rules for sigma-algebras
hoelzl
parents: 42864
diff changeset
   209
lemma (in algebra) sets_Collect_const:
47694
05663f75964c reworked Probability theory
hoelzl
parents: 46731
diff changeset
   210
  "{x\<in>\<Omega>. P} \<in> M"
42867
760094e49a2c Collect intro-rules for sigma-algebras
hoelzl
parents: 42864
diff changeset
   211
  by (cases P) auto
760094e49a2c Collect intro-rules for sigma-algebras
hoelzl
parents: 42864
diff changeset
   212
42984
43864e7475df add lemma sigma_sets_singleton
hoelzl
parents: 42981
diff changeset
   213
lemma algebra_single_set:
47762
d31085f07f60 add Caratheodories theorem for semi-rings of sets
hoelzl
parents: 47756
diff changeset
   214
  "X \<subseteq> S \<Longrightarrow> algebra S { {}, X, S - X, S }"
d31085f07f60 add Caratheodories theorem for semi-rings of sets
hoelzl
parents: 47756
diff changeset
   215
  by (auto simp: algebra_iff_Int)
42984
43864e7475df add lemma sigma_sets_singleton
hoelzl
parents: 42981
diff changeset
   216
61808
fc1556774cfe isabelle update_cartouches -c -t;
wenzelm
parents: 61633
diff changeset
   217
subsubsection \<open>Restricted algebras\<close>
39092
98de40859858 move lemmas to correct theory files
hoelzl
parents: 39090
diff changeset
   218
98de40859858 move lemmas to correct theory files
hoelzl
parents: 39090
diff changeset
   219
abbreviation (in algebra)
47694
05663f75964c reworked Probability theory
hoelzl
parents: 46731
diff changeset
   220
  "restricted_space A \<equiv> (op \<inter> A) ` M"
39092
98de40859858 move lemmas to correct theory files
hoelzl
parents: 39090
diff changeset
   221
38656
d5d342611edb Rewrite the Probability theory.
hoelzl
parents: 37032
diff changeset
   222
lemma (in algebra) restricted_algebra:
47694
05663f75964c reworked Probability theory
hoelzl
parents: 46731
diff changeset
   223
  assumes "A \<in> M" shows "algebra A (restricted_space A)"
47762
d31085f07f60 add Caratheodories theorem for semi-rings of sets
hoelzl
parents: 47756
diff changeset
   224
  using assms by (auto simp: algebra_iff_Int)
33271
7be66dee1a5a New theory Probability, which contains a development of measure theory
paulson
parents:
diff changeset
   225
61808
fc1556774cfe isabelle update_cartouches -c -t;
wenzelm
parents: 61633
diff changeset
   226
subsubsection \<open>Sigma Algebras\<close>
33271
7be66dee1a5a New theory Probability, which contains a development of measure theory
paulson
parents:
diff changeset
   227
7be66dee1a5a New theory Probability, which contains a development of measure theory
paulson
parents:
diff changeset
   228
locale sigma_algebra = algebra +
47694
05663f75964c reworked Probability theory
hoelzl
parents: 46731
diff changeset
   229
  assumes countable_nat_UN [intro]: "\<And>A. range A \<subseteq> M \<Longrightarrow> (\<Union>i::nat. A i) \<in> M"
33271
7be66dee1a5a New theory Probability, which contains a development of measure theory
paulson
parents:
diff changeset
   230
42984
43864e7475df add lemma sigma_sets_singleton
hoelzl
parents: 42981
diff changeset
   231
lemma (in algebra) is_sigma_algebra:
47694
05663f75964c reworked Probability theory
hoelzl
parents: 46731
diff changeset
   232
  assumes "finite M"
05663f75964c reworked Probability theory
hoelzl
parents: 46731
diff changeset
   233
  shows "sigma_algebra \<Omega> M"
42984
43864e7475df add lemma sigma_sets_singleton
hoelzl
parents: 42981
diff changeset
   234
proof
47694
05663f75964c reworked Probability theory
hoelzl
parents: 46731
diff changeset
   235
  fix A :: "nat \<Rightarrow> 'a set" assume "range A \<subseteq> M"
05663f75964c reworked Probability theory
hoelzl
parents: 46731
diff changeset
   236
  then have "(\<Union>i. A i) = (\<Union>s\<in>M \<inter> range A. s)"
42984
43864e7475df add lemma sigma_sets_singleton
hoelzl
parents: 42981
diff changeset
   237
    by auto
47694
05663f75964c reworked Probability theory
hoelzl
parents: 46731
diff changeset
   238
  also have "(\<Union>s\<in>M \<inter> range A. s) \<in> M"
61808
fc1556774cfe isabelle update_cartouches -c -t;
wenzelm
parents: 61633
diff changeset
   239
    using \<open>finite M\<close> by auto
47694
05663f75964c reworked Probability theory
hoelzl
parents: 46731
diff changeset
   240
  finally show "(\<Union>i. A i) \<in> M" .
42984
43864e7475df add lemma sigma_sets_singleton
hoelzl
parents: 42981
diff changeset
   241
qed
43864e7475df add lemma sigma_sets_singleton
hoelzl
parents: 42981
diff changeset
   242
38656
d5d342611edb Rewrite the Probability theory.
hoelzl
parents: 37032
diff changeset
   243
lemma countable_UN_eq:
d5d342611edb Rewrite the Probability theory.
hoelzl
parents: 37032
diff changeset
   244
  fixes A :: "'i::countable \<Rightarrow> 'a set"
47694
05663f75964c reworked Probability theory
hoelzl
parents: 46731
diff changeset
   245
  shows "(range A \<subseteq> M \<longrightarrow> (\<Union>i. A i) \<in> M) \<longleftrightarrow>
05663f75964c reworked Probability theory
hoelzl
parents: 46731
diff changeset
   246
    (range (A \<circ> from_nat) \<subseteq> M \<longrightarrow> (\<Union>i. (A \<circ> from_nat) i) \<in> M)"
38656
d5d342611edb Rewrite the Probability theory.
hoelzl
parents: 37032
diff changeset
   247
proof -
d5d342611edb Rewrite the Probability theory.
hoelzl
parents: 37032
diff changeset
   248
  let ?A' = "A \<circ> from_nat"
d5d342611edb Rewrite the Probability theory.
hoelzl
parents: 37032
diff changeset
   249
  have *: "(\<Union>i. ?A' i) = (\<Union>i. A i)" (is "?l = ?r")
d5d342611edb Rewrite the Probability theory.
hoelzl
parents: 37032
diff changeset
   250
  proof safe
d5d342611edb Rewrite the Probability theory.
hoelzl
parents: 37032
diff changeset
   251
    fix x i assume "x \<in> A i" thus "x \<in> ?l"
d5d342611edb Rewrite the Probability theory.
hoelzl
parents: 37032
diff changeset
   252
      by (auto intro!: exI[of _ "to_nat i"])
d5d342611edb Rewrite the Probability theory.
hoelzl
parents: 37032
diff changeset
   253
  next
d5d342611edb Rewrite the Probability theory.
hoelzl
parents: 37032
diff changeset
   254
    fix x i assume "x \<in> ?A' i" thus "x \<in> ?r"
d5d342611edb Rewrite the Probability theory.
hoelzl
parents: 37032
diff changeset
   255
      by (auto intro!: exI[of _ "from_nat i"])
d5d342611edb Rewrite the Probability theory.
hoelzl
parents: 37032
diff changeset
   256
  qed
d5d342611edb Rewrite the Probability theory.
hoelzl
parents: 37032
diff changeset
   257
  have **: "range ?A' = range A"
40702
cf26dd7395e4 Replace surj by abbreviation; remove surj_on.
hoelzl
parents: 39960
diff changeset
   258
    using surj_from_nat
56154
f0a927235162 more complete set of lemmas wrt. image and composition
haftmann
parents: 54420
diff changeset
   259
    by (auto simp: image_comp [symmetric] intro!: imageI)
38656
d5d342611edb Rewrite the Probability theory.
hoelzl
parents: 37032
diff changeset
   260
  show ?thesis unfolding * ** ..
d5d342611edb Rewrite the Probability theory.
hoelzl
parents: 37032
diff changeset
   261
qed
d5d342611edb Rewrite the Probability theory.
hoelzl
parents: 37032
diff changeset
   262
50245
dea9363887a6 based countable topological basis on Countable_Set
immler
parents: 50244
diff changeset
   263
lemma (in sigma_algebra) countable_Union [intro]:
61952
546958347e05 prefer symbols for "Union", "Inter";
wenzelm
parents: 61847
diff changeset
   264
  assumes "countable X" "X \<subseteq> M" shows "\<Union>X \<in> M"
50245
dea9363887a6 based countable topological basis on Countable_Set
immler
parents: 50244
diff changeset
   265
proof cases
dea9363887a6 based countable topological basis on Countable_Set
immler
parents: 50244
diff changeset
   266
  assume "X \<noteq> {}"
dea9363887a6 based countable topological basis on Countable_Set
immler
parents: 50244
diff changeset
   267
  hence "\<Union>X = (\<Union>n. from_nat_into X n)"
dea9363887a6 based countable topological basis on Countable_Set
immler
parents: 50244
diff changeset
   268
    using assms by (auto intro: from_nat_into) (metis from_nat_into_surj)
dea9363887a6 based countable topological basis on Countable_Set
immler
parents: 50244
diff changeset
   269
  also have "\<dots> \<in> M" using assms
61808
fc1556774cfe isabelle update_cartouches -c -t;
wenzelm
parents: 61633
diff changeset
   270
    by (auto intro!: countable_nat_UN) (metis \<open>X \<noteq> {}\<close> from_nat_into set_mp)
50245
dea9363887a6 based countable topological basis on Countable_Set
immler
parents: 50244
diff changeset
   271
  finally show ?thesis .
dea9363887a6 based countable topological basis on Countable_Set
immler
parents: 50244
diff changeset
   272
qed simp
dea9363887a6 based countable topological basis on Countable_Set
immler
parents: 50244
diff changeset
   273
38656
d5d342611edb Rewrite the Probability theory.
hoelzl
parents: 37032
diff changeset
   274
lemma (in sigma_algebra) countable_UN[intro]:
d5d342611edb Rewrite the Probability theory.
hoelzl
parents: 37032
diff changeset
   275
  fixes A :: "'i::countable \<Rightarrow> 'a set"
47694
05663f75964c reworked Probability theory
hoelzl
parents: 46731
diff changeset
   276
  assumes "A`X \<subseteq> M"
05663f75964c reworked Probability theory
hoelzl
parents: 46731
diff changeset
   277
  shows  "(\<Union>x\<in>X. A x) \<in> M"
38656
d5d342611edb Rewrite the Probability theory.
hoelzl
parents: 37032
diff changeset
   278
proof -
46731
5302e932d1e5 avoid undeclared variables in let bindings;
wenzelm
parents: 44890
diff changeset
   279
  let ?A = "\<lambda>i. if i \<in> X then A i else {}"
47694
05663f75964c reworked Probability theory
hoelzl
parents: 46731
diff changeset
   280
  from assms have "range ?A \<subseteq> M" by auto
38656
d5d342611edb Rewrite the Probability theory.
hoelzl
parents: 37032
diff changeset
   281
  with countable_nat_UN[of "?A \<circ> from_nat"] countable_UN_eq[of ?A M]
47694
05663f75964c reworked Probability theory
hoelzl
parents: 46731
diff changeset
   282
  have "(\<Union>x. ?A x) \<in> M" by auto
38656
d5d342611edb Rewrite the Probability theory.
hoelzl
parents: 37032
diff changeset
   283
  moreover have "(\<Union>x. ?A x) = (\<Union>x\<in>X. A x)" by (auto split: split_if_asm)
d5d342611edb Rewrite the Probability theory.
hoelzl
parents: 37032
diff changeset
   284
  ultimately show ?thesis by simp
d5d342611edb Rewrite the Probability theory.
hoelzl
parents: 37032
diff changeset
   285
qed
d5d342611edb Rewrite the Probability theory.
hoelzl
parents: 37032
diff changeset
   286
50526
899c9c4e4a4c Remove the indexed basis from the definition of euclidean spaces and only use the set of Basis vectors
hoelzl
parents: 50387
diff changeset
   287
lemma (in sigma_algebra) countable_UN':
899c9c4e4a4c Remove the indexed basis from the definition of euclidean spaces and only use the set of Basis vectors
hoelzl
parents: 50387
diff changeset
   288
  fixes A :: "'i \<Rightarrow> 'a set"
899c9c4e4a4c Remove the indexed basis from the definition of euclidean spaces and only use the set of Basis vectors
hoelzl
parents: 50387
diff changeset
   289
  assumes X: "countable X"
899c9c4e4a4c Remove the indexed basis from the definition of euclidean spaces and only use the set of Basis vectors
hoelzl
parents: 50387
diff changeset
   290
  assumes A: "A`X \<subseteq> M"
899c9c4e4a4c Remove the indexed basis from the definition of euclidean spaces and only use the set of Basis vectors
hoelzl
parents: 50387
diff changeset
   291
  shows  "(\<Union>x\<in>X. A x) \<in> M"
899c9c4e4a4c Remove the indexed basis from the definition of euclidean spaces and only use the set of Basis vectors
hoelzl
parents: 50387
diff changeset
   292
proof -
899c9c4e4a4c Remove the indexed basis from the definition of euclidean spaces and only use the set of Basis vectors
hoelzl
parents: 50387
diff changeset
   293
  have "(\<Union>x\<in>X. A x) = (\<Union>i\<in>to_nat_on X ` X. A (from_nat_into X i))"
899c9c4e4a4c Remove the indexed basis from the definition of euclidean spaces and only use the set of Basis vectors
hoelzl
parents: 50387
diff changeset
   294
    using X by auto
899c9c4e4a4c Remove the indexed basis from the definition of euclidean spaces and only use the set of Basis vectors
hoelzl
parents: 50387
diff changeset
   295
  also have "\<dots> \<in> M"
899c9c4e4a4c Remove the indexed basis from the definition of euclidean spaces and only use the set of Basis vectors
hoelzl
parents: 50387
diff changeset
   296
    using A X
899c9c4e4a4c Remove the indexed basis from the definition of euclidean spaces and only use the set of Basis vectors
hoelzl
parents: 50387
diff changeset
   297
    by (intro countable_UN) auto
899c9c4e4a4c Remove the indexed basis from the definition of euclidean spaces and only use the set of Basis vectors
hoelzl
parents: 50387
diff changeset
   298
  finally show ?thesis .
899c9c4e4a4c Remove the indexed basis from the definition of euclidean spaces and only use the set of Basis vectors
hoelzl
parents: 50387
diff changeset
   299
qed
899c9c4e4a4c Remove the indexed basis from the definition of euclidean spaces and only use the set of Basis vectors
hoelzl
parents: 50387
diff changeset
   300
61633
64e6d712af16 add lemmas
Andreas Lochbihler
parents: 61610
diff changeset
   301
lemma (in sigma_algebra) countable_UN'':
64e6d712af16 add lemmas
Andreas Lochbihler
parents: 61610
diff changeset
   302
  "\<lbrakk> countable X; \<And>x y. x \<in> X \<Longrightarrow> A x \<in> M \<rbrakk> \<Longrightarrow> (\<Union>x\<in>X. A x) \<in> M"
64e6d712af16 add lemmas
Andreas Lochbihler
parents: 61610
diff changeset
   303
by(erule countable_UN')(auto)
64e6d712af16 add lemmas
Andreas Lochbihler
parents: 61610
diff changeset
   304
33533
40b44cb20c8c New theory Probability/Borel.thy, and some associated lemmas
paulson
parents: 33271
diff changeset
   305
lemma (in sigma_algebra) countable_INT [intro]:
38656
d5d342611edb Rewrite the Probability theory.
hoelzl
parents: 37032
diff changeset
   306
  fixes A :: "'i::countable \<Rightarrow> 'a set"
47694
05663f75964c reworked Probability theory
hoelzl
parents: 46731
diff changeset
   307
  assumes A: "A`X \<subseteq> M" "X \<noteq> {}"
05663f75964c reworked Probability theory
hoelzl
parents: 46731
diff changeset
   308
  shows "(\<Inter>i\<in>X. A i) \<in> M"
33271
7be66dee1a5a New theory Probability, which contains a development of measure theory
paulson
parents:
diff changeset
   309
proof -
47694
05663f75964c reworked Probability theory
hoelzl
parents: 46731
diff changeset
   310
  from A have "\<forall>i\<in>X. A i \<in> M" by fast
05663f75964c reworked Probability theory
hoelzl
parents: 46731
diff changeset
   311
  hence "\<Omega> - (\<Union>i\<in>X. \<Omega> - A i) \<in> M" by blast
33271
7be66dee1a5a New theory Probability, which contains a development of measure theory
paulson
parents:
diff changeset
   312
  moreover
47694
05663f75964c reworked Probability theory
hoelzl
parents: 46731
diff changeset
   313
  have "(\<Inter>i\<in>X. A i) = \<Omega> - (\<Union>i\<in>X. \<Omega> - A i)" using space_closed A
33271
7be66dee1a5a New theory Probability, which contains a development of measure theory
paulson
parents:
diff changeset
   314
    by blast
7be66dee1a5a New theory Probability, which contains a development of measure theory
paulson
parents:
diff changeset
   315
  ultimately show ?thesis by metis
7be66dee1a5a New theory Probability, which contains a development of measure theory
paulson
parents:
diff changeset
   316
qed
7be66dee1a5a New theory Probability, which contains a development of measure theory
paulson
parents:
diff changeset
   317
50526
899c9c4e4a4c Remove the indexed basis from the definition of euclidean spaces and only use the set of Basis vectors
hoelzl
parents: 50387
diff changeset
   318
lemma (in sigma_algebra) countable_INT':
899c9c4e4a4c Remove the indexed basis from the definition of euclidean spaces and only use the set of Basis vectors
hoelzl
parents: 50387
diff changeset
   319
  fixes A :: "'i \<Rightarrow> 'a set"
899c9c4e4a4c Remove the indexed basis from the definition of euclidean spaces and only use the set of Basis vectors
hoelzl
parents: 50387
diff changeset
   320
  assumes X: "countable X" "X \<noteq> {}"
899c9c4e4a4c Remove the indexed basis from the definition of euclidean spaces and only use the set of Basis vectors
hoelzl
parents: 50387
diff changeset
   321
  assumes A: "A`X \<subseteq> M"
899c9c4e4a4c Remove the indexed basis from the definition of euclidean spaces and only use the set of Basis vectors
hoelzl
parents: 50387
diff changeset
   322
  shows  "(\<Inter>x\<in>X. A x) \<in> M"
899c9c4e4a4c Remove the indexed basis from the definition of euclidean spaces and only use the set of Basis vectors
hoelzl
parents: 50387
diff changeset
   323
proof -
899c9c4e4a4c Remove the indexed basis from the definition of euclidean spaces and only use the set of Basis vectors
hoelzl
parents: 50387
diff changeset
   324
  have "(\<Inter>x\<in>X. A x) = (\<Inter>i\<in>to_nat_on X ` X. A (from_nat_into X i))"
899c9c4e4a4c Remove the indexed basis from the definition of euclidean spaces and only use the set of Basis vectors
hoelzl
parents: 50387
diff changeset
   325
    using X by auto
899c9c4e4a4c Remove the indexed basis from the definition of euclidean spaces and only use the set of Basis vectors
hoelzl
parents: 50387
diff changeset
   326
  also have "\<dots> \<in> M"
899c9c4e4a4c Remove the indexed basis from the definition of euclidean spaces and only use the set of Basis vectors
hoelzl
parents: 50387
diff changeset
   327
    using A X
899c9c4e4a4c Remove the indexed basis from the definition of euclidean spaces and only use the set of Basis vectors
hoelzl
parents: 50387
diff changeset
   328
    by (intro countable_INT) auto
899c9c4e4a4c Remove the indexed basis from the definition of euclidean spaces and only use the set of Basis vectors
hoelzl
parents: 50387
diff changeset
   329
  finally show ?thesis .
899c9c4e4a4c Remove the indexed basis from the definition of euclidean spaces and only use the set of Basis vectors
hoelzl
parents: 50387
diff changeset
   330
qed
899c9c4e4a4c Remove the indexed basis from the definition of euclidean spaces and only use the set of Basis vectors
hoelzl
parents: 50387
diff changeset
   331
59088
ff2bd4a14ddb generalized (borel_)measurable_SUP/INF/lfp/gfp; tuned proofs for sigma-closure of product spaces
hoelzl
parents: 59048
diff changeset
   332
lemma (in sigma_algebra) countable_INT'':
ff2bd4a14ddb generalized (borel_)measurable_SUP/INF/lfp/gfp; tuned proofs for sigma-closure of product spaces
hoelzl
parents: 59048
diff changeset
   333
  "UNIV \<in> M \<Longrightarrow> countable I \<Longrightarrow> (\<And>i. i \<in> I \<Longrightarrow> F i \<in> M) \<Longrightarrow> (\<Inter>i\<in>I. F i) \<in> M"
ff2bd4a14ddb generalized (borel_)measurable_SUP/INF/lfp/gfp; tuned proofs for sigma-closure of product spaces
hoelzl
parents: 59048
diff changeset
   334
  by (cases "I = {}") (auto intro: countable_INT')
57275
0ddb5b755cdc moved lemmas from the proof of the Central Limit Theorem by Jeremy Avigad and Luke Serafin
hoelzl
parents: 57138
diff changeset
   335
0ddb5b755cdc moved lemmas from the proof of the Central Limit Theorem by Jeremy Avigad and Luke Serafin
hoelzl
parents: 57138
diff changeset
   336
lemma (in sigma_algebra) countable:
0ddb5b755cdc moved lemmas from the proof of the Central Limit Theorem by Jeremy Avigad and Luke Serafin
hoelzl
parents: 57138
diff changeset
   337
  assumes "\<And>a. a \<in> A \<Longrightarrow> {a} \<in> M" "countable A"
0ddb5b755cdc moved lemmas from the proof of the Central Limit Theorem by Jeremy Avigad and Luke Serafin
hoelzl
parents: 57138
diff changeset
   338
  shows "A \<in> M"
0ddb5b755cdc moved lemmas from the proof of the Central Limit Theorem by Jeremy Avigad and Luke Serafin
hoelzl
parents: 57138
diff changeset
   339
proof -
0ddb5b755cdc moved lemmas from the proof of the Central Limit Theorem by Jeremy Avigad and Luke Serafin
hoelzl
parents: 57138
diff changeset
   340
  have "(\<Union>a\<in>A. {a}) \<in> M"
0ddb5b755cdc moved lemmas from the proof of the Central Limit Theorem by Jeremy Avigad and Luke Serafin
hoelzl
parents: 57138
diff changeset
   341
    using assms by (intro countable_UN') auto
0ddb5b755cdc moved lemmas from the proof of the Central Limit Theorem by Jeremy Avigad and Luke Serafin
hoelzl
parents: 57138
diff changeset
   342
  also have "(\<Union>a\<in>A. {a}) = A" by auto
0ddb5b755cdc moved lemmas from the proof of the Central Limit Theorem by Jeremy Avigad and Luke Serafin
hoelzl
parents: 57138
diff changeset
   343
  finally show ?thesis by auto
0ddb5b755cdc moved lemmas from the proof of the Central Limit Theorem by Jeremy Avigad and Luke Serafin
hoelzl
parents: 57138
diff changeset
   344
qed
0ddb5b755cdc moved lemmas from the proof of the Central Limit Theorem by Jeremy Avigad and Luke Serafin
hoelzl
parents: 57138
diff changeset
   345
47694
05663f75964c reworked Probability theory
hoelzl
parents: 46731
diff changeset
   346
lemma ring_of_sets_Pow: "ring_of_sets sp (Pow sp)"
47762
d31085f07f60 add Caratheodories theorem for semi-rings of sets
hoelzl
parents: 47756
diff changeset
   347
  by (auto simp: ring_of_sets_iff)
42145
8448713d48b7 proved caratheodory_empty_continuous
hoelzl
parents: 42067
diff changeset
   348
47694
05663f75964c reworked Probability theory
hoelzl
parents: 46731
diff changeset
   349
lemma algebra_Pow: "algebra sp (Pow sp)"
47762
d31085f07f60 add Caratheodories theorem for semi-rings of sets
hoelzl
parents: 47756
diff changeset
   350
  by (auto simp: algebra_iff_Un)
38656
d5d342611edb Rewrite the Probability theory.
hoelzl
parents: 37032
diff changeset
   351
d5d342611edb Rewrite the Probability theory.
hoelzl
parents: 37032
diff changeset
   352
lemma sigma_algebra_iff:
47694
05663f75964c reworked Probability theory
hoelzl
parents: 46731
diff changeset
   353
  "sigma_algebra \<Omega> M \<longleftrightarrow>
05663f75964c reworked Probability theory
hoelzl
parents: 46731
diff changeset
   354
    algebra \<Omega> M \<and> (\<forall>A. range A \<subseteq> M \<longrightarrow> (\<Union>i::nat. A i) \<in> M)"
38656
d5d342611edb Rewrite the Probability theory.
hoelzl
parents: 37032
diff changeset
   355
  by (simp add: sigma_algebra_def sigma_algebra_axioms_def)
33271
7be66dee1a5a New theory Probability, which contains a development of measure theory
paulson
parents:
diff changeset
   356
47762
d31085f07f60 add Caratheodories theorem for semi-rings of sets
hoelzl
parents: 47756
diff changeset
   357
lemma sigma_algebra_Pow: "sigma_algebra sp (Pow sp)"
d31085f07f60 add Caratheodories theorem for semi-rings of sets
hoelzl
parents: 47756
diff changeset
   358
  by (auto simp: sigma_algebra_iff algebra_iff_Int)
d31085f07f60 add Caratheodories theorem for semi-rings of sets
hoelzl
parents: 47756
diff changeset
   359
42867
760094e49a2c Collect intro-rules for sigma-algebras
hoelzl
parents: 42864
diff changeset
   360
lemma (in sigma_algebra) sets_Collect_countable_All:
47694
05663f75964c reworked Probability theory
hoelzl
parents: 46731
diff changeset
   361
  assumes "\<And>i. {x\<in>\<Omega>. P i x} \<in> M"
05663f75964c reworked Probability theory
hoelzl
parents: 46731
diff changeset
   362
  shows "{x\<in>\<Omega>. \<forall>i::'i::countable. P i x} \<in> M"
42867
760094e49a2c Collect intro-rules for sigma-algebras
hoelzl
parents: 42864
diff changeset
   363
proof -
47694
05663f75964c reworked Probability theory
hoelzl
parents: 46731
diff changeset
   364
  have "{x\<in>\<Omega>. \<forall>i::'i::countable. P i x} = (\<Inter>i. {x\<in>\<Omega>. P i x})" by auto
42867
760094e49a2c Collect intro-rules for sigma-algebras
hoelzl
parents: 42864
diff changeset
   365
  with assms show ?thesis by auto
760094e49a2c Collect intro-rules for sigma-algebras
hoelzl
parents: 42864
diff changeset
   366
qed
760094e49a2c Collect intro-rules for sigma-algebras
hoelzl
parents: 42864
diff changeset
   367
760094e49a2c Collect intro-rules for sigma-algebras
hoelzl
parents: 42864
diff changeset
   368
lemma (in sigma_algebra) sets_Collect_countable_Ex:
47694
05663f75964c reworked Probability theory
hoelzl
parents: 46731
diff changeset
   369
  assumes "\<And>i. {x\<in>\<Omega>. P i x} \<in> M"
05663f75964c reworked Probability theory
hoelzl
parents: 46731
diff changeset
   370
  shows "{x\<in>\<Omega>. \<exists>i::'i::countable. P i x} \<in> M"
42867
760094e49a2c Collect intro-rules for sigma-algebras
hoelzl
parents: 42864
diff changeset
   371
proof -
47694
05663f75964c reworked Probability theory
hoelzl
parents: 46731
diff changeset
   372
  have "{x\<in>\<Omega>. \<exists>i::'i::countable. P i x} = (\<Union>i. {x\<in>\<Omega>. P i x})" by auto
42867
760094e49a2c Collect intro-rules for sigma-algebras
hoelzl
parents: 42864
diff changeset
   373
  with assms show ?thesis by auto
760094e49a2c Collect intro-rules for sigma-algebras
hoelzl
parents: 42864
diff changeset
   374
qed
760094e49a2c Collect intro-rules for sigma-algebras
hoelzl
parents: 42864
diff changeset
   375
50526
899c9c4e4a4c Remove the indexed basis from the definition of euclidean spaces and only use the set of Basis vectors
hoelzl
parents: 50387
diff changeset
   376
lemma (in sigma_algebra) sets_Collect_countable_Ex':
54418
3b8e33d1a39a measure of a countable union
hoelzl
parents: 54417
diff changeset
   377
  assumes "\<And>i. i \<in> I \<Longrightarrow> {x\<in>\<Omega>. P i x} \<in> M"
50526
899c9c4e4a4c Remove the indexed basis from the definition of euclidean spaces and only use the set of Basis vectors
hoelzl
parents: 50387
diff changeset
   378
  assumes "countable I"
899c9c4e4a4c Remove the indexed basis from the definition of euclidean spaces and only use the set of Basis vectors
hoelzl
parents: 50387
diff changeset
   379
  shows "{x\<in>\<Omega>. \<exists>i\<in>I. P i x} \<in> M"
899c9c4e4a4c Remove the indexed basis from the definition of euclidean spaces and only use the set of Basis vectors
hoelzl
parents: 50387
diff changeset
   380
proof -
899c9c4e4a4c Remove the indexed basis from the definition of euclidean spaces and only use the set of Basis vectors
hoelzl
parents: 50387
diff changeset
   381
  have "{x\<in>\<Omega>. \<exists>i\<in>I. P i x} = (\<Union>i\<in>I. {x\<in>\<Omega>. P i x})" by auto
899c9c4e4a4c Remove the indexed basis from the definition of euclidean spaces and only use the set of Basis vectors
hoelzl
parents: 50387
diff changeset
   382
  with assms show ?thesis 
899c9c4e4a4c Remove the indexed basis from the definition of euclidean spaces and only use the set of Basis vectors
hoelzl
parents: 50387
diff changeset
   383
    by (auto intro!: countable_UN')
899c9c4e4a4c Remove the indexed basis from the definition of euclidean spaces and only use the set of Basis vectors
hoelzl
parents: 50387
diff changeset
   384
qed
899c9c4e4a4c Remove the indexed basis from the definition of euclidean spaces and only use the set of Basis vectors
hoelzl
parents: 50387
diff changeset
   385
54418
3b8e33d1a39a measure of a countable union
hoelzl
parents: 54417
diff changeset
   386
lemma (in sigma_algebra) sets_Collect_countable_All':
3b8e33d1a39a measure of a countable union
hoelzl
parents: 54417
diff changeset
   387
  assumes "\<And>i. i \<in> I \<Longrightarrow> {x\<in>\<Omega>. P i x} \<in> M"
3b8e33d1a39a measure of a countable union
hoelzl
parents: 54417
diff changeset
   388
  assumes "countable I"
3b8e33d1a39a measure of a countable union
hoelzl
parents: 54417
diff changeset
   389
  shows "{x\<in>\<Omega>. \<forall>i\<in>I. P i x} \<in> M"
3b8e33d1a39a measure of a countable union
hoelzl
parents: 54417
diff changeset
   390
proof -
3b8e33d1a39a measure of a countable union
hoelzl
parents: 54417
diff changeset
   391
  have "{x\<in>\<Omega>. \<forall>i\<in>I. P i x} = (\<Inter>i\<in>I. {x\<in>\<Omega>. P i x}) \<inter> \<Omega>" by auto
3b8e33d1a39a measure of a countable union
hoelzl
parents: 54417
diff changeset
   392
  with assms show ?thesis 
3b8e33d1a39a measure of a countable union
hoelzl
parents: 54417
diff changeset
   393
    by (cases "I = {}") (auto intro!: countable_INT')
3b8e33d1a39a measure of a countable union
hoelzl
parents: 54417
diff changeset
   394
qed
3b8e33d1a39a measure of a countable union
hoelzl
parents: 54417
diff changeset
   395
3b8e33d1a39a measure of a countable union
hoelzl
parents: 54417
diff changeset
   396
lemma (in sigma_algebra) sets_Collect_countable_Ex1':
3b8e33d1a39a measure of a countable union
hoelzl
parents: 54417
diff changeset
   397
  assumes "\<And>i. i \<in> I \<Longrightarrow> {x\<in>\<Omega>. P i x} \<in> M"
3b8e33d1a39a measure of a countable union
hoelzl
parents: 54417
diff changeset
   398
  assumes "countable I"
3b8e33d1a39a measure of a countable union
hoelzl
parents: 54417
diff changeset
   399
  shows "{x\<in>\<Omega>. \<exists>!i\<in>I. P i x} \<in> M"
3b8e33d1a39a measure of a countable union
hoelzl
parents: 54417
diff changeset
   400
proof -
3b8e33d1a39a measure of a countable union
hoelzl
parents: 54417
diff changeset
   401
  have "{x\<in>\<Omega>. \<exists>!i\<in>I. P i x} = {x\<in>\<Omega>. \<exists>i\<in>I. P i x \<and> (\<forall>j\<in>I. P j x \<longrightarrow> i = j)}"
3b8e33d1a39a measure of a countable union
hoelzl
parents: 54417
diff changeset
   402
    by auto
3b8e33d1a39a measure of a countable union
hoelzl
parents: 54417
diff changeset
   403
  with assms show ?thesis 
3b8e33d1a39a measure of a countable union
hoelzl
parents: 54417
diff changeset
   404
    by (auto intro!: sets_Collect_countable_All' sets_Collect_countable_Ex' sets_Collect_conj sets_Collect_imp sets_Collect_const)
3b8e33d1a39a measure of a countable union
hoelzl
parents: 54417
diff changeset
   405
qed
3b8e33d1a39a measure of a countable union
hoelzl
parents: 54417
diff changeset
   406
42867
760094e49a2c Collect intro-rules for sigma-algebras
hoelzl
parents: 42864
diff changeset
   407
lemmas (in sigma_algebra) sets_Collect =
760094e49a2c Collect intro-rules for sigma-algebras
hoelzl
parents: 42864
diff changeset
   408
  sets_Collect_imp sets_Collect_disj sets_Collect_conj sets_Collect_neg sets_Collect_const
760094e49a2c Collect intro-rules for sigma-algebras
hoelzl
parents: 42864
diff changeset
   409
  sets_Collect_countable_All sets_Collect_countable_Ex sets_Collect_countable_All
760094e49a2c Collect intro-rules for sigma-algebras
hoelzl
parents: 42864
diff changeset
   410
47694
05663f75964c reworked Probability theory
hoelzl
parents: 46731
diff changeset
   411
lemma (in sigma_algebra) sets_Collect_countable_Ball:
05663f75964c reworked Probability theory
hoelzl
parents: 46731
diff changeset
   412
  assumes "\<And>i. {x\<in>\<Omega>. P i x} \<in> M"
05663f75964c reworked Probability theory
hoelzl
parents: 46731
diff changeset
   413
  shows "{x\<in>\<Omega>. \<forall>i::'i::countable\<in>X. P i x} \<in> M"
05663f75964c reworked Probability theory
hoelzl
parents: 46731
diff changeset
   414
  unfolding Ball_def by (intro sets_Collect assms)
05663f75964c reworked Probability theory
hoelzl
parents: 46731
diff changeset
   415
05663f75964c reworked Probability theory
hoelzl
parents: 46731
diff changeset
   416
lemma (in sigma_algebra) sets_Collect_countable_Bex:
05663f75964c reworked Probability theory
hoelzl
parents: 46731
diff changeset
   417
  assumes "\<And>i. {x\<in>\<Omega>. P i x} \<in> M"
05663f75964c reworked Probability theory
hoelzl
parents: 46731
diff changeset
   418
  shows "{x\<in>\<Omega>. \<exists>i::'i::countable\<in>X. P i x} \<in> M"
05663f75964c reworked Probability theory
hoelzl
parents: 46731
diff changeset
   419
  unfolding Bex_def by (intro sets_Collect assms)
05663f75964c reworked Probability theory
hoelzl
parents: 46731
diff changeset
   420
42984
43864e7475df add lemma sigma_sets_singleton
hoelzl
parents: 42981
diff changeset
   421
lemma sigma_algebra_single_set:
43864e7475df add lemma sigma_sets_singleton
hoelzl
parents: 42981
diff changeset
   422
  assumes "X \<subseteq> S"
47694
05663f75964c reworked Probability theory
hoelzl
parents: 46731
diff changeset
   423
  shows "sigma_algebra S { {}, X, S - X, S }"
61808
fc1556774cfe isabelle update_cartouches -c -t;
wenzelm
parents: 61633
diff changeset
   424
  using algebra.is_sigma_algebra[OF algebra_single_set[OF \<open>X \<subseteq> S\<close>]] by simp
42984
43864e7475df add lemma sigma_sets_singleton
hoelzl
parents: 42981
diff changeset
   425
61808
fc1556774cfe isabelle update_cartouches -c -t;
wenzelm
parents: 61633
diff changeset
   426
subsubsection \<open>Binary Unions\<close>
33271
7be66dee1a5a New theory Probability, which contains a development of measure theory
paulson
parents:
diff changeset
   427
7be66dee1a5a New theory Probability, which contains a development of measure theory
paulson
parents:
diff changeset
   428
definition binary :: "'a \<Rightarrow> 'a \<Rightarrow> nat \<Rightarrow> 'a"
50252
4aa34bd43228 eliminated slightly odd identifiers;
wenzelm
parents: 50245
diff changeset
   429
  where "binary a b =  (\<lambda>x. b)(0 := a)"
33271
7be66dee1a5a New theory Probability, which contains a development of measure theory
paulson
parents:
diff changeset
   430
38656
d5d342611edb Rewrite the Probability theory.
hoelzl
parents: 37032
diff changeset
   431
lemma range_binary_eq: "range(binary a b) = {a,b}"
d5d342611edb Rewrite the Probability theory.
hoelzl
parents: 37032
diff changeset
   432
  by (auto simp add: binary_def)
33271
7be66dee1a5a New theory Probability, which contains a development of measure theory
paulson
parents:
diff changeset
   433
38656
d5d342611edb Rewrite the Probability theory.
hoelzl
parents: 37032
diff changeset
   434
lemma Un_range_binary: "a \<union> b = (\<Union>i::nat. binary a b i)"
44106
0e018cbcc0de tuned proofs
haftmann
parents: 42988
diff changeset
   435
  by (simp add: SUP_def range_binary_eq)
33271
7be66dee1a5a New theory Probability, which contains a development of measure theory
paulson
parents:
diff changeset
   436
38656
d5d342611edb Rewrite the Probability theory.
hoelzl
parents: 37032
diff changeset
   437
lemma Int_range_binary: "a \<inter> b = (\<Inter>i::nat. binary a b i)"
44106
0e018cbcc0de tuned proofs
haftmann
parents: 42988
diff changeset
   438
  by (simp add: INF_def range_binary_eq)
33271
7be66dee1a5a New theory Probability, which contains a development of measure theory
paulson
parents:
diff changeset
   439
7be66dee1a5a New theory Probability, which contains a development of measure theory
paulson
parents:
diff changeset
   440
lemma sigma_algebra_iff2:
47694
05663f75964c reworked Probability theory
hoelzl
parents: 46731
diff changeset
   441
     "sigma_algebra \<Omega> M \<longleftrightarrow>
05663f75964c reworked Probability theory
hoelzl
parents: 46731
diff changeset
   442
       M \<subseteq> Pow \<Omega> \<and>
05663f75964c reworked Probability theory
hoelzl
parents: 46731
diff changeset
   443
       {} \<in> M \<and> (\<forall>s \<in> M. \<Omega> - s \<in> M) \<and>
05663f75964c reworked Probability theory
hoelzl
parents: 46731
diff changeset
   444
       (\<forall>A. range A \<subseteq> M \<longrightarrow> (\<Union>i::nat. A i) \<in> M)"
38656
d5d342611edb Rewrite the Probability theory.
hoelzl
parents: 37032
diff changeset
   445
  by (auto simp add: range_binary_eq sigma_algebra_def sigma_algebra_axioms_def
42065
2b98b4c2e2f1 add ring_of_sets and subset_class as basis for algebra
hoelzl
parents: 41983
diff changeset
   446
         algebra_iff_Un Un_range_binary)
33271
7be66dee1a5a New theory Probability, which contains a development of measure theory
paulson
parents:
diff changeset
   447
61808
fc1556774cfe isabelle update_cartouches -c -t;
wenzelm
parents: 61633
diff changeset
   448
subsubsection \<open>Initial Sigma Algebra\<close>
33271
7be66dee1a5a New theory Probability, which contains a development of measure theory
paulson
parents:
diff changeset
   449
61808
fc1556774cfe isabelle update_cartouches -c -t;
wenzelm
parents: 61633
diff changeset
   450
text \<open>Sigma algebras can naturally be created as the closure of any set of
fc1556774cfe isabelle update_cartouches -c -t;
wenzelm
parents: 61633
diff changeset
   451
  M with regard to the properties just postulated.\<close>
33271
7be66dee1a5a New theory Probability, which contains a development of measure theory
paulson
parents:
diff changeset
   452
51683
baefa3b461c2 generalize Borel-set properties from real/ereal/ordered_euclidean_spaces to order_topology and real_normed_vector
hoelzl
parents: 50526
diff changeset
   453
inductive_set sigma_sets :: "'a set \<Rightarrow> 'a set set \<Rightarrow> 'a set set"
33271
7be66dee1a5a New theory Probability, which contains a development of measure theory
paulson
parents:
diff changeset
   454
  for sp :: "'a set" and A :: "'a set set"
7be66dee1a5a New theory Probability, which contains a development of measure theory
paulson
parents:
diff changeset
   455
  where
47694
05663f75964c reworked Probability theory
hoelzl
parents: 46731
diff changeset
   456
    Basic[intro, simp]: "a \<in> A \<Longrightarrow> a \<in> sigma_sets sp A"
33271
7be66dee1a5a New theory Probability, which contains a development of measure theory
paulson
parents:
diff changeset
   457
  | Empty: "{} \<in> sigma_sets sp A"
7be66dee1a5a New theory Probability, which contains a development of measure theory
paulson
parents:
diff changeset
   458
  | Compl: "a \<in> sigma_sets sp A \<Longrightarrow> sp - a \<in> sigma_sets sp A"
7be66dee1a5a New theory Probability, which contains a development of measure theory
paulson
parents:
diff changeset
   459
  | Union: "(\<And>i::nat. a i \<in> sigma_sets sp A) \<Longrightarrow> (\<Union>i. a i) \<in> sigma_sets sp A"
7be66dee1a5a New theory Probability, which contains a development of measure theory
paulson
parents:
diff changeset
   460
41543
646a1399e792 tuned theorem order
hoelzl
parents: 41413
diff changeset
   461
lemma (in sigma_algebra) sigma_sets_subset:
47694
05663f75964c reworked Probability theory
hoelzl
parents: 46731
diff changeset
   462
  assumes a: "a \<subseteq> M"
05663f75964c reworked Probability theory
hoelzl
parents: 46731
diff changeset
   463
  shows "sigma_sets \<Omega> a \<subseteq> M"
41543
646a1399e792 tuned theorem order
hoelzl
parents: 41413
diff changeset
   464
proof
646a1399e792 tuned theorem order
hoelzl
parents: 41413
diff changeset
   465
  fix x
47694
05663f75964c reworked Probability theory
hoelzl
parents: 46731
diff changeset
   466
  assume "x \<in> sigma_sets \<Omega> a"
05663f75964c reworked Probability theory
hoelzl
parents: 46731
diff changeset
   467
  from this show "x \<in> M"
41543
646a1399e792 tuned theorem order
hoelzl
parents: 41413
diff changeset
   468
    by (induct rule: sigma_sets.induct, auto) (metis a subsetD)
646a1399e792 tuned theorem order
hoelzl
parents: 41413
diff changeset
   469
qed
646a1399e792 tuned theorem order
hoelzl
parents: 41413
diff changeset
   470
646a1399e792 tuned theorem order
hoelzl
parents: 41413
diff changeset
   471
lemma sigma_sets_into_sp: "A \<subseteq> Pow sp \<Longrightarrow> x \<in> sigma_sets sp A \<Longrightarrow> x \<subseteq> sp"
646a1399e792 tuned theorem order
hoelzl
parents: 41413
diff changeset
   472
  by (erule sigma_sets.induct, auto)
646a1399e792 tuned theorem order
hoelzl
parents: 41413
diff changeset
   473
646a1399e792 tuned theorem order
hoelzl
parents: 41413
diff changeset
   474
lemma sigma_algebra_sigma_sets:
47694
05663f75964c reworked Probability theory
hoelzl
parents: 46731
diff changeset
   475
     "a \<subseteq> Pow \<Omega> \<Longrightarrow> sigma_algebra \<Omega> (sigma_sets \<Omega> a)"
41543
646a1399e792 tuned theorem order
hoelzl
parents: 41413
diff changeset
   476
  by (auto simp add: sigma_algebra_iff2 dest: sigma_sets_into_sp
646a1399e792 tuned theorem order
hoelzl
parents: 41413
diff changeset
   477
           intro!: sigma_sets.Union sigma_sets.Empty sigma_sets.Compl)
646a1399e792 tuned theorem order
hoelzl
parents: 41413
diff changeset
   478
646a1399e792 tuned theorem order
hoelzl
parents: 41413
diff changeset
   479
lemma sigma_sets_least_sigma_algebra:
646a1399e792 tuned theorem order
hoelzl
parents: 41413
diff changeset
   480
  assumes "A \<subseteq> Pow S"
47694
05663f75964c reworked Probability theory
hoelzl
parents: 46731
diff changeset
   481
  shows "sigma_sets S A = \<Inter>{B. A \<subseteq> B \<and> sigma_algebra S B}"
41543
646a1399e792 tuned theorem order
hoelzl
parents: 41413
diff changeset
   482
proof safe
47694
05663f75964c reworked Probability theory
hoelzl
parents: 46731
diff changeset
   483
  fix B X assume "A \<subseteq> B" and sa: "sigma_algebra S B"
41543
646a1399e792 tuned theorem order
hoelzl
parents: 41413
diff changeset
   484
    and X: "X \<in> sigma_sets S A"
61808
fc1556774cfe isabelle update_cartouches -c -t;
wenzelm
parents: 61633
diff changeset
   485
  from sigma_algebra.sigma_sets_subset[OF sa, simplified, OF \<open>A \<subseteq> B\<close>] X
41543
646a1399e792 tuned theorem order
hoelzl
parents: 41413
diff changeset
   486
  show "X \<in> B" by auto
646a1399e792 tuned theorem order
hoelzl
parents: 41413
diff changeset
   487
next
47694
05663f75964c reworked Probability theory
hoelzl
parents: 46731
diff changeset
   488
  fix X assume "X \<in> \<Inter>{B. A \<subseteq> B \<and> sigma_algebra S B}"
05663f75964c reworked Probability theory
hoelzl
parents: 46731
diff changeset
   489
  then have [intro!]: "\<And>B. A \<subseteq> B \<Longrightarrow> sigma_algebra S B \<Longrightarrow> X \<in> B"
41543
646a1399e792 tuned theorem order
hoelzl
parents: 41413
diff changeset
   490
     by simp
47694
05663f75964c reworked Probability theory
hoelzl
parents: 46731
diff changeset
   491
  have "A \<subseteq> sigma_sets S A" using assms by auto
05663f75964c reworked Probability theory
hoelzl
parents: 46731
diff changeset
   492
  moreover have "sigma_algebra S (sigma_sets S A)"
41543
646a1399e792 tuned theorem order
hoelzl
parents: 41413
diff changeset
   493
    using assms by (intro sigma_algebra_sigma_sets[of A]) auto
646a1399e792 tuned theorem order
hoelzl
parents: 41413
diff changeset
   494
  ultimately show "X \<in> sigma_sets S A" by auto
646a1399e792 tuned theorem order
hoelzl
parents: 41413
diff changeset
   495
qed
33271
7be66dee1a5a New theory Probability, which contains a development of measure theory
paulson
parents:
diff changeset
   496
7be66dee1a5a New theory Probability, which contains a development of measure theory
paulson
parents:
diff changeset
   497
lemma sigma_sets_top: "sp \<in> sigma_sets sp A"
7be66dee1a5a New theory Probability, which contains a development of measure theory
paulson
parents:
diff changeset
   498
  by (metis Diff_empty sigma_sets.Compl sigma_sets.Empty)
7be66dee1a5a New theory Probability, which contains a development of measure theory
paulson
parents:
diff changeset
   499
38656
d5d342611edb Rewrite the Probability theory.
hoelzl
parents: 37032
diff changeset
   500
lemma sigma_sets_Un:
33271
7be66dee1a5a New theory Probability, which contains a development of measure theory
paulson
parents:
diff changeset
   501
  "a \<in> sigma_sets sp A \<Longrightarrow> b \<in> sigma_sets sp A \<Longrightarrow> a \<union> b \<in> sigma_sets sp A"
38656
d5d342611edb Rewrite the Probability theory.
hoelzl
parents: 37032
diff changeset
   502
apply (simp add: Un_range_binary range_binary_eq)
40859
de0b30e6c2d2 Support product spaces on sigma finite measures.
hoelzl
parents: 40702
diff changeset
   503
apply (rule Union, simp add: binary_def)
33271
7be66dee1a5a New theory Probability, which contains a development of measure theory
paulson
parents:
diff changeset
   504
done
7be66dee1a5a New theory Probability, which contains a development of measure theory
paulson
parents:
diff changeset
   505
7be66dee1a5a New theory Probability, which contains a development of measure theory
paulson
parents:
diff changeset
   506
lemma sigma_sets_Inter:
7be66dee1a5a New theory Probability, which contains a development of measure theory
paulson
parents:
diff changeset
   507
  assumes Asb: "A \<subseteq> Pow sp"
7be66dee1a5a New theory Probability, which contains a development of measure theory
paulson
parents:
diff changeset
   508
  shows "(\<And>i::nat. a i \<in> sigma_sets sp A) \<Longrightarrow> (\<Inter>i. a i) \<in> sigma_sets sp A"
7be66dee1a5a New theory Probability, which contains a development of measure theory
paulson
parents:
diff changeset
   509
proof -
7be66dee1a5a New theory Probability, which contains a development of measure theory
paulson
parents:
diff changeset
   510
  assume ai: "\<And>i::nat. a i \<in> sigma_sets sp A"
38656
d5d342611edb Rewrite the Probability theory.
hoelzl
parents: 37032
diff changeset
   511
  hence "\<And>i::nat. sp-(a i) \<in> sigma_sets sp A"
33271
7be66dee1a5a New theory Probability, which contains a development of measure theory
paulson
parents:
diff changeset
   512
    by (rule sigma_sets.Compl)
38656
d5d342611edb Rewrite the Probability theory.
hoelzl
parents: 37032
diff changeset
   513
  hence "(\<Union>i. sp-(a i)) \<in> sigma_sets sp A"
33271
7be66dee1a5a New theory Probability, which contains a development of measure theory
paulson
parents:
diff changeset
   514
    by (rule sigma_sets.Union)
38656
d5d342611edb Rewrite the Probability theory.
hoelzl
parents: 37032
diff changeset
   515
  hence "sp-(\<Union>i. sp-(a i)) \<in> sigma_sets sp A"
33271
7be66dee1a5a New theory Probability, which contains a development of measure theory
paulson
parents:
diff changeset
   516
    by (rule sigma_sets.Compl)
38656
d5d342611edb Rewrite the Probability theory.
hoelzl
parents: 37032
diff changeset
   517
  also have "sp-(\<Union>i. sp-(a i)) = sp Int (\<Inter>i. a i)"
33271
7be66dee1a5a New theory Probability, which contains a development of measure theory
paulson
parents:
diff changeset
   518
    by auto
7be66dee1a5a New theory Probability, which contains a development of measure theory
paulson
parents:
diff changeset
   519
  also have "... = (\<Inter>i. a i)" using ai
38656
d5d342611edb Rewrite the Probability theory.
hoelzl
parents: 37032
diff changeset
   520
    by (blast dest: sigma_sets_into_sp [OF Asb])
d5d342611edb Rewrite the Probability theory.
hoelzl
parents: 37032
diff changeset
   521
  finally show ?thesis .
33271
7be66dee1a5a New theory Probability, which contains a development of measure theory
paulson
parents:
diff changeset
   522
qed
7be66dee1a5a New theory Probability, which contains a development of measure theory
paulson
parents:
diff changeset
   523
7be66dee1a5a New theory Probability, which contains a development of measure theory
paulson
parents:
diff changeset
   524
lemma sigma_sets_INTER:
38656
d5d342611edb Rewrite the Probability theory.
hoelzl
parents: 37032
diff changeset
   525
  assumes Asb: "A \<subseteq> Pow sp"
33271
7be66dee1a5a New theory Probability, which contains a development of measure theory
paulson
parents:
diff changeset
   526
      and ai: "\<And>i::nat. i \<in> S \<Longrightarrow> a i \<in> sigma_sets sp A" and non: "S \<noteq> {}"
7be66dee1a5a New theory Probability, which contains a development of measure theory
paulson
parents:
diff changeset
   527
  shows "(\<Inter>i\<in>S. a i) \<in> sigma_sets sp A"
7be66dee1a5a New theory Probability, which contains a development of measure theory
paulson
parents:
diff changeset
   528
proof -
7be66dee1a5a New theory Probability, which contains a development of measure theory
paulson
parents:
diff changeset
   529
  from ai have "\<And>i. (if i\<in>S then a i else sp) \<in> sigma_sets sp A"
47694
05663f75964c reworked Probability theory
hoelzl
parents: 46731
diff changeset
   530
    by (simp add: sigma_sets.intros(2-) sigma_sets_top)
33271
7be66dee1a5a New theory Probability, which contains a development of measure theory
paulson
parents:
diff changeset
   531
  hence "(\<Inter>i. (if i\<in>S then a i else sp)) \<in> sigma_sets sp A"
7be66dee1a5a New theory Probability, which contains a development of measure theory
paulson
parents:
diff changeset
   532
    by (rule sigma_sets_Inter [OF Asb])
7be66dee1a5a New theory Probability, which contains a development of measure theory
paulson
parents:
diff changeset
   533
  also have "(\<Inter>i. (if i\<in>S then a i else sp)) = (\<Inter>i\<in>S. a i)"
7be66dee1a5a New theory Probability, which contains a development of measure theory
paulson
parents:
diff changeset
   534
    by auto (metis ai non sigma_sets_into_sp subset_empty subset_iff Asb)+
7be66dee1a5a New theory Probability, which contains a development of measure theory
paulson
parents:
diff changeset
   535
  finally show ?thesis .
7be66dee1a5a New theory Probability, which contains a development of measure theory
paulson
parents:
diff changeset
   536
qed
7be66dee1a5a New theory Probability, which contains a development of measure theory
paulson
parents:
diff changeset
   537
51683
baefa3b461c2 generalize Borel-set properties from real/ereal/ordered_euclidean_spaces to order_topology and real_normed_vector
hoelzl
parents: 50526
diff changeset
   538
lemma sigma_sets_UNION: "countable B \<Longrightarrow> (\<And>b. b \<in> B \<Longrightarrow> b \<in> sigma_sets X A) \<Longrightarrow> (\<Union>B) \<in> sigma_sets X A"
baefa3b461c2 generalize Borel-set properties from real/ereal/ordered_euclidean_spaces to order_topology and real_normed_vector
hoelzl
parents: 50526
diff changeset
   539
  using from_nat_into[of B] range_from_nat_into[of B] sigma_sets.Union[of "from_nat_into B" X A]
baefa3b461c2 generalize Borel-set properties from real/ereal/ordered_euclidean_spaces to order_topology and real_normed_vector
hoelzl
parents: 50526
diff changeset
   540
  apply (cases "B = {}")
baefa3b461c2 generalize Borel-set properties from real/ereal/ordered_euclidean_spaces to order_topology and real_normed_vector
hoelzl
parents: 50526
diff changeset
   541
  apply (simp add: sigma_sets.Empty)
baefa3b461c2 generalize Borel-set properties from real/ereal/ordered_euclidean_spaces to order_topology and real_normed_vector
hoelzl
parents: 50526
diff changeset
   542
  apply (simp del: Union_image_eq add: Union_image_eq[symmetric])
baefa3b461c2 generalize Borel-set properties from real/ereal/ordered_euclidean_spaces to order_topology and real_normed_vector
hoelzl
parents: 50526
diff changeset
   543
  done
baefa3b461c2 generalize Borel-set properties from real/ereal/ordered_euclidean_spaces to order_topology and real_normed_vector
hoelzl
parents: 50526
diff changeset
   544
33271
7be66dee1a5a New theory Probability, which contains a development of measure theory
paulson
parents:
diff changeset
   545
lemma (in sigma_algebra) sigma_sets_eq:
47694
05663f75964c reworked Probability theory
hoelzl
parents: 46731
diff changeset
   546
     "sigma_sets \<Omega> M = M"
33271
7be66dee1a5a New theory Probability, which contains a development of measure theory
paulson
parents:
diff changeset
   547
proof
47694
05663f75964c reworked Probability theory
hoelzl
parents: 46731
diff changeset
   548
  show "M \<subseteq> sigma_sets \<Omega> M"
37032
58a0757031dd speed up some proofs and fix some warnings
huffman
parents: 33536
diff changeset
   549
    by (metis Set.subsetI sigma_sets.Basic)
33271
7be66dee1a5a New theory Probability, which contains a development of measure theory
paulson
parents:
diff changeset
   550
  next
47694
05663f75964c reworked Probability theory
hoelzl
parents: 46731
diff changeset
   551
  show "sigma_sets \<Omega> M \<subseteq> M"
33271
7be66dee1a5a New theory Probability, which contains a development of measure theory
paulson
parents:
diff changeset
   552
    by (metis sigma_sets_subset subset_refl)
7be66dee1a5a New theory Probability, which contains a development of measure theory
paulson
parents:
diff changeset
   553
qed
7be66dee1a5a New theory Probability, which contains a development of measure theory
paulson
parents:
diff changeset
   554
42981
fe7f5a26e4c6 add lemma indep_sets_collect_sigma
hoelzl
parents: 42867
diff changeset
   555
lemma sigma_sets_eqI:
fe7f5a26e4c6 add lemma indep_sets_collect_sigma
hoelzl
parents: 42867
diff changeset
   556
  assumes A: "\<And>a. a \<in> A \<Longrightarrow> a \<in> sigma_sets M B"
fe7f5a26e4c6 add lemma indep_sets_collect_sigma
hoelzl
parents: 42867
diff changeset
   557
  assumes B: "\<And>b. b \<in> B \<Longrightarrow> b \<in> sigma_sets M A"
fe7f5a26e4c6 add lemma indep_sets_collect_sigma
hoelzl
parents: 42867
diff changeset
   558
  shows "sigma_sets M A = sigma_sets M B"
fe7f5a26e4c6 add lemma indep_sets_collect_sigma
hoelzl
parents: 42867
diff changeset
   559
proof (intro set_eqI iffI)
fe7f5a26e4c6 add lemma indep_sets_collect_sigma
hoelzl
parents: 42867
diff changeset
   560
  fix a assume "a \<in> sigma_sets M A"
fe7f5a26e4c6 add lemma indep_sets_collect_sigma
hoelzl
parents: 42867
diff changeset
   561
  from this A show "a \<in> sigma_sets M B"
47694
05663f75964c reworked Probability theory
hoelzl
parents: 46731
diff changeset
   562
    by induct (auto intro!: sigma_sets.intros(2-) del: sigma_sets.Basic)
42981
fe7f5a26e4c6 add lemma indep_sets_collect_sigma
hoelzl
parents: 42867
diff changeset
   563
next
fe7f5a26e4c6 add lemma indep_sets_collect_sigma
hoelzl
parents: 42867
diff changeset
   564
  fix b assume "b \<in> sigma_sets M B"
fe7f5a26e4c6 add lemma indep_sets_collect_sigma
hoelzl
parents: 42867
diff changeset
   565
  from this B show "b \<in> sigma_sets M A"
47694
05663f75964c reworked Probability theory
hoelzl
parents: 46731
diff changeset
   566
    by induct (auto intro!: sigma_sets.intros(2-) del: sigma_sets.Basic)
42981
fe7f5a26e4c6 add lemma indep_sets_collect_sigma
hoelzl
parents: 42867
diff changeset
   567
qed
fe7f5a26e4c6 add lemma indep_sets_collect_sigma
hoelzl
parents: 42867
diff changeset
   568
42984
43864e7475df add lemma sigma_sets_singleton
hoelzl
parents: 42981
diff changeset
   569
lemma sigma_sets_subseteq: assumes "A \<subseteq> B" shows "sigma_sets X A \<subseteq> sigma_sets X B"
43864e7475df add lemma sigma_sets_singleton
hoelzl
parents: 42981
diff changeset
   570
proof
43864e7475df add lemma sigma_sets_singleton
hoelzl
parents: 42981
diff changeset
   571
  fix x assume "x \<in> sigma_sets X A" then show "x \<in> sigma_sets X B"
61808
fc1556774cfe isabelle update_cartouches -c -t;
wenzelm
parents: 61633
diff changeset
   572
    by induct (insert \<open>A \<subseteq> B\<close>, auto intro: sigma_sets.intros(2-))
42984
43864e7475df add lemma sigma_sets_singleton
hoelzl
parents: 42981
diff changeset
   573
qed
43864e7475df add lemma sigma_sets_singleton
hoelzl
parents: 42981
diff changeset
   574
47762
d31085f07f60 add Caratheodories theorem for semi-rings of sets
hoelzl
parents: 47756
diff changeset
   575
lemma sigma_sets_mono: assumes "A \<subseteq> sigma_sets X B" shows "sigma_sets X A \<subseteq> sigma_sets X B"
d31085f07f60 add Caratheodories theorem for semi-rings of sets
hoelzl
parents: 47756
diff changeset
   576
proof
d31085f07f60 add Caratheodories theorem for semi-rings of sets
hoelzl
parents: 47756
diff changeset
   577
  fix x assume "x \<in> sigma_sets X A" then show "x \<in> sigma_sets X B"
61808
fc1556774cfe isabelle update_cartouches -c -t;
wenzelm
parents: 61633
diff changeset
   578
    by induct (insert \<open>A \<subseteq> sigma_sets X B\<close>, auto intro: sigma_sets.intros(2-))
47762
d31085f07f60 add Caratheodories theorem for semi-rings of sets
hoelzl
parents: 47756
diff changeset
   579
qed
d31085f07f60 add Caratheodories theorem for semi-rings of sets
hoelzl
parents: 47756
diff changeset
   580
d31085f07f60 add Caratheodories theorem for semi-rings of sets
hoelzl
parents: 47756
diff changeset
   581
lemma sigma_sets_mono': assumes "A \<subseteq> B" shows "sigma_sets X A \<subseteq> sigma_sets X B"
d31085f07f60 add Caratheodories theorem for semi-rings of sets
hoelzl
parents: 47756
diff changeset
   582
proof
d31085f07f60 add Caratheodories theorem for semi-rings of sets
hoelzl
parents: 47756
diff changeset
   583
  fix x assume "x \<in> sigma_sets X A" then show "x \<in> sigma_sets X B"
61808
fc1556774cfe isabelle update_cartouches -c -t;
wenzelm
parents: 61633
diff changeset
   584
    by induct (insert \<open>A \<subseteq> B\<close>, auto intro: sigma_sets.intros(2-))
47762
d31085f07f60 add Caratheodories theorem for semi-rings of sets
hoelzl
parents: 47756
diff changeset
   585
qed
d31085f07f60 add Caratheodories theorem for semi-rings of sets
hoelzl
parents: 47756
diff changeset
   586
d31085f07f60 add Caratheodories theorem for semi-rings of sets
hoelzl
parents: 47756
diff changeset
   587
lemma sigma_sets_superset_generator: "A \<subseteq> sigma_sets X A"
d31085f07f60 add Caratheodories theorem for semi-rings of sets
hoelzl
parents: 47756
diff changeset
   588
  by (auto intro: sigma_sets.Basic)
d31085f07f60 add Caratheodories theorem for semi-rings of sets
hoelzl
parents: 47756
diff changeset
   589
38656
d5d342611edb Rewrite the Probability theory.
hoelzl
parents: 37032
diff changeset
   590
lemma (in sigma_algebra) restriction_in_sets:
d5d342611edb Rewrite the Probability theory.
hoelzl
parents: 37032
diff changeset
   591
  fixes A :: "nat \<Rightarrow> 'a set"
47694
05663f75964c reworked Probability theory
hoelzl
parents: 46731
diff changeset
   592
  assumes "S \<in> M"
05663f75964c reworked Probability theory
hoelzl
parents: 46731
diff changeset
   593
  and *: "range A \<subseteq> (\<lambda>A. S \<inter> A) ` M" (is "_ \<subseteq> ?r")
05663f75964c reworked Probability theory
hoelzl
parents: 46731
diff changeset
   594
  shows "range A \<subseteq> M" "(\<Union>i. A i) \<in> (\<lambda>A. S \<inter> A) ` M"
38656
d5d342611edb Rewrite the Probability theory.
hoelzl
parents: 37032
diff changeset
   595
proof -
d5d342611edb Rewrite the Probability theory.
hoelzl
parents: 37032
diff changeset
   596
  { fix i have "A i \<in> ?r" using * by auto
47694
05663f75964c reworked Probability theory
hoelzl
parents: 46731
diff changeset
   597
    hence "\<exists>B. A i = B \<inter> S \<and> B \<in> M" by auto
61808
fc1556774cfe isabelle update_cartouches -c -t;
wenzelm
parents: 61633
diff changeset
   598
    hence "A i \<subseteq> S" "A i \<in> M" using \<open>S \<in> M\<close> by auto }
47694
05663f75964c reworked Probability theory
hoelzl
parents: 46731
diff changeset
   599
  thus "range A \<subseteq> M" "(\<Union>i. A i) \<in> (\<lambda>A. S \<inter> A) ` M"
38656
d5d342611edb Rewrite the Probability theory.
hoelzl
parents: 37032
diff changeset
   600
    by (auto intro!: image_eqI[of _ _ "(\<Union>i. A i)"])
d5d342611edb Rewrite the Probability theory.
hoelzl
parents: 37032
diff changeset
   601
qed
d5d342611edb Rewrite the Probability theory.
hoelzl
parents: 37032
diff changeset
   602
d5d342611edb Rewrite the Probability theory.
hoelzl
parents: 37032
diff changeset
   603
lemma (in sigma_algebra) restricted_sigma_algebra:
47694
05663f75964c reworked Probability theory
hoelzl
parents: 46731
diff changeset
   604
  assumes "S \<in> M"
05663f75964c reworked Probability theory
hoelzl
parents: 46731
diff changeset
   605
  shows "sigma_algebra S (restricted_space S)"
38656
d5d342611edb Rewrite the Probability theory.
hoelzl
parents: 37032
diff changeset
   606
  unfolding sigma_algebra_def sigma_algebra_axioms_def
d5d342611edb Rewrite the Probability theory.
hoelzl
parents: 37032
diff changeset
   607
proof safe
47694
05663f75964c reworked Probability theory
hoelzl
parents: 46731
diff changeset
   608
  show "algebra S (restricted_space S)" using restricted_algebra[OF assms] .
38656
d5d342611edb Rewrite the Probability theory.
hoelzl
parents: 37032
diff changeset
   609
next
47694
05663f75964c reworked Probability theory
hoelzl
parents: 46731
diff changeset
   610
  fix A :: "nat \<Rightarrow> 'a set" assume "range A \<subseteq> restricted_space S"
38656
d5d342611edb Rewrite the Probability theory.
hoelzl
parents: 37032
diff changeset
   611
  from restriction_in_sets[OF assms this[simplified]]
47694
05663f75964c reworked Probability theory
hoelzl
parents: 46731
diff changeset
   612
  show "(\<Union>i. A i) \<in> restricted_space S" by simp
38656
d5d342611edb Rewrite the Probability theory.
hoelzl
parents: 37032
diff changeset
   613
qed
d5d342611edb Rewrite the Probability theory.
hoelzl
parents: 37032
diff changeset
   614
40859
de0b30e6c2d2 Support product spaces on sigma finite measures.
hoelzl
parents: 40702
diff changeset
   615
lemma sigma_sets_Int:
41689
3e39b0e730d6 the measure valuation is again part of the measure_space type, instead of an explicit parameter to the locale;
hoelzl
parents: 41543
diff changeset
   616
  assumes "A \<in> sigma_sets sp st" "A \<subseteq> sp"
3e39b0e730d6 the measure valuation is again part of the measure_space type, instead of an explicit parameter to the locale;
hoelzl
parents: 41543
diff changeset
   617
  shows "op \<inter> A ` sigma_sets sp st = sigma_sets A (op \<inter> A ` st)"
40859
de0b30e6c2d2 Support product spaces on sigma finite measures.
hoelzl
parents: 40702
diff changeset
   618
proof (intro equalityI subsetI)
de0b30e6c2d2 Support product spaces on sigma finite measures.
hoelzl
parents: 40702
diff changeset
   619
  fix x assume "x \<in> op \<inter> A ` sigma_sets sp st"
de0b30e6c2d2 Support product spaces on sigma finite measures.
hoelzl
parents: 40702
diff changeset
   620
  then obtain y where "y \<in> sigma_sets sp st" "x = y \<inter> A" by auto
41689
3e39b0e730d6 the measure valuation is again part of the measure_space type, instead of an explicit parameter to the locale;
hoelzl
parents: 41543
diff changeset
   621
  then have "x \<in> sigma_sets (A \<inter> sp) (op \<inter> A ` st)"
40859
de0b30e6c2d2 Support product spaces on sigma finite measures.
hoelzl
parents: 40702
diff changeset
   622
  proof (induct arbitrary: x)
de0b30e6c2d2 Support product spaces on sigma finite measures.
hoelzl
parents: 40702
diff changeset
   623
    case (Compl a)
de0b30e6c2d2 Support product spaces on sigma finite measures.
hoelzl
parents: 40702
diff changeset
   624
    then show ?case
de0b30e6c2d2 Support product spaces on sigma finite measures.
hoelzl
parents: 40702
diff changeset
   625
      by (force intro!: sigma_sets.Compl simp: Diff_Int_distrib ac_simps)
de0b30e6c2d2 Support product spaces on sigma finite measures.
hoelzl
parents: 40702
diff changeset
   626
  next
de0b30e6c2d2 Support product spaces on sigma finite measures.
hoelzl
parents: 40702
diff changeset
   627
    case (Union a)
de0b30e6c2d2 Support product spaces on sigma finite measures.
hoelzl
parents: 40702
diff changeset
   628
    then show ?case
de0b30e6c2d2 Support product spaces on sigma finite measures.
hoelzl
parents: 40702
diff changeset
   629
      by (auto intro!: sigma_sets.Union
de0b30e6c2d2 Support product spaces on sigma finite measures.
hoelzl
parents: 40702
diff changeset
   630
               simp add: UN_extend_simps simp del: UN_simps)
47694
05663f75964c reworked Probability theory
hoelzl
parents: 46731
diff changeset
   631
  qed (auto intro!: sigma_sets.intros(2-))
41689
3e39b0e730d6 the measure valuation is again part of the measure_space type, instead of an explicit parameter to the locale;
hoelzl
parents: 41543
diff changeset
   632
  then show "x \<in> sigma_sets A (op \<inter> A ` st)"
61808
fc1556774cfe isabelle update_cartouches -c -t;
wenzelm
parents: 61633
diff changeset
   633
    using \<open>A \<subseteq> sp\<close> by (simp add: Int_absorb2)
40859
de0b30e6c2d2 Support product spaces on sigma finite measures.
hoelzl
parents: 40702
diff changeset
   634
next
41689
3e39b0e730d6 the measure valuation is again part of the measure_space type, instead of an explicit parameter to the locale;
hoelzl
parents: 41543
diff changeset
   635
  fix x assume "x \<in> sigma_sets A (op \<inter> A ` st)"
40859
de0b30e6c2d2 Support product spaces on sigma finite measures.
hoelzl
parents: 40702
diff changeset
   636
  then show "x \<in> op \<inter> A ` sigma_sets sp st"
de0b30e6c2d2 Support product spaces on sigma finite measures.
hoelzl
parents: 40702
diff changeset
   637
  proof induct
de0b30e6c2d2 Support product spaces on sigma finite measures.
hoelzl
parents: 40702
diff changeset
   638
    case (Compl a)
de0b30e6c2d2 Support product spaces on sigma finite measures.
hoelzl
parents: 40702
diff changeset
   639
    then obtain x where "a = A \<inter> x" "x \<in> sigma_sets sp st" by auto
61808
fc1556774cfe isabelle update_cartouches -c -t;
wenzelm
parents: 61633
diff changeset
   640
    then show ?case using \<open>A \<subseteq> sp\<close>
40859
de0b30e6c2d2 Support product spaces on sigma finite measures.
hoelzl
parents: 40702
diff changeset
   641
      by (force simp add: image_iff intro!: bexI[of _ "sp - x"] sigma_sets.Compl)
de0b30e6c2d2 Support product spaces on sigma finite measures.
hoelzl
parents: 40702
diff changeset
   642
  next
de0b30e6c2d2 Support product spaces on sigma finite measures.
hoelzl
parents: 40702
diff changeset
   643
    case (Union a)
de0b30e6c2d2 Support product spaces on sigma finite measures.
hoelzl
parents: 40702
diff changeset
   644
    then have "\<forall>i. \<exists>x. x \<in> sigma_sets sp st \<and> a i = A \<inter> x"
de0b30e6c2d2 Support product spaces on sigma finite measures.
hoelzl
parents: 40702
diff changeset
   645
      by (auto simp: image_iff Bex_def)
de0b30e6c2d2 Support product spaces on sigma finite measures.
hoelzl
parents: 40702
diff changeset
   646
    from choice[OF this] guess f ..
de0b30e6c2d2 Support product spaces on sigma finite measures.
hoelzl
parents: 40702
diff changeset
   647
    then show ?case
de0b30e6c2d2 Support product spaces on sigma finite measures.
hoelzl
parents: 40702
diff changeset
   648
      by (auto intro!: bexI[of _ "(\<Union>x. f x)"] sigma_sets.Union
de0b30e6c2d2 Support product spaces on sigma finite measures.
hoelzl
parents: 40702
diff changeset
   649
               simp add: image_iff)
47694
05663f75964c reworked Probability theory
hoelzl
parents: 46731
diff changeset
   650
  qed (auto intro!: sigma_sets.intros(2-))
40859
de0b30e6c2d2 Support product spaces on sigma finite measures.
hoelzl
parents: 40702
diff changeset
   651
qed
de0b30e6c2d2 Support product spaces on sigma finite measures.
hoelzl
parents: 40702
diff changeset
   652
47694
05663f75964c reworked Probability theory
hoelzl
parents: 46731
diff changeset
   653
lemma sigma_sets_empty_eq: "sigma_sets A {} = {{}, A}"
40859
de0b30e6c2d2 Support product spaces on sigma finite measures.
hoelzl
parents: 40702
diff changeset
   654
proof (intro set_eqI iffI)
47694
05663f75964c reworked Probability theory
hoelzl
parents: 46731
diff changeset
   655
  fix a assume "a \<in> sigma_sets A {}" then show "a \<in> {{}, A}"
05663f75964c reworked Probability theory
hoelzl
parents: 46731
diff changeset
   656
    by induct blast+
05663f75964c reworked Probability theory
hoelzl
parents: 46731
diff changeset
   657
qed (auto intro: sigma_sets.Empty sigma_sets_top)
05663f75964c reworked Probability theory
hoelzl
parents: 46731
diff changeset
   658
05663f75964c reworked Probability theory
hoelzl
parents: 46731
diff changeset
   659
lemma sigma_sets_single[simp]: "sigma_sets A {A} = {{}, A}"
05663f75964c reworked Probability theory
hoelzl
parents: 46731
diff changeset
   660
proof (intro set_eqI iffI)
05663f75964c reworked Probability theory
hoelzl
parents: 46731
diff changeset
   661
  fix x assume "x \<in> sigma_sets A {A}"
05663f75964c reworked Probability theory
hoelzl
parents: 46731
diff changeset
   662
  then show "x \<in> {{}, A}"
05663f75964c reworked Probability theory
hoelzl
parents: 46731
diff changeset
   663
    by induct blast+
40859
de0b30e6c2d2 Support product spaces on sigma finite measures.
hoelzl
parents: 40702
diff changeset
   664
next
47694
05663f75964c reworked Probability theory
hoelzl
parents: 46731
diff changeset
   665
  fix x assume "x \<in> {{}, A}"
05663f75964c reworked Probability theory
hoelzl
parents: 46731
diff changeset
   666
  then show "x \<in> sigma_sets A {A}"
40859
de0b30e6c2d2 Support product spaces on sigma finite measures.
hoelzl
parents: 40702
diff changeset
   667
    by (auto intro: sigma_sets.Empty sigma_sets_top)
de0b30e6c2d2 Support product spaces on sigma finite measures.
hoelzl
parents: 40702
diff changeset
   668
qed
de0b30e6c2d2 Support product spaces on sigma finite measures.
hoelzl
parents: 40702
diff changeset
   669
42987
73e2d802ea41 add lemma indep_rv_finite
hoelzl
parents: 42984
diff changeset
   670
lemma sigma_sets_sigma_sets_eq:
73e2d802ea41 add lemma indep_rv_finite
hoelzl
parents: 42984
diff changeset
   671
  "M \<subseteq> Pow S \<Longrightarrow> sigma_sets S (sigma_sets S M) = sigma_sets S M"
47694
05663f75964c reworked Probability theory
hoelzl
parents: 46731
diff changeset
   672
  by (rule sigma_algebra.sigma_sets_eq[OF sigma_algebra_sigma_sets, of M S]) auto
42987
73e2d802ea41 add lemma indep_rv_finite
hoelzl
parents: 42984
diff changeset
   673
42984
43864e7475df add lemma sigma_sets_singleton
hoelzl
parents: 42981
diff changeset
   674
lemma sigma_sets_singleton:
43864e7475df add lemma sigma_sets_singleton
hoelzl
parents: 42981
diff changeset
   675
  assumes "X \<subseteq> S"
43864e7475df add lemma sigma_sets_singleton
hoelzl
parents: 42981
diff changeset
   676
  shows "sigma_sets S { X } = { {}, X, S - X, S }"
43864e7475df add lemma sigma_sets_singleton
hoelzl
parents: 42981
diff changeset
   677
proof -
47694
05663f75964c reworked Probability theory
hoelzl
parents: 46731
diff changeset
   678
  interpret sigma_algebra S "{ {}, X, S - X, S }"
42984
43864e7475df add lemma sigma_sets_singleton
hoelzl
parents: 42981
diff changeset
   679
    by (rule sigma_algebra_single_set) fact
43864e7475df add lemma sigma_sets_singleton
hoelzl
parents: 42981
diff changeset
   680
  have "sigma_sets S { X } \<subseteq> sigma_sets S { {}, X, S - X, S }"
43864e7475df add lemma sigma_sets_singleton
hoelzl
parents: 42981
diff changeset
   681
    by (rule sigma_sets_subseteq) simp
43864e7475df add lemma sigma_sets_singleton
hoelzl
parents: 42981
diff changeset
   682
  moreover have "\<dots> = { {}, X, S - X, S }"
47694
05663f75964c reworked Probability theory
hoelzl
parents: 46731
diff changeset
   683
    using sigma_sets_eq by simp
42984
43864e7475df add lemma sigma_sets_singleton
hoelzl
parents: 42981
diff changeset
   684
  moreover
43864e7475df add lemma sigma_sets_singleton
hoelzl
parents: 42981
diff changeset
   685
  { fix A assume "A \<in> { {}, X, S - X, S }"
43864e7475df add lemma sigma_sets_singleton
hoelzl
parents: 42981
diff changeset
   686
    then have "A \<in> sigma_sets S { X }"
47694
05663f75964c reworked Probability theory
hoelzl
parents: 46731
diff changeset
   687
      by (auto intro: sigma_sets.intros(2-) sigma_sets_top) }
42984
43864e7475df add lemma sigma_sets_singleton
hoelzl
parents: 42981
diff changeset
   688
  ultimately have "sigma_sets S { X } = sigma_sets S { {}, X, S - X, S }"
43864e7475df add lemma sigma_sets_singleton
hoelzl
parents: 42981
diff changeset
   689
    by (intro antisym) auto
47694
05663f75964c reworked Probability theory
hoelzl
parents: 46731
diff changeset
   690
  with sigma_sets_eq show ?thesis by simp
42984
43864e7475df add lemma sigma_sets_singleton
hoelzl
parents: 42981
diff changeset
   691
qed
43864e7475df add lemma sigma_sets_singleton
hoelzl
parents: 42981
diff changeset
   692
42863
b9ff5a0aa12c add restrict_sigma
hoelzl
parents: 42145
diff changeset
   693
lemma restricted_sigma:
47694
05663f75964c reworked Probability theory
hoelzl
parents: 46731
diff changeset
   694
  assumes S: "S \<in> sigma_sets \<Omega> M" and M: "M \<subseteq> Pow \<Omega>"
05663f75964c reworked Probability theory
hoelzl
parents: 46731
diff changeset
   695
  shows "algebra.restricted_space (sigma_sets \<Omega> M) S =
05663f75964c reworked Probability theory
hoelzl
parents: 46731
diff changeset
   696
    sigma_sets S (algebra.restricted_space M S)"
42863
b9ff5a0aa12c add restrict_sigma
hoelzl
parents: 42145
diff changeset
   697
proof -
b9ff5a0aa12c add restrict_sigma
hoelzl
parents: 42145
diff changeset
   698
  from S sigma_sets_into_sp[OF M]
47694
05663f75964c reworked Probability theory
hoelzl
parents: 46731
diff changeset
   699
  have "S \<in> sigma_sets \<Omega> M" "S \<subseteq> \<Omega>" by auto
42863
b9ff5a0aa12c add restrict_sigma
hoelzl
parents: 42145
diff changeset
   700
  from sigma_sets_Int[OF this]
47694
05663f75964c reworked Probability theory
hoelzl
parents: 46731
diff changeset
   701
  show ?thesis by simp
42863
b9ff5a0aa12c add restrict_sigma
hoelzl
parents: 42145
diff changeset
   702
qed
b9ff5a0aa12c add restrict_sigma
hoelzl
parents: 42145
diff changeset
   703
42987
73e2d802ea41 add lemma indep_rv_finite
hoelzl
parents: 42984
diff changeset
   704
lemma sigma_sets_vimage_commute:
47694
05663f75964c reworked Probability theory
hoelzl
parents: 46731
diff changeset
   705
  assumes X: "X \<in> \<Omega> \<rightarrow> \<Omega>'"
05663f75964c reworked Probability theory
hoelzl
parents: 46731
diff changeset
   706
  shows "{X -` A \<inter> \<Omega> |A. A \<in> sigma_sets \<Omega>' M'}
05663f75964c reworked Probability theory
hoelzl
parents: 46731
diff changeset
   707
       = sigma_sets \<Omega> {X -` A \<inter> \<Omega> |A. A \<in> M'}" (is "?L = ?R")
42987
73e2d802ea41 add lemma indep_rv_finite
hoelzl
parents: 42984
diff changeset
   708
proof
73e2d802ea41 add lemma indep_rv_finite
hoelzl
parents: 42984
diff changeset
   709
  show "?L \<subseteq> ?R"
73e2d802ea41 add lemma indep_rv_finite
hoelzl
parents: 42984
diff changeset
   710
  proof clarify
47694
05663f75964c reworked Probability theory
hoelzl
parents: 46731
diff changeset
   711
    fix A assume "A \<in> sigma_sets \<Omega>' M'"
05663f75964c reworked Probability theory
hoelzl
parents: 46731
diff changeset
   712
    then show "X -` A \<inter> \<Omega> \<in> ?R"
42987
73e2d802ea41 add lemma indep_rv_finite
hoelzl
parents: 42984
diff changeset
   713
    proof induct
73e2d802ea41 add lemma indep_rv_finite
hoelzl
parents: 42984
diff changeset
   714
      case Empty then show ?case
73e2d802ea41 add lemma indep_rv_finite
hoelzl
parents: 42984
diff changeset
   715
        by (auto intro!: sigma_sets.Empty)
73e2d802ea41 add lemma indep_rv_finite
hoelzl
parents: 42984
diff changeset
   716
    next
73e2d802ea41 add lemma indep_rv_finite
hoelzl
parents: 42984
diff changeset
   717
      case (Compl B)
47694
05663f75964c reworked Probability theory
hoelzl
parents: 46731
diff changeset
   718
      have [simp]: "X -` (\<Omega>' - B) \<inter> \<Omega> = \<Omega> - (X -` B \<inter> \<Omega>)"
42987
73e2d802ea41 add lemma indep_rv_finite
hoelzl
parents: 42984
diff changeset
   719
        by (auto simp add: funcset_mem [OF X])
73e2d802ea41 add lemma indep_rv_finite
hoelzl
parents: 42984
diff changeset
   720
      with Compl show ?case
73e2d802ea41 add lemma indep_rv_finite
hoelzl
parents: 42984
diff changeset
   721
        by (auto intro!: sigma_sets.Compl)
73e2d802ea41 add lemma indep_rv_finite
hoelzl
parents: 42984
diff changeset
   722
    next
73e2d802ea41 add lemma indep_rv_finite
hoelzl
parents: 42984
diff changeset
   723
      case (Union F)
73e2d802ea41 add lemma indep_rv_finite
hoelzl
parents: 42984
diff changeset
   724
      then show ?case
73e2d802ea41 add lemma indep_rv_finite
hoelzl
parents: 42984
diff changeset
   725
        by (auto simp add: vimage_UN UN_extend_simps(4) simp del: UN_simps
73e2d802ea41 add lemma indep_rv_finite
hoelzl
parents: 42984
diff changeset
   726
                 intro!: sigma_sets.Union)
47694
05663f75964c reworked Probability theory
hoelzl
parents: 46731
diff changeset
   727
    qed auto
42987
73e2d802ea41 add lemma indep_rv_finite
hoelzl
parents: 42984
diff changeset
   728
  qed
73e2d802ea41 add lemma indep_rv_finite
hoelzl
parents: 42984
diff changeset
   729
  show "?R \<subseteq> ?L"
73e2d802ea41 add lemma indep_rv_finite
hoelzl
parents: 42984
diff changeset
   730
  proof clarify
73e2d802ea41 add lemma indep_rv_finite
hoelzl
parents: 42984
diff changeset
   731
    fix A assume "A \<in> ?R"
47694
05663f75964c reworked Probability theory
hoelzl
parents: 46731
diff changeset
   732
    then show "\<exists>B. A = X -` B \<inter> \<Omega> \<and> B \<in> sigma_sets \<Omega>' M'"
42987
73e2d802ea41 add lemma indep_rv_finite
hoelzl
parents: 42984
diff changeset
   733
    proof induct
73e2d802ea41 add lemma indep_rv_finite
hoelzl
parents: 42984
diff changeset
   734
      case (Basic B) then show ?case by auto
73e2d802ea41 add lemma indep_rv_finite
hoelzl
parents: 42984
diff changeset
   735
    next
73e2d802ea41 add lemma indep_rv_finite
hoelzl
parents: 42984
diff changeset
   736
      case Empty then show ?case
47694
05663f75964c reworked Probability theory
hoelzl
parents: 46731
diff changeset
   737
        by (auto intro!: sigma_sets.Empty exI[of _ "{}"])
42987
73e2d802ea41 add lemma indep_rv_finite
hoelzl
parents: 42984
diff changeset
   738
    next
73e2d802ea41 add lemma indep_rv_finite
hoelzl
parents: 42984
diff changeset
   739
      case (Compl B)
47694
05663f75964c reworked Probability theory
hoelzl
parents: 46731
diff changeset
   740
      then obtain A where A: "B = X -` A \<inter> \<Omega>" "A \<in> sigma_sets \<Omega>' M'" by auto
05663f75964c reworked Probability theory
hoelzl
parents: 46731
diff changeset
   741
      then have [simp]: "\<Omega> - B = X -` (\<Omega>' - A) \<inter> \<Omega>"
42987
73e2d802ea41 add lemma indep_rv_finite
hoelzl
parents: 42984
diff changeset
   742
        by (auto simp add: funcset_mem [OF X])
73e2d802ea41 add lemma indep_rv_finite
hoelzl
parents: 42984
diff changeset
   743
      with A(2) show ?case
47694
05663f75964c reworked Probability theory
hoelzl
parents: 46731
diff changeset
   744
        by (auto intro: sigma_sets.Compl)
42987
73e2d802ea41 add lemma indep_rv_finite
hoelzl
parents: 42984
diff changeset
   745
    next
73e2d802ea41 add lemma indep_rv_finite
hoelzl
parents: 42984
diff changeset
   746
      case (Union F)
47694
05663f75964c reworked Probability theory
hoelzl
parents: 46731
diff changeset
   747
      then have "\<forall>i. \<exists>B. F i = X -` B \<inter> \<Omega> \<and> B \<in> sigma_sets \<Omega>' M'" by auto
42987
73e2d802ea41 add lemma indep_rv_finite
hoelzl
parents: 42984
diff changeset
   748
      from choice[OF this] guess A .. note A = this
73e2d802ea41 add lemma indep_rv_finite
hoelzl
parents: 42984
diff changeset
   749
      with A show ?case
47694
05663f75964c reworked Probability theory
hoelzl
parents: 46731
diff changeset
   750
        by (auto simp: vimage_UN[symmetric] intro: sigma_sets.Union)
42987
73e2d802ea41 add lemma indep_rv_finite
hoelzl
parents: 42984
diff changeset
   751
    qed
73e2d802ea41 add lemma indep_rv_finite
hoelzl
parents: 42984
diff changeset
   752
  qed
73e2d802ea41 add lemma indep_rv_finite
hoelzl
parents: 42984
diff changeset
   753
qed
73e2d802ea41 add lemma indep_rv_finite
hoelzl
parents: 42984
diff changeset
   754
42065
2b98b4c2e2f1 add ring_of_sets and subset_class as basis for algebra
hoelzl
parents: 41983
diff changeset
   755
lemma (in ring_of_sets) UNION_in_sets:
38656
d5d342611edb Rewrite the Probability theory.
hoelzl
parents: 37032
diff changeset
   756
  fixes A:: "nat \<Rightarrow> 'a set"
47694
05663f75964c reworked Probability theory
hoelzl
parents: 46731
diff changeset
   757
  assumes A: "range A \<subseteq> M"
05663f75964c reworked Probability theory
hoelzl
parents: 46731
diff changeset
   758
  shows  "(\<Union>i\<in>{0..<n}. A i) \<in> M"
38656
d5d342611edb Rewrite the Probability theory.
hoelzl
parents: 37032
diff changeset
   759
proof (induct n)
d5d342611edb Rewrite the Probability theory.
hoelzl
parents: 37032
diff changeset
   760
  case 0 show ?case by simp
d5d342611edb Rewrite the Probability theory.
hoelzl
parents: 37032
diff changeset
   761
next
d5d342611edb Rewrite the Probability theory.
hoelzl
parents: 37032
diff changeset
   762
  case (Suc n)
d5d342611edb Rewrite the Probability theory.
hoelzl
parents: 37032
diff changeset
   763
  thus ?case
d5d342611edb Rewrite the Probability theory.
hoelzl
parents: 37032
diff changeset
   764
    by (simp add: atLeastLessThanSuc) (metis A Un UNIV_I image_subset_iff)
d5d342611edb Rewrite the Probability theory.
hoelzl
parents: 37032
diff changeset
   765
qed
d5d342611edb Rewrite the Probability theory.
hoelzl
parents: 37032
diff changeset
   766
42065
2b98b4c2e2f1 add ring_of_sets and subset_class as basis for algebra
hoelzl
parents: 41983
diff changeset
   767
lemma (in ring_of_sets) range_disjointed_sets:
47694
05663f75964c reworked Probability theory
hoelzl
parents: 46731
diff changeset
   768
  assumes A: "range A \<subseteq> M"
05663f75964c reworked Probability theory
hoelzl
parents: 46731
diff changeset
   769
  shows  "range (disjointed A) \<subseteq> M"
38656
d5d342611edb Rewrite the Probability theory.
hoelzl
parents: 37032
diff changeset
   770
proof (auto simp add: disjointed_def)
d5d342611edb Rewrite the Probability theory.
hoelzl
parents: 37032
diff changeset
   771
  fix n
47694
05663f75964c reworked Probability theory
hoelzl
parents: 46731
diff changeset
   772
  show "A n - (\<Union>i\<in>{0..<n}. A i) \<in> M" using UNION_in_sets
38656
d5d342611edb Rewrite the Probability theory.
hoelzl
parents: 37032
diff changeset
   773
    by (metis A Diff UNIV_I image_subset_iff)
d5d342611edb Rewrite the Probability theory.
hoelzl
parents: 37032
diff changeset
   774
qed
d5d342611edb Rewrite the Probability theory.
hoelzl
parents: 37032
diff changeset
   775
42065
2b98b4c2e2f1 add ring_of_sets and subset_class as basis for algebra
hoelzl
parents: 41983
diff changeset
   776
lemma (in algebra) range_disjointed_sets':
47694
05663f75964c reworked Probability theory
hoelzl
parents: 46731
diff changeset
   777
  "range A \<subseteq> M \<Longrightarrow> range (disjointed A) \<subseteq> M"
42065
2b98b4c2e2f1 add ring_of_sets and subset_class as basis for algebra
hoelzl
parents: 41983
diff changeset
   778
  using range_disjointed_sets .
2b98b4c2e2f1 add ring_of_sets and subset_class as basis for algebra
hoelzl
parents: 41983
diff changeset
   779
38656
d5d342611edb Rewrite the Probability theory.
hoelzl
parents: 37032
diff changeset
   780
lemma sigma_algebra_disjoint_iff:
47694
05663f75964c reworked Probability theory
hoelzl
parents: 46731
diff changeset
   781
  "sigma_algebra \<Omega> M \<longleftrightarrow> algebra \<Omega> M \<and>
05663f75964c reworked Probability theory
hoelzl
parents: 46731
diff changeset
   782
    (\<forall>A. range A \<subseteq> M \<longrightarrow> disjoint_family A \<longrightarrow> (\<Union>i::nat. A i) \<in> M)"
38656
d5d342611edb Rewrite the Probability theory.
hoelzl
parents: 37032
diff changeset
   783
proof (auto simp add: sigma_algebra_iff)
d5d342611edb Rewrite the Probability theory.
hoelzl
parents: 37032
diff changeset
   784
  fix A :: "nat \<Rightarrow> 'a set"
47694
05663f75964c reworked Probability theory
hoelzl
parents: 46731
diff changeset
   785
  assume M: "algebra \<Omega> M"
05663f75964c reworked Probability theory
hoelzl
parents: 46731
diff changeset
   786
     and A: "range A \<subseteq> M"
05663f75964c reworked Probability theory
hoelzl
parents: 46731
diff changeset
   787
     and UnA: "\<forall>A. range A \<subseteq> M \<longrightarrow> disjoint_family A \<longrightarrow> (\<Union>i::nat. A i) \<in> M"
05663f75964c reworked Probability theory
hoelzl
parents: 46731
diff changeset
   788
  hence "range (disjointed A) \<subseteq> M \<longrightarrow>
38656
d5d342611edb Rewrite the Probability theory.
hoelzl
parents: 37032
diff changeset
   789
         disjoint_family (disjointed A) \<longrightarrow>
47694
05663f75964c reworked Probability theory
hoelzl
parents: 46731
diff changeset
   790
         (\<Union>i. disjointed A i) \<in> M" by blast
05663f75964c reworked Probability theory
hoelzl
parents: 46731
diff changeset
   791
  hence "(\<Union>i. disjointed A i) \<in> M"
05663f75964c reworked Probability theory
hoelzl
parents: 46731
diff changeset
   792
    by (simp add: algebra.range_disjointed_sets'[of \<Omega>] M A disjoint_family_disjointed)
05663f75964c reworked Probability theory
hoelzl
parents: 46731
diff changeset
   793
  thus "(\<Union>i::nat. A i) \<in> M" by (simp add: UN_disjointed_eq)
05663f75964c reworked Probability theory
hoelzl
parents: 46731
diff changeset
   794
qed
05663f75964c reworked Probability theory
hoelzl
parents: 46731
diff changeset
   795
61808
fc1556774cfe isabelle update_cartouches -c -t;
wenzelm
parents: 61633
diff changeset
   796
subsubsection \<open>Ring generated by a semiring\<close>
47762
d31085f07f60 add Caratheodories theorem for semi-rings of sets
hoelzl
parents: 47756
diff changeset
   797
d31085f07f60 add Caratheodories theorem for semi-rings of sets
hoelzl
parents: 47756
diff changeset
   798
definition (in semiring_of_sets)
d31085f07f60 add Caratheodories theorem for semi-rings of sets
hoelzl
parents: 47756
diff changeset
   799
  "generated_ring = { \<Union>C | C. C \<subseteq> M \<and> finite C \<and> disjoint C }"
d31085f07f60 add Caratheodories theorem for semi-rings of sets
hoelzl
parents: 47756
diff changeset
   800
d31085f07f60 add Caratheodories theorem for semi-rings of sets
hoelzl
parents: 47756
diff changeset
   801
lemma (in semiring_of_sets) generated_ringE[elim?]:
d31085f07f60 add Caratheodories theorem for semi-rings of sets
hoelzl
parents: 47756
diff changeset
   802
  assumes "a \<in> generated_ring"
d31085f07f60 add Caratheodories theorem for semi-rings of sets
hoelzl
parents: 47756
diff changeset
   803
  obtains C where "finite C" "disjoint C" "C \<subseteq> M" "a = \<Union>C"
d31085f07f60 add Caratheodories theorem for semi-rings of sets
hoelzl
parents: 47756
diff changeset
   804
  using assms unfolding generated_ring_def by auto
d31085f07f60 add Caratheodories theorem for semi-rings of sets
hoelzl
parents: 47756
diff changeset
   805
d31085f07f60 add Caratheodories theorem for semi-rings of sets
hoelzl
parents: 47756
diff changeset
   806
lemma (in semiring_of_sets) generated_ringI[intro?]:
d31085f07f60 add Caratheodories theorem for semi-rings of sets
hoelzl
parents: 47756
diff changeset
   807
  assumes "finite C" "disjoint C" "C \<subseteq> M" "a = \<Union>C"
d31085f07f60 add Caratheodories theorem for semi-rings of sets
hoelzl
parents: 47756
diff changeset
   808
  shows "a \<in> generated_ring"
d31085f07f60 add Caratheodories theorem for semi-rings of sets
hoelzl
parents: 47756
diff changeset
   809
  using assms unfolding generated_ring_def by auto
d31085f07f60 add Caratheodories theorem for semi-rings of sets
hoelzl
parents: 47756
diff changeset
   810
d31085f07f60 add Caratheodories theorem for semi-rings of sets
hoelzl
parents: 47756
diff changeset
   811
lemma (in semiring_of_sets) generated_ringI_Basic:
d31085f07f60 add Caratheodories theorem for semi-rings of sets
hoelzl
parents: 47756
diff changeset
   812
  "A \<in> M \<Longrightarrow> A \<in> generated_ring"
d31085f07f60 add Caratheodories theorem for semi-rings of sets
hoelzl
parents: 47756
diff changeset
   813
  by (rule generated_ringI[of "{A}"]) (auto simp: disjoint_def)
d31085f07f60 add Caratheodories theorem for semi-rings of sets
hoelzl
parents: 47756
diff changeset
   814
d31085f07f60 add Caratheodories theorem for semi-rings of sets
hoelzl
parents: 47756
diff changeset
   815
lemma (in semiring_of_sets) generated_ring_disjoint_Un[intro]:
d31085f07f60 add Caratheodories theorem for semi-rings of sets
hoelzl
parents: 47756
diff changeset
   816
  assumes a: "a \<in> generated_ring" and b: "b \<in> generated_ring"
d31085f07f60 add Caratheodories theorem for semi-rings of sets
hoelzl
parents: 47756
diff changeset
   817
  and "a \<inter> b = {}"
d31085f07f60 add Caratheodories theorem for semi-rings of sets
hoelzl
parents: 47756
diff changeset
   818
  shows "a \<union> b \<in> generated_ring"
d31085f07f60 add Caratheodories theorem for semi-rings of sets
hoelzl
parents: 47756
diff changeset
   819
proof -
d31085f07f60 add Caratheodories theorem for semi-rings of sets
hoelzl
parents: 47756
diff changeset
   820
  from a guess Ca .. note Ca = this
d31085f07f60 add Caratheodories theorem for semi-rings of sets
hoelzl
parents: 47756
diff changeset
   821
  from b guess Cb .. note Cb = this
d31085f07f60 add Caratheodories theorem for semi-rings of sets
hoelzl
parents: 47756
diff changeset
   822
  show ?thesis
d31085f07f60 add Caratheodories theorem for semi-rings of sets
hoelzl
parents: 47756
diff changeset
   823
  proof
d31085f07f60 add Caratheodories theorem for semi-rings of sets
hoelzl
parents: 47756
diff changeset
   824
    show "disjoint (Ca \<union> Cb)"
61808
fc1556774cfe isabelle update_cartouches -c -t;
wenzelm
parents: 61633
diff changeset
   825
      using \<open>a \<inter> b = {}\<close> Ca Cb by (auto intro!: disjoint_union)
47762
d31085f07f60 add Caratheodories theorem for semi-rings of sets
hoelzl
parents: 47756
diff changeset
   826
  qed (insert Ca Cb, auto)
d31085f07f60 add Caratheodories theorem for semi-rings of sets
hoelzl
parents: 47756
diff changeset
   827
qed
d31085f07f60 add Caratheodories theorem for semi-rings of sets
hoelzl
parents: 47756
diff changeset
   828
d31085f07f60 add Caratheodories theorem for semi-rings of sets
hoelzl
parents: 47756
diff changeset
   829
lemma (in semiring_of_sets) generated_ring_empty: "{} \<in> generated_ring"
d31085f07f60 add Caratheodories theorem for semi-rings of sets
hoelzl
parents: 47756
diff changeset
   830
  by (auto simp: generated_ring_def disjoint_def)
d31085f07f60 add Caratheodories theorem for semi-rings of sets
hoelzl
parents: 47756
diff changeset
   831
d31085f07f60 add Caratheodories theorem for semi-rings of sets
hoelzl
parents: 47756
diff changeset
   832
lemma (in semiring_of_sets) generated_ring_disjoint_Union:
d31085f07f60 add Caratheodories theorem for semi-rings of sets
hoelzl
parents: 47756
diff changeset
   833
  assumes "finite A" shows "A \<subseteq> generated_ring \<Longrightarrow> disjoint A \<Longrightarrow> \<Union>A \<in> generated_ring"
d31085f07f60 add Caratheodories theorem for semi-rings of sets
hoelzl
parents: 47756
diff changeset
   834
  using assms by (induct A) (auto simp: disjoint_def intro!: generated_ring_disjoint_Un generated_ring_empty)
d31085f07f60 add Caratheodories theorem for semi-rings of sets
hoelzl
parents: 47756
diff changeset
   835
d31085f07f60 add Caratheodories theorem for semi-rings of sets
hoelzl
parents: 47756
diff changeset
   836
lemma (in semiring_of_sets) generated_ring_disjoint_UNION:
d31085f07f60 add Caratheodories theorem for semi-rings of sets
hoelzl
parents: 47756
diff changeset
   837
  "finite I \<Longrightarrow> disjoint (A ` I) \<Longrightarrow> (\<And>i. i \<in> I \<Longrightarrow> A i \<in> generated_ring) \<Longrightarrow> UNION I A \<in> generated_ring"
d31085f07f60 add Caratheodories theorem for semi-rings of sets
hoelzl
parents: 47756
diff changeset
   838
  unfolding SUP_def by (intro generated_ring_disjoint_Union) auto
d31085f07f60 add Caratheodories theorem for semi-rings of sets
hoelzl
parents: 47756
diff changeset
   839
d31085f07f60 add Caratheodories theorem for semi-rings of sets
hoelzl
parents: 47756
diff changeset
   840
lemma (in semiring_of_sets) generated_ring_Int:
d31085f07f60 add Caratheodories theorem for semi-rings of sets
hoelzl
parents: 47756
diff changeset
   841
  assumes a: "a \<in> generated_ring" and b: "b \<in> generated_ring"
d31085f07f60 add Caratheodories theorem for semi-rings of sets
hoelzl
parents: 47756
diff changeset
   842
  shows "a \<inter> b \<in> generated_ring"
d31085f07f60 add Caratheodories theorem for semi-rings of sets
hoelzl
parents: 47756
diff changeset
   843
proof -
d31085f07f60 add Caratheodories theorem for semi-rings of sets
hoelzl
parents: 47756
diff changeset
   844
  from a guess Ca .. note Ca = this
d31085f07f60 add Caratheodories theorem for semi-rings of sets
hoelzl
parents: 47756
diff changeset
   845
  from b guess Cb .. note Cb = this
d31085f07f60 add Caratheodories theorem for semi-rings of sets
hoelzl
parents: 47756
diff changeset
   846
  def C \<equiv> "(\<lambda>(a,b). a \<inter> b)` (Ca\<times>Cb)"
d31085f07f60 add Caratheodories theorem for semi-rings of sets
hoelzl
parents: 47756
diff changeset
   847
  show ?thesis
d31085f07f60 add Caratheodories theorem for semi-rings of sets
hoelzl
parents: 47756
diff changeset
   848
  proof
d31085f07f60 add Caratheodories theorem for semi-rings of sets
hoelzl
parents: 47756
diff changeset
   849
    show "disjoint C"
d31085f07f60 add Caratheodories theorem for semi-rings of sets
hoelzl
parents: 47756
diff changeset
   850
    proof (simp add: disjoint_def C_def, intro ballI impI)
d31085f07f60 add Caratheodories theorem for semi-rings of sets
hoelzl
parents: 47756
diff changeset
   851
      fix a1 b1 a2 b2 assume sets: "a1 \<in> Ca" "b1 \<in> Cb" "a2 \<in> Ca" "b2 \<in> Cb"
d31085f07f60 add Caratheodories theorem for semi-rings of sets
hoelzl
parents: 47756
diff changeset
   852
      assume "a1 \<inter> b1 \<noteq> a2 \<inter> b2"
d31085f07f60 add Caratheodories theorem for semi-rings of sets
hoelzl
parents: 47756
diff changeset
   853
      then have "a1 \<noteq> a2 \<or> b1 \<noteq> b2" by auto
d31085f07f60 add Caratheodories theorem for semi-rings of sets
hoelzl
parents: 47756
diff changeset
   854
      then show "(a1 \<inter> b1) \<inter> (a2 \<inter> b2) = {}"
d31085f07f60 add Caratheodories theorem for semi-rings of sets
hoelzl
parents: 47756
diff changeset
   855
      proof
d31085f07f60 add Caratheodories theorem for semi-rings of sets
hoelzl
parents: 47756
diff changeset
   856
        assume "a1 \<noteq> a2"
d31085f07f60 add Caratheodories theorem for semi-rings of sets
hoelzl
parents: 47756
diff changeset
   857
        with sets Ca have "a1 \<inter> a2 = {}"
d31085f07f60 add Caratheodories theorem for semi-rings of sets
hoelzl
parents: 47756
diff changeset
   858
          by (auto simp: disjoint_def)
d31085f07f60 add Caratheodories theorem for semi-rings of sets
hoelzl
parents: 47756
diff changeset
   859
        then show ?thesis by auto
d31085f07f60 add Caratheodories theorem for semi-rings of sets
hoelzl
parents: 47756
diff changeset
   860
      next
d31085f07f60 add Caratheodories theorem for semi-rings of sets
hoelzl
parents: 47756
diff changeset
   861
        assume "b1 \<noteq> b2"
d31085f07f60 add Caratheodories theorem for semi-rings of sets
hoelzl
parents: 47756
diff changeset
   862
        with sets Cb have "b1 \<inter> b2 = {}"
d31085f07f60 add Caratheodories theorem for semi-rings of sets
hoelzl
parents: 47756
diff changeset
   863
          by (auto simp: disjoint_def)
d31085f07f60 add Caratheodories theorem for semi-rings of sets
hoelzl
parents: 47756
diff changeset
   864
        then show ?thesis by auto
d31085f07f60 add Caratheodories theorem for semi-rings of sets
hoelzl
parents: 47756
diff changeset
   865
      qed
d31085f07f60 add Caratheodories theorem for semi-rings of sets
hoelzl
parents: 47756
diff changeset
   866
    qed
d31085f07f60 add Caratheodories theorem for semi-rings of sets
hoelzl
parents: 47756
diff changeset
   867
  qed (insert Ca Cb, auto simp: C_def)
d31085f07f60 add Caratheodories theorem for semi-rings of sets
hoelzl
parents: 47756
diff changeset
   868
qed
d31085f07f60 add Caratheodories theorem for semi-rings of sets
hoelzl
parents: 47756
diff changeset
   869
d31085f07f60 add Caratheodories theorem for semi-rings of sets
hoelzl
parents: 47756
diff changeset
   870
lemma (in semiring_of_sets) generated_ring_Inter:
d31085f07f60 add Caratheodories theorem for semi-rings of sets
hoelzl
parents: 47756
diff changeset
   871
  assumes "finite A" "A \<noteq> {}" shows "A \<subseteq> generated_ring \<Longrightarrow> \<Inter>A \<in> generated_ring"
d31085f07f60 add Caratheodories theorem for semi-rings of sets
hoelzl
parents: 47756
diff changeset
   872
  using assms by (induct A rule: finite_ne_induct) (auto intro: generated_ring_Int)
d31085f07f60 add Caratheodories theorem for semi-rings of sets
hoelzl
parents: 47756
diff changeset
   873
d31085f07f60 add Caratheodories theorem for semi-rings of sets
hoelzl
parents: 47756
diff changeset
   874
lemma (in semiring_of_sets) generated_ring_INTER:
d31085f07f60 add Caratheodories theorem for semi-rings of sets
hoelzl
parents: 47756
diff changeset
   875
  "finite I \<Longrightarrow> I \<noteq> {} \<Longrightarrow> (\<And>i. i \<in> I \<Longrightarrow> A i \<in> generated_ring) \<Longrightarrow> INTER I A \<in> generated_ring"
d31085f07f60 add Caratheodories theorem for semi-rings of sets
hoelzl
parents: 47756
diff changeset
   876
  unfolding INF_def by (intro generated_ring_Inter) auto
d31085f07f60 add Caratheodories theorem for semi-rings of sets
hoelzl
parents: 47756
diff changeset
   877
d31085f07f60 add Caratheodories theorem for semi-rings of sets
hoelzl
parents: 47756
diff changeset
   878
lemma (in semiring_of_sets) generating_ring:
d31085f07f60 add Caratheodories theorem for semi-rings of sets
hoelzl
parents: 47756
diff changeset
   879
  "ring_of_sets \<Omega> generated_ring"
d31085f07f60 add Caratheodories theorem for semi-rings of sets
hoelzl
parents: 47756
diff changeset
   880
proof (rule ring_of_setsI)
d31085f07f60 add Caratheodories theorem for semi-rings of sets
hoelzl
parents: 47756
diff changeset
   881
  let ?R = generated_ring
d31085f07f60 add Caratheodories theorem for semi-rings of sets
hoelzl
parents: 47756
diff changeset
   882
  show "?R \<subseteq> Pow \<Omega>"
d31085f07f60 add Caratheodories theorem for semi-rings of sets
hoelzl
parents: 47756
diff changeset
   883
    using sets_into_space by (auto simp: generated_ring_def generated_ring_empty)
d31085f07f60 add Caratheodories theorem for semi-rings of sets
hoelzl
parents: 47756
diff changeset
   884
  show "{} \<in> ?R" by (rule generated_ring_empty)
d31085f07f60 add Caratheodories theorem for semi-rings of sets
hoelzl
parents: 47756
diff changeset
   885
d31085f07f60 add Caratheodories theorem for semi-rings of sets
hoelzl
parents: 47756
diff changeset
   886
  { fix a assume a: "a \<in> ?R" then guess Ca .. note Ca = this
d31085f07f60 add Caratheodories theorem for semi-rings of sets
hoelzl
parents: 47756
diff changeset
   887
    fix b assume b: "b \<in> ?R" then guess Cb .. note Cb = this
d31085f07f60 add Caratheodories theorem for semi-rings of sets
hoelzl
parents: 47756
diff changeset
   888
  
d31085f07f60 add Caratheodories theorem for semi-rings of sets
hoelzl
parents: 47756
diff changeset
   889
    show "a - b \<in> ?R"
d31085f07f60 add Caratheodories theorem for semi-rings of sets
hoelzl
parents: 47756
diff changeset
   890
    proof cases
61808
fc1556774cfe isabelle update_cartouches -c -t;
wenzelm
parents: 61633
diff changeset
   891
      assume "Cb = {}" with Cb \<open>a \<in> ?R\<close> show ?thesis
47762
d31085f07f60 add Caratheodories theorem for semi-rings of sets
hoelzl
parents: 47756
diff changeset
   892
        by simp
d31085f07f60 add Caratheodories theorem for semi-rings of sets
hoelzl
parents: 47756
diff changeset
   893
    next
d31085f07f60 add Caratheodories theorem for semi-rings of sets
hoelzl
parents: 47756
diff changeset
   894
      assume "Cb \<noteq> {}"
d31085f07f60 add Caratheodories theorem for semi-rings of sets
hoelzl
parents: 47756
diff changeset
   895
      with Ca Cb have "a - b = (\<Union>a'\<in>Ca. \<Inter>b'\<in>Cb. a' - b')" by auto
d31085f07f60 add Caratheodories theorem for semi-rings of sets
hoelzl
parents: 47756
diff changeset
   896
      also have "\<dots> \<in> ?R"
d31085f07f60 add Caratheodories theorem for semi-rings of sets
hoelzl
parents: 47756
diff changeset
   897
      proof (intro generated_ring_INTER generated_ring_disjoint_UNION)
d31085f07f60 add Caratheodories theorem for semi-rings of sets
hoelzl
parents: 47756
diff changeset
   898
        fix a b assume "a \<in> Ca" "b \<in> Cb"
d31085f07f60 add Caratheodories theorem for semi-rings of sets
hoelzl
parents: 47756
diff changeset
   899
        with Ca Cb Diff_cover[of a b] show "a - b \<in> ?R"
d31085f07f60 add Caratheodories theorem for semi-rings of sets
hoelzl
parents: 47756
diff changeset
   900
          by (auto simp add: generated_ring_def)
d31085f07f60 add Caratheodories theorem for semi-rings of sets
hoelzl
parents: 47756
diff changeset
   901
      next
d31085f07f60 add Caratheodories theorem for semi-rings of sets
hoelzl
parents: 47756
diff changeset
   902
        show "disjoint ((\<lambda>a'. \<Inter>b'\<in>Cb. a' - b')`Ca)"
61808
fc1556774cfe isabelle update_cartouches -c -t;
wenzelm
parents: 61633
diff changeset
   903
          using Ca by (auto simp add: disjoint_def \<open>Cb \<noteq> {}\<close>)
47762
d31085f07f60 add Caratheodories theorem for semi-rings of sets
hoelzl
parents: 47756
diff changeset
   904
      next
d31085f07f60 add Caratheodories theorem for semi-rings of sets
hoelzl
parents: 47756
diff changeset
   905
        show "finite Ca" "finite Cb" "Cb \<noteq> {}" by fact+
d31085f07f60 add Caratheodories theorem for semi-rings of sets
hoelzl
parents: 47756
diff changeset
   906
      qed
d31085f07f60 add Caratheodories theorem for semi-rings of sets
hoelzl
parents: 47756
diff changeset
   907
      finally show "a - b \<in> ?R" .
d31085f07f60 add Caratheodories theorem for semi-rings of sets
hoelzl
parents: 47756
diff changeset
   908
    qed }
d31085f07f60 add Caratheodories theorem for semi-rings of sets
hoelzl
parents: 47756
diff changeset
   909
  note Diff = this
d31085f07f60 add Caratheodories theorem for semi-rings of sets
hoelzl
parents: 47756
diff changeset
   910
d31085f07f60 add Caratheodories theorem for semi-rings of sets
hoelzl
parents: 47756
diff changeset
   911
  fix a b assume sets: "a \<in> ?R" "b \<in> ?R"
d31085f07f60 add Caratheodories theorem for semi-rings of sets
hoelzl
parents: 47756
diff changeset
   912
  have "a \<union> b = (a - b) \<union> (a \<inter> b) \<union> (b - a)" by auto
d31085f07f60 add Caratheodories theorem for semi-rings of sets
hoelzl
parents: 47756
diff changeset
   913
  also have "\<dots> \<in> ?R"
d31085f07f60 add Caratheodories theorem for semi-rings of sets
hoelzl
parents: 47756
diff changeset
   914
    by (intro sets generated_ring_disjoint_Un generated_ring_Int Diff) auto
d31085f07f60 add Caratheodories theorem for semi-rings of sets
hoelzl
parents: 47756
diff changeset
   915
  finally show "a \<union> b \<in> ?R" .
d31085f07f60 add Caratheodories theorem for semi-rings of sets
hoelzl
parents: 47756
diff changeset
   916
qed
d31085f07f60 add Caratheodories theorem for semi-rings of sets
hoelzl
parents: 47756
diff changeset
   917
d31085f07f60 add Caratheodories theorem for semi-rings of sets
hoelzl
parents: 47756
diff changeset
   918
lemma (in semiring_of_sets) sigma_sets_generated_ring_eq: "sigma_sets \<Omega> generated_ring = sigma_sets \<Omega> M"
d31085f07f60 add Caratheodories theorem for semi-rings of sets
hoelzl
parents: 47756
diff changeset
   919
proof
d31085f07f60 add Caratheodories theorem for semi-rings of sets
hoelzl
parents: 47756
diff changeset
   920
  interpret M: sigma_algebra \<Omega> "sigma_sets \<Omega> M"
d31085f07f60 add Caratheodories theorem for semi-rings of sets
hoelzl
parents: 47756
diff changeset
   921
    using space_closed by (rule sigma_algebra_sigma_sets)
d31085f07f60 add Caratheodories theorem for semi-rings of sets
hoelzl
parents: 47756
diff changeset
   922
  show "sigma_sets \<Omega> generated_ring \<subseteq> sigma_sets \<Omega> M"
d31085f07f60 add Caratheodories theorem for semi-rings of sets
hoelzl
parents: 47756
diff changeset
   923
    by (blast intro!: sigma_sets_mono elim: generated_ringE)
d31085f07f60 add Caratheodories theorem for semi-rings of sets
hoelzl
parents: 47756
diff changeset
   924
qed (auto intro!: generated_ringI_Basic sigma_sets_mono)
d31085f07f60 add Caratheodories theorem for semi-rings of sets
hoelzl
parents: 47756
diff changeset
   925
61808
fc1556774cfe isabelle update_cartouches -c -t;
wenzelm
parents: 61633
diff changeset
   926
subsubsection \<open>A Two-Element Series\<close>
38656
d5d342611edb Rewrite the Probability theory.
hoelzl
parents: 37032
diff changeset
   927
d5d342611edb Rewrite the Probability theory.
hoelzl
parents: 37032
diff changeset
   928
definition binaryset :: "'a set \<Rightarrow> 'a set \<Rightarrow> nat \<Rightarrow> 'a set "
50252
4aa34bd43228 eliminated slightly odd identifiers;
wenzelm
parents: 50245
diff changeset
   929
  where "binaryset A B = (\<lambda>x. {})(0 := A, Suc 0 := B)"
38656
d5d342611edb Rewrite the Probability theory.
hoelzl
parents: 37032
diff changeset
   930
d5d342611edb Rewrite the Probability theory.
hoelzl
parents: 37032
diff changeset
   931
lemma range_binaryset_eq: "range(binaryset A B) = {A,B,{}}"
d5d342611edb Rewrite the Probability theory.
hoelzl
parents: 37032
diff changeset
   932
  apply (simp add: binaryset_def)
39302
d7728f65b353 renamed lemmas: ext_iff -> fun_eq_iff, set_ext_iff -> set_eq_iff, set_ext -> set_eqI
nipkow
parents: 39092
diff changeset
   933
  apply (rule set_eqI)
38656
d5d342611edb Rewrite the Probability theory.
hoelzl
parents: 37032
diff changeset
   934
  apply (auto simp add: image_iff)
d5d342611edb Rewrite the Probability theory.
hoelzl
parents: 37032
diff changeset
   935
  done
d5d342611edb Rewrite the Probability theory.
hoelzl
parents: 37032
diff changeset
   936
d5d342611edb Rewrite the Probability theory.
hoelzl
parents: 37032
diff changeset
   937
lemma UN_binaryset_eq: "(\<Union>i. binaryset A B i) = A \<union> B"
44106
0e018cbcc0de tuned proofs
haftmann
parents: 42988
diff changeset
   938
  by (simp add: SUP_def range_binaryset_eq)
38656
d5d342611edb Rewrite the Probability theory.
hoelzl
parents: 37032
diff changeset
   939
61808
fc1556774cfe isabelle update_cartouches -c -t;
wenzelm
parents: 61633
diff changeset
   940
subsubsection \<open>Closed CDI\<close>
38656
d5d342611edb Rewrite the Probability theory.
hoelzl
parents: 37032
diff changeset
   941
47694
05663f75964c reworked Probability theory
hoelzl
parents: 46731
diff changeset
   942
definition closed_cdi where
05663f75964c reworked Probability theory
hoelzl
parents: 46731
diff changeset
   943
  "closed_cdi \<Omega> M \<longleftrightarrow>
05663f75964c reworked Probability theory
hoelzl
parents: 46731
diff changeset
   944
   M \<subseteq> Pow \<Omega> &
05663f75964c reworked Probability theory
hoelzl
parents: 46731
diff changeset
   945
   (\<forall>s \<in> M. \<Omega> - s \<in> M) &
05663f75964c reworked Probability theory
hoelzl
parents: 46731
diff changeset
   946
   (\<forall>A. (range A \<subseteq> M) & (A 0 = {}) & (\<forall>n. A n \<subseteq> A (Suc n)) \<longrightarrow>
05663f75964c reworked Probability theory
hoelzl
parents: 46731
diff changeset
   947
        (\<Union>i. A i) \<in> M) &
05663f75964c reworked Probability theory
hoelzl
parents: 46731
diff changeset
   948
   (\<forall>A. (range A \<subseteq> M) & disjoint_family A \<longrightarrow> (\<Union>i::nat. A i) \<in> M)"
38656
d5d342611edb Rewrite the Probability theory.
hoelzl
parents: 37032
diff changeset
   949
d5d342611edb Rewrite the Probability theory.
hoelzl
parents: 37032
diff changeset
   950
inductive_set
47694
05663f75964c reworked Probability theory
hoelzl
parents: 46731
diff changeset
   951
  smallest_ccdi_sets :: "'a set \<Rightarrow> 'a set set \<Rightarrow> 'a set set"
05663f75964c reworked Probability theory
hoelzl
parents: 46731
diff changeset
   952
  for \<Omega> M
38656
d5d342611edb Rewrite the Probability theory.
hoelzl
parents: 37032
diff changeset
   953
  where
d5d342611edb Rewrite the Probability theory.
hoelzl
parents: 37032
diff changeset
   954
    Basic [intro]:
47694
05663f75964c reworked Probability theory
hoelzl
parents: 46731
diff changeset
   955
      "a \<in> M \<Longrightarrow> a \<in> smallest_ccdi_sets \<Omega> M"
38656
d5d342611edb Rewrite the Probability theory.
hoelzl
parents: 37032
diff changeset
   956
  | Compl [intro]:
47694
05663f75964c reworked Probability theory
hoelzl
parents: 46731
diff changeset
   957
      "a \<in> smallest_ccdi_sets \<Omega> M \<Longrightarrow> \<Omega> - a \<in> smallest_ccdi_sets \<Omega> M"
38656
d5d342611edb Rewrite the Probability theory.
hoelzl
parents: 37032
diff changeset
   958
  | Inc:
47694
05663f75964c reworked Probability theory
hoelzl
parents: 46731
diff changeset
   959
      "range A \<in> Pow(smallest_ccdi_sets \<Omega> M) \<Longrightarrow> A 0 = {} \<Longrightarrow> (\<And>n. A n \<subseteq> A (Suc n))
05663f75964c reworked Probability theory
hoelzl
parents: 46731
diff changeset
   960
       \<Longrightarrow> (\<Union>i. A i) \<in> smallest_ccdi_sets \<Omega> M"
38656
d5d342611edb Rewrite the Probability theory.
hoelzl
parents: 37032
diff changeset
   961
  | Disj:
47694
05663f75964c reworked Probability theory
hoelzl
parents: 46731
diff changeset
   962
      "range A \<in> Pow(smallest_ccdi_sets \<Omega> M) \<Longrightarrow> disjoint_family A
05663f75964c reworked Probability theory
hoelzl
parents: 46731
diff changeset
   963
       \<Longrightarrow> (\<Union>i::nat. A i) \<in> smallest_ccdi_sets \<Omega> M"
38656
d5d342611edb Rewrite the Probability theory.
hoelzl
parents: 37032
diff changeset
   964
47694
05663f75964c reworked Probability theory
hoelzl
parents: 46731
diff changeset
   965
lemma (in subset_class) smallest_closed_cdi1: "M \<subseteq> smallest_ccdi_sets \<Omega> M"
05663f75964c reworked Probability theory
hoelzl
parents: 46731
diff changeset
   966
  by auto
38656
d5d342611edb Rewrite the Probability theory.
hoelzl
parents: 37032
diff changeset
   967
47694
05663f75964c reworked Probability theory
hoelzl
parents: 46731
diff changeset
   968
lemma (in subset_class) smallest_ccdi_sets: "smallest_ccdi_sets \<Omega> M \<subseteq> Pow \<Omega>"
38656
d5d342611edb Rewrite the Probability theory.
hoelzl
parents: 37032
diff changeset
   969
  apply (rule subsetI)
d5d342611edb Rewrite the Probability theory.
hoelzl
parents: 37032
diff changeset
   970
  apply (erule smallest_ccdi_sets.induct)
d5d342611edb Rewrite the Probability theory.
hoelzl
parents: 37032
diff changeset
   971
  apply (auto intro: range_subsetD dest: sets_into_space)
d5d342611edb Rewrite the Probability theory.
hoelzl
parents: 37032
diff changeset
   972
  done
d5d342611edb Rewrite the Probability theory.
hoelzl
parents: 37032
diff changeset
   973
47694
05663f75964c reworked Probability theory
hoelzl
parents: 46731
diff changeset
   974
lemma (in subset_class) smallest_closed_cdi2: "closed_cdi \<Omega> (smallest_ccdi_sets \<Omega> M)"
05663f75964c reworked Probability theory
hoelzl
parents: 46731
diff changeset
   975
  apply (auto simp add: closed_cdi_def smallest_ccdi_sets)
38656
d5d342611edb Rewrite the Probability theory.
hoelzl
parents: 37032
diff changeset
   976
  apply (blast intro: smallest_ccdi_sets.Inc smallest_ccdi_sets.Disj) +
d5d342611edb Rewrite the Probability theory.
hoelzl
parents: 37032
diff changeset
   977
  done
d5d342611edb Rewrite the Probability theory.
hoelzl
parents: 37032
diff changeset
   978
47694
05663f75964c reworked Probability theory
hoelzl
parents: 46731
diff changeset
   979
lemma closed_cdi_subset: "closed_cdi \<Omega> M \<Longrightarrow> M \<subseteq> Pow \<Omega>"
38656
d5d342611edb Rewrite the Probability theory.
hoelzl
parents: 37032
diff changeset
   980
  by (simp add: closed_cdi_def)
d5d342611edb Rewrite the Probability theory.
hoelzl
parents: 37032
diff changeset
   981
47694
05663f75964c reworked Probability theory
hoelzl
parents: 46731
diff changeset
   982
lemma closed_cdi_Compl: "closed_cdi \<Omega> M \<Longrightarrow> s \<in> M \<Longrightarrow> \<Omega> - s \<in> M"
38656
d5d342611edb Rewrite the Probability theory.
hoelzl
parents: 37032
diff changeset
   983
  by (simp add: closed_cdi_def)
d5d342611edb Rewrite the Probability theory.
hoelzl
parents: 37032
diff changeset
   984
d5d342611edb Rewrite the Probability theory.
hoelzl
parents: 37032
diff changeset
   985
lemma closed_cdi_Inc:
47694
05663f75964c reworked Probability theory
hoelzl
parents: 46731
diff changeset
   986
  "closed_cdi \<Omega> M \<Longrightarrow> range A \<subseteq> M \<Longrightarrow> A 0 = {} \<Longrightarrow> (!!n. A n \<subseteq> A (Suc n)) \<Longrightarrow> (\<Union>i. A i) \<in> M"
38656
d5d342611edb Rewrite the Probability theory.
hoelzl
parents: 37032
diff changeset
   987
  by (simp add: closed_cdi_def)
d5d342611edb Rewrite the Probability theory.
hoelzl
parents: 37032
diff changeset
   988
d5d342611edb Rewrite the Probability theory.
hoelzl
parents: 37032
diff changeset
   989
lemma closed_cdi_Disj:
47694
05663f75964c reworked Probability theory
hoelzl
parents: 46731
diff changeset
   990
  "closed_cdi \<Omega> M \<Longrightarrow> range A \<subseteq> M \<Longrightarrow> disjoint_family A \<Longrightarrow> (\<Union>i::nat. A i) \<in> M"
38656
d5d342611edb Rewrite the Probability theory.
hoelzl
parents: 37032
diff changeset
   991
  by (simp add: closed_cdi_def)
d5d342611edb Rewrite the Probability theory.
hoelzl
parents: 37032
diff changeset
   992
d5d342611edb Rewrite the Probability theory.
hoelzl
parents: 37032
diff changeset
   993
lemma closed_cdi_Un:
47694
05663f75964c reworked Probability theory
hoelzl
parents: 46731
diff changeset
   994
  assumes cdi: "closed_cdi \<Omega> M" and empty: "{} \<in> M"
05663f75964c reworked Probability theory
hoelzl
parents: 46731
diff changeset
   995
      and A: "A \<in> M" and B: "B \<in> M"
38656
d5d342611edb Rewrite the Probability theory.
hoelzl
parents: 37032
diff changeset
   996
      and disj: "A \<inter> B = {}"
47694
05663f75964c reworked Probability theory
hoelzl
parents: 46731
diff changeset
   997
    shows "A \<union> B \<in> M"
38656
d5d342611edb Rewrite the Probability theory.
hoelzl
parents: 37032
diff changeset
   998
proof -
47694
05663f75964c reworked Probability theory
hoelzl
parents: 46731
diff changeset
   999
  have ra: "range (binaryset A B) \<subseteq> M"
38656
d5d342611edb Rewrite the Probability theory.
hoelzl
parents: 37032
diff changeset
  1000
   by (simp add: range_binaryset_eq empty A B)
d5d342611edb Rewrite the Probability theory.
hoelzl
parents: 37032
diff changeset
  1001
 have di:  "disjoint_family (binaryset A B)" using disj
d5d342611edb Rewrite the Probability theory.
hoelzl
parents: 37032
diff changeset
  1002
   by (simp add: disjoint_family_on_def binaryset_def Int_commute)
d5d342611edb Rewrite the Probability theory.
hoelzl
parents: 37032
diff changeset
  1003
 from closed_cdi_Disj [OF cdi ra di]
d5d342611edb Rewrite the Probability theory.
hoelzl
parents: 37032
diff changeset
  1004
 show ?thesis
d5d342611edb Rewrite the Probability theory.
hoelzl
parents: 37032
diff changeset
  1005
   by (simp add: UN_binaryset_eq)
d5d342611edb Rewrite the Probability theory.
hoelzl
parents: 37032
diff changeset
  1006
qed
d5d342611edb Rewrite the Probability theory.
hoelzl
parents: 37032
diff changeset
  1007
d5d342611edb Rewrite the Probability theory.
hoelzl
parents: 37032
diff changeset
  1008
lemma (in algebra) smallest_ccdi_sets_Un:
47694
05663f75964c reworked Probability theory
hoelzl
parents: 46731
diff changeset
  1009
  assumes A: "A \<in> smallest_ccdi_sets \<Omega> M" and B: "B \<in> smallest_ccdi_sets \<Omega> M"
38656
d5d342611edb Rewrite the Probability theory.
hoelzl
parents: 37032
diff changeset
  1010
      and disj: "A \<inter> B = {}"
47694
05663f75964c reworked Probability theory
hoelzl
parents: 46731
diff changeset
  1011
    shows "A \<union> B \<in> smallest_ccdi_sets \<Omega> M"
38656
d5d342611edb Rewrite the Probability theory.
hoelzl
parents: 37032
diff changeset
  1012
proof -
47694
05663f75964c reworked Probability theory
hoelzl
parents: 46731
diff changeset
  1013
  have ra: "range (binaryset A B) \<in> Pow (smallest_ccdi_sets \<Omega> M)"
38656
d5d342611edb Rewrite the Probability theory.
hoelzl
parents: 37032
diff changeset
  1014
    by (simp add: range_binaryset_eq  A B smallest_ccdi_sets.Basic)
d5d342611edb Rewrite the Probability theory.
hoelzl
parents: 37032
diff changeset
  1015
  have di:  "disjoint_family (binaryset A B)" using disj
d5d342611edb Rewrite the Probability theory.
hoelzl
parents: 37032
diff changeset
  1016
    by (simp add: disjoint_family_on_def binaryset_def Int_commute)
d5d342611edb Rewrite the Probability theory.
hoelzl
parents: 37032
diff changeset
  1017
  from Disj [OF ra di]
d5d342611edb Rewrite the Probability theory.
hoelzl
parents: 37032
diff changeset
  1018
  show ?thesis
d5d342611edb Rewrite the Probability theory.
hoelzl
parents: 37032
diff changeset
  1019
    by (simp add: UN_binaryset_eq)
d5d342611edb Rewrite the Probability theory.
hoelzl
parents: 37032
diff changeset
  1020
qed
d5d342611edb Rewrite the Probability theory.
hoelzl
parents: 37032
diff changeset
  1021
d5d342611edb Rewrite the Probability theory.
hoelzl
parents: 37032
diff changeset
  1022
lemma (in algebra) smallest_ccdi_sets_Int1:
47694
05663f75964c reworked Probability theory
hoelzl
parents: 46731
diff changeset
  1023
  assumes a: "a \<in> M"
05663f75964c reworked Probability theory
hoelzl
parents: 46731
diff changeset
  1024
  shows "b \<in> smallest_ccdi_sets \<Omega> M \<Longrightarrow> a \<inter> b \<in> smallest_ccdi_sets \<Omega> M"
38656
d5d342611edb Rewrite the Probability theory.
hoelzl
parents: 37032
diff changeset
  1025
proof (induct rule: smallest_ccdi_sets.induct)
d5d342611edb Rewrite the Probability theory.
hoelzl
parents: 37032
diff changeset
  1026
  case (Basic x)
d5d342611edb Rewrite the Probability theory.
hoelzl
parents: 37032
diff changeset
  1027
  thus ?case
d5d342611edb Rewrite the Probability theory.
hoelzl
parents: 37032
diff changeset
  1028
    by (metis a Int smallest_ccdi_sets.Basic)
d5d342611edb Rewrite the Probability theory.
hoelzl
parents: 37032
diff changeset
  1029
next
d5d342611edb Rewrite the Probability theory.
hoelzl
parents: 37032
diff changeset
  1030
  case (Compl x)
47694
05663f75964c reworked Probability theory
hoelzl
parents: 46731
diff changeset
  1031
  have "a \<inter> (\<Omega> - x) = \<Omega> - ((\<Omega> - a) \<union> (a \<inter> x))"
38656
d5d342611edb Rewrite the Probability theory.
hoelzl
parents: 37032
diff changeset
  1032
    by blast
47694
05663f75964c reworked Probability theory
hoelzl
parents: 46731
diff changeset
  1033
  also have "... \<in> smallest_ccdi_sets \<Omega> M"
38656
d5d342611edb Rewrite the Probability theory.
hoelzl
parents: 37032
diff changeset
  1034
    by (metis smallest_ccdi_sets.Compl a Compl(2) Diff_Int2 Diff_Int_distrib2
47694
05663f75964c reworked Probability theory
hoelzl
parents: 46731
diff changeset
  1035
           Diff_disjoint Int_Diff Int_empty_right smallest_ccdi_sets_Un
05663f75964c reworked Probability theory
hoelzl
parents: 46731
diff changeset
  1036
           smallest_ccdi_sets.Basic smallest_ccdi_sets.Compl)
38656
d5d342611edb Rewrite the Probability theory.
hoelzl
parents: 37032
diff changeset
  1037
  finally show ?case .
d5d342611edb Rewrite the Probability theory.
hoelzl
parents: 37032
diff changeset
  1038
next
d5d342611edb Rewrite the Probability theory.
hoelzl
parents: 37032
diff changeset
  1039
  case (Inc A)
d5d342611edb Rewrite the Probability theory.
hoelzl
parents: 37032
diff changeset
  1040
  have 1: "(\<Union>i. (\<lambda>i. a \<inter> A i) i) = a \<inter> (\<Union>i. A i)"
d5d342611edb Rewrite the Probability theory.
hoelzl
parents: 37032
diff changeset
  1041
    by blast
47694
05663f75964c reworked Probability theory
hoelzl
parents: 46731
diff changeset
  1042
  have "range (\<lambda>i. a \<inter> A i) \<in> Pow(smallest_ccdi_sets \<Omega> M)" using Inc
38656
d5d342611edb Rewrite the Probability theory.
hoelzl
parents: 37032
diff changeset
  1043
    by blast
d5d342611edb Rewrite the Probability theory.
hoelzl
parents: 37032
diff changeset
  1044
  moreover have "(\<lambda>i. a \<inter> A i) 0 = {}"
d5d342611edb Rewrite the Probability theory.
hoelzl
parents: 37032
diff changeset
  1045
    by (simp add: Inc)
d5d342611edb Rewrite the Probability theory.
hoelzl
parents: 37032
diff changeset
  1046
  moreover have "!!n. (\<lambda>i. a \<inter> A i) n \<subseteq> (\<lambda>i. a \<inter> A i) (Suc n)" using Inc
d5d342611edb Rewrite the Probability theory.
hoelzl
parents: 37032
diff changeset
  1047
    by blast
47694
05663f75964c reworked Probability theory
hoelzl
parents: 46731
diff changeset
  1048
  ultimately have 2: "(\<Union>i. (\<lambda>i. a \<inter> A i) i) \<in> smallest_ccdi_sets \<Omega> M"
38656
d5d342611edb Rewrite the Probability theory.
hoelzl
parents: 37032
diff changeset
  1049
    by (rule smallest_ccdi_sets.Inc)
d5d342611edb Rewrite the Probability theory.
hoelzl
parents: 37032
diff changeset
  1050
  show ?case
d5d342611edb Rewrite the Probability theory.
hoelzl
parents: 37032
diff changeset
  1051
    by (metis 1 2)
d5d342611edb Rewrite the Probability theory.
hoelzl
parents: 37032
diff changeset
  1052
next
d5d342611edb Rewrite the Probability theory.
hoelzl
parents: 37032
diff changeset
  1053
  case (Disj A)
d5d342611edb Rewrite the Probability theory.
hoelzl
parents: 37032
diff changeset
  1054
  have 1: "(\<Union>i. (\<lambda>i. a \<inter> A i) i) = a \<inter> (\<Union>i. A i)"
d5d342611edb Rewrite the Probability theory.
hoelzl
parents: 37032
diff changeset
  1055
    by blast
47694
05663f75964c reworked Probability theory
hoelzl
parents: 46731
diff changeset
  1056
  have "range (\<lambda>i. a \<inter> A i) \<in> Pow(smallest_ccdi_sets \<Omega> M)" using Disj
38656
d5d342611edb Rewrite the Probability theory.
hoelzl
parents: 37032
diff changeset
  1057
    by blast
d5d342611edb Rewrite the Probability theory.
hoelzl
parents: 37032
diff changeset
  1058
  moreover have "disjoint_family (\<lambda>i. a \<inter> A i)" using Disj
d5d342611edb Rewrite the Probability theory.
hoelzl
parents: 37032
diff changeset
  1059
    by (auto simp add: disjoint_family_on_def)
47694
05663f75964c reworked Probability theory
hoelzl
parents: 46731
diff changeset
  1060
  ultimately have 2: "(\<Union>i. (\<lambda>i. a \<inter> A i) i) \<in> smallest_ccdi_sets \<Omega> M"
38656
d5d342611edb Rewrite the Probability theory.
hoelzl
parents: 37032
diff changeset
  1061
    by (rule smallest_ccdi_sets.Disj)
d5d342611edb Rewrite the Probability theory.
hoelzl
parents: 37032
diff changeset
  1062
  show ?case
d5d342611edb Rewrite the Probability theory.
hoelzl
parents: 37032
diff changeset
  1063
    by (metis 1 2)
d5d342611edb Rewrite the Probability theory.
hoelzl
parents: 37032
diff changeset
  1064
qed
d5d342611edb Rewrite the Probability theory.
hoelzl
parents: 37032
diff changeset
  1065
d5d342611edb Rewrite the Probability theory.
hoelzl
parents: 37032
diff changeset
  1066
d5d342611edb Rewrite the Probability theory.
hoelzl
parents: 37032
diff changeset
  1067
lemma (in algebra) smallest_ccdi_sets_Int:
47694
05663f75964c reworked Probability theory
hoelzl
parents: 46731
diff changeset
  1068
  assumes b: "b \<in> smallest_ccdi_sets \<Omega> M"
05663f75964c reworked Probability theory
hoelzl
parents: 46731
diff changeset
  1069
  shows "a \<in> smallest_ccdi_sets \<Omega> M \<Longrightarrow> a \<inter> b \<in> smallest_ccdi_sets \<Omega> M"
38656
d5d342611edb Rewrite the Probability theory.
hoelzl
parents: 37032
diff changeset
  1070
proof (induct rule: smallest_ccdi_sets.induct)
d5d342611edb Rewrite the Probability theory.
hoelzl
parents: 37032
diff changeset
  1071
  case (Basic x)
d5d342611edb Rewrite the Probability theory.
hoelzl
parents: 37032
diff changeset
  1072
  thus ?case
d5d342611edb Rewrite the Probability theory.
hoelzl
parents: 37032
diff changeset
  1073
    by (metis b smallest_ccdi_sets_Int1)
d5d342611edb Rewrite the Probability theory.
hoelzl
parents: 37032
diff changeset
  1074
next
d5d342611edb Rewrite the Probability theory.
hoelzl
parents: 37032
diff changeset
  1075
  case (Compl x)
47694
05663f75964c reworked Probability theory
hoelzl
parents: 46731
diff changeset
  1076
  have "(\<Omega> - x) \<inter> b = \<Omega> - (x \<inter> b \<union> (\<Omega> - b))"
38656
d5d342611edb Rewrite the Probability theory.
hoelzl
parents: 37032
diff changeset
  1077
    by blast
47694
05663f75964c reworked Probability theory
hoelzl
parents: 46731
diff changeset
  1078
  also have "... \<in> smallest_ccdi_sets \<Omega> M"
38656
d5d342611edb Rewrite the Probability theory.
hoelzl
parents: 37032
diff changeset
  1079
    by (metis Compl(2) Diff_disjoint Int_Diff Int_commute Int_empty_right b
d5d342611edb Rewrite the Probability theory.
hoelzl
parents: 37032
diff changeset
  1080
           smallest_ccdi_sets.Compl smallest_ccdi_sets_Un)
d5d342611edb Rewrite the Probability theory.
hoelzl
parents: 37032
diff changeset
  1081
  finally show ?case .
d5d342611edb Rewrite the Probability theory.
hoelzl
parents: 37032
diff changeset
  1082
next
d5d342611edb Rewrite the Probability theory.
hoelzl
parents: 37032
diff changeset
  1083
  case (Inc A)
d5d342611edb Rewrite the Probability theory.
hoelzl
parents: 37032
diff changeset
  1084
  have 1: "(\<Union>i. (\<lambda>i. A i \<inter> b) i) = (\<Union>i. A i) \<inter> b"
d5d342611edb Rewrite the Probability theory.
hoelzl
parents: 37032
diff changeset
  1085
    by blast
47694
05663f75964c reworked Probability theory
hoelzl
parents: 46731
diff changeset
  1086
  have "range (\<lambda>i. A i \<inter> b) \<in> Pow(smallest_ccdi_sets \<Omega> M)" using Inc
38656
d5d342611edb Rewrite the Probability theory.
hoelzl
parents: 37032
diff changeset
  1087
    by blast
d5d342611edb Rewrite the Probability theory.
hoelzl
parents: 37032
diff changeset
  1088
  moreover have "(\<lambda>i. A i \<inter> b) 0 = {}"
d5d342611edb Rewrite the Probability theory.
hoelzl
parents: 37032
diff changeset
  1089
    by (simp add: Inc)
d5d342611edb Rewrite the Probability theory.
hoelzl
parents: 37032
diff changeset
  1090
  moreover have "!!n. (\<lambda>i. A i \<inter> b) n \<subseteq> (\<lambda>i. A i \<inter> b) (Suc n)" using Inc
d5d342611edb Rewrite the Probability theory.
hoelzl
parents: 37032
diff changeset
  1091
    by blast
47694
05663f75964c reworked Probability theory
hoelzl
parents: 46731
diff changeset
  1092
  ultimately have 2: "(\<Union>i. (\<lambda>i. A i \<inter> b) i) \<in> smallest_ccdi_sets \<Omega> M"
38656
d5d342611edb Rewrite the Probability theory.
hoelzl
parents: 37032
diff changeset
  1093
    by (rule smallest_ccdi_sets.Inc)
d5d342611edb Rewrite the Probability theory.
hoelzl
parents: 37032
diff changeset
  1094
  show ?case
d5d342611edb Rewrite the Probability theory.
hoelzl
parents: 37032
diff changeset
  1095
    by (metis 1 2)
d5d342611edb Rewrite the Probability theory.
hoelzl
parents: 37032
diff changeset
  1096
next
d5d342611edb Rewrite the Probability theory.
hoelzl
parents: 37032
diff changeset
  1097
  case (Disj A)
d5d342611edb Rewrite the Probability theory.
hoelzl
parents: 37032
diff changeset
  1098
  have 1: "(\<Union>i. (\<lambda>i. A i \<inter> b) i) = (\<Union>i. A i) \<inter> b"
d5d342611edb Rewrite the Probability theory.
hoelzl
parents: 37032
diff changeset
  1099
    by blast
47694
05663f75964c reworked Probability theory
hoelzl
parents: 46731
diff changeset
  1100
  have "range (\<lambda>i. A i \<inter> b) \<in> Pow(smallest_ccdi_sets \<Omega> M)" using Disj
38656
d5d342611edb Rewrite the Probability theory.
hoelzl
parents: 37032
diff changeset
  1101
    by blast
d5d342611edb Rewrite the Probability theory.
hoelzl
parents: 37032
diff changeset
  1102
  moreover have "disjoint_family (\<lambda>i. A i \<inter> b)" using Disj
d5d342611edb Rewrite the Probability theory.
hoelzl
parents: 37032
diff changeset
  1103
    by (auto simp add: disjoint_family_on_def)
47694
05663f75964c reworked Probability theory
hoelzl
parents: 46731
diff changeset
  1104
  ultimately have 2: "(\<Union>i. (\<lambda>i. A i \<inter> b) i) \<in> smallest_ccdi_sets \<Omega> M"
38656
d5d342611edb Rewrite the Probability theory.
hoelzl
parents: 37032
diff changeset
  1105
    by (rule smallest_ccdi_sets.Disj)
d5d342611edb Rewrite the Probability theory.
hoelzl
parents: 37032
diff changeset
  1106
  show ?case
d5d342611edb Rewrite the Probability theory.
hoelzl
parents: 37032
diff changeset
  1107
    by (metis 1 2)
d5d342611edb Rewrite the Probability theory.
hoelzl
parents: 37032
diff changeset
  1108
qed
d5d342611edb Rewrite the Probability theory.
hoelzl
parents: 37032
diff changeset
  1109
d5d342611edb Rewrite the Probability theory.
hoelzl
parents: 37032
diff changeset
  1110
lemma (in algebra) sigma_property_disjoint_lemma:
47694
05663f75964c reworked Probability theory
hoelzl
parents: 46731
diff changeset
  1111
  assumes sbC: "M \<subseteq> C"
05663f75964c reworked Probability theory
hoelzl
parents: 46731
diff changeset
  1112
      and ccdi: "closed_cdi \<Omega> C"
05663f75964c reworked Probability theory
hoelzl
parents: 46731
diff changeset
  1113
  shows "sigma_sets \<Omega> M \<subseteq> C"
38656
d5d342611edb Rewrite the Probability theory.
hoelzl
parents: 37032
diff changeset
  1114
proof -
47694
05663f75964c reworked Probability theory
hoelzl
parents: 46731
diff changeset
  1115
  have "smallest_ccdi_sets \<Omega> M \<in> {B . M \<subseteq> B \<and> sigma_algebra \<Omega> B}"
38656
d5d342611edb Rewrite the Probability theory.
hoelzl
parents: 37032
diff changeset
  1116
    apply (auto simp add: sigma_algebra_disjoint_iff algebra_iff_Int
d5d342611edb Rewrite the Probability theory.
hoelzl
parents: 37032
diff changeset
  1117
            smallest_ccdi_sets_Int)
d5d342611edb Rewrite the Probability theory.
hoelzl
parents: 37032
diff changeset
  1118
    apply (metis Union_Pow_eq Union_upper subsetD smallest_ccdi_sets)
d5d342611edb Rewrite the Probability theory.
hoelzl
parents: 37032
diff changeset
  1119
    apply (blast intro: smallest_ccdi_sets.Disj)
d5d342611edb Rewrite the Probability theory.
hoelzl
parents: 37032
diff changeset
  1120
    done
47694
05663f75964c reworked Probability theory
hoelzl
parents: 46731
diff changeset
  1121
  hence "sigma_sets (\<Omega>) (M) \<subseteq> smallest_ccdi_sets \<Omega> M"
38656
d5d342611edb Rewrite the Probability theory.
hoelzl
parents: 37032
diff changeset
  1122
    by clarsimp
47694
05663f75964c reworked Probability theory
hoelzl
parents: 46731
diff changeset
  1123
       (drule sigma_algebra.sigma_sets_subset [where a="M"], auto)
38656
d5d342611edb Rewrite the Probability theory.
hoelzl
parents: 37032
diff changeset
  1124
  also have "...  \<subseteq> C"
d5d342611edb Rewrite the Probability theory.
hoelzl
parents: 37032
diff changeset
  1125
    proof
d5d342611edb Rewrite the Probability theory.
hoelzl
parents: 37032
diff changeset
  1126
      fix x
47694
05663f75964c reworked Probability theory
hoelzl
parents: 46731
diff changeset
  1127
      assume x: "x \<in> smallest_ccdi_sets \<Omega> M"
38656
d5d342611edb Rewrite the Probability theory.
hoelzl
parents: 37032
diff changeset
  1128
      thus "x \<in> C"
d5d342611edb Rewrite the Probability theory.
hoelzl
parents: 37032
diff changeset
  1129
        proof (induct rule: smallest_ccdi_sets.induct)
d5d342611edb Rewrite the Probability theory.
hoelzl
parents: 37032
diff changeset
  1130
          case (Basic x)
d5d342611edb Rewrite the Probability theory.
hoelzl
parents: 37032
diff changeset
  1131
          thus ?case
d5d342611edb Rewrite the Probability theory.
hoelzl
parents: 37032
diff changeset
  1132
            by (metis Basic subsetD sbC)
d5d342611edb Rewrite the Probability theory.
hoelzl
parents: 37032
diff changeset
  1133
        next
d5d342611edb Rewrite the Probability theory.
hoelzl
parents: 37032
diff changeset
  1134
          case (Compl x)
d5d342611edb Rewrite the Probability theory.
hoelzl
parents: 37032
diff changeset
  1135
          thus ?case
d5d342611edb Rewrite the Probability theory.
hoelzl
parents: 37032
diff changeset
  1136
            by (blast intro: closed_cdi_Compl [OF ccdi, simplified])
d5d342611edb Rewrite the Probability theory.
hoelzl
parents: 37032
diff changeset
  1137
        next
d5d342611edb Rewrite the Probability theory.
hoelzl
parents: 37032
diff changeset
  1138
          case (Inc A)
d5d342611edb Rewrite the Probability theory.
hoelzl
parents: 37032
diff changeset
  1139
          thus ?case
d5d342611edb Rewrite the Probability theory.
hoelzl
parents: 37032
diff changeset
  1140
               by (auto intro: closed_cdi_Inc [OF ccdi, simplified])
d5d342611edb Rewrite the Probability theory.
hoelzl
parents: 37032
diff changeset
  1141
        next
d5d342611edb Rewrite the Probability theory.
hoelzl
parents: 37032
diff changeset
  1142
          case (Disj A)
d5d342611edb Rewrite the Probability theory.
hoelzl
parents: 37032
diff changeset
  1143
          thus ?case
d5d342611edb Rewrite the Probability theory.
hoelzl
parents: 37032
diff changeset
  1144
               by (auto intro: closed_cdi_Disj [OF ccdi, simplified])
d5d342611edb Rewrite the Probability theory.
hoelzl
parents: 37032
diff changeset
  1145
        qed
d5d342611edb Rewrite the Probability theory.
hoelzl
parents: 37032
diff changeset
  1146
    qed
d5d342611edb Rewrite the Probability theory.
hoelzl
parents: 37032
diff changeset
  1147
  finally show ?thesis .
d5d342611edb Rewrite the Probability theory.
hoelzl
parents: 37032
diff changeset
  1148
qed
d5d342611edb Rewrite the Probability theory.
hoelzl
parents: 37032
diff changeset
  1149
d5d342611edb Rewrite the Probability theory.
hoelzl
parents: 37032
diff changeset
  1150
lemma (in algebra) sigma_property_disjoint:
47694
05663f75964c reworked Probability theory
hoelzl
parents: 46731
diff changeset
  1151
  assumes sbC: "M \<subseteq> C"
05663f75964c reworked Probability theory
hoelzl
parents: 46731
diff changeset
  1152
      and compl: "!!s. s \<in> C \<inter> sigma_sets (\<Omega>) (M) \<Longrightarrow> \<Omega> - s \<in> C"
05663f75964c reworked Probability theory
hoelzl
parents: 46731
diff changeset
  1153
      and inc: "!!A. range A \<subseteq> C \<inter> sigma_sets (\<Omega>) (M)
38656
d5d342611edb Rewrite the Probability theory.
hoelzl
parents: 37032
diff changeset
  1154
                     \<Longrightarrow> A 0 = {} \<Longrightarrow> (!!n. A n \<subseteq> A (Suc n))
d5d342611edb Rewrite the Probability theory.
hoelzl
parents: 37032
diff changeset
  1155
                     \<Longrightarrow> (\<Union>i. A i) \<in> C"
47694
05663f75964c reworked Probability theory
hoelzl
parents: 46731
diff changeset
  1156
      and disj: "!!A. range A \<subseteq> C \<inter> sigma_sets (\<Omega>) (M)
38656
d5d342611edb Rewrite the Probability theory.
hoelzl
parents: 37032
diff changeset
  1157
                      \<Longrightarrow> disjoint_family A \<Longrightarrow> (\<Union>i::nat. A i) \<in> C"
47694
05663f75964c reworked Probability theory
hoelzl
parents: 46731
diff changeset
  1158
  shows "sigma_sets (\<Omega>) (M) \<subseteq> C"
38656
d5d342611edb Rewrite the Probability theory.
hoelzl
parents: 37032
diff changeset
  1159
proof -
47694
05663f75964c reworked Probability theory
hoelzl
parents: 46731
diff changeset
  1160
  have "sigma_sets (\<Omega>) (M) \<subseteq> C \<inter> sigma_sets (\<Omega>) (M)"
38656
d5d342611edb Rewrite the Probability theory.
hoelzl
parents: 37032
diff changeset
  1161
    proof (rule sigma_property_disjoint_lemma)
47694
05663f75964c reworked Probability theory
hoelzl
parents: 46731
diff changeset
  1162
      show "M \<subseteq> C \<inter> sigma_sets (\<Omega>) (M)"
38656
d5d342611edb Rewrite the Probability theory.
hoelzl
parents: 37032
diff changeset
  1163
        by (metis Int_greatest Set.subsetI sbC sigma_sets.Basic)
d5d342611edb Rewrite the Probability theory.
hoelzl
parents: 37032
diff changeset
  1164
    next
47694
05663f75964c reworked Probability theory
hoelzl
parents: 46731
diff changeset
  1165
      show "closed_cdi \<Omega> (C \<inter> sigma_sets (\<Omega>) (M))"
38656
d5d342611edb Rewrite the Probability theory.
hoelzl
parents: 37032
diff changeset
  1166
        by (simp add: closed_cdi_def compl inc disj)
d5d342611edb Rewrite the Probability theory.
hoelzl
parents: 37032
diff changeset
  1167
           (metis PowI Set.subsetI le_infI2 sigma_sets_into_sp space_closed
d5d342611edb Rewrite the Probability theory.
hoelzl
parents: 37032
diff changeset
  1168
             IntE sigma_sets.Compl range_subsetD sigma_sets.Union)
d5d342611edb Rewrite the Probability theory.
hoelzl
parents: 37032
diff changeset
  1169
    qed
d5d342611edb Rewrite the Probability theory.
hoelzl
parents: 37032
diff changeset
  1170
  thus ?thesis
d5d342611edb Rewrite the Probability theory.
hoelzl
parents: 37032
diff changeset
  1171
    by blast
d5d342611edb Rewrite the Probability theory.
hoelzl
parents: 37032
diff changeset
  1172
qed
d5d342611edb Rewrite the Probability theory.
hoelzl
parents: 37032
diff changeset
  1173
61808
fc1556774cfe isabelle update_cartouches -c -t;
wenzelm
parents: 61633
diff changeset
  1174
subsubsection \<open>Dynkin systems\<close>
40859
de0b30e6c2d2 Support product spaces on sigma finite measures.
hoelzl
parents: 40702
diff changeset
  1175
42065
2b98b4c2e2f1 add ring_of_sets and subset_class as basis for algebra
hoelzl
parents: 41983
diff changeset
  1176
locale dynkin_system = subset_class +
47694
05663f75964c reworked Probability theory
hoelzl
parents: 46731
diff changeset
  1177
  assumes space: "\<Omega> \<in> M"
05663f75964c reworked Probability theory
hoelzl
parents: 46731
diff changeset
  1178
    and   compl[intro!]: "\<And>A. A \<in> M \<Longrightarrow> \<Omega> - A \<in> M"
05663f75964c reworked Probability theory
hoelzl
parents: 46731
diff changeset
  1179
    and   UN[intro!]: "\<And>A. disjoint_family A \<Longrightarrow> range A \<subseteq> M
05663f75964c reworked Probability theory
hoelzl
parents: 46731
diff changeset
  1180
                           \<Longrightarrow> (\<Union>i::nat. A i) \<in> M"
40859
de0b30e6c2d2 Support product spaces on sigma finite measures.
hoelzl
parents: 40702
diff changeset
  1181
47694
05663f75964c reworked Probability theory
hoelzl
parents: 46731
diff changeset
  1182
lemma (in dynkin_system) empty[intro, simp]: "{} \<in> M"
05663f75964c reworked Probability theory
hoelzl
parents: 46731
diff changeset
  1183
  using space compl[of "\<Omega>"] by simp
40859
de0b30e6c2d2 Support product spaces on sigma finite measures.
hoelzl
parents: 40702
diff changeset
  1184
de0b30e6c2d2 Support product spaces on sigma finite measures.
hoelzl
parents: 40702
diff changeset
  1185
lemma (in dynkin_system) diff:
47694
05663f75964c reworked Probability theory
hoelzl
parents: 46731
diff changeset
  1186
  assumes sets: "D \<in> M" "E \<in> M" and "D \<subseteq> E"
05663f75964c reworked Probability theory
hoelzl
parents: 46731
diff changeset
  1187
  shows "E - D \<in> M"
40859
de0b30e6c2d2 Support product spaces on sigma finite measures.
hoelzl
parents: 40702
diff changeset
  1188
proof -
47694
05663f75964c reworked Probability theory
hoelzl
parents: 46731
diff changeset
  1189
  let ?f = "\<lambda>x. if x = 0 then D else if x = Suc 0 then \<Omega> - E else {}"
05663f75964c reworked Probability theory
hoelzl
parents: 46731
diff changeset
  1190
  have "range ?f = {D, \<Omega> - E, {}}"
40859
de0b30e6c2d2 Support product spaces on sigma finite measures.
hoelzl
parents: 40702
diff changeset
  1191
    by (auto simp: image_iff)
47694
05663f75964c reworked Probability theory
hoelzl
parents: 46731
diff changeset
  1192
  moreover have "D \<union> (\<Omega> - E) = (\<Union>i. ?f i)"
40859
de0b30e6c2d2 Support product spaces on sigma finite measures.
hoelzl
parents: 40702
diff changeset
  1193
    by (auto simp: image_iff split: split_if_asm)
de0b30e6c2d2 Support product spaces on sigma finite measures.
hoelzl
parents: 40702
diff changeset
  1194
  moreover
53374
a14d2a854c02 tuned proofs -- clarified flow of facts wrt. calculation;
wenzelm
parents: 51683
diff changeset
  1195
  have "disjoint_family ?f" unfolding disjoint_family_on_def
61808
fc1556774cfe isabelle update_cartouches -c -t;
wenzelm
parents: 61633
diff changeset
  1196
    using \<open>D \<in> M\<close>[THEN sets_into_space] \<open>D \<subseteq> E\<close> by auto
47694
05663f75964c reworked Probability theory
hoelzl
parents: 46731
diff changeset
  1197
  ultimately have "\<Omega> - (D \<union> (\<Omega> - E)) \<in> M"
40859
de0b30e6c2d2 Support product spaces on sigma finite measures.
hoelzl
parents: 40702
diff changeset
  1198
    using sets by auto
47694
05663f75964c reworked Probability theory
hoelzl
parents: 46731
diff changeset
  1199
  also have "\<Omega> - (D \<union> (\<Omega> - E)) = E - D"
40859
de0b30e6c2d2 Support product spaces on sigma finite measures.
hoelzl
parents: 40702
diff changeset
  1200
    using assms sets_into_space by auto
de0b30e6c2d2 Support product spaces on sigma finite measures.
hoelzl
parents: 40702
diff changeset
  1201
  finally show ?thesis .
de0b30e6c2d2 Support product spaces on sigma finite measures.
hoelzl
parents: 40702
diff changeset
  1202
qed
de0b30e6c2d2 Support product spaces on sigma finite measures.
hoelzl
parents: 40702
diff changeset
  1203
de0b30e6c2d2 Support product spaces on sigma finite measures.
hoelzl
parents: 40702
diff changeset
  1204
lemma dynkin_systemI:
47694
05663f75964c reworked Probability theory
hoelzl
parents: 46731
diff changeset
  1205
  assumes "\<And> A. A \<in> M \<Longrightarrow> A \<subseteq> \<Omega>" "\<Omega> \<in> M"
05663f75964c reworked Probability theory
hoelzl
parents: 46731
diff changeset
  1206
  assumes "\<And> A. A \<in> M \<Longrightarrow> \<Omega> - A \<in> M"
05663f75964c reworked Probability theory
hoelzl
parents: 46731
diff changeset
  1207
  assumes "\<And> A. disjoint_family A \<Longrightarrow> range A \<subseteq> M
05663f75964c reworked Probability theory
hoelzl
parents: 46731
diff changeset
  1208
          \<Longrightarrow> (\<Union>i::nat. A i) \<in> M"
05663f75964c reworked Probability theory
hoelzl
parents: 46731
diff changeset
  1209
  shows "dynkin_system \<Omega> M"
42065
2b98b4c2e2f1 add ring_of_sets and subset_class as basis for algebra
hoelzl
parents: 41983
diff changeset
  1210
  using assms by (auto simp: dynkin_system_def dynkin_system_axioms_def subset_class_def)
40859
de0b30e6c2d2 Support product spaces on sigma finite measures.
hoelzl
parents: 40702
diff changeset
  1211
42988
d8f3fc934ff6 add lemma indep_distribution_eq_measure
hoelzl
parents: 42987
diff changeset
  1212
lemma dynkin_systemI':
47694
05663f75964c reworked Probability theory
hoelzl
parents: 46731
diff changeset
  1213
  assumes 1: "\<And> A. A \<in> M \<Longrightarrow> A \<subseteq> \<Omega>"
05663f75964c reworked Probability theory
hoelzl
parents: 46731
diff changeset
  1214
  assumes empty: "{} \<in> M"
05663f75964c reworked Probability theory
hoelzl
parents: 46731
diff changeset
  1215
  assumes Diff: "\<And> A. A \<in> M \<Longrightarrow> \<Omega> - A \<in> M"
05663f75964c reworked Probability theory
hoelzl
parents: 46731
diff changeset
  1216
  assumes 2: "\<And> A. disjoint_family A \<Longrightarrow> range A \<subseteq> M
05663f75964c reworked Probability theory
hoelzl
parents: 46731
diff changeset
  1217
          \<Longrightarrow> (\<Union>i::nat. A i) \<in> M"
05663f75964c reworked Probability theory
hoelzl
parents: 46731
diff changeset
  1218
  shows "dynkin_system \<Omega> M"
42988
d8f3fc934ff6 add lemma indep_distribution_eq_measure
hoelzl
parents: 42987
diff changeset
  1219
proof -
47694
05663f75964c reworked Probability theory
hoelzl
parents: 46731
diff changeset
  1220
  from Diff[OF empty] have "\<Omega> \<in> M" by auto
42988
d8f3fc934ff6 add lemma indep_distribution_eq_measure
hoelzl
parents: 42987
diff changeset
  1221
  from 1 this Diff 2 show ?thesis
d8f3fc934ff6 add lemma indep_distribution_eq_measure
hoelzl
parents: 42987
diff changeset
  1222
    by (intro dynkin_systemI) auto
d8f3fc934ff6 add lemma indep_distribution_eq_measure
hoelzl
parents: 42987
diff changeset
  1223
qed
d8f3fc934ff6 add lemma indep_distribution_eq_measure
hoelzl
parents: 42987
diff changeset
  1224
40859
de0b30e6c2d2 Support product spaces on sigma finite measures.
hoelzl
parents: 40702
diff changeset
  1225
lemma dynkin_system_trivial:
47694
05663f75964c reworked Probability theory
hoelzl
parents: 46731
diff changeset
  1226
  shows "dynkin_system A (Pow A)"
40859
de0b30e6c2d2 Support product spaces on sigma finite measures.
hoelzl
parents: 40702
diff changeset
  1227
  by (rule dynkin_systemI) auto
de0b30e6c2d2 Support product spaces on sigma finite measures.
hoelzl
parents: 40702
diff changeset
  1228
de0b30e6c2d2 Support product spaces on sigma finite measures.
hoelzl
parents: 40702
diff changeset
  1229
lemma sigma_algebra_imp_dynkin_system:
47694
05663f75964c reworked Probability theory
hoelzl
parents: 46731
diff changeset
  1230
  assumes "sigma_algebra \<Omega> M" shows "dynkin_system \<Omega> M"
40859
de0b30e6c2d2 Support product spaces on sigma finite measures.
hoelzl
parents: 40702
diff changeset
  1231
proof -
47694
05663f75964c reworked Probability theory
hoelzl
parents: 46731
diff changeset
  1232
  interpret sigma_algebra \<Omega> M by fact
44890
22f665a2e91c new fastforce replacing fastsimp - less confusing name
nipkow
parents: 44537
diff changeset
  1233
  show ?thesis using sets_into_space by (fastforce intro!: dynkin_systemI)
40859
de0b30e6c2d2 Support product spaces on sigma finite measures.
hoelzl
parents: 40702
diff changeset
  1234
qed
de0b30e6c2d2 Support product spaces on sigma finite measures.
hoelzl
parents: 40702
diff changeset
  1235
56994
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1236
subsubsection "Intersection sets systems"
40859
de0b30e6c2d2 Support product spaces on sigma finite measures.
hoelzl
parents: 40702
diff changeset
  1237
47694
05663f75964c reworked Probability theory
hoelzl
parents: 46731
diff changeset
  1238
definition "Int_stable M \<longleftrightarrow> (\<forall> a \<in> M. \<forall> b \<in> M. a \<inter> b \<in> M)"
40859
de0b30e6c2d2 Support product spaces on sigma finite measures.
hoelzl
parents: 40702
diff changeset
  1239
de0b30e6c2d2 Support product spaces on sigma finite measures.
hoelzl
parents: 40702
diff changeset
  1240
lemma (in algebra) Int_stable: "Int_stable M"
de0b30e6c2d2 Support product spaces on sigma finite measures.
hoelzl
parents: 40702
diff changeset
  1241
  unfolding Int_stable_def by auto
de0b30e6c2d2 Support product spaces on sigma finite measures.
hoelzl
parents: 40702
diff changeset
  1242
42981
fe7f5a26e4c6 add lemma indep_sets_collect_sigma
hoelzl
parents: 42867
diff changeset
  1243
lemma Int_stableI:
47694
05663f75964c reworked Probability theory
hoelzl
parents: 46731
diff changeset
  1244
  "(\<And>a b. a \<in> A \<Longrightarrow> b \<in> A \<Longrightarrow> a \<inter> b \<in> A) \<Longrightarrow> Int_stable A"
42981
fe7f5a26e4c6 add lemma indep_sets_collect_sigma
hoelzl
parents: 42867
diff changeset
  1245
  unfolding Int_stable_def by auto
fe7f5a26e4c6 add lemma indep_sets_collect_sigma
hoelzl
parents: 42867
diff changeset
  1246
fe7f5a26e4c6 add lemma indep_sets_collect_sigma
hoelzl
parents: 42867
diff changeset
  1247
lemma Int_stableD:
47694
05663f75964c reworked Probability theory
hoelzl
parents: 46731
diff changeset
  1248
  "Int_stable M \<Longrightarrow> a \<in> M \<Longrightarrow> b \<in> M \<Longrightarrow> a \<inter> b \<in> M"
42981
fe7f5a26e4c6 add lemma indep_sets_collect_sigma
hoelzl
parents: 42867
diff changeset
  1249
  unfolding Int_stable_def by auto
fe7f5a26e4c6 add lemma indep_sets_collect_sigma
hoelzl
parents: 42867
diff changeset
  1250
40859
de0b30e6c2d2 Support product spaces on sigma finite measures.
hoelzl
parents: 40702
diff changeset
  1251
lemma (in dynkin_system) sigma_algebra_eq_Int_stable:
47694
05663f75964c reworked Probability theory
hoelzl
parents: 46731
diff changeset
  1252
  "sigma_algebra \<Omega> M \<longleftrightarrow> Int_stable M"
40859
de0b30e6c2d2 Support product spaces on sigma finite measures.
hoelzl
parents: 40702
diff changeset
  1253
proof
47694
05663f75964c reworked Probability theory
hoelzl
parents: 46731
diff changeset
  1254
  assume "sigma_algebra \<Omega> M" then show "Int_stable M"
40859
de0b30e6c2d2 Support product spaces on sigma finite measures.
hoelzl
parents: 40702
diff changeset
  1255
    unfolding sigma_algebra_def using algebra.Int_stable by auto
de0b30e6c2d2 Support product spaces on sigma finite measures.
hoelzl
parents: 40702
diff changeset
  1256
next
de0b30e6c2d2 Support product spaces on sigma finite measures.
hoelzl
parents: 40702
diff changeset
  1257
  assume "Int_stable M"
47694
05663f75964c reworked Probability theory
hoelzl
parents: 46731
diff changeset
  1258
  show "sigma_algebra \<Omega> M"
42065
2b98b4c2e2f1 add ring_of_sets and subset_class as basis for algebra
hoelzl
parents: 41983
diff changeset
  1259
    unfolding sigma_algebra_disjoint_iff algebra_iff_Un
40859
de0b30e6c2d2 Support product spaces on sigma finite measures.
hoelzl
parents: 40702
diff changeset
  1260
  proof (intro conjI ballI allI impI)
47694
05663f75964c reworked Probability theory
hoelzl
parents: 46731
diff changeset
  1261
    show "M \<subseteq> Pow (\<Omega>)" using sets_into_space by auto
40859
de0b30e6c2d2 Support product spaces on sigma finite measures.
hoelzl
parents: 40702
diff changeset
  1262
  next
47694
05663f75964c reworked Probability theory
hoelzl
parents: 46731
diff changeset
  1263
    fix A B assume "A \<in> M" "B \<in> M"
05663f75964c reworked Probability theory
hoelzl
parents: 46731
diff changeset
  1264
    then have "A \<union> B = \<Omega> - ((\<Omega> - A) \<inter> (\<Omega> - B))"
05663f75964c reworked Probability theory
hoelzl
parents: 46731
diff changeset
  1265
              "\<Omega> - A \<in> M" "\<Omega> - B \<in> M"
40859
de0b30e6c2d2 Support product spaces on sigma finite measures.
hoelzl
parents: 40702
diff changeset
  1266
      using sets_into_space by auto
47694
05663f75964c reworked Probability theory
hoelzl
parents: 46731
diff changeset
  1267
    then show "A \<union> B \<in> M"
61808
fc1556774cfe isabelle update_cartouches -c -t;
wenzelm
parents: 61633
diff changeset
  1268
      using \<open>Int_stable M\<close> unfolding Int_stable_def by auto
40859
de0b30e6c2d2 Support product spaces on sigma finite measures.
hoelzl
parents: 40702
diff changeset
  1269
  qed auto
de0b30e6c2d2 Support product spaces on sigma finite measures.
hoelzl
parents: 40702
diff changeset
  1270
qed
de0b30e6c2d2 Support product spaces on sigma finite measures.
hoelzl
parents: 40702
diff changeset
  1271
56994
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1272
subsubsection "Smallest Dynkin systems"
40859
de0b30e6c2d2 Support product spaces on sigma finite measures.
hoelzl
parents: 40702
diff changeset
  1273
41689
3e39b0e730d6 the measure valuation is again part of the measure_space type, instead of an explicit parameter to the locale;
hoelzl
parents: 41543
diff changeset
  1274
definition dynkin where
47694
05663f75964c reworked Probability theory
hoelzl
parents: 46731
diff changeset
  1275
  "dynkin \<Omega> M =  (\<Inter>{D. dynkin_system \<Omega> D \<and> M \<subseteq> D})"
40859
de0b30e6c2d2 Support product spaces on sigma finite measures.
hoelzl
parents: 40702
diff changeset
  1276
de0b30e6c2d2 Support product spaces on sigma finite measures.
hoelzl
parents: 40702
diff changeset
  1277
lemma dynkin_system_dynkin:
47694
05663f75964c reworked Probability theory
hoelzl
parents: 46731
diff changeset
  1278
  assumes "M \<subseteq> Pow (\<Omega>)"
05663f75964c reworked Probability theory
hoelzl
parents: 46731
diff changeset
  1279
  shows "dynkin_system \<Omega> (dynkin \<Omega> M)"
40859
de0b30e6c2d2 Support product spaces on sigma finite measures.
hoelzl
parents: 40702
diff changeset
  1280
proof (rule dynkin_systemI)
47694
05663f75964c reworked Probability theory
hoelzl
parents: 46731
diff changeset
  1281
  fix A assume "A \<in> dynkin \<Omega> M"
40859
de0b30e6c2d2 Support product spaces on sigma finite measures.
hoelzl
parents: 40702
diff changeset
  1282
  moreover
47694
05663f75964c reworked Probability theory
hoelzl
parents: 46731
diff changeset
  1283
  { fix D assume "A \<in> D" and d: "dynkin_system \<Omega> D"
05663f75964c reworked Probability theory
hoelzl
parents: 46731
diff changeset
  1284
    then have "A \<subseteq> \<Omega>" by (auto simp: dynkin_system_def subset_class_def) }
05663f75964c reworked Probability theory
hoelzl
parents: 46731
diff changeset
  1285
  moreover have "{D. dynkin_system \<Omega> D \<and> M \<subseteq> D} \<noteq> {}"
44890
22f665a2e91c new fastforce replacing fastsimp - less confusing name
nipkow
parents: 44537
diff changeset
  1286
    using assms dynkin_system_trivial by fastforce
47694
05663f75964c reworked Probability theory
hoelzl
parents: 46731
diff changeset
  1287
  ultimately show "A \<subseteq> \<Omega>"
40859
de0b30e6c2d2 Support product spaces on sigma finite measures.
hoelzl
parents: 40702
diff changeset
  1288
    unfolding dynkin_def using assms
47694
05663f75964c reworked Probability theory
hoelzl
parents: 46731
diff changeset
  1289
    by auto
40859
de0b30e6c2d2 Support product spaces on sigma finite measures.
hoelzl
parents: 40702
diff changeset
  1290
next
47694
05663f75964c reworked Probability theory
hoelzl
parents: 46731
diff changeset
  1291
  show "\<Omega> \<in> dynkin \<Omega> M"
44890
22f665a2e91c new fastforce replacing fastsimp - less confusing name
nipkow
parents: 44537
diff changeset
  1292
    unfolding dynkin_def using dynkin_system.space by fastforce
40859
de0b30e6c2d2 Support product spaces on sigma finite measures.
hoelzl
parents: 40702
diff changeset
  1293
next
47694
05663f75964c reworked Probability theory
hoelzl
parents: 46731
diff changeset
  1294
  fix A assume "A \<in> dynkin \<Omega> M"
05663f75964c reworked Probability theory
hoelzl
parents: 46731
diff changeset
  1295
  then show "\<Omega> - A \<in> dynkin \<Omega> M"
40859
de0b30e6c2d2 Support product spaces on sigma finite measures.
hoelzl
parents: 40702
diff changeset
  1296
    unfolding dynkin_def using dynkin_system.compl by force
de0b30e6c2d2 Support product spaces on sigma finite measures.
hoelzl
parents: 40702
diff changeset
  1297
next
de0b30e6c2d2 Support product spaces on sigma finite measures.
hoelzl
parents: 40702
diff changeset
  1298
  fix A :: "nat \<Rightarrow> 'a set"
47694
05663f75964c reworked Probability theory
hoelzl
parents: 46731
diff changeset
  1299
  assume A: "disjoint_family A" "range A \<subseteq> dynkin \<Omega> M"
05663f75964c reworked Probability theory
hoelzl
parents: 46731
diff changeset
  1300
  show "(\<Union>i. A i) \<in> dynkin \<Omega> M" unfolding dynkin_def
40859
de0b30e6c2d2 Support product spaces on sigma finite measures.
hoelzl
parents: 40702
diff changeset
  1301
  proof (simp, safe)
47694
05663f75964c reworked Probability theory
hoelzl
parents: 46731
diff changeset
  1302
    fix D assume "dynkin_system \<Omega> D" "M \<subseteq> D"
05663f75964c reworked Probability theory
hoelzl
parents: 46731
diff changeset
  1303
    with A have "(\<Union>i. A i) \<in> D"
40859
de0b30e6c2d2 Support product spaces on sigma finite measures.
hoelzl
parents: 40702
diff changeset
  1304
      by (intro dynkin_system.UN) (auto simp: dynkin_def)
de0b30e6c2d2 Support product spaces on sigma finite measures.
hoelzl
parents: 40702
diff changeset
  1305
    then show "(\<Union>i. A i) \<in> D" by auto
de0b30e6c2d2 Support product spaces on sigma finite measures.
hoelzl
parents: 40702
diff changeset
  1306
  qed
de0b30e6c2d2 Support product spaces on sigma finite measures.
hoelzl
parents: 40702
diff changeset
  1307
qed
de0b30e6c2d2 Support product spaces on sigma finite measures.
hoelzl
parents: 40702
diff changeset
  1308
47694
05663f75964c reworked Probability theory
hoelzl
parents: 46731
diff changeset
  1309
lemma dynkin_Basic[intro]: "A \<in> M \<Longrightarrow> A \<in> dynkin \<Omega> M"
40859
de0b30e6c2d2 Support product spaces on sigma finite measures.
hoelzl
parents: 40702
diff changeset
  1310
  unfolding dynkin_def by auto
de0b30e6c2d2 Support product spaces on sigma finite measures.
hoelzl
parents: 40702
diff changeset
  1311
de0b30e6c2d2 Support product spaces on sigma finite measures.
hoelzl
parents: 40702
diff changeset
  1312
lemma (in dynkin_system) restricted_dynkin_system:
47694
05663f75964c reworked Probability theory
hoelzl
parents: 46731
diff changeset
  1313
  assumes "D \<in> M"
05663f75964c reworked Probability theory
hoelzl
parents: 46731
diff changeset
  1314
  shows "dynkin_system \<Omega> {Q. Q \<subseteq> \<Omega> \<and> Q \<inter> D \<in> M}"
40859
de0b30e6c2d2 Support product spaces on sigma finite measures.
hoelzl
parents: 40702
diff changeset
  1315
proof (rule dynkin_systemI, simp_all)
47694
05663f75964c reworked Probability theory
hoelzl
parents: 46731
diff changeset
  1316
  have "\<Omega> \<inter> D = D"
61808
fc1556774cfe isabelle update_cartouches -c -t;
wenzelm
parents: 61633
diff changeset
  1317
    using \<open>D \<in> M\<close> sets_into_space by auto
47694
05663f75964c reworked Probability theory
hoelzl
parents: 46731
diff changeset
  1318
  then show "\<Omega> \<inter> D \<in> M"
61808
fc1556774cfe isabelle update_cartouches -c -t;
wenzelm
parents: 61633
diff changeset
  1319
    using \<open>D \<in> M\<close> by auto
40859
de0b30e6c2d2 Support product spaces on sigma finite measures.
hoelzl
parents: 40702
diff changeset
  1320
next
47694
05663f75964c reworked Probability theory
hoelzl
parents: 46731
diff changeset
  1321
  fix A assume "A \<subseteq> \<Omega> \<and> A \<inter> D \<in> M"
05663f75964c reworked Probability theory
hoelzl
parents: 46731
diff changeset
  1322
  moreover have "(\<Omega> - A) \<inter> D = (\<Omega> - (A \<inter> D)) - (\<Omega> - D)"
40859
de0b30e6c2d2 Support product spaces on sigma finite measures.
hoelzl
parents: 40702
diff changeset
  1323
    by auto
47694
05663f75964c reworked Probability theory
hoelzl
parents: 46731
diff changeset
  1324
  ultimately show "\<Omega> - A \<subseteq> \<Omega> \<and> (\<Omega> - A) \<inter> D \<in> M"
61808
fc1556774cfe isabelle update_cartouches -c -t;
wenzelm
parents: 61633
diff changeset
  1325
    using  \<open>D \<in> M\<close> by (auto intro: diff)
40859
de0b30e6c2d2 Support product spaces on sigma finite measures.
hoelzl
parents: 40702
diff changeset
  1326
next
de0b30e6c2d2 Support product spaces on sigma finite measures.
hoelzl
parents: 40702
diff changeset
  1327
  fix A :: "nat \<Rightarrow> 'a set"
47694
05663f75964c reworked Probability theory
hoelzl
parents: 46731
diff changeset
  1328
  assume "disjoint_family A" "range A \<subseteq> {Q. Q \<subseteq> \<Omega> \<and> Q \<inter> D \<in> M}"
05663f75964c reworked Probability theory
hoelzl
parents: 46731
diff changeset
  1329
  then have "\<And>i. A i \<subseteq> \<Omega>" "disjoint_family (\<lambda>i. A i \<inter> D)"
05663f75964c reworked Probability theory
hoelzl
parents: 46731
diff changeset
  1330
    "range (\<lambda>i. A i \<inter> D) \<subseteq> M" "(\<Union>x. A x) \<inter> D = (\<Union>x. A x \<inter> D)"
44890
22f665a2e91c new fastforce replacing fastsimp - less confusing name
nipkow
parents: 44537
diff changeset
  1331
    by ((fastforce simp: disjoint_family_on_def)+)
47694
05663f75964c reworked Probability theory
hoelzl
parents: 46731
diff changeset
  1332
  then show "(\<Union>x. A x) \<subseteq> \<Omega> \<and> (\<Union>x. A x) \<inter> D \<in> M"
40859
de0b30e6c2d2 Support product spaces on sigma finite measures.
hoelzl
parents: 40702
diff changeset
  1333
    by (auto simp del: UN_simps)
de0b30e6c2d2 Support product spaces on sigma finite measures.
hoelzl
parents: 40702
diff changeset
  1334
qed
de0b30e6c2d2 Support product spaces on sigma finite measures.
hoelzl
parents: 40702
diff changeset
  1335
de0b30e6c2d2 Support product spaces on sigma finite measures.
hoelzl
parents: 40702
diff changeset
  1336
lemma (in dynkin_system) dynkin_subset:
47694
05663f75964c reworked Probability theory
hoelzl
parents: 46731
diff changeset
  1337
  assumes "N \<subseteq> M"
05663f75964c reworked Probability theory
hoelzl
parents: 46731
diff changeset
  1338
  shows "dynkin \<Omega> N \<subseteq> M"
40859
de0b30e6c2d2 Support product spaces on sigma finite measures.
hoelzl
parents: 40702
diff changeset
  1339
proof -
61169
4de9ff3ea29a tuned proofs -- less legacy;
wenzelm
parents: 60772
diff changeset
  1340
  have "dynkin_system \<Omega> M" ..
47694
05663f75964c reworked Probability theory
hoelzl
parents: 46731
diff changeset
  1341
  then have "dynkin_system \<Omega> M"
42065
2b98b4c2e2f1 add ring_of_sets and subset_class as basis for algebra
hoelzl
parents: 41983
diff changeset
  1342
    using assms unfolding dynkin_system_def dynkin_system_axioms_def subset_class_def by simp
61808
fc1556774cfe isabelle update_cartouches -c -t;
wenzelm
parents: 61633
diff changeset
  1343
  with \<open>N \<subseteq> M\<close> show ?thesis by (auto simp add: dynkin_def)
40859
de0b30e6c2d2 Support product spaces on sigma finite measures.
hoelzl
parents: 40702
diff changeset
  1344
qed
de0b30e6c2d2 Support product spaces on sigma finite measures.
hoelzl
parents: 40702
diff changeset
  1345
de0b30e6c2d2 Support product spaces on sigma finite measures.
hoelzl
parents: 40702
diff changeset
  1346
lemma sigma_eq_dynkin:
47694
05663f75964c reworked Probability theory
hoelzl
parents: 46731
diff changeset
  1347
  assumes sets: "M \<subseteq> Pow \<Omega>"
40859
de0b30e6c2d2 Support product spaces on sigma finite measures.
hoelzl
parents: 40702
diff changeset
  1348
  assumes "Int_stable M"
47694
05663f75964c reworked Probability theory
hoelzl
parents: 46731
diff changeset
  1349
  shows "sigma_sets \<Omega> M = dynkin \<Omega> M"
40859
de0b30e6c2d2 Support product spaces on sigma finite measures.
hoelzl
parents: 40702
diff changeset
  1350
proof -
47694
05663f75964c reworked Probability theory
hoelzl
parents: 46731
diff changeset
  1351
  have "dynkin \<Omega> M \<subseteq> sigma_sets (\<Omega>) (M)"
40859
de0b30e6c2d2 Support product spaces on sigma finite measures.
hoelzl
parents: 40702
diff changeset
  1352
    using sigma_algebra_imp_dynkin_system
47694
05663f75964c reworked Probability theory
hoelzl
parents: 46731
diff changeset
  1353
    unfolding dynkin_def sigma_sets_least_sigma_algebra[OF sets] by auto
40859
de0b30e6c2d2 Support product spaces on sigma finite measures.
hoelzl
parents: 40702
diff changeset
  1354
  moreover
47694
05663f75964c reworked Probability theory
hoelzl
parents: 46731
diff changeset
  1355
  interpret dynkin_system \<Omega> "dynkin \<Omega> M"
40859
de0b30e6c2d2 Support product spaces on sigma finite measures.
hoelzl
parents: 40702
diff changeset
  1356
    using dynkin_system_dynkin[OF sets] .
47694
05663f75964c reworked Probability theory
hoelzl
parents: 46731
diff changeset
  1357
  have "sigma_algebra \<Omega> (dynkin \<Omega> M)"
40859
de0b30e6c2d2 Support product spaces on sigma finite measures.
hoelzl
parents: 40702
diff changeset
  1358
    unfolding sigma_algebra_eq_Int_stable Int_stable_def
de0b30e6c2d2 Support product spaces on sigma finite measures.
hoelzl
parents: 40702
diff changeset
  1359
  proof (intro ballI)
47694
05663f75964c reworked Probability theory
hoelzl
parents: 46731
diff changeset
  1360
    fix A B assume "A \<in> dynkin \<Omega> M" "B \<in> dynkin \<Omega> M"
05663f75964c reworked Probability theory
hoelzl
parents: 46731
diff changeset
  1361
    let ?D = "\<lambda>E. {Q. Q \<subseteq> \<Omega> \<and> Q \<inter> E \<in> dynkin \<Omega> M}"
05663f75964c reworked Probability theory
hoelzl
parents: 46731
diff changeset
  1362
    have "M \<subseteq> ?D B"
40859
de0b30e6c2d2 Support product spaces on sigma finite measures.
hoelzl
parents: 40702
diff changeset
  1363
    proof
47694
05663f75964c reworked Probability theory
hoelzl
parents: 46731
diff changeset
  1364
      fix E assume "E \<in> M"
05663f75964c reworked Probability theory
hoelzl
parents: 46731
diff changeset
  1365
      then have "M \<subseteq> ?D E" "E \<in> dynkin \<Omega> M"
61808
fc1556774cfe isabelle update_cartouches -c -t;
wenzelm
parents: 61633
diff changeset
  1366
        using sets_into_space \<open>Int_stable M\<close> by (auto simp: Int_stable_def)
47694
05663f75964c reworked Probability theory
hoelzl
parents: 46731
diff changeset
  1367
      then have "dynkin \<Omega> M \<subseteq> ?D E"
61808
fc1556774cfe isabelle update_cartouches -c -t;
wenzelm
parents: 61633
diff changeset
  1368
        using restricted_dynkin_system \<open>E \<in> dynkin \<Omega> M\<close>
40859
de0b30e6c2d2 Support product spaces on sigma finite measures.
hoelzl
parents: 40702
diff changeset
  1369
        by (intro dynkin_system.dynkin_subset) simp_all
47694
05663f75964c reworked Probability theory
hoelzl
parents: 46731
diff changeset
  1370
      then have "B \<in> ?D E"
61808
fc1556774cfe isabelle update_cartouches -c -t;
wenzelm
parents: 61633
diff changeset
  1371
        using \<open>B \<in> dynkin \<Omega> M\<close> by auto
47694
05663f75964c reworked Probability theory
hoelzl
parents: 46731
diff changeset
  1372
      then have "E \<inter> B \<in> dynkin \<Omega> M"
40859
de0b30e6c2d2 Support product spaces on sigma finite measures.
hoelzl
parents: 40702
diff changeset
  1373
        by (subst Int_commute) simp
47694
05663f75964c reworked Probability theory
hoelzl
parents: 46731
diff changeset
  1374
      then show "E \<in> ?D B"
61808
fc1556774cfe isabelle update_cartouches -c -t;
wenzelm
parents: 61633
diff changeset
  1375
        using sets \<open>E \<in> M\<close> by auto
40859
de0b30e6c2d2 Support product spaces on sigma finite measures.
hoelzl
parents: 40702
diff changeset
  1376
    qed
47694
05663f75964c reworked Probability theory
hoelzl
parents: 46731
diff changeset
  1377
    then have "dynkin \<Omega> M \<subseteq> ?D B"
61808
fc1556774cfe isabelle update_cartouches -c -t;
wenzelm
parents: 61633
diff changeset
  1378
      using restricted_dynkin_system \<open>B \<in> dynkin \<Omega> M\<close>
40859
de0b30e6c2d2 Support product spaces on sigma finite measures.
hoelzl
parents: 40702
diff changeset
  1379
      by (intro dynkin_system.dynkin_subset) simp_all
47694
05663f75964c reworked Probability theory
hoelzl
parents: 46731
diff changeset
  1380
    then show "A \<inter> B \<in> dynkin \<Omega> M"
61808
fc1556774cfe isabelle update_cartouches -c -t;
wenzelm
parents: 61633
diff changeset
  1381
      using \<open>A \<in> dynkin \<Omega> M\<close> sets_into_space by auto
40859
de0b30e6c2d2 Support product spaces on sigma finite measures.
hoelzl
parents: 40702
diff changeset
  1382
  qed
47694
05663f75964c reworked Probability theory
hoelzl
parents: 46731
diff changeset
  1383
  from sigma_algebra.sigma_sets_subset[OF this, of "M"]
05663f75964c reworked Probability theory
hoelzl
parents: 46731
diff changeset
  1384
  have "sigma_sets (\<Omega>) (M) \<subseteq> dynkin \<Omega> M" by auto
05663f75964c reworked Probability theory
hoelzl
parents: 46731
diff changeset
  1385
  ultimately have "sigma_sets (\<Omega>) (M) = dynkin \<Omega> M" by auto
40859
de0b30e6c2d2 Support product spaces on sigma finite measures.
hoelzl
parents: 40702
diff changeset
  1386
  then show ?thesis
47694
05663f75964c reworked Probability theory
hoelzl
parents: 46731
diff changeset
  1387
    by (auto simp: dynkin_def)
40859
de0b30e6c2d2 Support product spaces on sigma finite measures.
hoelzl
parents: 40702
diff changeset
  1388
qed
de0b30e6c2d2 Support product spaces on sigma finite measures.
hoelzl
parents: 40702
diff changeset
  1389
de0b30e6c2d2 Support product spaces on sigma finite measures.
hoelzl
parents: 40702
diff changeset
  1390
lemma (in dynkin_system) dynkin_idem:
47694
05663f75964c reworked Probability theory
hoelzl
parents: 46731
diff changeset
  1391
  "dynkin \<Omega> M = M"
40859
de0b30e6c2d2 Support product spaces on sigma finite measures.
hoelzl
parents: 40702
diff changeset
  1392
proof -
47694
05663f75964c reworked Probability theory
hoelzl
parents: 46731
diff changeset
  1393
  have "dynkin \<Omega> M = M"
40859
de0b30e6c2d2 Support product spaces on sigma finite measures.
hoelzl
parents: 40702
diff changeset
  1394
  proof
47694
05663f75964c reworked Probability theory
hoelzl
parents: 46731
diff changeset
  1395
    show "M \<subseteq> dynkin \<Omega> M"
40859
de0b30e6c2d2 Support product spaces on sigma finite measures.
hoelzl
parents: 40702
diff changeset
  1396
      using dynkin_Basic by auto
47694
05663f75964c reworked Probability theory
hoelzl
parents: 46731
diff changeset
  1397
    show "dynkin \<Omega> M \<subseteq> M"
40859
de0b30e6c2d2 Support product spaces on sigma finite measures.
hoelzl
parents: 40702
diff changeset
  1398
      by (intro dynkin_subset) auto
de0b30e6c2d2 Support product spaces on sigma finite measures.
hoelzl
parents: 40702
diff changeset
  1399
  qed
de0b30e6c2d2 Support product spaces on sigma finite measures.
hoelzl
parents: 40702
diff changeset
  1400
  then show ?thesis
47694
05663f75964c reworked Probability theory
hoelzl
parents: 46731
diff changeset
  1401
    by (auto simp: dynkin_def)
40859
de0b30e6c2d2 Support product spaces on sigma finite measures.
hoelzl
parents: 40702
diff changeset
  1402
qed
de0b30e6c2d2 Support product spaces on sigma finite measures.
hoelzl
parents: 40702
diff changeset
  1403
de0b30e6c2d2 Support product spaces on sigma finite measures.
hoelzl
parents: 40702
diff changeset
  1404
lemma (in dynkin_system) dynkin_lemma:
41689
3e39b0e730d6 the measure valuation is again part of the measure_space type, instead of an explicit parameter to the locale;
hoelzl
parents: 41543
diff changeset
  1405
  assumes "Int_stable E"
47694
05663f75964c reworked Probability theory
hoelzl
parents: 46731
diff changeset
  1406
  and E: "E \<subseteq> M" "M \<subseteq> sigma_sets \<Omega> E"
05663f75964c reworked Probability theory
hoelzl
parents: 46731
diff changeset
  1407
  shows "sigma_sets \<Omega> E = M"
40859
de0b30e6c2d2 Support product spaces on sigma finite measures.
hoelzl
parents: 40702
diff changeset
  1408
proof -
47694
05663f75964c reworked Probability theory
hoelzl
parents: 46731
diff changeset
  1409
  have "E \<subseteq> Pow \<Omega>"
41689
3e39b0e730d6 the measure valuation is again part of the measure_space type, instead of an explicit parameter to the locale;
hoelzl
parents: 41543
diff changeset
  1410
    using E sets_into_space by force
53374
a14d2a854c02 tuned proofs -- clarified flow of facts wrt. calculation;
wenzelm
parents: 51683
diff changeset
  1411
  then have *: "sigma_sets \<Omega> E = dynkin \<Omega> E"
61808
fc1556774cfe isabelle update_cartouches -c -t;
wenzelm
parents: 61633
diff changeset
  1412
    using \<open>Int_stable E\<close> by (rule sigma_eq_dynkin)
53374
a14d2a854c02 tuned proofs -- clarified flow of facts wrt. calculation;
wenzelm
parents: 51683
diff changeset
  1413
  then have "dynkin \<Omega> E = M"
47694
05663f75964c reworked Probability theory
hoelzl
parents: 46731
diff changeset
  1414
    using assms dynkin_subset[OF E(1)] by simp
53374
a14d2a854c02 tuned proofs -- clarified flow of facts wrt. calculation;
wenzelm
parents: 51683
diff changeset
  1415
  with * show ?thesis
47694
05663f75964c reworked Probability theory
hoelzl
parents: 46731
diff changeset
  1416
    using assms by (auto simp: dynkin_def)
42864
403e1cba1123 add measurable_Least
hoelzl
parents: 42863
diff changeset
  1417
qed
403e1cba1123 add measurable_Least
hoelzl
parents: 42863
diff changeset
  1418
61808
fc1556774cfe isabelle update_cartouches -c -t;
wenzelm
parents: 61633
diff changeset
  1419
subsubsection \<open>Induction rule for intersection-stable generators\<close>
56994
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1420
61808
fc1556774cfe isabelle update_cartouches -c -t;
wenzelm
parents: 61633
diff changeset
  1421
text \<open>The reason to introduce Dynkin-systems is the following induction rules for $\sigma$-algebras
fc1556774cfe isabelle update_cartouches -c -t;
wenzelm
parents: 61633
diff changeset
  1422
generated by a generator closed under intersection.\<close>
56994
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1423
49789
e0a4cb91a8a9 add induction rule for intersection-stable sigma-sets
hoelzl
parents: 49782
diff changeset
  1424
lemma sigma_sets_induct_disjoint[consumes 3, case_names basic empty compl union]:
e0a4cb91a8a9 add induction rule for intersection-stable sigma-sets
hoelzl
parents: 49782
diff changeset
  1425
  assumes "Int_stable G"
e0a4cb91a8a9 add induction rule for intersection-stable sigma-sets
hoelzl
parents: 49782
diff changeset
  1426
    and closed: "G \<subseteq> Pow \<Omega>"
e0a4cb91a8a9 add induction rule for intersection-stable sigma-sets
hoelzl
parents: 49782
diff changeset
  1427
    and A: "A \<in> sigma_sets \<Omega> G"
e0a4cb91a8a9 add induction rule for intersection-stable sigma-sets
hoelzl
parents: 49782
diff changeset
  1428
  assumes basic: "\<And>A. A \<in> G \<Longrightarrow> P A"
e0a4cb91a8a9 add induction rule for intersection-stable sigma-sets
hoelzl
parents: 49782
diff changeset
  1429
    and empty: "P {}"
e0a4cb91a8a9 add induction rule for intersection-stable sigma-sets
hoelzl
parents: 49782
diff changeset
  1430
    and compl: "\<And>A. A \<in> sigma_sets \<Omega> G \<Longrightarrow> P A \<Longrightarrow> P (\<Omega> - A)"
e0a4cb91a8a9 add induction rule for intersection-stable sigma-sets
hoelzl
parents: 49782
diff changeset
  1431
    and union: "\<And>A. disjoint_family A \<Longrightarrow> range A \<subseteq> sigma_sets \<Omega> G \<Longrightarrow> (\<And>i. P (A i)) \<Longrightarrow> P (\<Union>i::nat. A i)"
e0a4cb91a8a9 add induction rule for intersection-stable sigma-sets
hoelzl
parents: 49782
diff changeset
  1432
  shows "P A"
e0a4cb91a8a9 add induction rule for intersection-stable sigma-sets
hoelzl
parents: 49782
diff changeset
  1433
proof -
e0a4cb91a8a9 add induction rule for intersection-stable sigma-sets
hoelzl
parents: 49782
diff changeset
  1434
  let ?D = "{ A \<in> sigma_sets \<Omega> G. P A }"
e0a4cb91a8a9 add induction rule for intersection-stable sigma-sets
hoelzl
parents: 49782
diff changeset
  1435
  interpret sigma_algebra \<Omega> "sigma_sets \<Omega> G"
e0a4cb91a8a9 add induction rule for intersection-stable sigma-sets
hoelzl
parents: 49782
diff changeset
  1436
    using closed by (rule sigma_algebra_sigma_sets)
e0a4cb91a8a9 add induction rule for intersection-stable sigma-sets
hoelzl
parents: 49782
diff changeset
  1437
  from compl[OF _ empty] closed have space: "P \<Omega>" by simp
e0a4cb91a8a9 add induction rule for intersection-stable sigma-sets
hoelzl
parents: 49782
diff changeset
  1438
  interpret dynkin_system \<Omega> ?D
61169
4de9ff3ea29a tuned proofs -- less legacy;
wenzelm
parents: 60772
diff changeset
  1439
    by standard (auto dest: sets_into_space intro!: space compl union)
49789
e0a4cb91a8a9 add induction rule for intersection-stable sigma-sets
hoelzl
parents: 49782
diff changeset
  1440
  have "sigma_sets \<Omega> G = ?D"
61808
fc1556774cfe isabelle update_cartouches -c -t;
wenzelm
parents: 61633
diff changeset
  1441
    by (rule dynkin_lemma) (auto simp: basic \<open>Int_stable G\<close>)
49789
e0a4cb91a8a9 add induction rule for intersection-stable sigma-sets
hoelzl
parents: 49782
diff changeset
  1442
  with A show ?thesis by auto
e0a4cb91a8a9 add induction rule for intersection-stable sigma-sets
hoelzl
parents: 49782
diff changeset
  1443
qed
e0a4cb91a8a9 add induction rule for intersection-stable sigma-sets
hoelzl
parents: 49782
diff changeset
  1444
61808
fc1556774cfe isabelle update_cartouches -c -t;
wenzelm
parents: 61633
diff changeset
  1445
subsection \<open>Measure type\<close>
56994
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1446
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1447
definition positive :: "'a set set \<Rightarrow> ('a set \<Rightarrow> ereal) \<Rightarrow> bool" where
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1448
  "positive M \<mu> \<longleftrightarrow> \<mu> {} = 0 \<and> (\<forall>A\<in>M. 0 \<le> \<mu> A)"
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1449
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1450
definition countably_additive :: "'a set set \<Rightarrow> ('a set \<Rightarrow> ereal) \<Rightarrow> bool" where
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1451
  "countably_additive M f \<longleftrightarrow> (\<forall>A. range A \<subseteq> M \<longrightarrow> disjoint_family A \<longrightarrow> (\<Union>i. A i) \<in> M \<longrightarrow>
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1452
    (\<Sum>i. f (A i)) = f (\<Union>i. A i))"
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1453
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1454
definition measure_space :: "'a set \<Rightarrow> 'a set set \<Rightarrow> ('a set \<Rightarrow> ereal) \<Rightarrow> bool" where
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1455
  "measure_space \<Omega> A \<mu> \<longleftrightarrow> sigma_algebra \<Omega> A \<and> positive A \<mu> \<and> countably_additive A \<mu>"
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1456
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1457
typedef 'a measure = "{(\<Omega>::'a set, A, \<mu>). (\<forall>a\<in>-A. \<mu> a = 0) \<and> measure_space \<Omega> A \<mu> }"
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1458
proof
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1459
  have "sigma_algebra UNIV {{}, UNIV}"
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1460
    by (auto simp: sigma_algebra_iff2)
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1461
  then show "(UNIV, {{}, UNIV}, \<lambda>A. 0) \<in> {(\<Omega>, A, \<mu>). (\<forall>a\<in>-A. \<mu> a = 0) \<and> measure_space \<Omega> A \<mu>} "
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1462
    by (auto simp: measure_space_def positive_def countably_additive_def)
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1463
qed
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1464
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1465
definition space :: "'a measure \<Rightarrow> 'a set" where
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1466
  "space M = fst (Rep_measure M)"
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1467
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1468
definition sets :: "'a measure \<Rightarrow> 'a set set" where
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1469
  "sets M = fst (snd (Rep_measure M))"
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1470
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1471
definition emeasure :: "'a measure \<Rightarrow> 'a set \<Rightarrow> ereal" where
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1472
  "emeasure M = snd (snd (Rep_measure M))"
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1473
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1474
definition measure :: "'a measure \<Rightarrow> 'a set \<Rightarrow> real" where
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: 61384
diff changeset
  1475
  "measure M A = real_of_ereal (emeasure M A)"
56994
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1476
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1477
declare [[coercion sets]]
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1478
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1479
declare [[coercion measure]]
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1480
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1481
declare [[coercion emeasure]]
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1482
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1483
lemma measure_space: "measure_space (space M) (sets M) (emeasure M)"
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1484
  by (cases M) (auto simp: space_def sets_def emeasure_def Abs_measure_inverse)
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1485
61605
1bf7b186542e qualifier is mandatory by default;
wenzelm
parents: 61384
diff changeset
  1486
interpretation sets: sigma_algebra "space M" "sets M" for M :: "'a measure"
56994
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1487
  using measure_space[of M] by (auto simp: measure_space_def)
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1488
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1489
definition measure_of :: "'a set \<Rightarrow> 'a set set \<Rightarrow> ('a set \<Rightarrow> ereal) \<Rightarrow> 'a measure" where
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1490
  "measure_of \<Omega> A \<mu> = Abs_measure (\<Omega>, if A \<subseteq> Pow \<Omega> then sigma_sets \<Omega> A else {{}, \<Omega>},
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1491
    \<lambda>a. if a \<in> sigma_sets \<Omega> A \<and> measure_space \<Omega> (sigma_sets \<Omega> A) \<mu> then \<mu> a else 0)"
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1492
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1493
abbreviation "sigma \<Omega> A \<equiv> measure_of \<Omega> A (\<lambda>x. 0)"
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1494
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1495
lemma measure_space_0: "A \<subseteq> Pow \<Omega> \<Longrightarrow> measure_space \<Omega> (sigma_sets \<Omega> A) (\<lambda>x. 0)"
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1496
  unfolding measure_space_def
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1497
  by (auto intro!: sigma_algebra_sigma_sets simp: positive_def countably_additive_def)
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1498
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1499
lemma sigma_algebra_trivial: "sigma_algebra \<Omega> {{}, \<Omega>}"
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1500
by unfold_locales(fastforce intro: exI[where x="{{}}"] exI[where x="{\<Omega>}"])+
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1501
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1502
lemma measure_space_0': "measure_space \<Omega> {{}, \<Omega>} (\<lambda>x. 0)"
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1503
by(simp add: measure_space_def positive_def countably_additive_def sigma_algebra_trivial)
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1504
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1505
lemma measure_space_closed:
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1506
  assumes "measure_space \<Omega> M \<mu>"
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1507
  shows "M \<subseteq> Pow \<Omega>"
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1508
proof -
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1509
  interpret sigma_algebra \<Omega> M using assms by(simp add: measure_space_def)
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1510
  show ?thesis by(rule space_closed)
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1511
qed
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1512
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1513
lemma (in ring_of_sets) positive_cong_eq:
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1514
  "(\<And>a. a \<in> M \<Longrightarrow> \<mu>' a = \<mu> a) \<Longrightarrow> positive M \<mu>' = positive M \<mu>"
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1515
  by (auto simp add: positive_def)
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1516
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1517
lemma (in sigma_algebra) countably_additive_eq:
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1518
  "(\<And>a. a \<in> M \<Longrightarrow> \<mu>' a = \<mu> a) \<Longrightarrow> countably_additive M \<mu>' = countably_additive M \<mu>"
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1519
  unfolding countably_additive_def
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1520
  by (intro arg_cong[where f=All] ext) (auto simp add: countably_additive_def subset_eq)
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1521
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1522
lemma measure_space_eq:
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1523
  assumes closed: "A \<subseteq> Pow \<Omega>" and eq: "\<And>a. a \<in> sigma_sets \<Omega> A \<Longrightarrow> \<mu> a = \<mu>' a"
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1524
  shows "measure_space \<Omega> (sigma_sets \<Omega> A) \<mu> = measure_space \<Omega> (sigma_sets \<Omega> A) \<mu>'"
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1525
proof -
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1526
  interpret sigma_algebra \<Omega> "sigma_sets \<Omega> A" using closed by (rule sigma_algebra_sigma_sets)
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1527
  from positive_cong_eq[OF eq, of "\<lambda>i. i"] countably_additive_eq[OF eq, of "\<lambda>i. i"] show ?thesis
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1528
    by (auto simp: measure_space_def)
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1529
qed
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1530
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1531
lemma measure_of_eq:
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1532
  assumes closed: "A \<subseteq> Pow \<Omega>" and eq: "(\<And>a. a \<in> sigma_sets \<Omega> A \<Longrightarrow> \<mu> a = \<mu>' a)"
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1533
  shows "measure_of \<Omega> A \<mu> = measure_of \<Omega> A \<mu>'"
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1534
proof -
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1535
  have "measure_space \<Omega> (sigma_sets \<Omega> A) \<mu> = measure_space \<Omega> (sigma_sets \<Omega> A) \<mu>'"
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1536
    using assms by (rule measure_space_eq)
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1537
  with eq show ?thesis
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1538
    by (auto simp add: measure_of_def intro!: arg_cong[where f=Abs_measure])
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1539
qed
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1540
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1541
lemma
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1542
  shows space_measure_of_conv: "space (measure_of \<Omega> A \<mu>) = \<Omega>" (is ?space)
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1543
  and sets_measure_of_conv:
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1544
  "sets (measure_of \<Omega> A \<mu>) = (if A \<subseteq> Pow \<Omega> then sigma_sets \<Omega> A else {{}, \<Omega>})" (is ?sets)
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1545
  and emeasure_measure_of_conv: 
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1546
  "emeasure (measure_of \<Omega> A \<mu>) = 
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1547
  (\<lambda>B. if B \<in> sigma_sets \<Omega> A \<and> measure_space \<Omega> (sigma_sets \<Omega> A) \<mu> then \<mu> B else 0)" (is ?emeasure)
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1548
proof -
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1549
  have "?space \<and> ?sets \<and> ?emeasure"
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1550
  proof(cases "measure_space \<Omega> (sigma_sets \<Omega> A) \<mu>")
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1551
    case True
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1552
    from measure_space_closed[OF this] sigma_sets_superset_generator[of A \<Omega>]
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1553
    have "A \<subseteq> Pow \<Omega>" by simp
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1554
    hence "measure_space \<Omega> (sigma_sets \<Omega> A) \<mu> = measure_space \<Omega> (sigma_sets \<Omega> A)
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1555
      (\<lambda>a. if a \<in> sigma_sets \<Omega> A then \<mu> a else 0)"
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1556
      by(rule measure_space_eq) auto
61808
fc1556774cfe isabelle update_cartouches -c -t;
wenzelm
parents: 61633
diff changeset
  1557
    with True \<open>A \<subseteq> Pow \<Omega>\<close> show ?thesis
56994
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1558
      by(simp add: measure_of_def space_def sets_def emeasure_def Abs_measure_inverse)
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1559
  next
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1560
    case False thus ?thesis
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1561
      by(cases "A \<subseteq> Pow \<Omega>")(simp_all add: Abs_measure_inverse measure_of_def sets_def space_def emeasure_def measure_space_0 measure_space_0')
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1562
  qed
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1563
  thus ?space ?sets ?emeasure by simp_all
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1564
qed
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1565
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1566
lemma [simp]:
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1567
  assumes A: "A \<subseteq> Pow \<Omega>"
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1568
  shows sets_measure_of: "sets (measure_of \<Omega> A \<mu>) = sigma_sets \<Omega> A"
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1569
    and space_measure_of: "space (measure_of \<Omega> A \<mu>) = \<Omega>"
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1570
using assms
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1571
by(simp_all add: sets_measure_of_conv space_measure_of_conv)
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1572
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1573
lemma (in sigma_algebra) sets_measure_of_eq[simp]: "sets (measure_of \<Omega> M \<mu>) = M"
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1574
  using space_closed by (auto intro!: sigma_sets_eq)
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1575
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1576
lemma (in sigma_algebra) space_measure_of_eq[simp]: "space (measure_of \<Omega> M \<mu>) = \<Omega>"
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1577
  by (rule space_measure_of_conv)
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1578
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1579
lemma measure_of_subset: "M \<subseteq> Pow \<Omega> \<Longrightarrow> M' \<subseteq> M \<Longrightarrow> sets (measure_of \<Omega> M' \<mu>) \<subseteq> sets (measure_of \<Omega> M \<mu>')"
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1580
  by (auto intro!: sigma_sets_subseteq)
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1581
59000
6eb0725503fc import general theorems from AFP/Markov_Models
hoelzl
parents: 58876
diff changeset
  1582
lemma emeasure_sigma: "emeasure (sigma \<Omega> A) = (\<lambda>x. 0)"
6eb0725503fc import general theorems from AFP/Markov_Models
hoelzl
parents: 58876
diff changeset
  1583
  unfolding measure_of_def emeasure_def
6eb0725503fc import general theorems from AFP/Markov_Models
hoelzl
parents: 58876
diff changeset
  1584
  by (subst Abs_measure_inverse)
6eb0725503fc import general theorems from AFP/Markov_Models
hoelzl
parents: 58876
diff changeset
  1585
     (auto simp: measure_space_def positive_def countably_additive_def
6eb0725503fc import general theorems from AFP/Markov_Models
hoelzl
parents: 58876
diff changeset
  1586
           intro!: sigma_algebra_sigma_sets sigma_algebra_trivial)
6eb0725503fc import general theorems from AFP/Markov_Models
hoelzl
parents: 58876
diff changeset
  1587
56994
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1588
lemma sigma_sets_mono'':
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1589
  assumes "A \<in> sigma_sets C D"
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1590
  assumes "B \<subseteq> D"
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1591
  assumes "D \<subseteq> Pow C"
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1592
  shows "sigma_sets A B \<subseteq> sigma_sets C D"
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1593
proof
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1594
  fix x assume "x \<in> sigma_sets A B"
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1595
  thus "x \<in> sigma_sets C D"
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1596
  proof induct
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1597
    case (Basic a) with assms have "a \<in> D" by auto
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1598
    thus ?case ..
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1599
  next
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1600
    case Empty show ?case by (rule sigma_sets.Empty)
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1601
  next
61808
fc1556774cfe isabelle update_cartouches -c -t;
wenzelm
parents: 61633
diff changeset
  1602
    from assms have "A \<in> sets (sigma C D)" by (subst sets_measure_of[OF \<open>D \<subseteq> Pow C\<close>])
fc1556774cfe isabelle update_cartouches -c -t;
wenzelm
parents: 61633
diff changeset
  1603
    moreover case (Compl a) hence "a \<in> sets (sigma C D)" by (subst sets_measure_of[OF \<open>D \<subseteq> Pow C\<close>])
56994
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1604
    ultimately have "A - a \<in> sets (sigma C D)" ..
61808
fc1556774cfe isabelle update_cartouches -c -t;
wenzelm
parents: 61633
diff changeset
  1605
    thus ?case by (subst (asm) sets_measure_of[OF \<open>D \<subseteq> Pow C\<close>])
56994
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1606
  next
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1607
    case (Union a)
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1608
    thus ?case by (intro sigma_sets.Union)
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1609
  qed
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1610
qed
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1611
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1612
lemma in_measure_of[intro, simp]: "M \<subseteq> Pow \<Omega> \<Longrightarrow> A \<in> M \<Longrightarrow> A \<in> sets (measure_of \<Omega> M \<mu>)"
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1613
  by auto
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1614
58606
9c66f7c541fb add Giry monad
hoelzl
parents: 58588
diff changeset
  1615
lemma space_empty_iff: "space N = {} \<longleftrightarrow> sets N = {{}}"
9c66f7c541fb add Giry monad
hoelzl
parents: 58588
diff changeset
  1616
  by (metis Pow_empty Sup_bot_conv(1) cSup_singleton empty_iff
9c66f7c541fb add Giry monad
hoelzl
parents: 58588
diff changeset
  1617
            sets.sigma_sets_eq sets.space_closed sigma_sets_top subset_singletonD)
9c66f7c541fb add Giry monad
hoelzl
parents: 58588
diff changeset
  1618
61808
fc1556774cfe isabelle update_cartouches -c -t;
wenzelm
parents: 61633
diff changeset
  1619
subsubsection \<open>Constructing simple @{typ "'a measure"}\<close>
56994
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1620
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1621
lemma emeasure_measure_of:
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1622
  assumes M: "M = measure_of \<Omega> A \<mu>"
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1623
  assumes ms: "A \<subseteq> Pow \<Omega>" "positive (sets M) \<mu>" "countably_additive (sets M) \<mu>"
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1624
  assumes X: "X \<in> sets M"
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1625
  shows "emeasure M X = \<mu> X"
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1626
proof -
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1627
  interpret sigma_algebra \<Omega> "sigma_sets \<Omega> A" by (rule sigma_algebra_sigma_sets) fact
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1628
  have "measure_space \<Omega> (sigma_sets \<Omega> A) \<mu>"
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1629
    using ms M by (simp add: measure_space_def sigma_algebra_sigma_sets)
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1630
  thus ?thesis using X ms
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1631
    by(simp add: M emeasure_measure_of_conv sets_measure_of_conv)
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1632
qed
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1633
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1634
lemma emeasure_measure_of_sigma:
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1635
  assumes ms: "sigma_algebra \<Omega> M" "positive M \<mu>" "countably_additive M \<mu>"
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1636
  assumes A: "A \<in> M"
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1637
  shows "emeasure (measure_of \<Omega> M \<mu>) A = \<mu> A"
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1638
proof -
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1639
  interpret sigma_algebra \<Omega> M by fact
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1640
  have "measure_space \<Omega> (sigma_sets \<Omega> M) \<mu>"
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1641
    using ms sigma_sets_eq by (simp add: measure_space_def)
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1642
  thus ?thesis by(simp add: emeasure_measure_of_conv A)
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1643
qed
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1644
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1645
lemma measure_cases[cases type: measure]:
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1646
  obtains (measure) \<Omega> A \<mu> where "x = Abs_measure (\<Omega>, A, \<mu>)" "\<forall>a\<in>-A. \<mu> a = 0" "measure_space \<Omega> A \<mu>"
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1647
  by atomize_elim (cases x, auto)
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1648
60772
a0cfa9050fa8 Measures form a CCPO
hoelzl
parents: 60727
diff changeset
  1649
lemma sets_le_imp_space_le: "sets A \<subseteq> sets B \<Longrightarrow> space A \<subseteq> space B"
a0cfa9050fa8 Measures form a CCPO
hoelzl
parents: 60727
diff changeset
  1650
  by (auto dest: sets.sets_into_space)
a0cfa9050fa8 Measures form a CCPO
hoelzl
parents: 60727
diff changeset
  1651
a0cfa9050fa8 Measures form a CCPO
hoelzl
parents: 60727
diff changeset
  1652
lemma sets_eq_imp_space_eq: "sets M = sets M' \<Longrightarrow> space M = space M'"
a0cfa9050fa8 Measures form a CCPO
hoelzl
parents: 60727
diff changeset
  1653
  by (auto intro!: antisym sets_le_imp_space_le)
56994
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1654
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1655
lemma emeasure_notin_sets: "A \<notin> sets M \<Longrightarrow> emeasure M A = 0"
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1656
  by (cases M) (auto simp: sets_def emeasure_def Abs_measure_inverse measure_space_def)
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1657
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1658
lemma emeasure_neq_0_sets: "emeasure M A \<noteq> 0 \<Longrightarrow> A \<in> sets M"
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1659
  using emeasure_notin_sets[of A M] by blast
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1660
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1661
lemma measure_notin_sets: "A \<notin> sets M \<Longrightarrow> measure M A = 0"
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1662
  by (simp add: measure_def emeasure_notin_sets)
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1663
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1664
lemma measure_eqI:
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1665
  fixes M N :: "'a measure"
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1666
  assumes "sets M = sets N" and eq: "\<And>A. A \<in> sets M \<Longrightarrow> emeasure M A = emeasure N A"
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1667
  shows "M = N"
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1668
proof (cases M N rule: measure_cases[case_product measure_cases])
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1669
  case (measure_measure \<Omega> A \<mu> \<Omega>' A' \<mu>')
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1670
  interpret M: sigma_algebra \<Omega> A using measure_measure by (auto simp: measure_space_def)
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1671
  interpret N: sigma_algebra \<Omega>' A' using measure_measure by (auto simp: measure_space_def)
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1672
  have "A = sets M" "A' = sets N"
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1673
    using measure_measure by (simp_all add: sets_def Abs_measure_inverse)
61808
fc1556774cfe isabelle update_cartouches -c -t;
wenzelm
parents: 61633
diff changeset
  1674
  with \<open>sets M = sets N\<close> have AA': "A = A'" by simp
56994
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1675
  moreover from M.top N.top M.space_closed N.space_closed AA' have "\<Omega> = \<Omega>'" by auto
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1676
  moreover { fix B have "\<mu> B = \<mu>' B"
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1677
    proof cases
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1678
      assume "B \<in> A"
61808
fc1556774cfe isabelle update_cartouches -c -t;
wenzelm
parents: 61633
diff changeset
  1679
      with eq \<open>A = sets M\<close> have "emeasure M B = emeasure N B" by simp
56994
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1680
      with measure_measure show "\<mu> B = \<mu>' B"
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1681
        by (simp add: emeasure_def Abs_measure_inverse)
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1682
    next
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1683
      assume "B \<notin> A"
61808
fc1556774cfe isabelle update_cartouches -c -t;
wenzelm
parents: 61633
diff changeset
  1684
      with \<open>A = sets M\<close> \<open>A' = sets N\<close> \<open>A = A'\<close> have "B \<notin> sets M" "B \<notin> sets N"
56994
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1685
        by auto
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1686
      then have "emeasure M B = 0" "emeasure N B = 0"
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1687
        by (simp_all add: emeasure_notin_sets)
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1688
      with measure_measure show "\<mu> B = \<mu>' B"
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1689
        by (simp add: emeasure_def Abs_measure_inverse)
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1690
    qed }
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1691
  then have "\<mu> = \<mu>'" by auto
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1692
  ultimately show "M = N"
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1693
    by (simp add: measure_measure)
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1694
qed
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1695
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1696
lemma sigma_eqI:
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1697
  assumes [simp]: "M \<subseteq> Pow \<Omega>" "N \<subseteq> Pow \<Omega>" "sigma_sets \<Omega> M = sigma_sets \<Omega> N"
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1698
  shows "sigma \<Omega> M = sigma \<Omega> N"
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1699
  by (rule measure_eqI) (simp_all add: emeasure_sigma)
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1700
61808
fc1556774cfe isabelle update_cartouches -c -t;
wenzelm
parents: 61633
diff changeset
  1701
subsubsection \<open>Measurable functions\<close>
56994
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1702
61847
9e38cde3d672 infix syntax for measurable set
hoelzl
parents: 61808
diff changeset
  1703
definition measurable :: "'a measure \<Rightarrow> 'b measure \<Rightarrow> ('a \<Rightarrow> 'b) set" (infixr "\<rightarrow>\<^sub>M" 60) where
61384
9f5145281888 prefer symbols;
wenzelm
parents: 61169
diff changeset
  1704
  "measurable A B = {f \<in> space A \<rightarrow> space B. \<forall>y \<in> sets B. f -` y \<inter> space A \<in> sets A}"
56994
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1705
59415
854fe701c984 tuned measurability proofs
hoelzl
parents: 59361
diff changeset
  1706
lemma measurableI:
854fe701c984 tuned measurability proofs
hoelzl
parents: 59361
diff changeset
  1707
  "(\<And>x. x \<in> space M \<Longrightarrow> f x \<in> space N) \<Longrightarrow> (\<And>A. A \<in> sets N \<Longrightarrow> f -` A \<inter> space M \<in> sets M) \<Longrightarrow>
854fe701c984 tuned measurability proofs
hoelzl
parents: 59361
diff changeset
  1708
    f \<in> measurable M N"
854fe701c984 tuned measurability proofs
hoelzl
parents: 59361
diff changeset
  1709
  by (auto simp: measurable_def)
854fe701c984 tuned measurability proofs
hoelzl
parents: 59361
diff changeset
  1710
56994
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1711
lemma measurable_space:
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1712
  "f \<in> measurable M A \<Longrightarrow> x \<in> space M \<Longrightarrow> f x \<in> space A"
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1713
   unfolding measurable_def by auto
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1714
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1715
lemma measurable_sets:
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1716
  "f \<in> measurable M A \<Longrightarrow> S \<in> sets A \<Longrightarrow> f -` S \<inter> space M \<in> sets M"
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1717
   unfolding measurable_def by auto
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1718
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1719
lemma measurable_sets_Collect:
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1720
  assumes f: "f \<in> measurable M N" and P: "{x\<in>space N. P x} \<in> sets N" shows "{x\<in>space M. P (f x)} \<in> sets M"
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1721
proof -
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1722
  have "f -` {x \<in> space N. P x} \<inter> space M = {x\<in>space M. P (f x)}"
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1723
    using measurable_space[OF f] by auto
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1724
  with measurable_sets[OF f P] show ?thesis
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1725
    by simp
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1726
qed
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1727
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1728
lemma measurable_sigma_sets:
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1729
  assumes B: "sets N = sigma_sets \<Omega> A" "A \<subseteq> Pow \<Omega>"
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1730
      and f: "f \<in> space M \<rightarrow> \<Omega>"
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1731
      and ba: "\<And>y. y \<in> A \<Longrightarrow> (f -` y) \<inter> space M \<in> sets M"
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1732
  shows "f \<in> measurable M N"
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1733
proof -
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1734
  interpret A: sigma_algebra \<Omega> "sigma_sets \<Omega> A" using B(2) by (rule sigma_algebra_sigma_sets)
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1735
  from B sets.top[of N] A.top sets.space_closed[of N] A.space_closed have \<Omega>: "\<Omega> = space N" by force
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1736
  
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1737
  { fix X assume "X \<in> sigma_sets \<Omega> A"
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1738
    then have "f -` X \<inter> space M \<in> sets M \<and> X \<subseteq> \<Omega>"
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1739
      proof induct
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1740
        case (Basic a) then show ?case
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1741
          by (auto simp add: ba) (metis B(2) subsetD PowD)
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1742
      next
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1743
        case (Compl a)
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1744
        have [simp]: "f -` \<Omega> \<inter> space M = space M"
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1745
          by (auto simp add: funcset_mem [OF f])
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1746
        then show ?case
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1747
          by (auto simp add: vimage_Diff Diff_Int_distrib2 sets.compl_sets Compl)
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1748
      next
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1749
        case (Union a)
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1750
        then show ?case
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1751
          by (simp add: vimage_UN, simp only: UN_extend_simps(4)) blast
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1752
      qed auto }
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1753
  with f show ?thesis
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1754
    by (auto simp add: measurable_def B \<Omega>)
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1755
qed
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1756
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1757
lemma measurable_measure_of:
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1758
  assumes B: "N \<subseteq> Pow \<Omega>"
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1759
      and f: "f \<in> space M \<rightarrow> \<Omega>"
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1760
      and ba: "\<And>y. y \<in> N \<Longrightarrow> (f -` y) \<inter> space M \<in> sets M"
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1761
  shows "f \<in> measurable M (measure_of \<Omega> N \<mu>)"
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1762
proof -
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1763
  have "sets (measure_of \<Omega> N \<mu>) = sigma_sets \<Omega> N"
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1764
    using B by (rule sets_measure_of)
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1765
  from this assms show ?thesis by (rule measurable_sigma_sets)
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1766
qed
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1767
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1768
lemma measurable_iff_measure_of:
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1769
  assumes "N \<subseteq> Pow \<Omega>" "f \<in> space M \<rightarrow> \<Omega>"
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1770
  shows "f \<in> measurable M (measure_of \<Omega> N \<mu>) \<longleftrightarrow> (\<forall>A\<in>N. f -` A \<inter> space M \<in> sets M)"
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1771
  by (metis assms in_measure_of measurable_measure_of assms measurable_sets)
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1772
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1773
lemma measurable_cong_sets:
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1774
  assumes sets: "sets M = sets M'" "sets N = sets N'"
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1775
  shows "measurable M N = measurable M' N'"
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1776
  using sets[THEN sets_eq_imp_space_eq] sets by (simp add: measurable_def)
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1777
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1778
lemma measurable_cong:
59415
854fe701c984 tuned measurability proofs
hoelzl
parents: 59361
diff changeset
  1779
  assumes "\<And>w. w \<in> space M \<Longrightarrow> f w = g w"
56994
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1780
  shows "f \<in> measurable M M' \<longleftrightarrow> g \<in> measurable M M'"
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1781
  unfolding measurable_def using assms
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1782
  by (simp cong: vimage_inter_cong Pi_cong)
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1783
59415
854fe701c984 tuned measurability proofs
hoelzl
parents: 59361
diff changeset
  1784
lemma measurable_cong':
854fe701c984 tuned measurability proofs
hoelzl
parents: 59361
diff changeset
  1785
  assumes "\<And>w. w \<in> space M =simp=> f w = g w"
854fe701c984 tuned measurability proofs
hoelzl
parents: 59361
diff changeset
  1786
  shows "f \<in> measurable M M' \<longleftrightarrow> g \<in> measurable M M'"
854fe701c984 tuned measurability proofs
hoelzl
parents: 59361
diff changeset
  1787
  unfolding measurable_def using assms
854fe701c984 tuned measurability proofs
hoelzl
parents: 59361
diff changeset
  1788
  by (simp cong: vimage_inter_cong Pi_cong add: simp_implies_def)
854fe701c984 tuned measurability proofs
hoelzl
parents: 59361
diff changeset
  1789
56994
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1790
lemma measurable_cong_strong:
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1791
  "M = N \<Longrightarrow> M' = N' \<Longrightarrow> (\<And>w. w \<in> space M \<Longrightarrow> f w = g w) \<Longrightarrow>
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1792
    f \<in> measurable M M' \<longleftrightarrow> g \<in> measurable N N'"
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1793
  by (metis measurable_cong)
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1794
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1795
lemma measurable_compose:
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1796
  assumes f: "f \<in> measurable M N" and g: "g \<in> measurable N L"
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1797
  shows "(\<lambda>x. g (f x)) \<in> measurable M L"
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1798
proof -
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1799
  have "\<And>A. (\<lambda>x. g (f x)) -` A \<inter> space M = f -` (g -` A \<inter> space N) \<inter> space M"
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1800
    using measurable_space[OF f] by auto
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1801
  with measurable_space[OF f] measurable_space[OF g] show ?thesis
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1802
    by (auto intro: measurable_sets[OF f] measurable_sets[OF g]
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1803
             simp del: vimage_Int simp add: measurable_def)
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1804
qed
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1805
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1806
lemma measurable_comp:
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1807
  "f \<in> measurable M N \<Longrightarrow> g \<in> measurable N L \<Longrightarrow> g \<circ> f \<in> measurable M L"
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1808
  using measurable_compose[of f M N g L] by (simp add: comp_def)
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1809
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1810
lemma measurable_const:
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1811
  "c \<in> space M' \<Longrightarrow> (\<lambda>x. c) \<in> measurable M M'"
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1812
  by (auto simp add: measurable_def)
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1813
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1814
lemma measurable_ident: "id \<in> measurable M M"
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1815
  by (auto simp add: measurable_def)
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1816
59048
7dc8ac6f0895 add congruence solver to measurability prover
hoelzl
parents: 59000
diff changeset
  1817
lemma measurable_id: "(\<lambda>x. x) \<in> measurable M M"
7dc8ac6f0895 add congruence solver to measurability prover
hoelzl
parents: 59000
diff changeset
  1818
  by (simp add: measurable_def)
7dc8ac6f0895 add congruence solver to measurability prover
hoelzl
parents: 59000
diff changeset
  1819
56994
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1820
lemma measurable_ident_sets:
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1821
  assumes eq: "sets M = sets M'" shows "(\<lambda>x. x) \<in> measurable M M'"
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1822
  using measurable_ident[of M]
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1823
  unfolding id_def measurable_def eq sets_eq_imp_space_eq[OF eq] .
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1824
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1825
lemma sets_Least:
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1826
  assumes meas: "\<And>i::nat. {x\<in>space M. P i x} \<in> M"
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1827
  shows "(\<lambda>x. LEAST j. P j x) -` A \<inter> space M \<in> sets M"
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1828
proof -
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1829
  { fix i have "(\<lambda>x. LEAST j. P j x) -` {i} \<inter> space M \<in> sets M"
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1830
    proof cases
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1831
      assume i: "(LEAST j. False) = i"
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1832
      have "(\<lambda>x. LEAST j. P j x) -` {i} \<inter> space M =
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1833
        {x\<in>space M. P i x} \<inter> (space M - (\<Union>j<i. {x\<in>space M. P j x})) \<union> (space M - (\<Union>i. {x\<in>space M. P i x}))"
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1834
        by (simp add: set_eq_iff, safe)
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1835
           (insert i, auto dest: Least_le intro: LeastI intro!: Least_equality)
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1836
      with meas show ?thesis
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1837
        by (auto intro!: sets.Int)
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1838
    next
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1839
      assume i: "(LEAST j. False) \<noteq> i"
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1840
      then have "(\<lambda>x. LEAST j. P j x) -` {i} \<inter> space M =
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1841
        {x\<in>space M. P i x} \<inter> (space M - (\<Union>j<i. {x\<in>space M. P j x}))"
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1842
      proof (simp add: set_eq_iff, safe)
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1843
        fix x assume neq: "(LEAST j. False) \<noteq> (LEAST j. P j x)"
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1844
        have "\<exists>j. P j x"
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1845
          by (rule ccontr) (insert neq, auto)
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1846
        then show "P (LEAST j. P j x) x" by (rule LeastI_ex)
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1847
      qed (auto dest: Least_le intro!: Least_equality)
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1848
      with meas show ?thesis
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1849
        by auto
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1850
    qed }
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1851
  then have "(\<Union>i\<in>A. (\<lambda>x. LEAST j. P j x) -` {i} \<inter> space M) \<in> sets M"
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1852
    by (intro sets.countable_UN) auto
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1853
  moreover have "(\<Union>i\<in>A. (\<lambda>x. LEAST j. P j x) -` {i} \<inter> space M) =
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1854
    (\<lambda>x. LEAST j. P j x) -` A \<inter> space M" by auto
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1855
  ultimately show ?thesis by auto
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1856
qed
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1857
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1858
lemma measurable_mono1:
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1859
  "M' \<subseteq> Pow \<Omega> \<Longrightarrow> M \<subseteq> M' \<Longrightarrow>
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1860
    measurable (measure_of \<Omega> M \<mu>) N \<subseteq> measurable (measure_of \<Omega> M' \<mu>') N"
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1861
  using measure_of_subset[of M' \<Omega> M] by (auto simp add: measurable_def)
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1862
61808
fc1556774cfe isabelle update_cartouches -c -t;
wenzelm
parents: 61633
diff changeset
  1863
subsubsection \<open>Counting space\<close>
56994
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1864
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1865
definition count_space :: "'a set \<Rightarrow> 'a measure" where
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1866
  "count_space \<Omega> = measure_of \<Omega> (Pow \<Omega>) (\<lambda>A. if finite A then ereal (card A) else \<infinity>)"
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1867
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1868
lemma 
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1869
  shows space_count_space[simp]: "space (count_space \<Omega>) = \<Omega>"
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1870
    and sets_count_space[simp]: "sets (count_space \<Omega>) = Pow \<Omega>"
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1871
  using sigma_sets_into_sp[of "Pow \<Omega>" \<Omega>]
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1872
  by (auto simp: count_space_def)
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1873
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1874
lemma measurable_count_space_eq1[simp]:
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1875
  "f \<in> measurable (count_space A) M \<longleftrightarrow> f \<in> A \<rightarrow> space M"
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1876
 unfolding measurable_def by simp
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1877
59000
6eb0725503fc import general theorems from AFP/Markov_Models
hoelzl
parents: 58876
diff changeset
  1878
lemma measurable_compose_countable':
6eb0725503fc import general theorems from AFP/Markov_Models
hoelzl
parents: 58876
diff changeset
  1879
  assumes f: "\<And>i. i \<in> I \<Longrightarrow> (\<lambda>x. f i x) \<in> measurable M N"
6eb0725503fc import general theorems from AFP/Markov_Models
hoelzl
parents: 58876
diff changeset
  1880
  and g: "g \<in> measurable M (count_space I)" and I: "countable I"
56994
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1881
  shows "(\<lambda>x. f (g x) x) \<in> measurable M N"
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1882
  unfolding measurable_def
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1883
proof safe
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1884
  fix x assume "x \<in> space M" then show "f (g x) x \<in> space N"
59000
6eb0725503fc import general theorems from AFP/Markov_Models
hoelzl
parents: 58876
diff changeset
  1885
    using measurable_space[OF f] g[THEN measurable_space] by auto
56994
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1886
next
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1887
  fix A assume A: "A \<in> sets N"
59000
6eb0725503fc import general theorems from AFP/Markov_Models
hoelzl
parents: 58876
diff changeset
  1888
  have "(\<lambda>x. f (g x) x) -` A \<inter> space M = (\<Union>i\<in>I. (g -` {i} \<inter> space M) \<inter> (f i -` A \<inter> space M))"
6eb0725503fc import general theorems from AFP/Markov_Models
hoelzl
parents: 58876
diff changeset
  1889
    using measurable_space[OF g] by auto
59415
854fe701c984 tuned measurability proofs
hoelzl
parents: 59361
diff changeset
  1890
  also have "\<dots> \<in> sets M"
854fe701c984 tuned measurability proofs
hoelzl
parents: 59361
diff changeset
  1891
    using f[THEN measurable_sets, OF _ A] g[THEN measurable_sets]
854fe701c984 tuned measurability proofs
hoelzl
parents: 59361
diff changeset
  1892
    by (auto intro!: sets.countable_UN' I intro: sets.Int[OF measurable_sets measurable_sets])
56994
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1893
  finally show "(\<lambda>x. f (g x) x) -` A \<inter> space M \<in> sets M" .
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1894
qed
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1895
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1896
lemma measurable_count_space_eq_countable:
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1897
  assumes "countable A"
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1898
  shows "f \<in> measurable M (count_space A) \<longleftrightarrow> (f \<in> space M \<rightarrow> A \<and> (\<forall>a\<in>A. f -` {a} \<inter> space M \<in> sets M))"
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1899
proof -
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1900
  { fix X assume "X \<subseteq> A" "f \<in> space M \<rightarrow> A"
61808
fc1556774cfe isabelle update_cartouches -c -t;
wenzelm
parents: 61633
diff changeset
  1901
    with \<open>countable A\<close> have "f -` X \<inter> space M = (\<Union>a\<in>X. f -` {a} \<inter> space M)" "countable X"
56994
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1902
      by (auto dest: countable_subset)
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1903
    moreover assume "\<forall>a\<in>A. f -` {a} \<inter> space M \<in> sets M"
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1904
    ultimately have "f -` X \<inter> space M \<in> sets M"
61808
fc1556774cfe isabelle update_cartouches -c -t;
wenzelm
parents: 61633
diff changeset
  1905
      using \<open>X \<subseteq> A\<close> by (auto intro!: sets.countable_UN' simp del: UN_simps) }
56994
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1906
  then show ?thesis
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1907
    unfolding measurable_def by auto
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1908
qed
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1909
59415
854fe701c984 tuned measurability proofs
hoelzl
parents: 59361
diff changeset
  1910
lemma measurable_count_space_eq2:
854fe701c984 tuned measurability proofs
hoelzl
parents: 59361
diff changeset
  1911
  "finite A \<Longrightarrow> f \<in> measurable M (count_space A) \<longleftrightarrow> (f \<in> space M \<rightarrow> A \<and> (\<forall>a\<in>A. f -` {a} \<inter> space M \<in> sets M))"
854fe701c984 tuned measurability proofs
hoelzl
parents: 59361
diff changeset
  1912
  by (intro measurable_count_space_eq_countable countable_finite)
854fe701c984 tuned measurability proofs
hoelzl
parents: 59361
diff changeset
  1913
854fe701c984 tuned measurability proofs
hoelzl
parents: 59361
diff changeset
  1914
lemma measurable_count_space_eq2_countable:
854fe701c984 tuned measurability proofs
hoelzl
parents: 59361
diff changeset
  1915
  fixes f :: "'a => 'c::countable"
854fe701c984 tuned measurability proofs
hoelzl
parents: 59361
diff changeset
  1916
  shows "f \<in> measurable M (count_space A) \<longleftrightarrow> (f \<in> space M \<rightarrow> A \<and> (\<forall>a\<in>A. f -` {a} \<inter> space M \<in> sets M))"
854fe701c984 tuned measurability proofs
hoelzl
parents: 59361
diff changeset
  1917
  by (intro measurable_count_space_eq_countable countableI_type)
854fe701c984 tuned measurability proofs
hoelzl
parents: 59361
diff changeset
  1918
854fe701c984 tuned measurability proofs
hoelzl
parents: 59361
diff changeset
  1919
lemma measurable_compose_countable:
854fe701c984 tuned measurability proofs
hoelzl
parents: 59361
diff changeset
  1920
  assumes f: "\<And>i::'i::countable. (\<lambda>x. f i x) \<in> measurable M N" and g: "g \<in> measurable M (count_space UNIV)"
854fe701c984 tuned measurability proofs
hoelzl
parents: 59361
diff changeset
  1921
  shows "(\<lambda>x. f (g x) x) \<in> measurable M N"
854fe701c984 tuned measurability proofs
hoelzl
parents: 59361
diff changeset
  1922
  by (rule measurable_compose_countable'[OF assms]) auto
854fe701c984 tuned measurability proofs
hoelzl
parents: 59361
diff changeset
  1923
854fe701c984 tuned measurability proofs
hoelzl
parents: 59361
diff changeset
  1924
lemma measurable_count_space_const:
854fe701c984 tuned measurability proofs
hoelzl
parents: 59361
diff changeset
  1925
  "(\<lambda>x. c) \<in> measurable M (count_space UNIV)"
854fe701c984 tuned measurability proofs
hoelzl
parents: 59361
diff changeset
  1926
  by (simp add: measurable_const)
854fe701c984 tuned measurability proofs
hoelzl
parents: 59361
diff changeset
  1927
854fe701c984 tuned measurability proofs
hoelzl
parents: 59361
diff changeset
  1928
lemma measurable_count_space:
854fe701c984 tuned measurability proofs
hoelzl
parents: 59361
diff changeset
  1929
  "f \<in> measurable (count_space A) (count_space UNIV)"
854fe701c984 tuned measurability proofs
hoelzl
parents: 59361
diff changeset
  1930
  by simp
854fe701c984 tuned measurability proofs
hoelzl
parents: 59361
diff changeset
  1931
854fe701c984 tuned measurability proofs
hoelzl
parents: 59361
diff changeset
  1932
lemma measurable_compose_rev:
854fe701c984 tuned measurability proofs
hoelzl
parents: 59361
diff changeset
  1933
  assumes f: "f \<in> measurable L N" and g: "g \<in> measurable M L"
854fe701c984 tuned measurability proofs
hoelzl
parents: 59361
diff changeset
  1934
  shows "(\<lambda>x. f (g x)) \<in> measurable M N"
854fe701c984 tuned measurability proofs
hoelzl
parents: 59361
diff changeset
  1935
  using measurable_compose[OF g f] .
854fe701c984 tuned measurability proofs
hoelzl
parents: 59361
diff changeset
  1936
58606
9c66f7c541fb add Giry monad
hoelzl
parents: 58588
diff changeset
  1937
lemma measurable_empty_iff: 
9c66f7c541fb add Giry monad
hoelzl
parents: 58588
diff changeset
  1938
  "space N = {} \<Longrightarrow> f \<in> measurable M N \<longleftrightarrow> space M = {}"
9c66f7c541fb add Giry monad
hoelzl
parents: 58588
diff changeset
  1939
  by (auto simp add: measurable_def Pi_iff)
9c66f7c541fb add Giry monad
hoelzl
parents: 58588
diff changeset
  1940
61808
fc1556774cfe isabelle update_cartouches -c -t;
wenzelm
parents: 61633
diff changeset
  1941
subsubsection \<open>Extend measure\<close>
56994
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1942
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1943
definition "extend_measure \<Omega> I G \<mu> =
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1944
  (if (\<exists>\<mu>'. (\<forall>i\<in>I. \<mu>' (G i) = \<mu> i) \<and> measure_space \<Omega> (sigma_sets \<Omega> (G`I)) \<mu>') \<and> \<not> (\<forall>i\<in>I. \<mu> i = 0)
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1945
      then measure_of \<Omega> (G`I) (SOME \<mu>'. (\<forall>i\<in>I. \<mu>' (G i) = \<mu> i) \<and> measure_space \<Omega> (sigma_sets \<Omega> (G`I)) \<mu>')
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1946
      else measure_of \<Omega> (G`I) (\<lambda>_. 0))"
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1947
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1948
lemma space_extend_measure: "G ` I \<subseteq> Pow \<Omega> \<Longrightarrow> space (extend_measure \<Omega> I G \<mu>) = \<Omega>"
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1949
  unfolding extend_measure_def by simp
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1950
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1951
lemma sets_extend_measure: "G ` I \<subseteq> Pow \<Omega> \<Longrightarrow> sets (extend_measure \<Omega> I G \<mu>) = sigma_sets \<Omega> (G`I)"
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1952
  unfolding extend_measure_def by simp
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1953
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1954
lemma emeasure_extend_measure:
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1955
  assumes M: "M = extend_measure \<Omega> I G \<mu>"
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1956
    and eq: "\<And>i. i \<in> I \<Longrightarrow> \<mu>' (G i) = \<mu> i"
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1957
    and ms: "G ` I \<subseteq> Pow \<Omega>" "positive (sets M) \<mu>'" "countably_additive (sets M) \<mu>'"
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1958
    and "i \<in> I"
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1959
  shows "emeasure M (G i) = \<mu> i"
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1960
proof cases
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1961
  assume *: "(\<forall>i\<in>I. \<mu> i = 0)"
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1962
  with M have M_eq: "M = measure_of \<Omega> (G`I) (\<lambda>_. 0)"
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1963
   by (simp add: extend_measure_def)
61808
fc1556774cfe isabelle update_cartouches -c -t;
wenzelm
parents: 61633
diff changeset
  1964
  from measure_space_0[OF ms(1)] ms \<open>i\<in>I\<close>
56994
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1965
  have "emeasure M (G i) = 0"
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1966
    by (intro emeasure_measure_of[OF M_eq]) (auto simp add: M measure_space_def sets_extend_measure)
61808
fc1556774cfe isabelle update_cartouches -c -t;
wenzelm
parents: 61633
diff changeset
  1967
  with \<open>i\<in>I\<close> * show ?thesis
56994
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1968
    by simp
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1969
next
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1970
  def P \<equiv> "\<lambda>\<mu>'. (\<forall>i\<in>I. \<mu>' (G i) = \<mu> i) \<and> measure_space \<Omega> (sigma_sets \<Omega> (G`I)) \<mu>'"
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1971
  assume "\<not> (\<forall>i\<in>I. \<mu> i = 0)"
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1972
  moreover
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1973
  have "measure_space (space M) (sets M) \<mu>'"
61169
4de9ff3ea29a tuned proofs -- less legacy;
wenzelm
parents: 60772
diff changeset
  1974
    using ms unfolding measure_space_def by auto standard
56994
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1975
  with ms eq have "\<exists>\<mu>'. P \<mu>'"
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1976
    unfolding P_def
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1977
    by (intro exI[of _ \<mu>']) (auto simp add: M space_extend_measure sets_extend_measure)
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1978
  ultimately have M_eq: "M = measure_of \<Omega> (G`I) (Eps P)"
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1979
    by (simp add: M extend_measure_def P_def[symmetric])
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1980
61808
fc1556774cfe isabelle update_cartouches -c -t;
wenzelm
parents: 61633
diff changeset
  1981
  from \<open>\<exists>\<mu>'. P \<mu>'\<close> have P: "P (Eps P)" by (rule someI_ex)
56994
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1982
  show "emeasure M (G i) = \<mu> i"
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1983
  proof (subst emeasure_measure_of[OF M_eq])
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1984
    have sets_M: "sets M = sigma_sets \<Omega> (G`I)"
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1985
      using M_eq ms by (auto simp: sets_extend_measure)
61808
fc1556774cfe isabelle update_cartouches -c -t;
wenzelm
parents: 61633
diff changeset
  1986
    then show "G i \<in> sets M" using \<open>i \<in> I\<close> by auto
56994
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1987
    show "positive (sets M) (Eps P)" "countably_additive (sets M) (Eps P)" "Eps P (G i) = \<mu> i"
61808
fc1556774cfe isabelle update_cartouches -c -t;
wenzelm
parents: 61633
diff changeset
  1988
      using P \<open>i\<in>I\<close> by (auto simp add: sets_M measure_space_def P_def)
56994
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1989
  qed fact
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1990
qed
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1991
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1992
lemma emeasure_extend_measure_Pair:
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1993
  assumes M: "M = extend_measure \<Omega> {(i, j). I i j} (\<lambda>(i, j). G i j) (\<lambda>(i, j). \<mu> i j)"
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1994
    and eq: "\<And>i j. I i j \<Longrightarrow> \<mu>' (G i j) = \<mu> i j"
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1995
    and ms: "\<And>i j. I i j \<Longrightarrow> G i j \<in> Pow \<Omega>" "positive (sets M) \<mu>'" "countably_additive (sets M) \<mu>'"
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1996
    and "I i j"
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1997
  shows "emeasure M (G i j) = \<mu> i j"
61808
fc1556774cfe isabelle update_cartouches -c -t;
wenzelm
parents: 61633
diff changeset
  1998
  using emeasure_extend_measure[OF M _ _ ms(2,3), of "(i,j)"] eq ms(1) \<open>I i j\<close>
56994
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1999
  by (auto simp: subset_eq)
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  2000
61808
fc1556774cfe isabelle update_cartouches -c -t;
wenzelm
parents: 61633
diff changeset
  2001
subsubsection \<open>Supremum of a set of $\sigma$-algebras\<close>
58588
93d87fd1583d add measure space for (coinductive) streams
hoelzl
parents: 57512
diff changeset
  2002
93d87fd1583d add measure space for (coinductive) streams
hoelzl
parents: 57512
diff changeset
  2003
definition "Sup_sigma M = sigma (\<Union>x\<in>M. space x) (\<Union>x\<in>M. sets x)"
93d87fd1583d add measure space for (coinductive) streams
hoelzl
parents: 57512
diff changeset
  2004
93d87fd1583d add measure space for (coinductive) streams
hoelzl
parents: 57512
diff changeset
  2005
syntax
93d87fd1583d add measure space for (coinductive) streams
hoelzl
parents: 57512
diff changeset
  2006
  "_SUP_sigma"   :: "pttrn \<Rightarrow> 'a set \<Rightarrow> 'b \<Rightarrow> 'b"  ("(3\<Squnion>\<^sub>\<sigma> _\<in>_./ _)" [0, 0, 10] 10)
56994
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  2007
58588
93d87fd1583d add measure space for (coinductive) streams
hoelzl
parents: 57512
diff changeset
  2008
translations
93d87fd1583d add measure space for (coinductive) streams
hoelzl
parents: 57512
diff changeset
  2009
  "\<Squnion>\<^sub>\<sigma> x\<in>A. B"   == "CONST Sup_sigma ((\<lambda>x. B) ` A)"
93d87fd1583d add measure space for (coinductive) streams
hoelzl
parents: 57512
diff changeset
  2010
93d87fd1583d add measure space for (coinductive) streams
hoelzl
parents: 57512
diff changeset
  2011
lemma space_Sup_sigma: "space (Sup_sigma M) = (\<Union>x\<in>M. space x)"
93d87fd1583d add measure space for (coinductive) streams
hoelzl
parents: 57512
diff changeset
  2012
  unfolding Sup_sigma_def by (rule space_measure_of) (auto dest: sets.sets_into_space)
93d87fd1583d add measure space for (coinductive) streams
hoelzl
parents: 57512
diff changeset
  2013
93d87fd1583d add measure space for (coinductive) streams
hoelzl
parents: 57512
diff changeset
  2014
lemma sets_Sup_sigma: "sets (Sup_sigma M) = sigma_sets (\<Union>x\<in>M. space x) (\<Union>x\<in>M. sets x)"
93d87fd1583d add measure space for (coinductive) streams
hoelzl
parents: 57512
diff changeset
  2015
  unfolding Sup_sigma_def by (rule sets_measure_of) (auto dest: sets.sets_into_space)
93d87fd1583d add measure space for (coinductive) streams
hoelzl
parents: 57512
diff changeset
  2016
93d87fd1583d add measure space for (coinductive) streams
hoelzl
parents: 57512
diff changeset
  2017
lemma in_Sup_sigma: "m \<in> M \<Longrightarrow> A \<in> sets m \<Longrightarrow> A \<in> sets (Sup_sigma M)"
93d87fd1583d add measure space for (coinductive) streams
hoelzl
parents: 57512
diff changeset
  2018
  unfolding sets_Sup_sigma by auto
56994
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  2019
59000
6eb0725503fc import general theorems from AFP/Markov_Models
hoelzl
parents: 58876
diff changeset
  2020
lemma SUP_sigma_cong: 
6eb0725503fc import general theorems from AFP/Markov_Models
hoelzl
parents: 58876
diff changeset
  2021
  assumes *: "\<And>i. i \<in> I \<Longrightarrow> sets (M i) = sets (N i)" shows "sets (\<Squnion>\<^sub>\<sigma> i\<in>I. M i) = sets (\<Squnion>\<^sub>\<sigma> i\<in>I. N i)"
6eb0725503fc import general theorems from AFP/Markov_Models
hoelzl
parents: 58876
diff changeset
  2022
  using * sets_eq_imp_space_eq[OF *] by (simp add: Sup_sigma_def)
6eb0725503fc import general theorems from AFP/Markov_Models
hoelzl
parents: 58876
diff changeset
  2023
58588
93d87fd1583d add measure space for (coinductive) streams
hoelzl
parents: 57512
diff changeset
  2024
lemma sets_Sup_in_sets: 
93d87fd1583d add measure space for (coinductive) streams
hoelzl
parents: 57512
diff changeset
  2025
  assumes "M \<noteq> {}"
93d87fd1583d add measure space for (coinductive) streams
hoelzl
parents: 57512
diff changeset
  2026
  assumes "\<And>m. m \<in> M \<Longrightarrow> space m = space N"
93d87fd1583d add measure space for (coinductive) streams
hoelzl
parents: 57512
diff changeset
  2027
  assumes "\<And>m. m \<in> M \<Longrightarrow> sets m \<subseteq> sets N"
93d87fd1583d add measure space for (coinductive) streams
hoelzl
parents: 57512
diff changeset
  2028
  shows "sets (Sup_sigma M) \<subseteq> sets N"
93d87fd1583d add measure space for (coinductive) streams
hoelzl
parents: 57512
diff changeset
  2029
proof -
93d87fd1583d add measure space for (coinductive) streams
hoelzl
parents: 57512
diff changeset
  2030
  have *: "UNION M space = space N"
56994
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  2031
    using assms by auto
58588
93d87fd1583d add measure space for (coinductive) streams
hoelzl
parents: 57512
diff changeset
  2032
  show ?thesis
93d87fd1583d add measure space for (coinductive) streams
hoelzl
parents: 57512
diff changeset
  2033
    unfolding sets_Sup_sigma * using assms by (auto intro!: sets.sigma_sets_subset)
93d87fd1583d add measure space for (coinductive) streams
hoelzl
parents: 57512
diff changeset
  2034
qed
93d87fd1583d add measure space for (coinductive) streams
hoelzl
parents: 57512
diff changeset
  2035
93d87fd1583d add measure space for (coinductive) streams
hoelzl
parents: 57512
diff changeset
  2036
lemma measurable_Sup_sigma1:
93d87fd1583d add measure space for (coinductive) streams
hoelzl
parents: 57512
diff changeset
  2037
  assumes m: "m \<in> M" and f: "f \<in> measurable m N"
93d87fd1583d add measure space for (coinductive) streams
hoelzl
parents: 57512
diff changeset
  2038
    and const_space: "\<And>m n. m \<in> M \<Longrightarrow> n \<in> M \<Longrightarrow> space m = space n"
93d87fd1583d add measure space for (coinductive) streams
hoelzl
parents: 57512
diff changeset
  2039
  shows "f \<in> measurable (Sup_sigma M) N"
93d87fd1583d add measure space for (coinductive) streams
hoelzl
parents: 57512
diff changeset
  2040
proof -
93d87fd1583d add measure space for (coinductive) streams
hoelzl
parents: 57512
diff changeset
  2041
  have "space (Sup_sigma M) = space m"
93d87fd1583d add measure space for (coinductive) streams
hoelzl
parents: 57512
diff changeset
  2042
    using m by (auto simp add: space_Sup_sigma dest: const_space)
93d87fd1583d add measure space for (coinductive) streams
hoelzl
parents: 57512
diff changeset
  2043
  then show ?thesis
93d87fd1583d add measure space for (coinductive) streams
hoelzl
parents: 57512
diff changeset
  2044
    using m f unfolding measurable_def by (auto intro: in_Sup_sigma)
56994
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  2045
qed
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  2046
58588
93d87fd1583d add measure space for (coinductive) streams
hoelzl
parents: 57512
diff changeset
  2047
lemma measurable_Sup_sigma2:
93d87fd1583d add measure space for (coinductive) streams
hoelzl
parents: 57512
diff changeset
  2048
  assumes M: "M \<noteq> {}"
93d87fd1583d add measure space for (coinductive) streams
hoelzl
parents: 57512
diff changeset
  2049
  assumes f: "\<And>m. m \<in> M \<Longrightarrow> f \<in> measurable N m"
93d87fd1583d add measure space for (coinductive) streams
hoelzl
parents: 57512
diff changeset
  2050
  shows "f \<in> measurable N (Sup_sigma M)"
93d87fd1583d add measure space for (coinductive) streams
hoelzl
parents: 57512
diff changeset
  2051
  unfolding Sup_sigma_def
93d87fd1583d add measure space for (coinductive) streams
hoelzl
parents: 57512
diff changeset
  2052
proof (rule measurable_measure_of)
93d87fd1583d add measure space for (coinductive) streams
hoelzl
parents: 57512
diff changeset
  2053
  show "f \<in> space N \<rightarrow> UNION M space"
93d87fd1583d add measure space for (coinductive) streams
hoelzl
parents: 57512
diff changeset
  2054
    using measurable_space[OF f] M by auto
93d87fd1583d add measure space for (coinductive) streams
hoelzl
parents: 57512
diff changeset
  2055
qed (auto intro: measurable_sets f dest: sets.sets_into_space)
56994
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  2056
59088
ff2bd4a14ddb generalized (borel_)measurable_SUP/INF/lfp/gfp; tuned proofs for sigma-closure of product spaces
hoelzl
parents: 59048
diff changeset
  2057
lemma Sup_sigma_sigma:
ff2bd4a14ddb generalized (borel_)measurable_SUP/INF/lfp/gfp; tuned proofs for sigma-closure of product spaces
hoelzl
parents: 59048
diff changeset
  2058
  assumes [simp]: "M \<noteq> {}" and M: "\<And>m. m \<in> M \<Longrightarrow> m \<subseteq> Pow \<Omega>"
ff2bd4a14ddb generalized (borel_)measurable_SUP/INF/lfp/gfp; tuned proofs for sigma-closure of product spaces
hoelzl
parents: 59048
diff changeset
  2059
  shows "(\<Squnion>\<^sub>\<sigma> m\<in>M. sigma \<Omega> m) = sigma \<Omega> (\<Union>M)"
ff2bd4a14ddb generalized (borel_)measurable_SUP/INF/lfp/gfp; tuned proofs for sigma-closure of product spaces
hoelzl
parents: 59048
diff changeset
  2060
proof (rule measure_eqI)
ff2bd4a14ddb generalized (borel_)measurable_SUP/INF/lfp/gfp; tuned proofs for sigma-closure of product spaces
hoelzl
parents: 59048
diff changeset
  2061
  { fix a m assume "a \<in> sigma_sets \<Omega> m" "m \<in> M"
ff2bd4a14ddb generalized (borel_)measurable_SUP/INF/lfp/gfp; tuned proofs for sigma-closure of product spaces
hoelzl
parents: 59048
diff changeset
  2062
    then have "a \<in> sigma_sets \<Omega> (\<Union>M)"
ff2bd4a14ddb generalized (borel_)measurable_SUP/INF/lfp/gfp; tuned proofs for sigma-closure of product spaces
hoelzl
parents: 59048
diff changeset
  2063
     by induction (auto intro: sigma_sets.intros) }
ff2bd4a14ddb generalized (borel_)measurable_SUP/INF/lfp/gfp; tuned proofs for sigma-closure of product spaces
hoelzl
parents: 59048
diff changeset
  2064
  then show "sets (\<Squnion>\<^sub>\<sigma> m\<in>M. sigma \<Omega> m) = sets (sigma \<Omega> (\<Union>M))"
ff2bd4a14ddb generalized (borel_)measurable_SUP/INF/lfp/gfp; tuned proofs for sigma-closure of product spaces
hoelzl
parents: 59048
diff changeset
  2065
    apply (simp add: sets_Sup_sigma space_measure_of_conv M Union_least)
ff2bd4a14ddb generalized (borel_)measurable_SUP/INF/lfp/gfp; tuned proofs for sigma-closure of product spaces
hoelzl
parents: 59048
diff changeset
  2066
    apply (rule sigma_sets_eqI)
ff2bd4a14ddb generalized (borel_)measurable_SUP/INF/lfp/gfp; tuned proofs for sigma-closure of product spaces
hoelzl
parents: 59048
diff changeset
  2067
    apply auto
ff2bd4a14ddb generalized (borel_)measurable_SUP/INF/lfp/gfp; tuned proofs for sigma-closure of product spaces
hoelzl
parents: 59048
diff changeset
  2068
    done
ff2bd4a14ddb generalized (borel_)measurable_SUP/INF/lfp/gfp; tuned proofs for sigma-closure of product spaces
hoelzl
parents: 59048
diff changeset
  2069
qed (simp add: Sup_sigma_def emeasure_sigma)
ff2bd4a14ddb generalized (borel_)measurable_SUP/INF/lfp/gfp; tuned proofs for sigma-closure of product spaces
hoelzl
parents: 59048
diff changeset
  2070
ff2bd4a14ddb generalized (borel_)measurable_SUP/INF/lfp/gfp; tuned proofs for sigma-closure of product spaces
hoelzl
parents: 59048
diff changeset
  2071
lemma SUP_sigma_sigma:
ff2bd4a14ddb generalized (borel_)measurable_SUP/INF/lfp/gfp; tuned proofs for sigma-closure of product spaces
hoelzl
parents: 59048
diff changeset
  2072
  assumes M: "M \<noteq> {}" "\<And>m. m \<in> M \<Longrightarrow> f m \<subseteq> Pow \<Omega>"
ff2bd4a14ddb generalized (borel_)measurable_SUP/INF/lfp/gfp; tuned proofs for sigma-closure of product spaces
hoelzl
parents: 59048
diff changeset
  2073
  shows "(\<Squnion>\<^sub>\<sigma> m\<in>M. sigma \<Omega> (f m)) = sigma \<Omega> (\<Union>m\<in>M. f m)"
ff2bd4a14ddb generalized (borel_)measurable_SUP/INF/lfp/gfp; tuned proofs for sigma-closure of product spaces
hoelzl
parents: 59048
diff changeset
  2074
proof -
ff2bd4a14ddb generalized (borel_)measurable_SUP/INF/lfp/gfp; tuned proofs for sigma-closure of product spaces
hoelzl
parents: 59048
diff changeset
  2075
  have "Sup_sigma (sigma \<Omega> ` f ` M) = sigma \<Omega> (\<Union>(f ` M))"
ff2bd4a14ddb generalized (borel_)measurable_SUP/INF/lfp/gfp; tuned proofs for sigma-closure of product spaces
hoelzl
parents: 59048
diff changeset
  2076
    using M by (intro Sup_sigma_sigma) auto
ff2bd4a14ddb generalized (borel_)measurable_SUP/INF/lfp/gfp; tuned proofs for sigma-closure of product spaces
hoelzl
parents: 59048
diff changeset
  2077
  then show ?thesis
ff2bd4a14ddb generalized (borel_)measurable_SUP/INF/lfp/gfp; tuned proofs for sigma-closure of product spaces
hoelzl
parents: 59048
diff changeset
  2078
    by (simp add: image_image)
ff2bd4a14ddb generalized (borel_)measurable_SUP/INF/lfp/gfp; tuned proofs for sigma-closure of product spaces
hoelzl
parents: 59048
diff changeset
  2079
qed
ff2bd4a14ddb generalized (borel_)measurable_SUP/INF/lfp/gfp; tuned proofs for sigma-closure of product spaces
hoelzl
parents: 59048
diff changeset
  2080
61808
fc1556774cfe isabelle update_cartouches -c -t;
wenzelm
parents: 61633
diff changeset
  2081
subsection \<open>The smallest $\sigma$-algebra regarding a function\<close>
56994
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  2082
58588
93d87fd1583d add measure space for (coinductive) streams
hoelzl
parents: 57512
diff changeset
  2083
definition
93d87fd1583d add measure space for (coinductive) streams
hoelzl
parents: 57512
diff changeset
  2084
  "vimage_algebra X f M = sigma X {f -` A \<inter> X | A. A \<in> sets M}"
93d87fd1583d add measure space for (coinductive) streams
hoelzl
parents: 57512
diff changeset
  2085
93d87fd1583d add measure space for (coinductive) streams
hoelzl
parents: 57512
diff changeset
  2086
lemma space_vimage_algebra[simp]: "space (vimage_algebra X f M) = X"
93d87fd1583d add measure space for (coinductive) streams
hoelzl
parents: 57512
diff changeset
  2087
  unfolding vimage_algebra_def by (rule space_measure_of) auto
56994
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  2088
58588
93d87fd1583d add measure space for (coinductive) streams
hoelzl
parents: 57512
diff changeset
  2089
lemma sets_vimage_algebra: "sets (vimage_algebra X f M) = sigma_sets X {f -` A \<inter> X | A. A \<in> sets M}"
93d87fd1583d add measure space for (coinductive) streams
hoelzl
parents: 57512
diff changeset
  2090
  unfolding vimage_algebra_def by (rule sets_measure_of) auto
93d87fd1583d add measure space for (coinductive) streams
hoelzl
parents: 57512
diff changeset
  2091
93d87fd1583d add measure space for (coinductive) streams
hoelzl
parents: 57512
diff changeset
  2092
lemma sets_vimage_algebra2:
93d87fd1583d add measure space for (coinductive) streams
hoelzl
parents: 57512
diff changeset
  2093
  "f \<in> X \<rightarrow> space M \<Longrightarrow> sets (vimage_algebra X f M) = {f -` A \<inter> X | A. A \<in> sets M}"
93d87fd1583d add measure space for (coinductive) streams
hoelzl
parents: 57512
diff changeset
  2094
  using sigma_sets_vimage_commute[of f X "space M" "sets M"]
93d87fd1583d add measure space for (coinductive) streams
hoelzl
parents: 57512
diff changeset
  2095
  unfolding sets_vimage_algebra sets.sigma_sets_eq by simp
56994
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  2096
59092
d469103c0737 add integral substitution theorems from Manuel Eberl, Jeremy Avigad, Luke Serafin, and Sudeep Kanav
hoelzl
parents: 59088
diff changeset
  2097
lemma sets_vimage_algebra_cong: "sets M = sets N \<Longrightarrow> sets (vimage_algebra X f M) = sets (vimage_algebra X f N)"
59000
6eb0725503fc import general theorems from AFP/Markov_Models
hoelzl
parents: 58876
diff changeset
  2098
  by (simp add: sets_vimage_algebra)
6eb0725503fc import general theorems from AFP/Markov_Models
hoelzl
parents: 58876
diff changeset
  2099
59092
d469103c0737 add integral substitution theorems from Manuel Eberl, Jeremy Avigad, Luke Serafin, and Sudeep Kanav
hoelzl
parents: 59088
diff changeset
  2100
lemma vimage_algebra_cong:
d469103c0737 add integral substitution theorems from Manuel Eberl, Jeremy Avigad, Luke Serafin, and Sudeep Kanav
hoelzl
parents: 59088
diff changeset
  2101
  assumes "X = Y"
d469103c0737 add integral substitution theorems from Manuel Eberl, Jeremy Avigad, Luke Serafin, and Sudeep Kanav
hoelzl
parents: 59088
diff changeset
  2102
  assumes "\<And>x. x \<in> Y \<Longrightarrow> f x = g x"
d469103c0737 add integral substitution theorems from Manuel Eberl, Jeremy Avigad, Luke Serafin, and Sudeep Kanav
hoelzl
parents: 59088
diff changeset
  2103
  assumes "sets M = sets N"
d469103c0737 add integral substitution theorems from Manuel Eberl, Jeremy Avigad, Luke Serafin, and Sudeep Kanav
hoelzl
parents: 59088
diff changeset
  2104
  shows "vimage_algebra X f M = vimage_algebra Y g N"
d469103c0737 add integral substitution theorems from Manuel Eberl, Jeremy Avigad, Luke Serafin, and Sudeep Kanav
hoelzl
parents: 59088
diff changeset
  2105
  by (auto simp: vimage_algebra_def assms intro!: arg_cong2[where f=sigma])
d469103c0737 add integral substitution theorems from Manuel Eberl, Jeremy Avigad, Luke Serafin, and Sudeep Kanav
hoelzl
parents: 59088
diff changeset
  2106
58588
93d87fd1583d add measure space for (coinductive) streams
hoelzl
parents: 57512
diff changeset
  2107
lemma in_vimage_algebra: "A \<in> sets M \<Longrightarrow> f -` A \<inter> X \<in> sets (vimage_algebra X f M)"
93d87fd1583d add measure space for (coinductive) streams
hoelzl
parents: 57512
diff changeset
  2108
  by (auto simp: vimage_algebra_def)
93d87fd1583d add measure space for (coinductive) streams
hoelzl
parents: 57512
diff changeset
  2109
93d87fd1583d add measure space for (coinductive) streams
hoelzl
parents: 57512
diff changeset
  2110
lemma sets_image_in_sets:
93d87fd1583d add measure space for (coinductive) streams
hoelzl
parents: 57512
diff changeset
  2111
  assumes N: "space N = X"
93d87fd1583d add measure space for (coinductive) streams
hoelzl
parents: 57512
diff changeset
  2112
  assumes f: "f \<in> measurable N M"
93d87fd1583d add measure space for (coinductive) streams
hoelzl
parents: 57512
diff changeset
  2113
  shows "sets (vimage_algebra X f M) \<subseteq> sets N"
93d87fd1583d add measure space for (coinductive) streams
hoelzl
parents: 57512
diff changeset
  2114
  unfolding sets_vimage_algebra N[symmetric]
93d87fd1583d add measure space for (coinductive) streams
hoelzl
parents: 57512
diff changeset
  2115
  by (rule sets.sigma_sets_subset) (auto intro!: measurable_sets f)
93d87fd1583d add measure space for (coinductive) streams
hoelzl
parents: 57512
diff changeset
  2116
93d87fd1583d add measure space for (coinductive) streams
hoelzl
parents: 57512
diff changeset
  2117
lemma measurable_vimage_algebra1: "f \<in> X \<rightarrow> space M \<Longrightarrow> f \<in> measurable (vimage_algebra X f M) M"
93d87fd1583d add measure space for (coinductive) streams
hoelzl
parents: 57512
diff changeset
  2118
  unfolding measurable_def by (auto intro: in_vimage_algebra)
93d87fd1583d add measure space for (coinductive) streams
hoelzl
parents: 57512
diff changeset
  2119
93d87fd1583d add measure space for (coinductive) streams
hoelzl
parents: 57512
diff changeset
  2120
lemma measurable_vimage_algebra2:
93d87fd1583d add measure space for (coinductive) streams
hoelzl
parents: 57512
diff changeset
  2121
  assumes g: "g \<in> space N \<rightarrow> X" and f: "(\<lambda>x. f (g x)) \<in> measurable N M"
93d87fd1583d add measure space for (coinductive) streams
hoelzl
parents: 57512
diff changeset
  2122
  shows "g \<in> measurable N (vimage_algebra X f M)"
93d87fd1583d add measure space for (coinductive) streams
hoelzl
parents: 57512
diff changeset
  2123
  unfolding vimage_algebra_def
93d87fd1583d add measure space for (coinductive) streams
hoelzl
parents: 57512
diff changeset
  2124
proof (rule measurable_measure_of)
93d87fd1583d add measure space for (coinductive) streams
hoelzl
parents: 57512
diff changeset
  2125
  fix A assume "A \<in> {f -` A \<inter> X | A. A \<in> sets M}"
93d87fd1583d add measure space for (coinductive) streams
hoelzl
parents: 57512
diff changeset
  2126
  then obtain Y where Y: "Y \<in> sets M" and A: "A = f -` Y \<inter> X"
93d87fd1583d add measure space for (coinductive) streams
hoelzl
parents: 57512
diff changeset
  2127
    by auto
93d87fd1583d add measure space for (coinductive) streams
hoelzl
parents: 57512
diff changeset
  2128
  then have "g -` A \<inter> space N = (\<lambda>x. f (g x)) -` Y \<inter> space N"
93d87fd1583d add measure space for (coinductive) streams
hoelzl
parents: 57512
diff changeset
  2129
    using g by auto
93d87fd1583d add measure space for (coinductive) streams
hoelzl
parents: 57512
diff changeset
  2130
  also have "\<dots> \<in> sets N"
93d87fd1583d add measure space for (coinductive) streams
hoelzl
parents: 57512
diff changeset
  2131
    using f Y by (rule measurable_sets)
93d87fd1583d add measure space for (coinductive) streams
hoelzl
parents: 57512
diff changeset
  2132
  finally show "g -` A \<inter> space N \<in> sets N" .
93d87fd1583d add measure space for (coinductive) streams
hoelzl
parents: 57512
diff changeset
  2133
qed (insert g, auto)
56994
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  2134
59088
ff2bd4a14ddb generalized (borel_)measurable_SUP/INF/lfp/gfp; tuned proofs for sigma-closure of product spaces
hoelzl
parents: 59048
diff changeset
  2135
lemma vimage_algebra_sigma:
ff2bd4a14ddb generalized (borel_)measurable_SUP/INF/lfp/gfp; tuned proofs for sigma-closure of product spaces
hoelzl
parents: 59048
diff changeset
  2136
  assumes X: "X \<subseteq> Pow \<Omega>'" and f: "f \<in> \<Omega> \<rightarrow> \<Omega>'"
ff2bd4a14ddb generalized (borel_)measurable_SUP/INF/lfp/gfp; tuned proofs for sigma-closure of product spaces
hoelzl
parents: 59048
diff changeset
  2137
  shows "vimage_algebra \<Omega> f (sigma \<Omega>' X) = sigma \<Omega> {f -` A \<inter> \<Omega> | A. A \<in> X }" (is "?V = ?S")
ff2bd4a14ddb generalized (borel_)measurable_SUP/INF/lfp/gfp; tuned proofs for sigma-closure of product spaces
hoelzl
parents: 59048
diff changeset
  2138
proof (rule measure_eqI)
ff2bd4a14ddb generalized (borel_)measurable_SUP/INF/lfp/gfp; tuned proofs for sigma-closure of product spaces
hoelzl
parents: 59048
diff changeset
  2139
  have \<Omega>: "{f -` A \<inter> \<Omega> |A. A \<in> X} \<subseteq> Pow \<Omega>" by auto
ff2bd4a14ddb generalized (borel_)measurable_SUP/INF/lfp/gfp; tuned proofs for sigma-closure of product spaces
hoelzl
parents: 59048
diff changeset
  2140
  show "sets ?V = sets ?S"
ff2bd4a14ddb generalized (borel_)measurable_SUP/INF/lfp/gfp; tuned proofs for sigma-closure of product spaces
hoelzl
parents: 59048
diff changeset
  2141
    using sigma_sets_vimage_commute[OF f, of X]
ff2bd4a14ddb generalized (borel_)measurable_SUP/INF/lfp/gfp; tuned proofs for sigma-closure of product spaces
hoelzl
parents: 59048
diff changeset
  2142
    by (simp add: space_measure_of_conv f sets_vimage_algebra2 \<Omega> X)
ff2bd4a14ddb generalized (borel_)measurable_SUP/INF/lfp/gfp; tuned proofs for sigma-closure of product spaces
hoelzl
parents: 59048
diff changeset
  2143
qed (simp add: vimage_algebra_def emeasure_sigma)
ff2bd4a14ddb generalized (borel_)measurable_SUP/INF/lfp/gfp; tuned proofs for sigma-closure of product spaces
hoelzl
parents: 59048
diff changeset
  2144
59000
6eb0725503fc import general theorems from AFP/Markov_Models
hoelzl
parents: 58876
diff changeset
  2145
lemma vimage_algebra_vimage_algebra_eq:
6eb0725503fc import general theorems from AFP/Markov_Models
hoelzl
parents: 58876
diff changeset
  2146
  assumes *: "f \<in> X \<rightarrow> Y" "g \<in> Y \<rightarrow> space M"
6eb0725503fc import general theorems from AFP/Markov_Models
hoelzl
parents: 58876
diff changeset
  2147
  shows "vimage_algebra X f (vimage_algebra Y g M) = vimage_algebra X (\<lambda>x. g (f x)) M"
59088
ff2bd4a14ddb generalized (borel_)measurable_SUP/INF/lfp/gfp; tuned proofs for sigma-closure of product spaces
hoelzl
parents: 59048
diff changeset
  2148
    (is "?VV = ?V")
59000
6eb0725503fc import general theorems from AFP/Markov_Models
hoelzl
parents: 58876
diff changeset
  2149
proof (rule measure_eqI)
6eb0725503fc import general theorems from AFP/Markov_Models
hoelzl
parents: 58876
diff changeset
  2150
  have "(\<lambda>x. g (f x)) \<in> X \<rightarrow> space M" "\<And>A. A \<inter> f -` Y \<inter> X = A \<inter> X"
6eb0725503fc import general theorems from AFP/Markov_Models
hoelzl
parents: 58876
diff changeset
  2151
    using * by auto
6eb0725503fc import general theorems from AFP/Markov_Models
hoelzl
parents: 58876
diff changeset
  2152
  with * show "sets ?VV = sets ?V"
6eb0725503fc import general theorems from AFP/Markov_Models
hoelzl
parents: 58876
diff changeset
  2153
    by (simp add: sets_vimage_algebra2 ex_simps[symmetric] vimage_comp comp_def del: ex_simps)
6eb0725503fc import general theorems from AFP/Markov_Models
hoelzl
parents: 58876
diff changeset
  2154
qed (simp add: vimage_algebra_def emeasure_sigma)
6eb0725503fc import general theorems from AFP/Markov_Models
hoelzl
parents: 58876
diff changeset
  2155
6eb0725503fc import general theorems from AFP/Markov_Models
hoelzl
parents: 58876
diff changeset
  2156
lemma sets_vimage_Sup_eq:
6eb0725503fc import general theorems from AFP/Markov_Models
hoelzl
parents: 58876
diff changeset
  2157
  assumes *: "M \<noteq> {}" "\<And>m. m \<in> M \<Longrightarrow> f \<in> X \<rightarrow> space m"
6eb0725503fc import general theorems from AFP/Markov_Models
hoelzl
parents: 58876
diff changeset
  2158
  shows "sets (vimage_algebra X f (Sup_sigma M)) = sets (\<Squnion>\<^sub>\<sigma> m \<in> M. vimage_algebra X f m)"
6eb0725503fc import general theorems from AFP/Markov_Models
hoelzl
parents: 58876
diff changeset
  2159
  (is "?IS = ?SI")
6eb0725503fc import general theorems from AFP/Markov_Models
hoelzl
parents: 58876
diff changeset
  2160
proof
6eb0725503fc import general theorems from AFP/Markov_Models
hoelzl
parents: 58876
diff changeset
  2161
  show "?IS \<subseteq> ?SI"
6eb0725503fc import general theorems from AFP/Markov_Models
hoelzl
parents: 58876
diff changeset
  2162
    by (intro sets_image_in_sets measurable_Sup_sigma2 measurable_Sup_sigma1)
6eb0725503fc import general theorems from AFP/Markov_Models
hoelzl
parents: 58876
diff changeset
  2163
       (auto simp: space_Sup_sigma measurable_vimage_algebra1 *)
6eb0725503fc import general theorems from AFP/Markov_Models
hoelzl
parents: 58876
diff changeset
  2164
  { fix m assume "m \<in> M"
6eb0725503fc import general theorems from AFP/Markov_Models
hoelzl
parents: 58876
diff changeset
  2165
    moreover then have "f \<in> X \<rightarrow> space (Sup_sigma M)" "f \<in> X \<rightarrow> space m"
6eb0725503fc import general theorems from AFP/Markov_Models
hoelzl
parents: 58876
diff changeset
  2166
      using * by (auto simp: space_Sup_sigma)
6eb0725503fc import general theorems from AFP/Markov_Models
hoelzl
parents: 58876
diff changeset
  2167
    ultimately have "f \<in> measurable (vimage_algebra X f (Sup_sigma M)) m"
6eb0725503fc import general theorems from AFP/Markov_Models
hoelzl
parents: 58876
diff changeset
  2168
      by (auto simp add: measurable_def sets_vimage_algebra2 intro: in_Sup_sigma) }
6eb0725503fc import general theorems from AFP/Markov_Models
hoelzl
parents: 58876
diff changeset
  2169
  then show "?SI \<subseteq> ?IS"
6eb0725503fc import general theorems from AFP/Markov_Models
hoelzl
parents: 58876
diff changeset
  2170
    by (auto intro!: sets_image_in_sets sets_Sup_in_sets del: subsetI simp: *)
6eb0725503fc import general theorems from AFP/Markov_Models
hoelzl
parents: 58876
diff changeset
  2171
qed
6eb0725503fc import general theorems from AFP/Markov_Models
hoelzl
parents: 58876
diff changeset
  2172
59092
d469103c0737 add integral substitution theorems from Manuel Eberl, Jeremy Avigad, Luke Serafin, and Sudeep Kanav
hoelzl
parents: 59088
diff changeset
  2173
lemma vimage_algebra_Sup_sigma:
d469103c0737 add integral substitution theorems from Manuel Eberl, Jeremy Avigad, Luke Serafin, and Sudeep Kanav
hoelzl
parents: 59088
diff changeset
  2174
  assumes [simp]: "MM \<noteq> {}" and "\<And>M. M \<in> MM \<Longrightarrow> f \<in> X \<rightarrow> space M"
d469103c0737 add integral substitution theorems from Manuel Eberl, Jeremy Avigad, Luke Serafin, and Sudeep Kanav
hoelzl
parents: 59088
diff changeset
  2175
  shows "vimage_algebra X f (Sup_sigma MM) = Sup_sigma (vimage_algebra X f ` MM)"
d469103c0737 add integral substitution theorems from Manuel Eberl, Jeremy Avigad, Luke Serafin, and Sudeep Kanav
hoelzl
parents: 59088
diff changeset
  2176
proof (rule measure_eqI)
d469103c0737 add integral substitution theorems from Manuel Eberl, Jeremy Avigad, Luke Serafin, and Sudeep Kanav
hoelzl
parents: 59088
diff changeset
  2177
  show "sets (vimage_algebra X f (Sup_sigma MM)) = sets (Sup_sigma (vimage_algebra X f ` MM))"
d469103c0737 add integral substitution theorems from Manuel Eberl, Jeremy Avigad, Luke Serafin, and Sudeep Kanav
hoelzl
parents: 59088
diff changeset
  2178
    using assms by (rule sets_vimage_Sup_eq)
d469103c0737 add integral substitution theorems from Manuel Eberl, Jeremy Avigad, Luke Serafin, and Sudeep Kanav
hoelzl
parents: 59088
diff changeset
  2179
qed (simp add: vimage_algebra_def Sup_sigma_def emeasure_sigma)
d469103c0737 add integral substitution theorems from Manuel Eberl, Jeremy Avigad, Luke Serafin, and Sudeep Kanav
hoelzl
parents: 59088
diff changeset
  2180
61808
fc1556774cfe isabelle update_cartouches -c -t;
wenzelm
parents: 61633
diff changeset
  2181
subsubsection \<open>Restricted Space Sigma Algebra\<close>
56994
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  2182
57025
e7fd64f82876 add various lemmas
hoelzl
parents: 56994
diff changeset
  2183
definition restrict_space where
e7fd64f82876 add various lemmas
hoelzl
parents: 56994
diff changeset
  2184
  "restrict_space M \<Omega> = measure_of (\<Omega> \<inter> space M) ((op \<inter> \<Omega>) ` sets M) (emeasure M)"
56994
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  2185
57025
e7fd64f82876 add various lemmas
hoelzl
parents: 56994
diff changeset
  2186
lemma space_restrict_space: "space (restrict_space M \<Omega>) = \<Omega> \<inter> space M"
e7fd64f82876 add various lemmas
hoelzl
parents: 56994
diff changeset
  2187
  using sets.sets_into_space unfolding restrict_space_def by (subst space_measure_of) auto
e7fd64f82876 add various lemmas
hoelzl
parents: 56994
diff changeset
  2188
e7fd64f82876 add various lemmas
hoelzl
parents: 56994
diff changeset
  2189
lemma space_restrict_space2: "\<Omega> \<in> sets M \<Longrightarrow> space (restrict_space M \<Omega>) = \<Omega>"
e7fd64f82876 add various lemmas
hoelzl
parents: 56994
diff changeset
  2190
  by (simp add: space_restrict_space sets.sets_into_space)
56994
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  2191
57025
e7fd64f82876 add various lemmas
hoelzl
parents: 56994
diff changeset
  2192
lemma sets_restrict_space: "sets (restrict_space M \<Omega>) = (op \<inter> \<Omega>) ` sets M"
58588
93d87fd1583d add measure space for (coinductive) streams
hoelzl
parents: 57512
diff changeset
  2193
  unfolding restrict_space_def
93d87fd1583d add measure space for (coinductive) streams
hoelzl
parents: 57512
diff changeset
  2194
proof (subst sets_measure_of)
93d87fd1583d add measure space for (coinductive) streams
hoelzl
parents: 57512
diff changeset
  2195
  show "op \<inter> \<Omega> ` sets M \<subseteq> Pow (\<Omega> \<inter> space M)"
93d87fd1583d add measure space for (coinductive) streams
hoelzl
parents: 57512
diff changeset
  2196
    by (auto dest: sets.sets_into_space)
93d87fd1583d add measure space for (coinductive) streams
hoelzl
parents: 57512
diff changeset
  2197
  have "sigma_sets (\<Omega> \<inter> space M) {((\<lambda>x. x) -` X) \<inter> (\<Omega> \<inter> space M) | X. X \<in> sets M} =
57025
e7fd64f82876 add various lemmas
hoelzl
parents: 56994
diff changeset
  2198
    (\<lambda>X. X \<inter> (\<Omega> \<inter> space M)) ` sets M"
58588
93d87fd1583d add measure space for (coinductive) streams
hoelzl
parents: 57512
diff changeset
  2199
    by (subst sigma_sets_vimage_commute[symmetric, where \<Omega>' = "space M"])
93d87fd1583d add measure space for (coinductive) streams
hoelzl
parents: 57512
diff changeset
  2200
       (auto simp add: sets.sigma_sets_eq)
93d87fd1583d add measure space for (coinductive) streams
hoelzl
parents: 57512
diff changeset
  2201
  moreover have "{((\<lambda>x. x) -` X) \<inter> (\<Omega> \<inter> space M) | X. X \<in> sets M} = (\<lambda>X. X \<inter> (\<Omega> \<inter> space M)) `  sets M"
93d87fd1583d add measure space for (coinductive) streams
hoelzl
parents: 57512
diff changeset
  2202
    by auto
93d87fd1583d add measure space for (coinductive) streams
hoelzl
parents: 57512
diff changeset
  2203
  moreover have "(\<lambda>X. X \<inter> (\<Omega> \<inter> space M)) `  sets M = (op \<inter> \<Omega>) ` sets M"
93d87fd1583d add measure space for (coinductive) streams
hoelzl
parents: 57512
diff changeset
  2204
    by (intro image_cong) (auto dest: sets.sets_into_space)
93d87fd1583d add measure space for (coinductive) streams
hoelzl
parents: 57512
diff changeset
  2205
  ultimately show "sigma_sets (\<Omega> \<inter> space M) (op \<inter> \<Omega> ` sets M) = op \<inter> \<Omega> ` sets M"
93d87fd1583d add measure space for (coinductive) streams
hoelzl
parents: 57512
diff changeset
  2206
    by simp
57025
e7fd64f82876 add various lemmas
hoelzl
parents: 56994
diff changeset
  2207
qed
56994
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  2208
60063
81835db730e8 add lemmas about restrict_space
Andreas Lochbihler
parents: 59415
diff changeset
  2209
lemma sets_restrict_space_count_space :
81835db730e8 add lemmas about restrict_space
Andreas Lochbihler
parents: 59415
diff changeset
  2210
  "sets (restrict_space (count_space A) B) = sets (count_space (A \<inter> B))"
81835db730e8 add lemmas about restrict_space
Andreas Lochbihler
parents: 59415
diff changeset
  2211
by(auto simp add: sets_restrict_space)
81835db730e8 add lemmas about restrict_space
Andreas Lochbihler
parents: 59415
diff changeset
  2212
59361
fd5da2434be4 piecewise measurability using restrict_space; cleanup Borel_Space
hoelzl
parents: 59092
diff changeset
  2213
lemma sets_restrict_UNIV[simp]: "sets (restrict_space M UNIV) = sets M"
fd5da2434be4 piecewise measurability using restrict_space; cleanup Borel_Space
hoelzl
parents: 59092
diff changeset
  2214
  by (auto simp add: sets_restrict_space)
fd5da2434be4 piecewise measurability using restrict_space; cleanup Borel_Space
hoelzl
parents: 59092
diff changeset
  2215
59415
854fe701c984 tuned measurability proofs
hoelzl
parents: 59361
diff changeset
  2216
lemma sets_restrict_restrict_space:
854fe701c984 tuned measurability proofs
hoelzl
parents: 59361
diff changeset
  2217
  "sets (restrict_space (restrict_space M A) B) = sets (restrict_space M (A \<inter> B))"
854fe701c984 tuned measurability proofs
hoelzl
parents: 59361
diff changeset
  2218
  unfolding sets_restrict_space image_comp by (intro image_cong) auto
854fe701c984 tuned measurability proofs
hoelzl
parents: 59361
diff changeset
  2219
56994
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  2220
lemma sets_restrict_space_iff:
57025
e7fd64f82876 add various lemmas
hoelzl
parents: 56994
diff changeset
  2221
  "\<Omega> \<inter> space M \<in> sets M \<Longrightarrow> A \<in> sets (restrict_space M \<Omega>) \<longleftrightarrow> (A \<subseteq> \<Omega> \<and> A \<in> sets M)"
e7fd64f82876 add various lemmas
hoelzl
parents: 56994
diff changeset
  2222
proof (subst sets_restrict_space, safe)
e7fd64f82876 add various lemmas
hoelzl
parents: 56994
diff changeset
  2223
  fix A assume "\<Omega> \<inter> space M \<in> sets M" and A: "A \<in> sets M"
e7fd64f82876 add various lemmas
hoelzl
parents: 56994
diff changeset
  2224
  then have "(\<Omega> \<inter> space M) \<inter> A \<in> sets M"
e7fd64f82876 add various lemmas
hoelzl
parents: 56994
diff changeset
  2225
    by rule
e7fd64f82876 add various lemmas
hoelzl
parents: 56994
diff changeset
  2226
  also have "(\<Omega> \<inter> space M) \<inter> A = \<Omega> \<inter> A"
e7fd64f82876 add various lemmas
hoelzl
parents: 56994
diff changeset
  2227
    using sets.sets_into_space[OF A] by auto
e7fd64f82876 add various lemmas
hoelzl
parents: 56994
diff changeset
  2228
  finally show "\<Omega> \<inter> A \<in> sets M"
e7fd64f82876 add various lemmas
hoelzl
parents: 56994
diff changeset
  2229
    by auto
e7fd64f82876 add various lemmas
hoelzl
parents: 56994
diff changeset
  2230
qed auto
56994
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  2231
59000
6eb0725503fc import general theorems from AFP/Markov_Models
hoelzl
parents: 58876
diff changeset
  2232
lemma sets_restrict_space_cong: "sets M = sets N \<Longrightarrow> sets (restrict_space M \<Omega>) = sets (restrict_space N \<Omega>)"
6eb0725503fc import general theorems from AFP/Markov_Models
hoelzl
parents: 58876
diff changeset
  2233
  by (simp add: sets_restrict_space)
6eb0725503fc import general theorems from AFP/Markov_Models
hoelzl
parents: 58876
diff changeset
  2234
6eb0725503fc import general theorems from AFP/Markov_Models
hoelzl
parents: 58876
diff changeset
  2235
lemma restrict_space_eq_vimage_algebra:
6eb0725503fc import general theorems from AFP/Markov_Models
hoelzl
parents: 58876
diff changeset
  2236
  "\<Omega> \<subseteq> space M \<Longrightarrow> sets (restrict_space M \<Omega>) = sets (vimage_algebra \<Omega> (\<lambda>x. x) M)"
6eb0725503fc import general theorems from AFP/Markov_Models
hoelzl
parents: 58876
diff changeset
  2237
  unfolding restrict_space_def
6eb0725503fc import general theorems from AFP/Markov_Models
hoelzl
parents: 58876
diff changeset
  2238
  apply (subst sets_measure_of)
6eb0725503fc import general theorems from AFP/Markov_Models
hoelzl
parents: 58876
diff changeset
  2239
  apply (auto simp add: image_subset_iff dest: sets.sets_into_space) []
6eb0725503fc import general theorems from AFP/Markov_Models
hoelzl
parents: 58876
diff changeset
  2240
  apply (auto simp add: sets_vimage_algebra intro!: arg_cong2[where f=sigma_sets])
6eb0725503fc import general theorems from AFP/Markov_Models
hoelzl
parents: 58876
diff changeset
  2241
  done
6eb0725503fc import general theorems from AFP/Markov_Models
hoelzl
parents: 58876
diff changeset
  2242
6eb0725503fc import general theorems from AFP/Markov_Models
hoelzl
parents: 58876
diff changeset
  2243
lemma sets_Collect_restrict_space_iff: 
6eb0725503fc import general theorems from AFP/Markov_Models
hoelzl
parents: 58876
diff changeset
  2244
  assumes "S \<in> sets M"
6eb0725503fc import general theorems from AFP/Markov_Models
hoelzl
parents: 58876
diff changeset
  2245
  shows "{x\<in>space (restrict_space M S). P x} \<in> sets (restrict_space M S) \<longleftrightarrow> {x\<in>space M. x \<in> S \<and> P x} \<in> sets M"
6eb0725503fc import general theorems from AFP/Markov_Models
hoelzl
parents: 58876
diff changeset
  2246
proof -
6eb0725503fc import general theorems from AFP/Markov_Models
hoelzl
parents: 58876
diff changeset
  2247
  have "{x\<in>S. P x} = {x\<in>space M. x \<in> S \<and> P x}"
6eb0725503fc import general theorems from AFP/Markov_Models
hoelzl
parents: 58876
diff changeset
  2248
    using sets.sets_into_space[OF assms] by auto
6eb0725503fc import general theorems from AFP/Markov_Models
hoelzl
parents: 58876
diff changeset
  2249
  then show ?thesis
6eb0725503fc import general theorems from AFP/Markov_Models
hoelzl
parents: 58876
diff changeset
  2250
    by (subst sets_restrict_space_iff) (auto simp add: space_restrict_space assms)
6eb0725503fc import general theorems from AFP/Markov_Models
hoelzl
parents: 58876
diff changeset
  2251
qed
6eb0725503fc import general theorems from AFP/Markov_Models
hoelzl
parents: 58876
diff changeset
  2252
56994
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  2253
lemma measurable_restrict_space1:
59415
854fe701c984 tuned measurability proofs
hoelzl
parents: 59361
diff changeset
  2254
  assumes f: "f \<in> measurable M N"
57025
e7fd64f82876 add various lemmas
hoelzl
parents: 56994
diff changeset
  2255
  shows "f \<in> measurable (restrict_space M \<Omega>) N"
56994
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  2256
  unfolding measurable_def
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  2257
proof (intro CollectI conjI ballI)
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  2258
  show sp: "f \<in> space (restrict_space M \<Omega>) \<rightarrow> space N"
59415
854fe701c984 tuned measurability proofs
hoelzl
parents: 59361
diff changeset
  2259
    using measurable_space[OF f] by (auto simp: space_restrict_space)
56994
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  2260
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  2261
  fix A assume "A \<in> sets N"
57025
e7fd64f82876 add various lemmas
hoelzl
parents: 56994
diff changeset
  2262
  have "f -` A \<inter> space (restrict_space M \<Omega>) = (f -` A \<inter> space M) \<inter> (\<Omega> \<inter> space M)"
59415
854fe701c984 tuned measurability proofs
hoelzl
parents: 59361
diff changeset
  2263
    by (auto simp: space_restrict_space)
56994
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  2264
  also have "\<dots> \<in> sets (restrict_space M \<Omega>)"
59415
854fe701c984 tuned measurability proofs
hoelzl
parents: 59361
diff changeset
  2265
    unfolding sets_restrict_space
61808
fc1556774cfe isabelle update_cartouches -c -t;
wenzelm
parents: 61633
diff changeset
  2266
    using measurable_sets[OF f \<open>A \<in> sets N\<close>] by blast
56994
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  2267
  finally show "f -` A \<inter> space (restrict_space M \<Omega>) \<in> sets (restrict_space M \<Omega>)" .
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  2268
qed
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  2269
59415
854fe701c984 tuned measurability proofs
hoelzl
parents: 59361
diff changeset
  2270
lemma measurable_restrict_space2_iff:
854fe701c984 tuned measurability proofs
hoelzl
parents: 59361
diff changeset
  2271
  "f \<in> measurable M (restrict_space N \<Omega>) \<longleftrightarrow> (f \<in> measurable M N \<and> f \<in> space M \<rightarrow> \<Omega>)"
854fe701c984 tuned measurability proofs
hoelzl
parents: 59361
diff changeset
  2272
proof -
854fe701c984 tuned measurability proofs
hoelzl
parents: 59361
diff changeset
  2273
  have "\<And>A. f \<in> space M \<rightarrow> \<Omega> \<Longrightarrow> f -` \<Omega> \<inter> f -` A \<inter> space M = f -` A \<inter> space M"
854fe701c984 tuned measurability proofs
hoelzl
parents: 59361
diff changeset
  2274
    by auto
854fe701c984 tuned measurability proofs
hoelzl
parents: 59361
diff changeset
  2275
  then show ?thesis
854fe701c984 tuned measurability proofs
hoelzl
parents: 59361
diff changeset
  2276
    by (auto simp: measurable_def space_restrict_space Pi_Int[symmetric] sets_restrict_space)
854fe701c984 tuned measurability proofs
hoelzl
parents: 59361
diff changeset
  2277
qed
854fe701c984 tuned measurability proofs
hoelzl
parents: 59361
diff changeset
  2278
56994
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  2279
lemma measurable_restrict_space2:
59415
854fe701c984 tuned measurability proofs
hoelzl
parents: 59361
diff changeset
  2280
  "f \<in> space M \<rightarrow> \<Omega> \<Longrightarrow> f \<in> measurable M N \<Longrightarrow> f \<in> measurable M (restrict_space N \<Omega>)"
854fe701c984 tuned measurability proofs
hoelzl
parents: 59361
diff changeset
  2281
  by (simp add: measurable_restrict_space2_iff)
56994
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  2282
59415
854fe701c984 tuned measurability proofs
hoelzl
parents: 59361
diff changeset
  2283
lemma measurable_piecewise_restrict:
854fe701c984 tuned measurability proofs
hoelzl
parents: 59361
diff changeset
  2284
  assumes I: "countable C"
854fe701c984 tuned measurability proofs
hoelzl
parents: 59361
diff changeset
  2285
    and X: "\<And>\<Omega>. \<Omega> \<in> C \<Longrightarrow> \<Omega> \<inter> space M \<in> sets M" "space M \<subseteq> \<Union>C"
854fe701c984 tuned measurability proofs
hoelzl
parents: 59361
diff changeset
  2286
    and f: "\<And>\<Omega>. \<Omega> \<in> C \<Longrightarrow> f \<in> measurable (restrict_space M \<Omega>) N"
854fe701c984 tuned measurability proofs
hoelzl
parents: 59361
diff changeset
  2287
  shows "f \<in> measurable M N"
854fe701c984 tuned measurability proofs
hoelzl
parents: 59361
diff changeset
  2288
proof (rule measurableI)
854fe701c984 tuned measurability proofs
hoelzl
parents: 59361
diff changeset
  2289
  fix x assume "x \<in> space M"
854fe701c984 tuned measurability proofs
hoelzl
parents: 59361
diff changeset
  2290
  with X obtain \<Omega> where "\<Omega> \<in> C" "x \<in> \<Omega>" "x \<in> space M" by auto
854fe701c984 tuned measurability proofs
hoelzl
parents: 59361
diff changeset
  2291
  then show "f x \<in> space N"
854fe701c984 tuned measurability proofs
hoelzl
parents: 59361
diff changeset
  2292
    by (auto simp: space_restrict_space intro: f measurable_space)
57138
7b3146180291 generalizd measurability on restricted space; rule for integrability on compact sets
hoelzl
parents: 57137
diff changeset
  2293
next
59415
854fe701c984 tuned measurability proofs
hoelzl
parents: 59361
diff changeset
  2294
  fix A assume A: "A \<in> sets N"
854fe701c984 tuned measurability proofs
hoelzl
parents: 59361
diff changeset
  2295
  have "f -` A \<inter> space M = (\<Union>\<Omega>\<in>C. (f -` A \<inter> (\<Omega> \<inter> space M)))"
854fe701c984 tuned measurability proofs
hoelzl
parents: 59361
diff changeset
  2296
    using X by (auto simp: subset_eq)
57138
7b3146180291 generalizd measurability on restricted space; rule for integrability on compact sets
hoelzl
parents: 57137
diff changeset
  2297
  also have "\<dots> \<in> sets M"
59415
854fe701c984 tuned measurability proofs
hoelzl
parents: 59361
diff changeset
  2298
    using measurable_sets[OF f A] X I
854fe701c984 tuned measurability proofs
hoelzl
parents: 59361
diff changeset
  2299
    by (intro sets.countable_UN') (auto simp: sets_restrict_space_iff space_restrict_space)
854fe701c984 tuned measurability proofs
hoelzl
parents: 59361
diff changeset
  2300
  finally show "f -` A \<inter> space M \<in> sets M" .
57138
7b3146180291 generalizd measurability on restricted space; rule for integrability on compact sets
hoelzl
parents: 57137
diff changeset
  2301
qed
7b3146180291 generalizd measurability on restricted space; rule for integrability on compact sets
hoelzl
parents: 57137
diff changeset
  2302
59415
854fe701c984 tuned measurability proofs
hoelzl
parents: 59361
diff changeset
  2303
lemma measurable_piecewise_restrict_iff:
854fe701c984 tuned measurability proofs
hoelzl
parents: 59361
diff changeset
  2304
  "countable C \<Longrightarrow> (\<And>\<Omega>. \<Omega> \<in> C \<Longrightarrow> \<Omega> \<inter> space M \<in> sets M) \<Longrightarrow> space M \<subseteq> (\<Union>C) \<Longrightarrow>
854fe701c984 tuned measurability proofs
hoelzl
parents: 59361
diff changeset
  2305
    f \<in> measurable M N \<longleftrightarrow> (\<forall>\<Omega>\<in>C. f \<in> measurable (restrict_space M \<Omega>) N)"
854fe701c984 tuned measurability proofs
hoelzl
parents: 59361
diff changeset
  2306
  by (auto intro: measurable_piecewise_restrict measurable_restrict_space1)
854fe701c984 tuned measurability proofs
hoelzl
parents: 59361
diff changeset
  2307
854fe701c984 tuned measurability proofs
hoelzl
parents: 59361
diff changeset
  2308
lemma measurable_If_restrict_space_iff:
854fe701c984 tuned measurability proofs
hoelzl
parents: 59361
diff changeset
  2309
  "{x\<in>space M. P x} \<in> sets M \<Longrightarrow>
854fe701c984 tuned measurability proofs
hoelzl
parents: 59361
diff changeset
  2310
    (\<lambda>x. if P x then f x else g x) \<in> measurable M N \<longleftrightarrow>
854fe701c984 tuned measurability proofs
hoelzl
parents: 59361
diff changeset
  2311
    (f \<in> measurable (restrict_space M {x. P x}) N \<and> g \<in> measurable (restrict_space M {x. \<not> P x}) N)"
854fe701c984 tuned measurability proofs
hoelzl
parents: 59361
diff changeset
  2312
  by (subst measurable_piecewise_restrict_iff[where C="{{x. P x}, {x. \<not> P x}}"])
854fe701c984 tuned measurability proofs
hoelzl
parents: 59361
diff changeset
  2313
     (auto simp: Int_def sets.sets_Collect_neg space_restrict_space conj_commute[of _ "x \<in> space M" for x]
854fe701c984 tuned measurability proofs
hoelzl
parents: 59361
diff changeset
  2314
           cong: measurable_cong')
854fe701c984 tuned measurability proofs
hoelzl
parents: 59361
diff changeset
  2315
854fe701c984 tuned measurability proofs
hoelzl
parents: 59361
diff changeset
  2316
lemma measurable_If:
854fe701c984 tuned measurability proofs
hoelzl
parents: 59361
diff changeset
  2317
  "f \<in> measurable M M' \<Longrightarrow> g \<in> measurable M M' \<Longrightarrow> {x\<in>space M. P x} \<in> sets M \<Longrightarrow>
854fe701c984 tuned measurability proofs
hoelzl
parents: 59361
diff changeset
  2318
    (\<lambda>x. if P x then f x else g x) \<in> measurable M M'"
854fe701c984 tuned measurability proofs
hoelzl
parents: 59361
diff changeset
  2319
  unfolding measurable_If_restrict_space_iff by (auto intro: measurable_restrict_space1)
854fe701c984 tuned measurability proofs
hoelzl
parents: 59361
diff changeset
  2320
854fe701c984 tuned measurability proofs
hoelzl
parents: 59361
diff changeset
  2321
lemma measurable_If_set:
854fe701c984 tuned measurability proofs
hoelzl
parents: 59361
diff changeset
  2322
  assumes measure: "f \<in> measurable M M'" "g \<in> measurable M M'"
854fe701c984 tuned measurability proofs
hoelzl
parents: 59361
diff changeset
  2323
  assumes P: "A \<inter> space M \<in> sets M"
854fe701c984 tuned measurability proofs
hoelzl
parents: 59361
diff changeset
  2324
  shows "(\<lambda>x. if x \<in> A then f x else g x) \<in> measurable M M'"
854fe701c984 tuned measurability proofs
hoelzl
parents: 59361
diff changeset
  2325
proof (rule measurable_If[OF measure])
854fe701c984 tuned measurability proofs
hoelzl
parents: 59361
diff changeset
  2326
  have "{x \<in> space M. x \<in> A} = A \<inter> space M" by auto
61808
fc1556774cfe isabelle update_cartouches -c -t;
wenzelm
parents: 61633
diff changeset
  2327
  thus "{x \<in> space M. x \<in> A} \<in> sets M" using \<open>A \<inter> space M \<in> sets M\<close> by auto
59415
854fe701c984 tuned measurability proofs
hoelzl
parents: 59361
diff changeset
  2328
qed
59361
fd5da2434be4 piecewise measurability using restrict_space; cleanup Borel_Space
hoelzl
parents: 59092
diff changeset
  2329
59415
854fe701c984 tuned measurability proofs
hoelzl
parents: 59361
diff changeset
  2330
lemma measurable_restrict_space_iff:
854fe701c984 tuned measurability proofs
hoelzl
parents: 59361
diff changeset
  2331
  "\<Omega> \<inter> space M \<in> sets M \<Longrightarrow> c \<in> space N \<Longrightarrow>
854fe701c984 tuned measurability proofs
hoelzl
parents: 59361
diff changeset
  2332
    f \<in> measurable (restrict_space M \<Omega>) N \<longleftrightarrow> (\<lambda>x. if x \<in> \<Omega> then f x else c) \<in> measurable M N"
854fe701c984 tuned measurability proofs
hoelzl
parents: 59361
diff changeset
  2333
  by (subst measurable_If_restrict_space_iff)
854fe701c984 tuned measurability proofs
hoelzl
parents: 59361
diff changeset
  2334
     (simp_all add: Int_def conj_commute measurable_const)
854fe701c984 tuned measurability proofs
hoelzl
parents: 59361
diff changeset
  2335
854fe701c984 tuned measurability proofs
hoelzl
parents: 59361
diff changeset
  2336
lemma restrict_space_singleton: "{x} \<in> sets M \<Longrightarrow> sets (restrict_space M {x}) = sets (count_space {x})"
854fe701c984 tuned measurability proofs
hoelzl
parents: 59361
diff changeset
  2337
  using sets_restrict_space_iff[of "{x}" M]
854fe701c984 tuned measurability proofs
hoelzl
parents: 59361
diff changeset
  2338
  by (auto simp add: sets_restrict_space_iff dest!: subset_singletonD)
854fe701c984 tuned measurability proofs
hoelzl
parents: 59361
diff changeset
  2339
854fe701c984 tuned measurability proofs
hoelzl
parents: 59361
diff changeset
  2340
lemma measurable_restrict_countable:
854fe701c984 tuned measurability proofs
hoelzl
parents: 59361
diff changeset
  2341
  assumes X[intro]: "countable X"
854fe701c984 tuned measurability proofs
hoelzl
parents: 59361
diff changeset
  2342
  assumes sets[simp]: "\<And>x. x \<in> X \<Longrightarrow> {x} \<in> sets M"
854fe701c984 tuned measurability proofs
hoelzl
parents: 59361
diff changeset
  2343
  assumes space[simp]: "\<And>x. x \<in> X \<Longrightarrow> f x \<in> space N"
854fe701c984 tuned measurability proofs
hoelzl
parents: 59361
diff changeset
  2344
  assumes f: "f \<in> measurable (restrict_space M (- X)) N"
854fe701c984 tuned measurability proofs
hoelzl
parents: 59361
diff changeset
  2345
  shows "f \<in> measurable M N"
854fe701c984 tuned measurability proofs
hoelzl
parents: 59361
diff changeset
  2346
  using f sets.countable[OF sets X]
854fe701c984 tuned measurability proofs
hoelzl
parents: 59361
diff changeset
  2347
  by (intro measurable_piecewise_restrict[where M=M and C="{- X} \<union> ((\<lambda>x. {x}) ` X)"])
854fe701c984 tuned measurability proofs
hoelzl
parents: 59361
diff changeset
  2348
     (auto simp: Diff_Int_distrib2 Compl_eq_Diff_UNIV Int_insert_left sets.Diff restrict_space_singleton
854fe701c984 tuned measurability proofs
hoelzl
parents: 59361
diff changeset
  2349
           simp del: sets_count_space  cong: measurable_cong_sets)
854fe701c984 tuned measurability proofs
hoelzl
parents: 59361
diff changeset
  2350
854fe701c984 tuned measurability proofs
hoelzl
parents: 59361
diff changeset
  2351
lemma measurable_discrete_difference:
854fe701c984 tuned measurability proofs
hoelzl
parents: 59361
diff changeset
  2352
  assumes f: "f \<in> measurable M N"
854fe701c984 tuned measurability proofs
hoelzl
parents: 59361
diff changeset
  2353
  assumes X: "countable X" "\<And>x. x \<in> X \<Longrightarrow> {x} \<in> sets M" "\<And>x. x \<in> X \<Longrightarrow> g x \<in> space N"
854fe701c984 tuned measurability proofs
hoelzl
parents: 59361
diff changeset
  2354
  assumes eq: "\<And>x. x \<in> space M \<Longrightarrow> x \<notin> X \<Longrightarrow> f x = g x"
854fe701c984 tuned measurability proofs
hoelzl
parents: 59361
diff changeset
  2355
  shows "g \<in> measurable M N"
854fe701c984 tuned measurability proofs
hoelzl
parents: 59361
diff changeset
  2356
  by (rule measurable_restrict_countable[OF X])
854fe701c984 tuned measurability proofs
hoelzl
parents: 59361
diff changeset
  2357
     (auto simp: eq[symmetric] space_restrict_space cong: measurable_cong' intro: f measurable_restrict_space1)
59361
fd5da2434be4 piecewise measurability using restrict_space; cleanup Borel_Space
hoelzl
parents: 59092
diff changeset
  2358
33271
7be66dee1a5a New theory Probability, which contains a development of measure theory
paulson
parents:
diff changeset
  2359
end
57025
e7fd64f82876 add various lemmas
hoelzl
parents: 56994
diff changeset
  2360