src/HOL/Probability/Bochner_Integration.thy
author haftmann
Tue, 31 Mar 2015 21:54:32 +0200
changeset 59867 58043346ca64
parent 59587 8ea7b22525cb
child 60066 14efa7f4ee7b
permissions -rw-r--r--
given up separate type classes demanding `inverse 0 = 0`
Ignore whitespace changes - Everywhere: Within whitespace: At end of lines:
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(*  Title:      HOL/Probability/Bochner_Integration.thy
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    Author:     Johannes Hölzl, TU München
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*)
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section {* Bochner Integration for Vector-Valued Functions *}
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e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
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theory Bochner_Integration
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  imports Finite_Product_Measure
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begin
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e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
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text {*
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In the following development of the Bochner integral we use second countable topologies instead
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parents:
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of separable spaces. A second countable topology is also separable.
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e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
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*}
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lemma borel_measurable_implies_sequence_metric:
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  fixes f :: "'a \<Rightarrow> 'b :: {metric_space, second_countable_topology}"
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  assumes [measurable]: "f \<in> borel_measurable M"
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  shows "\<exists>F. (\<forall>i. simple_function M (F i)) \<and> (\<forall>x\<in>space M. (\<lambda>i. F i x) ----> f x) \<and>
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
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    (\<forall>i. \<forall>x\<in>space M. dist (F i x) z \<le> 2 * dist (f x) z)"
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proof -
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  obtain D :: "'b set" where "countable D" and D: "\<And>X. open X \<Longrightarrow> X \<noteq> {} \<Longrightarrow> \<exists>d\<in>D. d \<in> X"
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    by (erule countable_dense_setE)
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  def e \<equiv> "from_nat_into D"
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  { fix n x
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
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parents:
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    obtain d where "d \<in> D" and d: "d \<in> ball x (1 / Suc n)"
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      using D[of "ball x (1 / Suc n)"] by auto
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    from `d \<in> D` D[of UNIV] `countable D` obtain i where "d = e i"
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parents:
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      unfolding e_def by (auto dest: from_nat_into_surj)
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parents:
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    with d have "\<exists>i. dist x (e i) < 1 / Suc n"
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parents:
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      by auto }
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parents:
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  note e = this
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  def A \<equiv> "\<lambda>m n. {x\<in>space M. dist (f x) (e n) < 1 / (Suc m) \<and> 1 / (Suc m) \<le> dist (f x) z}"
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  def B \<equiv> "\<lambda>m. disjointed (A m)"
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e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
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  def m \<equiv> "\<lambda>N x. Max {m::nat. m \<le> N \<and> x \<in> (\<Union>n\<le>N. B m n)}"
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parents:
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  def F \<equiv> "\<lambda>N::nat. \<lambda>x. if (\<exists>m\<le>N. x \<in> (\<Union>n\<le>N. B m n)) \<and> (\<exists>n\<le>N. x \<in> B (m N x) n) 
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
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parents:
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    then e (LEAST n. x \<in> B (m N x) n) else z"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
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e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
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parents:
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  have B_imp_A[intro, simp]: "\<And>x m n. x \<in> B m n \<Longrightarrow> x \<in> A m n"
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parents:
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    using disjointed_subset[of "A m" for m] unfolding B_def by auto
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parents:
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e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
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  { fix m
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parents:
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    have "\<And>n. A m n \<in> sets M"
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parents:
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    49
      by (auto simp: A_def)
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hoelzl
parents:
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    50
    then have "\<And>n. B m n \<in> sets M"
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hoelzl
parents:
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      using sets.range_disjointed_sets[of "A m" M] by (auto simp: B_def) }
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parents:
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  note this[measurable]
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parents:
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e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
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  { fix N i x assume "\<exists>m\<le>N. x \<in> (\<Union>n\<le>N. B m n)"
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parents:
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    55
    then have "m N x \<in> {m::nat. m \<le> N \<and> x \<in> (\<Union>n\<le>N. B m n)}"
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hoelzl
parents:
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    56
      unfolding m_def by (intro Max_in) auto
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hoelzl
parents:
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    57
    then have "m N x \<le> N" "\<exists>n\<le>N. x \<in> B (m N x) n"
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hoelzl
parents:
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    58
      by auto }
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parents:
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    59
  note m = this
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parents:
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    60
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
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parents:
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  { fix j N i x assume "j \<le> N" "i \<le> N" "x \<in> B j i"
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hoelzl
parents:
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    62
    then have "j \<le> m N x"
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hoelzl
parents:
diff changeset
    63
      unfolding m_def by (intro Max_ge) auto }
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hoelzl
parents:
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    64
  note m_upper = this
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parents:
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    65
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
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parents:
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    66
  show ?thesis
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hoelzl
parents:
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    67
    unfolding simple_function_def
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hoelzl
parents:
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    68
  proof (safe intro!: exI[of _ F])
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hoelzl
parents:
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    69
    have [measurable]: "\<And>i. F i \<in> borel_measurable M"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
    70
      unfolding F_def m_def by measurable
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
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    71
    show "\<And>x i. F i -` {x} \<inter> space M \<in> sets M"
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hoelzl
parents:
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    72
      by measurable
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
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    73
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
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parents:
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    74
    { fix i
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
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parents:
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    75
      { fix n x assume "x \<in> B (m i x) n"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
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    76
        then have "(LEAST n. x \<in> B (m i x) n) \<le> n"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
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    77
          by (intro Least_le)
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
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    78
        also assume "n \<le> i" 
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
    79
        finally have "(LEAST n. x \<in> B (m i x) n) \<le> i" . }
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
    80
      then have "F i ` space M \<subseteq> {z} \<union> e ` {.. i}"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
    81
        by (auto simp: F_def)
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
    82
      then show "finite (F i ` space M)"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
    83
        by (rule finite_subset) auto }
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
    84
    
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
    85
    { fix N i n x assume "i \<le> N" "n \<le> N" "x \<in> B i n"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
    86
      then have 1: "\<exists>m\<le>N. x \<in> (\<Union> n\<le>N. B m n)" by auto
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
    87
      from m[OF this] obtain n where n: "m N x \<le> N" "n \<le> N" "x \<in> B (m N x) n" by auto
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
    88
      moreover
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
    89
      def L \<equiv> "LEAST n. x \<in> B (m N x) n"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
    90
      have "dist (f x) (e L) < 1 / Suc (m N x)"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
    91
      proof -
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
    92
        have "x \<in> B (m N x) L"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
    93
          using n(3) unfolding L_def by (rule LeastI)
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
    94
        then have "x \<in> A (m N x) L"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
    95
          by auto
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
    96
        then show ?thesis
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
    97
          unfolding A_def by simp
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
    98
      qed
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
    99
      ultimately have "dist (f x) (F N x) < 1 / Suc (m N x)"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   100
        by (auto simp add: F_def L_def) }
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   101
    note * = this
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   102
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   103
    fix x assume "x \<in> space M"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   104
    show "(\<lambda>i. F i x) ----> f x"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   105
    proof cases
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   106
      assume "f x = z"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   107
      then have "\<And>i n. x \<notin> A i n"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   108
        unfolding A_def by auto
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   109
      then have "\<And>i. F i x = z"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   110
        by (auto simp: F_def)
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   111
      then show ?thesis
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   112
        using `f x = z` by auto
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   113
    next
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   114
      assume "f x \<noteq> z"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   115
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   116
      show ?thesis
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   117
      proof (rule tendstoI)
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   118
        fix e :: real assume "0 < e"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   119
        with `f x \<noteq> z` obtain n where "1 / Suc n < e" "1 / Suc n < dist (f x) z"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   120
          by (metis dist_nz order_less_trans neq_iff nat_approx_posE)
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   121
        with `x\<in>space M` `f x \<noteq> z` have "x \<in> (\<Union>i. B n i)"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   122
          unfolding A_def B_def UN_disjointed_eq using e by auto
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   123
        then obtain i where i: "x \<in> B n i" by auto
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   124
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   125
        show "eventually (\<lambda>i. dist (F i x) (f x) < e) sequentially"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   126
          using eventually_ge_at_top[of "max n i"]
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   127
        proof eventually_elim
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   128
          fix j assume j: "max n i \<le> j"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   129
          with i have "dist (f x) (F j x) < 1 / Suc (m j x)"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   130
            by (intro *[OF _ _ i]) auto
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   131
          also have "\<dots> \<le> 1 / Suc n"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   132
            using j m_upper[OF _ _ i]
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   133
            by (auto simp: field_simps)
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   134
          also note `1 / Suc n < e`
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   135
          finally show "dist (F j x) (f x) < e"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   136
            by (simp add: less_imp_le dist_commute)
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   137
        qed
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   138
      qed
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   139
    qed
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   140
    fix i 
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   141
    { fix n m assume "x \<in> A n m"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   142
      then have "dist (e m) (f x) + dist (f x) z \<le> 2 * dist (f x) z"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   143
        unfolding A_def by (auto simp: dist_commute)
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   144
      also have "dist (e m) z \<le> dist (e m) (f x) + dist (f x) z"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   145
        by (rule dist_triangle)
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   146
      finally (xtrans) have "dist (e m) z \<le> 2 * dist (f x) z" . }
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   147
    then show "dist (F i x) z \<le> 2 * dist (f x) z"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   148
      unfolding F_def
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   149
      apply auto
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   150
      apply (rule LeastI2)
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   151
      apply auto
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   152
      done
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   153
  qed
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   154
qed
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   155
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   156
lemma real_indicator: "real (indicator A x :: ereal) = indicator A x"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   157
  unfolding indicator_def by auto
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   158
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   159
lemma split_indicator_asm:
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   160
  "P (indicator S x) \<longleftrightarrow> \<not> ((x \<in> S \<and> \<not> P 1) \<or> (x \<notin> S \<and> \<not> P 0))"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   161
  unfolding indicator_def by auto
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   162
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   163
lemma
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   164
  fixes f :: "'a \<Rightarrow> 'b::semiring_1" assumes "finite A"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   165
  shows setsum_mult_indicator[simp]: "(\<Sum>x \<in> A. f x * indicator (B x) (g x)) = (\<Sum>x\<in>{x\<in>A. g x \<in> B x}. f x)"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   166
  and setsum_indicator_mult[simp]: "(\<Sum>x \<in> A. indicator (B x) (g x) * f x) = (\<Sum>x\<in>{x\<in>A. g x \<in> B x}. f x)"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   167
  unfolding indicator_def
57418
6ab1c7cb0b8d fact consolidation
haftmann
parents: 57275
diff changeset
   168
  using assms by (auto intro!: setsum.mono_neutral_cong_right split: split_if_asm)
56993
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   169
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   170
lemma borel_measurable_induct_real[consumes 2, case_names set mult add seq]:
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   171
  fixes P :: "('a \<Rightarrow> real) \<Rightarrow> bool"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   172
  assumes u: "u \<in> borel_measurable M" "\<And>x. 0 \<le> u x"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   173
  assumes set: "\<And>A. A \<in> sets M \<Longrightarrow> P (indicator A)"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   174
  assumes mult: "\<And>u c. 0 \<le> c \<Longrightarrow> u \<in> borel_measurable M \<Longrightarrow> (\<And>x. 0 \<le> u x) \<Longrightarrow> P u \<Longrightarrow> P (\<lambda>x. c * u x)"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   175
  assumes add: "\<And>u v. u \<in> borel_measurable M \<Longrightarrow> (\<And>x. 0 \<le> u x) \<Longrightarrow> P u \<Longrightarrow> v \<in> borel_measurable M \<Longrightarrow> (\<And>x. 0 \<le> v x) \<Longrightarrow> (\<And>x. x \<in> space M \<Longrightarrow> u x = 0 \<or> v x = 0) \<Longrightarrow> P v \<Longrightarrow> P (\<lambda>x. v x + u x)"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   176
  assumes seq: "\<And>U. (\<And>i. U i \<in> borel_measurable M) \<Longrightarrow> (\<And>i x. 0 \<le> U i x) \<Longrightarrow> (\<And>i. P (U i)) \<Longrightarrow> incseq U \<Longrightarrow> (\<And>x. x \<in> space M \<Longrightarrow> (\<lambda>i. U i x) ----> u x) \<Longrightarrow> P u"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   177
  shows "P u"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   178
proof -
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   179
  have "(\<lambda>x. ereal (u x)) \<in> borel_measurable M" using u by auto
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   180
  from borel_measurable_implies_simple_function_sequence'[OF this]
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   181
  obtain U where U: "\<And>i. simple_function M (U i)" "incseq U" "\<And>i. \<infinity> \<notin> range (U i)" and
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   182
    sup: "\<And>x. (SUP i. U i x) = max 0 (ereal (u x))" and nn: "\<And>i x. 0 \<le> U i x"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   183
    by blast
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   184
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   185
  def U' \<equiv> "\<lambda>i x. indicator (space M) x * real (U i x)"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   186
  then have U'_sf[measurable]: "\<And>i. simple_function M (U' i)"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   187
    using U by (auto intro!: simple_function_compose1[where g=real])
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   188
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   189
  show "P u"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   190
  proof (rule seq)
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   191
    fix i show "U' i \<in> borel_measurable M" "\<And>x. 0 \<le> U' i x"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   192
      using U nn by (auto
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   193
          intro: borel_measurable_simple_function 
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   194
          intro!: borel_measurable_real_of_ereal real_of_ereal_pos borel_measurable_times
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   195
          simp: U'_def zero_le_mult_iff)
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   196
    show "incseq U'"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   197
      using U(2,3) nn
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   198
      by (auto simp: incseq_def le_fun_def image_iff eq_commute U'_def indicator_def
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   199
               intro!: real_of_ereal_positive_mono)
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   200
  next
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   201
    fix x assume x: "x \<in> space M"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   202
    have "(\<lambda>i. U i x) ----> (SUP i. U i x)"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   203
      using U(2) by (intro LIMSEQ_SUP) (auto simp: incseq_def le_fun_def)
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   204
    moreover have "(\<lambda>i. U i x) = (\<lambda>i. ereal (U' i x))"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   205
      using x nn U(3) by (auto simp: fun_eq_iff U'_def ereal_real image_iff eq_commute)
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   206
    moreover have "(SUP i. U i x) = ereal (u x)"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   207
      using sup u(2) by (simp add: max_def)
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   208
    ultimately show "(\<lambda>i. U' i x) ----> u x" 
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   209
      by simp
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   210
  next
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   211
    fix i
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   212
    have "U' i ` space M \<subseteq> real ` (U i ` space M)" "finite (U i ` space M)"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   213
      unfolding U'_def using U(1) by (auto dest: simple_functionD)
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   214
    then have fin: "finite (U' i ` space M)"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   215
      by (metis finite_subset finite_imageI)
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   216
    moreover have "\<And>z. {y. U' i z = y \<and> y \<in> U' i ` space M \<and> z \<in> space M} = (if z \<in> space M then {U' i z} else {})"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   217
      by auto
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   218
    ultimately have U': "(\<lambda>z. \<Sum>y\<in>U' i`space M. y * indicator {x\<in>space M. U' i x = y} z) = U' i"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   219
      by (simp add: U'_def fun_eq_iff)
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   220
    have "\<And>x. x \<in> U' i ` space M \<Longrightarrow> 0 \<le> x"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   221
      using nn by (auto simp: U'_def real_of_ereal_pos)
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   222
    with fin have "P (\<lambda>z. \<Sum>y\<in>U' i`space M. y * indicator {x\<in>space M. U' i x = y} z)"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   223
    proof induct
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   224
      case empty from set[of "{}"] show ?case
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   225
        by (simp add: indicator_def[abs_def])
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   226
    next
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   227
      case (insert x F)
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   228
      then show ?case
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   229
        by (auto intro!: add mult set setsum_nonneg split: split_indicator split_indicator_asm
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   230
                 simp del: setsum_mult_indicator simp: setsum_nonneg_eq_0_iff )
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   231
    qed
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   232
    with U' show "P (U' i)" by simp
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   233
  qed
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   234
qed
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   235
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   236
lemma scaleR_cong_right:
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   237
  fixes x :: "'a :: real_vector"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   238
  shows "(x \<noteq> 0 \<Longrightarrow> r = p) \<Longrightarrow> r *\<^sub>R x = p *\<^sub>R x"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   239
  by (cases "x = 0") auto
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   240
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   241
inductive simple_bochner_integrable :: "'a measure \<Rightarrow> ('a \<Rightarrow> 'b::real_vector) \<Rightarrow> bool" for M f where
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   242
  "simple_function M f \<Longrightarrow> emeasure M {y\<in>space M. f y \<noteq> 0} \<noteq> \<infinity> \<Longrightarrow>
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   243
    simple_bochner_integrable M f"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   244
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   245
lemma simple_bochner_integrable_compose2:
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   246
  assumes p_0: "p 0 0 = 0"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   247
  shows "simple_bochner_integrable M f \<Longrightarrow> simple_bochner_integrable M g \<Longrightarrow>
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   248
    simple_bochner_integrable M (\<lambda>x. p (f x) (g x))"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   249
proof (safe intro!: simple_bochner_integrable.intros elim!: simple_bochner_integrable.cases del: notI)
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   250
  assume sf: "simple_function M f" "simple_function M g"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   251
  then show "simple_function M (\<lambda>x. p (f x) (g x))"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   252
    by (rule simple_function_compose2)
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   253
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   254
  from sf have [measurable]:
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   255
      "f \<in> measurable M (count_space UNIV)"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   256
      "g \<in> measurable M (count_space UNIV)"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   257
    by (auto intro: measurable_simple_function)
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   258
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   259
  assume fin: "emeasure M {y \<in> space M. f y \<noteq> 0} \<noteq> \<infinity>" "emeasure M {y \<in> space M. g y \<noteq> 0} \<noteq> \<infinity>"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   260
   
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   261
  have "emeasure M {x\<in>space M. p (f x) (g x) \<noteq> 0} \<le>
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   262
      emeasure M ({x\<in>space M. f x \<noteq> 0} \<union> {x\<in>space M. g x \<noteq> 0})"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   263
    by (intro emeasure_mono) (auto simp: p_0)
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   264
  also have "\<dots> \<le> emeasure M {x\<in>space M. f x \<noteq> 0} + emeasure M {x\<in>space M. g x \<noteq> 0}"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   265
    by (intro emeasure_subadditive) auto
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   266
  finally show "emeasure M {y \<in> space M. p (f y) (g y) \<noteq> 0} \<noteq> \<infinity>"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   267
    using fin by auto
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   268
qed
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   269
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   270
lemma simple_function_finite_support:
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   271
  assumes f: "simple_function M f" and fin: "(\<integral>\<^sup>+x. f x \<partial>M) < \<infinity>" and nn: "\<And>x. 0 \<le> f x"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   272
  shows "emeasure M {x\<in>space M. f x \<noteq> 0} \<noteq> \<infinity>"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   273
proof cases
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   274
  from f have meas[measurable]: "f \<in> borel_measurable M"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   275
    by (rule borel_measurable_simple_function)
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   276
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   277
  assume non_empty: "\<exists>x\<in>space M. f x \<noteq> 0"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   278
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   279
  def m \<equiv> "Min (f`space M - {0})"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   280
  have "m \<in> f`space M - {0}"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   281
    unfolding m_def using f non_empty by (intro Min_in) (auto simp: simple_function_def)
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   282
  then have m: "0 < m"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   283
    using nn by (auto simp: less_le)
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   284
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   285
  from m have "m * emeasure M {x\<in>space M. 0 \<noteq> f x} = 
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   286
    (\<integral>\<^sup>+x. m * indicator {x\<in>space M. 0 \<noteq> f x} x \<partial>M)"
56996
891e992e510f renamed positive_integral to nn_integral
hoelzl
parents: 56994
diff changeset
   287
    using f by (intro nn_integral_cmult_indicator[symmetric]) auto
56993
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   288
  also have "\<dots> \<le> (\<integral>\<^sup>+x. f x \<partial>M)"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   289
    using AE_space
56996
891e992e510f renamed positive_integral to nn_integral
hoelzl
parents: 56994
diff changeset
   290
  proof (intro nn_integral_mono_AE, eventually_elim)
56993
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   291
    fix x assume "x \<in> space M"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   292
    with nn show "m * indicator {x \<in> space M. 0 \<noteq> f x} x \<le> f x"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   293
      using f by (auto split: split_indicator simp: simple_function_def m_def)
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   294
  qed
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   295
  also note `\<dots> < \<infinity>`
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   296
  finally show ?thesis
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   297
    using m by auto 
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   298
next
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   299
  assume "\<not> (\<exists>x\<in>space M. f x \<noteq> 0)"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   300
  with nn have *: "{x\<in>space M. f x \<noteq> 0} = {}"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   301
    by auto
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   302
  show ?thesis unfolding * by simp
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   303
qed
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   304
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   305
lemma simple_bochner_integrableI_bounded:
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   306
  assumes f: "simple_function M f" and fin: "(\<integral>\<^sup>+x. norm (f x) \<partial>M) < \<infinity>"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   307
  shows "simple_bochner_integrable M f"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   308
proof
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   309
  have "emeasure M {y \<in> space M. ereal (norm (f y)) \<noteq> 0} \<noteq> \<infinity>"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   310
  proof (rule simple_function_finite_support)
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   311
    show "simple_function M (\<lambda>x. ereal (norm (f x)))"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   312
      using f by (rule simple_function_compose1)
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   313
    show "(\<integral>\<^sup>+ y. ereal (norm (f y)) \<partial>M) < \<infinity>" by fact
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   314
  qed simp
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   315
  then show "emeasure M {y \<in> space M. f y \<noteq> 0} \<noteq> \<infinity>" by simp
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   316
qed fact
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   317
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   318
definition simple_bochner_integral :: "'a measure \<Rightarrow> ('a \<Rightarrow> 'b::real_vector) \<Rightarrow> 'b" where
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   319
  "simple_bochner_integral M f = (\<Sum>y\<in>f`space M. measure M {x\<in>space M. f x = y} *\<^sub>R y)"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   320
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   321
lemma simple_bochner_integral_partition:
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   322
  assumes f: "simple_bochner_integrable M f" and g: "simple_function M g"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   323
  assumes sub: "\<And>x y. x \<in> space M \<Longrightarrow> y \<in> space M \<Longrightarrow> g x = g y \<Longrightarrow> f x = f y"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   324
  assumes v: "\<And>x. x \<in> space M \<Longrightarrow> f x = v (g x)"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   325
  shows "simple_bochner_integral M f = (\<Sum>y\<in>g ` space M. measure M {x\<in>space M. g x = y} *\<^sub>R v y)"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   326
    (is "_ = ?r")
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   327
proof -
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   328
  from f g have [simp]: "finite (f`space M)" "finite (g`space M)"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   329
    by (auto simp: simple_function_def elim: simple_bochner_integrable.cases)
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   330
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   331
  from f have [measurable]: "f \<in> measurable M (count_space UNIV)"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   332
    by (auto intro: measurable_simple_function elim: simple_bochner_integrable.cases)
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   333
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   334
  from g have [measurable]: "g \<in> measurable M (count_space UNIV)"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   335
    by (auto intro: measurable_simple_function elim: simple_bochner_integrable.cases)
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   336
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   337
  { fix y assume "y \<in> space M"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   338
    then have "f ` space M \<inter> {i. \<exists>x\<in>space M. i = f x \<and> g y = g x} = {v (g y)}"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   339
      by (auto cong: sub simp: v[symmetric]) }
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   340
  note eq = this
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   341
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   342
  have "simple_bochner_integral M f =
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   343
    (\<Sum>y\<in>f`space M. (\<Sum>z\<in>g`space M. 
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   344
      if \<exists>x\<in>space M. y = f x \<and> z = g x then measure M {x\<in>space M. g x = z} else 0) *\<^sub>R y)"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   345
    unfolding simple_bochner_integral_def
57418
6ab1c7cb0b8d fact consolidation
haftmann
parents: 57275
diff changeset
   346
  proof (safe intro!: setsum.cong scaleR_cong_right)
56993
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   347
    fix y assume y: "y \<in> space M" "f y \<noteq> 0"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   348
    have [simp]: "g ` space M \<inter> {z. \<exists>x\<in>space M. f y = f x \<and> z = g x} = 
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   349
        {z. \<exists>x\<in>space M. f y = f x \<and> z = g x}"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   350
      by auto
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   351
    have eq:"{x \<in> space M. f x = f y} =
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   352
        (\<Union>i\<in>{z. \<exists>x\<in>space M. f y = f x \<and> z = g x}. {x \<in> space M. g x = i})"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   353
      by (auto simp: eq_commute cong: sub rev_conj_cong)
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   354
    have "finite (g`space M)" by simp
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   355
    then have "finite {z. \<exists>x\<in>space M. f y = f x \<and> z = g x}"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   356
      by (rule rev_finite_subset) auto
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   357
    moreover
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   358
    { fix x assume "x \<in> space M" "f x = f y"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   359
      then have "x \<in> space M" "f x \<noteq> 0"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   360
        using y by auto
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   361
      then have "emeasure M {y \<in> space M. g y = g x} \<le> emeasure M {y \<in> space M. f y \<noteq> 0}"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   362
        by (auto intro!: emeasure_mono cong: sub)
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   363
      then have "emeasure M {xa \<in> space M. g xa = g x} < \<infinity>"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   364
        using f by (auto simp: simple_bochner_integrable.simps) }
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   365
    ultimately
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   366
    show "measure M {x \<in> space M. f x = f y} =
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   367
      (\<Sum>z\<in>g ` space M. if \<exists>x\<in>space M. f y = f x \<and> z = g x then measure M {x \<in> space M. g x = z} else 0)"
57418
6ab1c7cb0b8d fact consolidation
haftmann
parents: 57275
diff changeset
   368
      apply (simp add: setsum.If_cases eq)
56993
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   369
      apply (subst measure_finite_Union[symmetric])
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   370
      apply (auto simp: disjoint_family_on_def)
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   371
      done
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   372
  qed
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   373
  also have "\<dots> = (\<Sum>y\<in>f`space M. (\<Sum>z\<in>g`space M. 
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   374
      if \<exists>x\<in>space M. y = f x \<and> z = g x then measure M {x\<in>space M. g x = z} *\<^sub>R y else 0))"
57418
6ab1c7cb0b8d fact consolidation
haftmann
parents: 57275
diff changeset
   375
    by (auto intro!: setsum.cong simp: scaleR_setsum_left)
56993
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   376
  also have "\<dots> = ?r"
57418
6ab1c7cb0b8d fact consolidation
haftmann
parents: 57275
diff changeset
   377
    by (subst setsum.commute)
6ab1c7cb0b8d fact consolidation
haftmann
parents: 57275
diff changeset
   378
       (auto intro!: setsum.cong simp: setsum.If_cases scaleR_setsum_right[symmetric] eq)
56993
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   379
  finally show "simple_bochner_integral M f = ?r" .
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   380
qed
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   381
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   382
lemma simple_bochner_integral_add:
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   383
  assumes f: "simple_bochner_integrable M f" and g: "simple_bochner_integrable M g"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   384
  shows "simple_bochner_integral M (\<lambda>x. f x + g x) =
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   385
    simple_bochner_integral M f + simple_bochner_integral M g"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   386
proof -
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   387
  from f g have "simple_bochner_integral M (\<lambda>x. f x + g x) =
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   388
    (\<Sum>y\<in>(\<lambda>x. (f x, g x)) ` space M. measure M {x \<in> space M. (f x, g x) = y} *\<^sub>R (fst y + snd y))"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   389
    by (intro simple_bochner_integral_partition)
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   390
       (auto simp: simple_bochner_integrable_compose2 elim: simple_bochner_integrable.cases)
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   391
  moreover from f g have "simple_bochner_integral M f =
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   392
    (\<Sum>y\<in>(\<lambda>x. (f x, g x)) ` space M. measure M {x \<in> space M. (f x, g x) = y} *\<^sub>R fst y)"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   393
    by (intro simple_bochner_integral_partition)
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   394
       (auto simp: simple_bochner_integrable_compose2 elim: simple_bochner_integrable.cases)
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   395
  moreover from f g have "simple_bochner_integral M g =
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   396
    (\<Sum>y\<in>(\<lambda>x. (f x, g x)) ` space M. measure M {x \<in> space M. (f x, g x) = y} *\<^sub>R snd y)"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   397
    by (intro simple_bochner_integral_partition)
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   398
       (auto simp: simple_bochner_integrable_compose2 elim: simple_bochner_integrable.cases)
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   399
  ultimately show ?thesis
57418
6ab1c7cb0b8d fact consolidation
haftmann
parents: 57275
diff changeset
   400
    by (simp add: setsum.distrib[symmetric] scaleR_add_right)
56993
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   401
qed
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   402
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   403
lemma (in linear) simple_bochner_integral_linear:
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   404
  assumes g: "simple_bochner_integrable M g"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   405
  shows "simple_bochner_integral M (\<lambda>x. f (g x)) = f (simple_bochner_integral M g)"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   406
proof -
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   407
  from g have "simple_bochner_integral M (\<lambda>x. f (g x)) =
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   408
    (\<Sum>y\<in>g ` space M. measure M {x \<in> space M. g x = y} *\<^sub>R f y)"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   409
    by (intro simple_bochner_integral_partition)
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   410
       (auto simp: simple_bochner_integrable_compose2[where p="\<lambda>x y. f x"] zero
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   411
             elim: simple_bochner_integrable.cases)
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   412
  also have "\<dots> = f (simple_bochner_integral M g)"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   413
    by (simp add: simple_bochner_integral_def setsum scaleR)
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   414
  finally show ?thesis .
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   415
qed
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   416
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   417
lemma simple_bochner_integral_minus:
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   418
  assumes f: "simple_bochner_integrable M f"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   419
  shows "simple_bochner_integral M (\<lambda>x. - f x) = - simple_bochner_integral M f"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   420
proof -
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   421
  interpret linear uminus by unfold_locales auto
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   422
  from f show ?thesis
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   423
    by (rule simple_bochner_integral_linear)
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   424
qed
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   425
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   426
lemma simple_bochner_integral_diff:
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   427
  assumes f: "simple_bochner_integrable M f" and g: "simple_bochner_integrable M g"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   428
  shows "simple_bochner_integral M (\<lambda>x. f x - g x) =
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   429
    simple_bochner_integral M f - simple_bochner_integral M g"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   430
  unfolding diff_conv_add_uminus using f g
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   431
  by (subst simple_bochner_integral_add)
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   432
     (auto simp: simple_bochner_integral_minus simple_bochner_integrable_compose2[where p="\<lambda>x y. - y"])
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   433
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   434
lemma simple_bochner_integral_norm_bound:
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   435
  assumes f: "simple_bochner_integrable M f"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   436
  shows "norm (simple_bochner_integral M f) \<le> simple_bochner_integral M (\<lambda>x. norm (f x))"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   437
proof -
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   438
  have "norm (simple_bochner_integral M f) \<le> 
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   439
    (\<Sum>y\<in>f ` space M. norm (measure M {x \<in> space M. f x = y} *\<^sub>R y))"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   440
    unfolding simple_bochner_integral_def by (rule norm_setsum)
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   441
  also have "\<dots> = (\<Sum>y\<in>f ` space M. measure M {x \<in> space M. f x = y} *\<^sub>R norm y)"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   442
    by (simp add: measure_nonneg)
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   443
  also have "\<dots> = simple_bochner_integral M (\<lambda>x. norm (f x))"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   444
    using f
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   445
    by (intro simple_bochner_integral_partition[symmetric])
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   446
       (auto intro: f simple_bochner_integrable_compose2 elim: simple_bochner_integrable.cases)
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   447
  finally show ?thesis .
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   448
qed
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   449
56996
891e992e510f renamed positive_integral to nn_integral
hoelzl
parents: 56994
diff changeset
   450
lemma simple_bochner_integral_eq_nn_integral:
56993
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   451
  assumes f: "simple_bochner_integrable M f" "\<And>x. 0 \<le> f x"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   452
  shows "simple_bochner_integral M f = (\<integral>\<^sup>+x. f x \<partial>M)"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   453
proof -
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   454
  { fix x y z have "(x \<noteq> 0 \<Longrightarrow> y = z) \<Longrightarrow> ereal x * y = ereal x * z"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   455
      by (cases "x = 0") (auto simp: zero_ereal_def[symmetric]) }
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   456
  note ereal_cong_mult = this
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   457
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   458
  have [measurable]: "f \<in> borel_measurable M"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   459
    using f(1) by (auto intro: borel_measurable_simple_function elim: simple_bochner_integrable.cases)
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   460
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   461
  { fix y assume y: "y \<in> space M" "f y \<noteq> 0"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   462
    have "ereal (measure M {x \<in> space M. f x = f y}) = emeasure M {x \<in> space M. f x = f y}"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   463
    proof (rule emeasure_eq_ereal_measure[symmetric])
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   464
      have "emeasure M {x \<in> space M. f x = f y} \<le> emeasure M {x \<in> space M. f x \<noteq> 0}"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   465
        using y by (intro emeasure_mono) auto
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   466
      with f show "emeasure M {x \<in> space M. f x = f y} \<noteq> \<infinity>"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   467
        by (auto simp: simple_bochner_integrable.simps)
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   468
    qed
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   469
    moreover have "{x \<in> space M. f x = f y} = (\<lambda>x. ereal (f x)) -` {ereal (f y)} \<inter> space M"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   470
      by auto
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   471
    ultimately have "ereal (measure M {x \<in> space M. f x = f y}) =
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   472
          emeasure M ((\<lambda>x. ereal (f x)) -` {ereal (f y)} \<inter> space M)" by simp }
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   473
  with f have "simple_bochner_integral M f = (\<integral>\<^sup>Sx. f x \<partial>M)"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   474
    unfolding simple_integral_def
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   475
    by (subst simple_bochner_integral_partition[OF f(1), where g="\<lambda>x. ereal (f x)" and v=real])
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   476
       (auto intro: f simple_function_compose1 elim: simple_bochner_integrable.cases
57418
6ab1c7cb0b8d fact consolidation
haftmann
parents: 57275
diff changeset
   477
             intro!: setsum.cong ereal_cong_mult
57514
bdc2c6b40bf2 prefer ac_simps collections over separate name bindings for add and mult
haftmann
parents: 57512
diff changeset
   478
             simp: setsum_ereal[symmetric] times_ereal.simps(1)[symmetric] ac_simps
56993
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   479
             simp del: setsum_ereal times_ereal.simps(1))
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   480
  also have "\<dots> = (\<integral>\<^sup>+x. f x \<partial>M)"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   481
    using f
56996
891e992e510f renamed positive_integral to nn_integral
hoelzl
parents: 56994
diff changeset
   482
    by (intro nn_integral_eq_simple_integral[symmetric])
56993
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   483
       (auto simp: simple_function_compose1 simple_bochner_integrable.simps)
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   484
  finally show ?thesis .
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   485
qed
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   486
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   487
lemma simple_bochner_integral_bounded:
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   488
  fixes f :: "'a \<Rightarrow> 'b::{real_normed_vector, second_countable_topology}"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   489
  assumes f[measurable]: "f \<in> borel_measurable M"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   490
  assumes s: "simple_bochner_integrable M s" and t: "simple_bochner_integrable M t"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   491
  shows "ereal (norm (simple_bochner_integral M s - simple_bochner_integral M t)) \<le>
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   492
    (\<integral>\<^sup>+ x. norm (f x - s x) \<partial>M) + (\<integral>\<^sup>+ x. norm (f x - t x) \<partial>M)"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   493
    (is "ereal (norm (?s - ?t)) \<le> ?S + ?T")
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   494
proof -
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   495
  have [measurable]: "s \<in> borel_measurable M" "t \<in> borel_measurable M"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   496
    using s t by (auto intro: borel_measurable_simple_function elim: simple_bochner_integrable.cases)
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   497
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   498
  have "ereal (norm (?s - ?t)) = norm (simple_bochner_integral M (\<lambda>x. s x - t x))"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   499
    using s t by (subst simple_bochner_integral_diff) auto
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   500
  also have "\<dots> \<le> simple_bochner_integral M (\<lambda>x. norm (s x - t x))"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   501
    using simple_bochner_integrable_compose2[of "op -" M "s" "t"] s t
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   502
    by (auto intro!: simple_bochner_integral_norm_bound)
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   503
  also have "\<dots> = (\<integral>\<^sup>+x. norm (s x - t x) \<partial>M)"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   504
    using simple_bochner_integrable_compose2[of "\<lambda>x y. norm (x - y)" M "s" "t"] s t
56996
891e992e510f renamed positive_integral to nn_integral
hoelzl
parents: 56994
diff changeset
   505
    by (auto intro!: simple_bochner_integral_eq_nn_integral)
56993
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   506
  also have "\<dots> \<le> (\<integral>\<^sup>+x. ereal (norm (f x - s x)) + ereal (norm (f x - t x)) \<partial>M)"
56996
891e992e510f renamed positive_integral to nn_integral
hoelzl
parents: 56994
diff changeset
   507
    by (auto intro!: nn_integral_mono)
56993
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   508
       (metis (erased, hide_lams) add_diff_cancel_left add_diff_eq diff_add_eq order_trans
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   509
              norm_minus_commute norm_triangle_ineq4 order_refl)
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   510
  also have "\<dots> = ?S + ?T"
56996
891e992e510f renamed positive_integral to nn_integral
hoelzl
parents: 56994
diff changeset
   511
   by (rule nn_integral_add) auto
56993
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   512
  finally show ?thesis .
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   513
qed
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   514
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   515
inductive has_bochner_integral :: "'a measure \<Rightarrow> ('a \<Rightarrow> 'b) \<Rightarrow> 'b::{real_normed_vector, second_countable_topology} \<Rightarrow> bool"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   516
  for M f x where
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   517
  "f \<in> borel_measurable M \<Longrightarrow>
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   518
    (\<And>i. simple_bochner_integrable M (s i)) \<Longrightarrow>
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   519
    (\<lambda>i. \<integral>\<^sup>+x. norm (f x - s i x) \<partial>M) ----> 0 \<Longrightarrow>
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   520
    (\<lambda>i. simple_bochner_integral M (s i)) ----> x \<Longrightarrow>
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   521
    has_bochner_integral M f x"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   522
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   523
lemma has_bochner_integral_cong:
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   524
  assumes "M = N" "\<And>x. x \<in> space N \<Longrightarrow> f x = g x" "x = y"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   525
  shows "has_bochner_integral M f x \<longleftrightarrow> has_bochner_integral N g y"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   526
  unfolding has_bochner_integral.simps assms(1,3)
56996
891e992e510f renamed positive_integral to nn_integral
hoelzl
parents: 56994
diff changeset
   527
  using assms(2) by (simp cong: measurable_cong_strong nn_integral_cong_strong)
56993
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   528
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   529
lemma has_bochner_integral_cong_AE:
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   530
  "f \<in> borel_measurable M \<Longrightarrow> g \<in> borel_measurable M \<Longrightarrow> (AE x in M. f x = g x) \<Longrightarrow>
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   531
    has_bochner_integral M f x \<longleftrightarrow> has_bochner_integral M g x"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   532
  unfolding has_bochner_integral.simps
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   533
  by (intro arg_cong[where f=Ex] ext conj_cong rev_conj_cong refl arg_cong[where f="\<lambda>x. x ----> 0"]
56996
891e992e510f renamed positive_integral to nn_integral
hoelzl
parents: 56994
diff changeset
   534
            nn_integral_cong_AE)
56993
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   535
     auto
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   536
59353
f0707dc3d9aa measurability prover: removed app splitting, replaced by more powerful destruction rules
hoelzl
parents: 59048
diff changeset
   537
lemma borel_measurable_has_bochner_integral:
56993
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   538
  "has_bochner_integral M f x \<Longrightarrow> f \<in> borel_measurable M"
59353
f0707dc3d9aa measurability prover: removed app splitting, replaced by more powerful destruction rules
hoelzl
parents: 59048
diff changeset
   539
  by (rule has_bochner_integral.cases)
f0707dc3d9aa measurability prover: removed app splitting, replaced by more powerful destruction rules
hoelzl
parents: 59048
diff changeset
   540
f0707dc3d9aa measurability prover: removed app splitting, replaced by more powerful destruction rules
hoelzl
parents: 59048
diff changeset
   541
lemma borel_measurable_has_bochner_integral'[measurable_dest]:
f0707dc3d9aa measurability prover: removed app splitting, replaced by more powerful destruction rules
hoelzl
parents: 59048
diff changeset
   542
  "has_bochner_integral M f x \<Longrightarrow> g \<in> measurable N M \<Longrightarrow> (\<lambda>x. f (g x)) \<in> borel_measurable N"
f0707dc3d9aa measurability prover: removed app splitting, replaced by more powerful destruction rules
hoelzl
parents: 59048
diff changeset
   543
  using borel_measurable_has_bochner_integral[measurable] by measurable
56993
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   544
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   545
lemma has_bochner_integral_simple_bochner_integrable:
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   546
  "simple_bochner_integrable M f \<Longrightarrow> has_bochner_integral M f (simple_bochner_integral M f)"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   547
  by (rule has_bochner_integral.intros[where s="\<lambda>_. f"])
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   548
     (auto intro: borel_measurable_simple_function 
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   549
           elim: simple_bochner_integrable.cases
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   550
           simp: zero_ereal_def[symmetric])
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   551
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   552
lemma has_bochner_integral_real_indicator:
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   553
  assumes [measurable]: "A \<in> sets M" and A: "emeasure M A < \<infinity>"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   554
  shows "has_bochner_integral M (indicator A) (measure M A)"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   555
proof -
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   556
  have sbi: "simple_bochner_integrable M (indicator A::'a \<Rightarrow> real)"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   557
  proof
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   558
    have "{y \<in> space M. (indicator A y::real) \<noteq> 0} = A"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   559
      using sets.sets_into_space[OF `A\<in>sets M`] by (auto split: split_indicator)
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   560
    then show "emeasure M {y \<in> space M. (indicator A y::real) \<noteq> 0} \<noteq> \<infinity>"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   561
      using A by auto
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   562
  qed (rule simple_function_indicator assms)+
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   563
  moreover have "simple_bochner_integral M (indicator A) = measure M A"
56996
891e992e510f renamed positive_integral to nn_integral
hoelzl
parents: 56994
diff changeset
   564
    using simple_bochner_integral_eq_nn_integral[OF sbi] A
56993
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   565
    by (simp add: ereal_indicator emeasure_eq_ereal_measure)
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   566
  ultimately show ?thesis
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   567
    by (metis has_bochner_integral_simple_bochner_integrable)
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   568
qed
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   569
57036
22568fb89165 generalized Bochner integral over infinite sums
hoelzl
parents: 57025
diff changeset
   570
lemma has_bochner_integral_add[intro]:
56993
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   571
  "has_bochner_integral M f x \<Longrightarrow> has_bochner_integral M g y \<Longrightarrow>
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   572
    has_bochner_integral M (\<lambda>x. f x + g x) (x + y)"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   573
proof (safe intro!: has_bochner_integral.intros elim!: has_bochner_integral.cases)
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   574
  fix sf sg
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   575
  assume f_sf: "(\<lambda>i. \<integral>\<^sup>+ x. norm (f x - sf i x) \<partial>M) ----> 0"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   576
  assume g_sg: "(\<lambda>i. \<integral>\<^sup>+ x. norm (g x - sg i x) \<partial>M) ----> 0"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   577
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   578
  assume sf: "\<forall>i. simple_bochner_integrable M (sf i)"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   579
    and sg: "\<forall>i. simple_bochner_integrable M (sg i)"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   580
  then have [measurable]: "\<And>i. sf i \<in> borel_measurable M" "\<And>i. sg i \<in> borel_measurable M"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   581
    by (auto intro: borel_measurable_simple_function elim: simple_bochner_integrable.cases)
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   582
  assume [measurable]: "f \<in> borel_measurable M" "g \<in> borel_measurable M"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   583
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   584
  show "\<And>i. simple_bochner_integrable M (\<lambda>x. sf i x + sg i x)"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   585
    using sf sg by (simp add: simple_bochner_integrable_compose2)
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   586
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   587
  show "(\<lambda>i. \<integral>\<^sup>+ x. (norm (f x + g x - (sf i x + sg i x))) \<partial>M) ----> 0"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   588
    (is "?f ----> 0")
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   589
  proof (rule tendsto_sandwich)
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   590
    show "eventually (\<lambda>n. 0 \<le> ?f n) sequentially" "(\<lambda>_. 0) ----> 0"
56996
891e992e510f renamed positive_integral to nn_integral
hoelzl
parents: 56994
diff changeset
   591
      by (auto simp: nn_integral_nonneg)
56993
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   592
    show "eventually (\<lambda>i. ?f i \<le> (\<integral>\<^sup>+ x. (norm (f x - sf i x)) \<partial>M) + \<integral>\<^sup>+ x. (norm (g x - sg i x)) \<partial>M) sequentially"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   593
      (is "eventually (\<lambda>i. ?f i \<le> ?g i) sequentially")
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   594
    proof (intro always_eventually allI)
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   595
      fix i have "?f i \<le> (\<integral>\<^sup>+ x. (norm (f x - sf i x)) + ereal (norm (g x - sg i x)) \<partial>M)"
56996
891e992e510f renamed positive_integral to nn_integral
hoelzl
parents: 56994
diff changeset
   596
        by (auto intro!: nn_integral_mono norm_diff_triangle_ineq)
56993
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   597
      also have "\<dots> = ?g i"
56996
891e992e510f renamed positive_integral to nn_integral
hoelzl
parents: 56994
diff changeset
   598
        by (intro nn_integral_add) auto
56993
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   599
      finally show "?f i \<le> ?g i" .
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   600
    qed
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   601
    show "?g ----> 0"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   602
      using tendsto_add_ereal[OF _ _ f_sf g_sg] by simp
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   603
  qed
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   604
qed (auto simp: simple_bochner_integral_add tendsto_add)
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   605
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   606
lemma has_bochner_integral_bounded_linear:
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   607
  assumes "bounded_linear T"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   608
  shows "has_bochner_integral M f x \<Longrightarrow> has_bochner_integral M (\<lambda>x. T (f x)) (T x)"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   609
proof (safe intro!: has_bochner_integral.intros elim!: has_bochner_integral.cases)
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   610
  interpret T: bounded_linear T by fact
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   611
  have [measurable]: "T \<in> borel_measurable borel"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   612
    by (intro borel_measurable_continuous_on1 T.continuous_on continuous_on_id)
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   613
  assume [measurable]: "f \<in> borel_measurable M"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   614
  then show "(\<lambda>x. T (f x)) \<in> borel_measurable M"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   615
    by auto
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   616
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   617
  fix s assume f_s: "(\<lambda>i. \<integral>\<^sup>+ x. norm (f x - s i x) \<partial>M) ----> 0"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   618
  assume s: "\<forall>i. simple_bochner_integrable M (s i)"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   619
  then show "\<And>i. simple_bochner_integrable M (\<lambda>x. T (s i x))"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   620
    by (auto intro: simple_bochner_integrable_compose2 T.zero)
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   621
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   622
  have [measurable]: "\<And>i. s i \<in> borel_measurable M"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   623
    using s by (auto intro: borel_measurable_simple_function elim: simple_bochner_integrable.cases)
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   624
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   625
  obtain K where K: "K > 0" "\<And>x i. norm (T (f x) - T (s i x)) \<le> norm (f x - s i x) * K"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   626
    using T.pos_bounded by (auto simp: T.diff[symmetric])
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   627
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   628
  show "(\<lambda>i. \<integral>\<^sup>+ x. norm (T (f x) - T (s i x)) \<partial>M) ----> 0"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   629
    (is "?f ----> 0")
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   630
  proof (rule tendsto_sandwich)
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   631
    show "eventually (\<lambda>n. 0 \<le> ?f n) sequentially" "(\<lambda>_. 0) ----> 0"
56996
891e992e510f renamed positive_integral to nn_integral
hoelzl
parents: 56994
diff changeset
   632
      by (auto simp: nn_integral_nonneg)
56993
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   633
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   634
    show "eventually (\<lambda>i. ?f i \<le> K * (\<integral>\<^sup>+ x. norm (f x - s i x) \<partial>M)) sequentially"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   635
      (is "eventually (\<lambda>i. ?f i \<le> ?g i) sequentially")
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   636
    proof (intro always_eventually allI)
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   637
      fix i have "?f i \<le> (\<integral>\<^sup>+ x. ereal K * norm (f x - s i x) \<partial>M)"
57514
bdc2c6b40bf2 prefer ac_simps collections over separate name bindings for add and mult
haftmann
parents: 57512
diff changeset
   638
        using K by (intro nn_integral_mono) (auto simp: ac_simps)
56993
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   639
      also have "\<dots> = ?g i"
56996
891e992e510f renamed positive_integral to nn_integral
hoelzl
parents: 56994
diff changeset
   640
        using K by (intro nn_integral_cmult) auto
56993
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   641
      finally show "?f i \<le> ?g i" .
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   642
    qed
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   643
    show "?g ----> 0"
59452
2538b2c51769 ereal: tuned proofs concerning continuity and suprema
hoelzl
parents: 59425
diff changeset
   644
      using tendsto_cmult_ereal[OF _ f_s, of "ereal K"] by simp
56993
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   645
  qed
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   646
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   647
  assume "(\<lambda>i. simple_bochner_integral M (s i)) ----> x"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   648
  with s show "(\<lambda>i. simple_bochner_integral M (\<lambda>x. T (s i x))) ----> T x"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   649
    by (auto intro!: T.tendsto simp: T.simple_bochner_integral_linear)
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   650
qed
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   651
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   652
lemma has_bochner_integral_zero[intro]: "has_bochner_integral M (\<lambda>x. 0) 0"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   653
  by (auto intro!: has_bochner_integral.intros[where s="\<lambda>_ _. 0"]
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   654
           simp: zero_ereal_def[symmetric] simple_bochner_integrable.simps
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   655
                 simple_bochner_integral_def image_constant_conv)
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   656
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   657
lemma has_bochner_integral_scaleR_left[intro]:
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   658
  "(c \<noteq> 0 \<Longrightarrow> has_bochner_integral M f x) \<Longrightarrow> has_bochner_integral M (\<lambda>x. f x *\<^sub>R c) (x *\<^sub>R c)"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   659
  by (cases "c = 0") (auto simp add: has_bochner_integral_bounded_linear[OF bounded_linear_scaleR_left])
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   660
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   661
lemma has_bochner_integral_scaleR_right[intro]:
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   662
  "(c \<noteq> 0 \<Longrightarrow> has_bochner_integral M f x) \<Longrightarrow> has_bochner_integral M (\<lambda>x. c *\<^sub>R f x) (c *\<^sub>R x)"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   663
  by (cases "c = 0") (auto simp add: has_bochner_integral_bounded_linear[OF bounded_linear_scaleR_right])
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   664
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   665
lemma has_bochner_integral_mult_left[intro]:
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   666
  fixes c :: "_::{real_normed_algebra,second_countable_topology}"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   667
  shows "(c \<noteq> 0 \<Longrightarrow> has_bochner_integral M f x) \<Longrightarrow> has_bochner_integral M (\<lambda>x. f x * c) (x * c)"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   668
  by (cases "c = 0") (auto simp add: has_bochner_integral_bounded_linear[OF bounded_linear_mult_left])
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   669
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   670
lemma has_bochner_integral_mult_right[intro]:
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   671
  fixes c :: "_::{real_normed_algebra,second_countable_topology}"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   672
  shows "(c \<noteq> 0 \<Longrightarrow> has_bochner_integral M f x) \<Longrightarrow> has_bochner_integral M (\<lambda>x. c * f x) (c * x)"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   673
  by (cases "c = 0") (auto simp add: has_bochner_integral_bounded_linear[OF bounded_linear_mult_right])
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   674
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   675
lemmas has_bochner_integral_divide = 
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   676
  has_bochner_integral_bounded_linear[OF bounded_linear_divide]
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   677
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   678
lemma has_bochner_integral_divide_zero[intro]:
59867
58043346ca64 given up separate type classes demanding `inverse 0 = 0`
haftmann
parents: 59587
diff changeset
   679
  fixes c :: "_::{real_normed_field, field, second_countable_topology}"
56993
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   680
  shows "(c \<noteq> 0 \<Longrightarrow> has_bochner_integral M f x) \<Longrightarrow> has_bochner_integral M (\<lambda>x. f x / c) (x / c)"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   681
  using has_bochner_integral_divide by (cases "c = 0") auto
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   682
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   683
lemma has_bochner_integral_inner_left[intro]:
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   684
  "(c \<noteq> 0 \<Longrightarrow> has_bochner_integral M f x) \<Longrightarrow> has_bochner_integral M (\<lambda>x. f x \<bullet> c) (x \<bullet> c)"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   685
  by (cases "c = 0") (auto simp add: has_bochner_integral_bounded_linear[OF bounded_linear_inner_left])
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   686
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   687
lemma has_bochner_integral_inner_right[intro]:
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   688
  "(c \<noteq> 0 \<Longrightarrow> has_bochner_integral M f x) \<Longrightarrow> has_bochner_integral M (\<lambda>x. c \<bullet> f x) (c \<bullet> x)"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   689
  by (cases "c = 0") (auto simp add: has_bochner_integral_bounded_linear[OF bounded_linear_inner_right])
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   690
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   691
lemmas has_bochner_integral_minus =
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   692
  has_bochner_integral_bounded_linear[OF bounded_linear_minus[OF bounded_linear_ident]]
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   693
lemmas has_bochner_integral_Re =
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   694
  has_bochner_integral_bounded_linear[OF bounded_linear_Re]
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   695
lemmas has_bochner_integral_Im =
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   696
  has_bochner_integral_bounded_linear[OF bounded_linear_Im]
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   697
lemmas has_bochner_integral_cnj =
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   698
  has_bochner_integral_bounded_linear[OF bounded_linear_cnj]
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   699
lemmas has_bochner_integral_of_real =
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   700
  has_bochner_integral_bounded_linear[OF bounded_linear_of_real]
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   701
lemmas has_bochner_integral_fst =
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   702
  has_bochner_integral_bounded_linear[OF bounded_linear_fst]
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   703
lemmas has_bochner_integral_snd =
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   704
  has_bochner_integral_bounded_linear[OF bounded_linear_snd]
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   705
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   706
lemma has_bochner_integral_indicator:
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   707
  "A \<in> sets M \<Longrightarrow> emeasure M A < \<infinity> \<Longrightarrow>
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   708
    has_bochner_integral M (\<lambda>x. indicator A x *\<^sub>R c) (measure M A *\<^sub>R c)"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   709
  by (intro has_bochner_integral_scaleR_left has_bochner_integral_real_indicator)
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   710
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   711
lemma has_bochner_integral_diff:
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   712
  "has_bochner_integral M f x \<Longrightarrow> has_bochner_integral M g y \<Longrightarrow>
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   713
    has_bochner_integral M (\<lambda>x. f x - g x) (x - y)"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   714
  unfolding diff_conv_add_uminus
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   715
  by (intro has_bochner_integral_add has_bochner_integral_minus)
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   716
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   717
lemma has_bochner_integral_setsum:
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   718
  "(\<And>i. i \<in> I \<Longrightarrow> has_bochner_integral M (f i) (x i)) \<Longrightarrow>
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   719
    has_bochner_integral M (\<lambda>x. \<Sum>i\<in>I. f i x) (\<Sum>i\<in>I. x i)"
57036
22568fb89165 generalized Bochner integral over infinite sums
hoelzl
parents: 57025
diff changeset
   720
  by (induct I rule: infinite_finite_induct) auto
56993
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   721
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   722
lemma has_bochner_integral_implies_finite_norm:
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   723
  "has_bochner_integral M f x \<Longrightarrow> (\<integral>\<^sup>+x. norm (f x) \<partial>M) < \<infinity>"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   724
proof (elim has_bochner_integral.cases)
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   725
  fix s v
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   726
  assume [measurable]: "f \<in> borel_measurable M" and s: "\<And>i. simple_bochner_integrable M (s i)" and
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   727
    lim_0: "(\<lambda>i. \<integral>\<^sup>+ x. ereal (norm (f x - s i x)) \<partial>M) ----> 0"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   728
  from order_tendstoD[OF lim_0, of "\<infinity>"]
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   729
  obtain i where f_s_fin: "(\<integral>\<^sup>+ x. ereal (norm (f x - s i x)) \<partial>M) < \<infinity>"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   730
    by (metis (mono_tags, lifting) eventually_False_sequentially eventually_elim1
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   731
              less_ereal.simps(4) zero_ereal_def)
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   732
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   733
  have [measurable]: "\<And>i. s i \<in> borel_measurable M"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   734
    using s by (auto intro: borel_measurable_simple_function elim: simple_bochner_integrable.cases)
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   735
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   736
  def m \<equiv> "if space M = {} then 0 else Max ((\<lambda>x. norm (s i x))`space M)"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   737
  have "finite (s i ` space M)"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   738
    using s by (auto simp: simple_function_def simple_bochner_integrable.simps)
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   739
  then have "finite (norm ` s i ` space M)"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   740
    by (rule finite_imageI)
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   741
  then have "\<And>x. x \<in> space M \<Longrightarrow> norm (s i x) \<le> m" "0 \<le> m"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   742
    by (auto simp: m_def image_comp comp_def Max_ge_iff)
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   743
  then have "(\<integral>\<^sup>+x. norm (s i x) \<partial>M) \<le> (\<integral>\<^sup>+x. ereal m * indicator {x\<in>space M. s i x \<noteq> 0} x \<partial>M)"
56996
891e992e510f renamed positive_integral to nn_integral
hoelzl
parents: 56994
diff changeset
   744
    by (auto split: split_indicator intro!: Max_ge nn_integral_mono simp:)
56993
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   745
  also have "\<dots> < \<infinity>"
56996
891e992e510f renamed positive_integral to nn_integral
hoelzl
parents: 56994
diff changeset
   746
    using s by (subst nn_integral_cmult_indicator) (auto simp: `0 \<le> m` simple_bochner_integrable.simps)
56993
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   747
  finally have s_fin: "(\<integral>\<^sup>+x. norm (s i x) \<partial>M) < \<infinity>" .
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   748
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   749
  have "(\<integral>\<^sup>+ x. norm (f x) \<partial>M) \<le> (\<integral>\<^sup>+ x. ereal (norm (f x - s i x)) + ereal (norm (s i x)) \<partial>M)"
57512
cc97b347b301 reduced name variants for assoc and commute on plus and mult
haftmann
parents: 57447
diff changeset
   750
    by (auto intro!: nn_integral_mono) (metis add.commute norm_triangle_sub)
56993
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   751
  also have "\<dots> = (\<integral>\<^sup>+x. norm (f x - s i x) \<partial>M) + (\<integral>\<^sup>+x. norm (s i x) \<partial>M)"
56996
891e992e510f renamed positive_integral to nn_integral
hoelzl
parents: 56994
diff changeset
   752
    by (rule nn_integral_add) auto
56993
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   753
  also have "\<dots> < \<infinity>"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   754
    using s_fin f_s_fin by auto
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   755
  finally show "(\<integral>\<^sup>+ x. ereal (norm (f x)) \<partial>M) < \<infinity>" .
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   756
qed
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   757
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   758
lemma has_bochner_integral_norm_bound:
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   759
  assumes i: "has_bochner_integral M f x"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   760
  shows "norm x \<le> (\<integral>\<^sup>+x. norm (f x) \<partial>M)"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   761
using assms proof
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   762
  fix s assume
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   763
    x: "(\<lambda>i. simple_bochner_integral M (s i)) ----> x" (is "?s ----> x") and
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   764
    s[simp]: "\<And>i. simple_bochner_integrable M (s i)" and
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   765
    lim: "(\<lambda>i. \<integral>\<^sup>+ x. ereal (norm (f x - s i x)) \<partial>M) ----> 0" and
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   766
    f[measurable]: "f \<in> borel_measurable M"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   767
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   768
  have [measurable]: "\<And>i. s i \<in> borel_measurable M"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   769
    using s by (auto simp: simple_bochner_integrable.simps intro: borel_measurable_simple_function)
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   770
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   771
  show "norm x \<le> (\<integral>\<^sup>+x. norm (f x) \<partial>M)"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   772
  proof (rule LIMSEQ_le)
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   773
    show "(\<lambda>i. ereal (norm (?s i))) ----> norm x"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   774
      using x by (intro tendsto_intros lim_ereal[THEN iffD2])
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   775
    show "\<exists>N. \<forall>n\<ge>N. norm (?s n) \<le> (\<integral>\<^sup>+x. norm (f x - s n x) \<partial>M) + (\<integral>\<^sup>+x. norm (f x) \<partial>M)"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   776
      (is "\<exists>N. \<forall>n\<ge>N. _ \<le> ?t n")
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   777
    proof (intro exI allI impI)
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   778
      fix n
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   779
      have "ereal (norm (?s n)) \<le> simple_bochner_integral M (\<lambda>x. norm (s n x))"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   780
        by (auto intro!: simple_bochner_integral_norm_bound)
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   781
      also have "\<dots> = (\<integral>\<^sup>+x. norm (s n x) \<partial>M)"
56996
891e992e510f renamed positive_integral to nn_integral
hoelzl
parents: 56994
diff changeset
   782
        by (intro simple_bochner_integral_eq_nn_integral)
56993
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   783
           (auto intro: s simple_bochner_integrable_compose2)
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   784
      also have "\<dots> \<le> (\<integral>\<^sup>+x. ereal (norm (f x - s n x)) + norm (f x) \<partial>M)"
56996
891e992e510f renamed positive_integral to nn_integral
hoelzl
parents: 56994
diff changeset
   785
        by (auto intro!: nn_integral_mono)
57512
cc97b347b301 reduced name variants for assoc and commute on plus and mult
haftmann
parents: 57447
diff changeset
   786
           (metis add.commute norm_minus_commute norm_triangle_sub)
56993
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   787
      also have "\<dots> = ?t n" 
56996
891e992e510f renamed positive_integral to nn_integral
hoelzl
parents: 56994
diff changeset
   788
        by (rule nn_integral_add) auto
56993
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   789
      finally show "norm (?s n) \<le> ?t n" .
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   790
    qed
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   791
    have "?t ----> 0 + (\<integral>\<^sup>+ x. ereal (norm (f x)) \<partial>M)"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   792
      using has_bochner_integral_implies_finite_norm[OF i]
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   793
      by (intro tendsto_add_ereal tendsto_const lim) auto
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   794
    then show "?t ----> \<integral>\<^sup>+ x. ereal (norm (f x)) \<partial>M"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   795
      by simp
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   796
  qed
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   797
qed
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   798
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   799
lemma has_bochner_integral_eq:
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   800
  "has_bochner_integral M f x \<Longrightarrow> has_bochner_integral M f y \<Longrightarrow> x = y"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   801
proof (elim has_bochner_integral.cases)
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   802
  assume f[measurable]: "f \<in> borel_measurable M"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   803
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   804
  fix s t
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   805
  assume "(\<lambda>i. \<integral>\<^sup>+ x. norm (f x - s i x) \<partial>M) ----> 0" (is "?S ----> 0")
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   806
  assume "(\<lambda>i. \<integral>\<^sup>+ x. norm (f x - t i x) \<partial>M) ----> 0" (is "?T ----> 0")
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   807
  assume s: "\<And>i. simple_bochner_integrable M (s i)"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   808
  assume t: "\<And>i. simple_bochner_integrable M (t i)"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   809
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   810
  have [measurable]: "\<And>i. s i \<in> borel_measurable M" "\<And>i. t i \<in> borel_measurable M"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   811
    using s t by (auto intro: borel_measurable_simple_function elim: simple_bochner_integrable.cases)
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   812
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   813
  let ?s = "\<lambda>i. simple_bochner_integral M (s i)"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   814
  let ?t = "\<lambda>i. simple_bochner_integral M (t i)"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   815
  assume "?s ----> x" "?t ----> y"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   816
  then have "(\<lambda>i. norm (?s i - ?t i)) ----> norm (x - y)"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   817
    by (intro tendsto_intros)
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   818
  moreover
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   819
  have "(\<lambda>i. ereal (norm (?s i - ?t i))) ----> ereal 0"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   820
  proof (rule tendsto_sandwich)
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   821
    show "eventually (\<lambda>i. 0 \<le> ereal (norm (?s i - ?t i))) sequentially" "(\<lambda>_. 0) ----> ereal 0"
56996
891e992e510f renamed positive_integral to nn_integral
hoelzl
parents: 56994
diff changeset
   822
      by (auto simp: nn_integral_nonneg zero_ereal_def[symmetric])
56993
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   823
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   824
    show "eventually (\<lambda>i. norm (?s i - ?t i) \<le> ?S i + ?T i) sequentially"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   825
      by (intro always_eventually allI simple_bochner_integral_bounded s t f)
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   826
    show "(\<lambda>i. ?S i + ?T i) ----> ereal 0"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   827
      using tendsto_add_ereal[OF _ _ `?S ----> 0` `?T ----> 0`]
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   828
      by (simp add: zero_ereal_def[symmetric])
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   829
  qed
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   830
  then have "(\<lambda>i. norm (?s i - ?t i)) ----> 0"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   831
    by simp
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   832
  ultimately have "norm (x - y) = 0"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   833
    by (rule LIMSEQ_unique)
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   834
  then show "x = y" by simp
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   835
qed
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   836
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   837
lemma has_bochner_integralI_AE:
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   838
  assumes f: "has_bochner_integral M f x"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   839
    and g: "g \<in> borel_measurable M"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   840
    and ae: "AE x in M. f x = g x"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   841
  shows "has_bochner_integral M g x"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   842
  using f
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   843
proof (safe intro!: has_bochner_integral.intros elim!: has_bochner_integral.cases)
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   844
  fix s assume "(\<lambda>i. \<integral>\<^sup>+ x. ereal (norm (f x - s i x)) \<partial>M) ----> 0"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   845
  also have "(\<lambda>i. \<integral>\<^sup>+ x. ereal (norm (f x - s i x)) \<partial>M) = (\<lambda>i. \<integral>\<^sup>+ x. ereal (norm (g x - s i x)) \<partial>M)"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   846
    using ae
56996
891e992e510f renamed positive_integral to nn_integral
hoelzl
parents: 56994
diff changeset
   847
    by (intro ext nn_integral_cong_AE, eventually_elim) simp
56993
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   848
  finally show "(\<lambda>i. \<integral>\<^sup>+ x. ereal (norm (g x - s i x)) \<partial>M) ----> 0" .
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   849
qed (auto intro: g)
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   850
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   851
lemma has_bochner_integral_eq_AE:
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   852
  assumes f: "has_bochner_integral M f x"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   853
    and g: "has_bochner_integral M g y"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   854
    and ae: "AE x in M. f x = g x"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   855
  shows "x = y"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   856
proof -
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   857
  from assms have "has_bochner_integral M g x"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   858
    by (auto intro: has_bochner_integralI_AE)
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   859
  from this g show "x = y"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   860
    by (rule has_bochner_integral_eq)
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   861
qed
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   862
57137
f174712d0a84 better support for restrict_space
hoelzl
parents: 57036
diff changeset
   863
lemma simple_bochner_integrable_restrict_space:
f174712d0a84 better support for restrict_space
hoelzl
parents: 57036
diff changeset
   864
  fixes f :: "_ \<Rightarrow> 'b::real_normed_vector"
f174712d0a84 better support for restrict_space
hoelzl
parents: 57036
diff changeset
   865
  assumes \<Omega>: "\<Omega> \<inter> space M \<in> sets M"
f174712d0a84 better support for restrict_space
hoelzl
parents: 57036
diff changeset
   866
  shows "simple_bochner_integrable (restrict_space M \<Omega>) f \<longleftrightarrow>
f174712d0a84 better support for restrict_space
hoelzl
parents: 57036
diff changeset
   867
    simple_bochner_integrable M (\<lambda>x. indicator \<Omega> x *\<^sub>R f x)"
f174712d0a84 better support for restrict_space
hoelzl
parents: 57036
diff changeset
   868
  by (simp add: simple_bochner_integrable.simps space_restrict_space
f174712d0a84 better support for restrict_space
hoelzl
parents: 57036
diff changeset
   869
    simple_function_restrict_space[OF \<Omega>] emeasure_restrict_space[OF \<Omega>] Collect_restrict
f174712d0a84 better support for restrict_space
hoelzl
parents: 57036
diff changeset
   870
    indicator_eq_0_iff conj_ac)
f174712d0a84 better support for restrict_space
hoelzl
parents: 57036
diff changeset
   871
f174712d0a84 better support for restrict_space
hoelzl
parents: 57036
diff changeset
   872
lemma simple_bochner_integral_restrict_space:
f174712d0a84 better support for restrict_space
hoelzl
parents: 57036
diff changeset
   873
  fixes f :: "_ \<Rightarrow> 'b::real_normed_vector"
f174712d0a84 better support for restrict_space
hoelzl
parents: 57036
diff changeset
   874
  assumes \<Omega>: "\<Omega> \<inter> space M \<in> sets M"
f174712d0a84 better support for restrict_space
hoelzl
parents: 57036
diff changeset
   875
  assumes f: "simple_bochner_integrable (restrict_space M \<Omega>) f"
f174712d0a84 better support for restrict_space
hoelzl
parents: 57036
diff changeset
   876
  shows "simple_bochner_integral (restrict_space M \<Omega>) f =
f174712d0a84 better support for restrict_space
hoelzl
parents: 57036
diff changeset
   877
    simple_bochner_integral M (\<lambda>x. indicator \<Omega> x *\<^sub>R f x)"
f174712d0a84 better support for restrict_space
hoelzl
parents: 57036
diff changeset
   878
proof -
f174712d0a84 better support for restrict_space
hoelzl
parents: 57036
diff changeset
   879
  have "finite ((\<lambda>x. indicator \<Omega> x *\<^sub>R f x)`space M)"
f174712d0a84 better support for restrict_space
hoelzl
parents: 57036
diff changeset
   880
    using f simple_bochner_integrable_restrict_space[OF \<Omega>, of f]
f174712d0a84 better support for restrict_space
hoelzl
parents: 57036
diff changeset
   881
    by (simp add: simple_bochner_integrable.simps simple_function_def)
f174712d0a84 better support for restrict_space
hoelzl
parents: 57036
diff changeset
   882
  then show ?thesis
f174712d0a84 better support for restrict_space
hoelzl
parents: 57036
diff changeset
   883
    by (auto simp: space_restrict_space measure_restrict_space[OF \<Omega>(1)] le_infI2
f174712d0a84 better support for restrict_space
hoelzl
parents: 57036
diff changeset
   884
                   simple_bochner_integral_def Collect_restrict
f174712d0a84 better support for restrict_space
hoelzl
parents: 57036
diff changeset
   885
             split: split_indicator split_indicator_asm
57418
6ab1c7cb0b8d fact consolidation
haftmann
parents: 57275
diff changeset
   886
             intro!: setsum.mono_neutral_cong_left arg_cong2[where f=measure])
57137
f174712d0a84 better support for restrict_space
hoelzl
parents: 57036
diff changeset
   887
qed
f174712d0a84 better support for restrict_space
hoelzl
parents: 57036
diff changeset
   888
56993
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   889
inductive integrable for M f where
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   890
  "has_bochner_integral M f x \<Longrightarrow> integrable M f"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   891
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   892
definition lebesgue_integral ("integral\<^sup>L") where
57166
5cfcc616d485 use 0 as integral-value for non-integrable functions, simplify a couple of rewrite rules
hoelzl
parents: 57137
diff changeset
   893
  "integral\<^sup>L M f = (if \<exists>x. has_bochner_integral M f x then THE x. has_bochner_integral M f x else 0)"
56993
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   894
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   895
syntax
59357
f366643536cd allow line breaks in integral notation
Andreas Lochbihler
parents: 59353
diff changeset
   896
  "_lebesgue_integral" :: "pttrn \<Rightarrow> real \<Rightarrow> 'a measure \<Rightarrow> real" ("\<integral>((2 _./ _)/ \<partial>_)" [60,61] 110)
56993
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   897
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   898
translations
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   899
  "\<integral> x. f \<partial>M" == "CONST lebesgue_integral M (\<lambda>x. f)"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   900
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   901
lemma has_bochner_integral_integral_eq: "has_bochner_integral M f x \<Longrightarrow> integral\<^sup>L M f = x"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   902
  by (metis the_equality has_bochner_integral_eq lebesgue_integral_def)
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   903
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   904
lemma has_bochner_integral_integrable:
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   905
  "integrable M f \<Longrightarrow> has_bochner_integral M f (integral\<^sup>L M f)"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   906
  by (auto simp: has_bochner_integral_integral_eq integrable.simps)
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   907
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   908
lemma has_bochner_integral_iff:
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   909
  "has_bochner_integral M f x \<longleftrightarrow> integrable M f \<and> integral\<^sup>L M f = x"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   910
  by (metis has_bochner_integral_integrable has_bochner_integral_integral_eq integrable.intros)
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   911
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   912
lemma simple_bochner_integrable_eq_integral:
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   913
  "simple_bochner_integrable M f \<Longrightarrow> simple_bochner_integral M f = integral\<^sup>L M f"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   914
  using has_bochner_integral_simple_bochner_integrable[of M f]
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   915
  by (simp add: has_bochner_integral_integral_eq)
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   916
57166
5cfcc616d485 use 0 as integral-value for non-integrable functions, simplify a couple of rewrite rules
hoelzl
parents: 57137
diff changeset
   917
lemma not_integrable_integral_eq: "\<not> integrable M f \<Longrightarrow> integral\<^sup>L M f = 0"
56993
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   918
  unfolding integrable.simps lebesgue_integral_def by (auto intro!: arg_cong[where f=The])
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   919
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   920
lemma integral_eq_cases:
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   921
  "integrable M f \<longleftrightarrow> integrable N g \<Longrightarrow>
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   922
    (integrable M f \<Longrightarrow> integrable N g \<Longrightarrow> integral\<^sup>L M f = integral\<^sup>L N g) \<Longrightarrow>
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   923
    integral\<^sup>L M f = integral\<^sup>L N g"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   924
  by (metis not_integrable_integral_eq)
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   925
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   926
lemma borel_measurable_integrable[measurable_dest]: "integrable M f \<Longrightarrow> f \<in> borel_measurable M"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   927
  by (auto elim: integrable.cases has_bochner_integral.cases)
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   928
59353
f0707dc3d9aa measurability prover: removed app splitting, replaced by more powerful destruction rules
hoelzl
parents: 59048
diff changeset
   929
lemma borel_measurable_integrable'[measurable_dest]:
f0707dc3d9aa measurability prover: removed app splitting, replaced by more powerful destruction rules
hoelzl
parents: 59048
diff changeset
   930
  "integrable M f \<Longrightarrow> g \<in> measurable N M \<Longrightarrow> (\<lambda>x. f (g x)) \<in> borel_measurable N"
f0707dc3d9aa measurability prover: removed app splitting, replaced by more powerful destruction rules
hoelzl
parents: 59048
diff changeset
   931
  using borel_measurable_integrable[measurable] by measurable
f0707dc3d9aa measurability prover: removed app splitting, replaced by more powerful destruction rules
hoelzl
parents: 59048
diff changeset
   932
56993
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   933
lemma integrable_cong:
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   934
  "M = N \<Longrightarrow> (\<And>x. x \<in> space N \<Longrightarrow> f x = g x) \<Longrightarrow> integrable M f \<longleftrightarrow> integrable N g"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   935
  using assms by (simp cong: has_bochner_integral_cong add: integrable.simps)
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   936
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   937
lemma integrable_cong_AE:
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   938
  "f \<in> borel_measurable M \<Longrightarrow> g \<in> borel_measurable M \<Longrightarrow> AE x in M. f x = g x \<Longrightarrow>
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   939
    integrable M f \<longleftrightarrow> integrable M g"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   940
  unfolding integrable.simps
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   941
  by (intro has_bochner_integral_cong_AE arg_cong[where f=Ex] ext)
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   942
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   943
lemma integral_cong:
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   944
  "M = N \<Longrightarrow> (\<And>x. x \<in> space N \<Longrightarrow> f x = g x) \<Longrightarrow> integral\<^sup>L M f = integral\<^sup>L N g"
57166
5cfcc616d485 use 0 as integral-value for non-integrable functions, simplify a couple of rewrite rules
hoelzl
parents: 57137
diff changeset
   945
  using assms by (simp cong: has_bochner_integral_cong cong del: if_cong add: lebesgue_integral_def)
56993
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   946
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   947
lemma integral_cong_AE:
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   948
  "f \<in> borel_measurable M \<Longrightarrow> g \<in> borel_measurable M \<Longrightarrow> AE x in M. f x = g x \<Longrightarrow>
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   949
    integral\<^sup>L M f = integral\<^sup>L M g"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   950
  unfolding lebesgue_integral_def
57166
5cfcc616d485 use 0 as integral-value for non-integrable functions, simplify a couple of rewrite rules
hoelzl
parents: 57137
diff changeset
   951
  by (rule arg_cong[where x="has_bochner_integral M f"]) (intro has_bochner_integral_cong_AE ext)
56993
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   952
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   953
lemma integrable_add[simp, intro]: "integrable M f \<Longrightarrow> integrable M g \<Longrightarrow> integrable M (\<lambda>x. f x + g x)"
57036
22568fb89165 generalized Bochner integral over infinite sums
hoelzl
parents: 57025
diff changeset
   954
  by (auto simp: integrable.simps)
56993
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   955
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   956
lemma integrable_zero[simp, intro]: "integrable M (\<lambda>x. 0)"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   957
  by (metis has_bochner_integral_zero integrable.simps) 
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   958
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   959
lemma integrable_setsum[simp, intro]: "(\<And>i. i \<in> I \<Longrightarrow> integrable M (f i)) \<Longrightarrow> integrable M (\<lambda>x. \<Sum>i\<in>I. f i x)"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   960
  by (metis has_bochner_integral_setsum integrable.simps) 
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   961
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   962
lemma integrable_indicator[simp, intro]: "A \<in> sets M \<Longrightarrow> emeasure M A < \<infinity> \<Longrightarrow>
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   963
  integrable M (\<lambda>x. indicator A x *\<^sub>R c)"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   964
  by (metis has_bochner_integral_indicator integrable.simps) 
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   965
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   966
lemma integrable_real_indicator[simp, intro]: "A \<in> sets M \<Longrightarrow> emeasure M A < \<infinity> \<Longrightarrow>
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   967
  integrable M (indicator A :: 'a \<Rightarrow> real)"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   968
  by (metis has_bochner_integral_real_indicator integrable.simps)
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   969
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   970
lemma integrable_diff[simp, intro]: "integrable M f \<Longrightarrow> integrable M g \<Longrightarrow> integrable M (\<lambda>x. f x - g x)"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   971
  by (auto simp: integrable.simps intro: has_bochner_integral_diff)
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   972
  
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   973
lemma integrable_bounded_linear: "bounded_linear T \<Longrightarrow> integrable M f \<Longrightarrow> integrable M (\<lambda>x. T (f x))"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   974
  by (auto simp: integrable.simps intro: has_bochner_integral_bounded_linear)
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   975
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   976
lemma integrable_scaleR_left[simp, intro]: "(c \<noteq> 0 \<Longrightarrow> integrable M f) \<Longrightarrow> integrable M (\<lambda>x. f x *\<^sub>R c)"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   977
  unfolding integrable.simps by fastforce
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   978
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   979
lemma integrable_scaleR_right[simp, intro]: "(c \<noteq> 0 \<Longrightarrow> integrable M f) \<Longrightarrow> integrable M (\<lambda>x. c *\<^sub>R f x)"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   980
  unfolding integrable.simps by fastforce
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   981
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   982
lemma integrable_mult_left[simp, intro]:
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   983
  fixes c :: "_::{real_normed_algebra,second_countable_topology}"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   984
  shows "(c \<noteq> 0 \<Longrightarrow> integrable M f) \<Longrightarrow> integrable M (\<lambda>x. f x * c)"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   985
  unfolding integrable.simps by fastforce
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   986
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   987
lemma integrable_mult_right[simp, intro]:
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   988
  fixes c :: "_::{real_normed_algebra,second_countable_topology}"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   989
  shows "(c \<noteq> 0 \<Longrightarrow> integrable M f) \<Longrightarrow> integrable M (\<lambda>x. c * f x)"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   990
  unfolding integrable.simps by fastforce
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   991
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   992
lemma integrable_divide_zero[simp, intro]:
59867
58043346ca64 given up separate type classes demanding `inverse 0 = 0`
haftmann
parents: 59587
diff changeset
   993
  fixes c :: "_::{real_normed_field, field, second_countable_topology}"
56993
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   994
  shows "(c \<noteq> 0 \<Longrightarrow> integrable M f) \<Longrightarrow> integrable M (\<lambda>x. f x / c)"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   995
  unfolding integrable.simps by fastforce
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   996
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   997
lemma integrable_inner_left[simp, intro]:
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   998
  "(c \<noteq> 0 \<Longrightarrow> integrable M f) \<Longrightarrow> integrable M (\<lambda>x. f x \<bullet> c)"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
   999
  unfolding integrable.simps by fastforce
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1000
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1001
lemma integrable_inner_right[simp, intro]:
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1002
  "(c \<noteq> 0 \<Longrightarrow> integrable M f) \<Longrightarrow> integrable M (\<lambda>x. c \<bullet> f x)"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1003
  unfolding integrable.simps by fastforce
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1004
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1005
lemmas integrable_minus[simp, intro] =
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1006
  integrable_bounded_linear[OF bounded_linear_minus[OF bounded_linear_ident]]
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1007
lemmas integrable_divide[simp, intro] =
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1008
  integrable_bounded_linear[OF bounded_linear_divide]
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1009
lemmas integrable_Re[simp, intro] =
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1010
  integrable_bounded_linear[OF bounded_linear_Re]
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1011
lemmas integrable_Im[simp, intro] =
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1012
  integrable_bounded_linear[OF bounded_linear_Im]
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1013
lemmas integrable_cnj[simp, intro] =
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1014
  integrable_bounded_linear[OF bounded_linear_cnj]
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1015
lemmas integrable_of_real[simp, intro] =
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1016
  integrable_bounded_linear[OF bounded_linear_of_real]
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1017
lemmas integrable_fst[simp, intro] =
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1018
  integrable_bounded_linear[OF bounded_linear_fst]
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1019
lemmas integrable_snd[simp, intro] =
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1020
  integrable_bounded_linear[OF bounded_linear_snd]
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1021
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1022
lemma integral_zero[simp]: "integral\<^sup>L M (\<lambda>x. 0) = 0"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1023
  by (intro has_bochner_integral_integral_eq has_bochner_integral_zero)
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1024
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1025
lemma integral_add[simp]: "integrable M f \<Longrightarrow> integrable M g \<Longrightarrow>
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1026
    integral\<^sup>L M (\<lambda>x. f x + g x) = integral\<^sup>L M f + integral\<^sup>L M g"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1027
  by (intro has_bochner_integral_integral_eq has_bochner_integral_add has_bochner_integral_integrable)
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1028
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1029
lemma integral_diff[simp]: "integrable M f \<Longrightarrow> integrable M g \<Longrightarrow>
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1030
    integral\<^sup>L M (\<lambda>x. f x - g x) = integral\<^sup>L M f - integral\<^sup>L M g"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1031
  by (intro has_bochner_integral_integral_eq has_bochner_integral_diff has_bochner_integral_integrable)
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1032
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1033
lemma integral_setsum[simp]: "(\<And>i. i \<in> I \<Longrightarrow> integrable M (f i)) \<Longrightarrow>
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1034
  integral\<^sup>L M (\<lambda>x. \<Sum>i\<in>I. f i x) = (\<Sum>i\<in>I. integral\<^sup>L M (f i))"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1035
  by (intro has_bochner_integral_integral_eq has_bochner_integral_setsum has_bochner_integral_integrable)
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1036
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1037
lemma integral_bounded_linear: "bounded_linear T \<Longrightarrow> integrable M f \<Longrightarrow>
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1038
    integral\<^sup>L M (\<lambda>x. T (f x)) = T (integral\<^sup>L M f)"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1039
  by (metis has_bochner_integral_bounded_linear has_bochner_integral_integrable has_bochner_integral_integral_eq)
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1040
57166
5cfcc616d485 use 0 as integral-value for non-integrable functions, simplify a couple of rewrite rules
hoelzl
parents: 57137
diff changeset
  1041
lemma integral_bounded_linear':
5cfcc616d485 use 0 as integral-value for non-integrable functions, simplify a couple of rewrite rules
hoelzl
parents: 57137
diff changeset
  1042
  assumes T: "bounded_linear T" and T': "bounded_linear T'"
5cfcc616d485 use 0 as integral-value for non-integrable functions, simplify a couple of rewrite rules
hoelzl
parents: 57137
diff changeset
  1043
  assumes *: "\<not> (\<forall>x. T x = 0) \<Longrightarrow> (\<forall>x. T' (T x) = x)"
5cfcc616d485 use 0 as integral-value for non-integrable functions, simplify a couple of rewrite rules
hoelzl
parents: 57137
diff changeset
  1044
  shows "integral\<^sup>L M (\<lambda>x. T (f x)) = T (integral\<^sup>L M f)"
5cfcc616d485 use 0 as integral-value for non-integrable functions, simplify a couple of rewrite rules
hoelzl
parents: 57137
diff changeset
  1045
proof cases
5cfcc616d485 use 0 as integral-value for non-integrable functions, simplify a couple of rewrite rules
hoelzl
parents: 57137
diff changeset
  1046
  assume "(\<forall>x. T x = 0)" then show ?thesis
5cfcc616d485 use 0 as integral-value for non-integrable functions, simplify a couple of rewrite rules
hoelzl
parents: 57137
diff changeset
  1047
    by simp
5cfcc616d485 use 0 as integral-value for non-integrable functions, simplify a couple of rewrite rules
hoelzl
parents: 57137
diff changeset
  1048
next
5cfcc616d485 use 0 as integral-value for non-integrable functions, simplify a couple of rewrite rules
hoelzl
parents: 57137
diff changeset
  1049
  assume **: "\<not> (\<forall>x. T x = 0)"
5cfcc616d485 use 0 as integral-value for non-integrable functions, simplify a couple of rewrite rules
hoelzl
parents: 57137
diff changeset
  1050
  show ?thesis
5cfcc616d485 use 0 as integral-value for non-integrable functions, simplify a couple of rewrite rules
hoelzl
parents: 57137
diff changeset
  1051
  proof cases
5cfcc616d485 use 0 as integral-value for non-integrable functions, simplify a couple of rewrite rules
hoelzl
parents: 57137
diff changeset
  1052
    assume "integrable M f" with T show ?thesis
5cfcc616d485 use 0 as integral-value for non-integrable functions, simplify a couple of rewrite rules
hoelzl
parents: 57137
diff changeset
  1053
      by (rule integral_bounded_linear)
5cfcc616d485 use 0 as integral-value for non-integrable functions, simplify a couple of rewrite rules
hoelzl
parents: 57137
diff changeset
  1054
  next
5cfcc616d485 use 0 as integral-value for non-integrable functions, simplify a couple of rewrite rules
hoelzl
parents: 57137
diff changeset
  1055
    assume not: "\<not> integrable M f"
5cfcc616d485 use 0 as integral-value for non-integrable functions, simplify a couple of rewrite rules
hoelzl
parents: 57137
diff changeset
  1056
    moreover have "\<not> integrable M (\<lambda>x. T (f x))"
5cfcc616d485 use 0 as integral-value for non-integrable functions, simplify a couple of rewrite rules
hoelzl
parents: 57137
diff changeset
  1057
    proof
5cfcc616d485 use 0 as integral-value for non-integrable functions, simplify a couple of rewrite rules
hoelzl
parents: 57137
diff changeset
  1058
      assume "integrable M (\<lambda>x. T (f x))"
5cfcc616d485 use 0 as integral-value for non-integrable functions, simplify a couple of rewrite rules
hoelzl
parents: 57137
diff changeset
  1059
      from integrable_bounded_linear[OF T' this] not *[OF **]
5cfcc616d485 use 0 as integral-value for non-integrable functions, simplify a couple of rewrite rules
hoelzl
parents: 57137
diff changeset
  1060
      show False
5cfcc616d485 use 0 as integral-value for non-integrable functions, simplify a couple of rewrite rules
hoelzl
parents: 57137
diff changeset
  1061
        by auto
5cfcc616d485 use 0 as integral-value for non-integrable functions, simplify a couple of rewrite rules
hoelzl
parents: 57137
diff changeset
  1062
    qed
5cfcc616d485 use 0 as integral-value for non-integrable functions, simplify a couple of rewrite rules
hoelzl
parents: 57137
diff changeset
  1063
    ultimately show ?thesis
5cfcc616d485 use 0 as integral-value for non-integrable functions, simplify a couple of rewrite rules
hoelzl
parents: 57137
diff changeset
  1064
      using T by (simp add: not_integrable_integral_eq linear_simps)
5cfcc616d485 use 0 as integral-value for non-integrable functions, simplify a couple of rewrite rules
hoelzl
parents: 57137
diff changeset
  1065
  qed
5cfcc616d485 use 0 as integral-value for non-integrable functions, simplify a couple of rewrite rules
hoelzl
parents: 57137
diff changeset
  1066
qed
56993
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1067
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1068
lemma integral_scaleR_left[simp]: "(c \<noteq> 0 \<Longrightarrow> integrable M f) \<Longrightarrow> (\<integral> x. f x *\<^sub>R c \<partial>M) = integral\<^sup>L M f *\<^sub>R c"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1069
  by (intro has_bochner_integral_integral_eq has_bochner_integral_integrable has_bochner_integral_scaleR_left)
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1070
57166
5cfcc616d485 use 0 as integral-value for non-integrable functions, simplify a couple of rewrite rules
hoelzl
parents: 57137
diff changeset
  1071
lemma integral_scaleR_right[simp]: "(\<integral> x. c *\<^sub>R f x \<partial>M) = c *\<^sub>R integral\<^sup>L M f"
5cfcc616d485 use 0 as integral-value for non-integrable functions, simplify a couple of rewrite rules
hoelzl
parents: 57137
diff changeset
  1072
  by (rule integral_bounded_linear'[OF bounded_linear_scaleR_right bounded_linear_scaleR_right[of "1 / c"]]) simp
56993
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1073
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1074
lemma integral_mult_left[simp]:
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1075
  fixes c :: "_::{real_normed_algebra,second_countable_topology}"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1076
  shows "(c \<noteq> 0 \<Longrightarrow> integrable M f) \<Longrightarrow> (\<integral> x. f x * c \<partial>M) = integral\<^sup>L M f * c"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1077
  by (intro has_bochner_integral_integral_eq has_bochner_integral_integrable has_bochner_integral_mult_left)
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1078
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1079
lemma integral_mult_right[simp]:
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1080
  fixes c :: "_::{real_normed_algebra,second_countable_topology}"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1081
  shows "(c \<noteq> 0 \<Longrightarrow> integrable M f) \<Longrightarrow> (\<integral> x. c * f x \<partial>M) = c * integral\<^sup>L M f"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1082
  by (intro has_bochner_integral_integral_eq has_bochner_integral_integrable has_bochner_integral_mult_right)
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1083
57166
5cfcc616d485 use 0 as integral-value for non-integrable functions, simplify a couple of rewrite rules
hoelzl
parents: 57137
diff changeset
  1084
lemma integral_mult_left_zero[simp]:
5cfcc616d485 use 0 as integral-value for non-integrable functions, simplify a couple of rewrite rules
hoelzl
parents: 57137
diff changeset
  1085
  fixes c :: "_::{real_normed_field,second_countable_topology}"
5cfcc616d485 use 0 as integral-value for non-integrable functions, simplify a couple of rewrite rules
hoelzl
parents: 57137
diff changeset
  1086
  shows "(\<integral> x. f x * c \<partial>M) = integral\<^sup>L M f * c"
5cfcc616d485 use 0 as integral-value for non-integrable functions, simplify a couple of rewrite rules
hoelzl
parents: 57137
diff changeset
  1087
  by (rule integral_bounded_linear'[OF bounded_linear_mult_left bounded_linear_mult_left[of "1 / c"]]) simp
5cfcc616d485 use 0 as integral-value for non-integrable functions, simplify a couple of rewrite rules
hoelzl
parents: 57137
diff changeset
  1088
5cfcc616d485 use 0 as integral-value for non-integrable functions, simplify a couple of rewrite rules
hoelzl
parents: 57137
diff changeset
  1089
lemma integral_mult_right_zero[simp]:
5cfcc616d485 use 0 as integral-value for non-integrable functions, simplify a couple of rewrite rules
hoelzl
parents: 57137
diff changeset
  1090
  fixes c :: "_::{real_normed_field,second_countable_topology}"
5cfcc616d485 use 0 as integral-value for non-integrable functions, simplify a couple of rewrite rules
hoelzl
parents: 57137
diff changeset
  1091
  shows "(\<integral> x. c * f x \<partial>M) = c * integral\<^sup>L M f"
5cfcc616d485 use 0 as integral-value for non-integrable functions, simplify a couple of rewrite rules
hoelzl
parents: 57137
diff changeset
  1092
  by (rule integral_bounded_linear'[OF bounded_linear_mult_right bounded_linear_mult_right[of "1 / c"]]) simp
5cfcc616d485 use 0 as integral-value for non-integrable functions, simplify a couple of rewrite rules
hoelzl
parents: 57137
diff changeset
  1093
56993
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1094
lemma integral_inner_left[simp]: "(c \<noteq> 0 \<Longrightarrow> integrable M f) \<Longrightarrow> (\<integral> x. f x \<bullet> c \<partial>M) = integral\<^sup>L M f \<bullet> c"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1095
  by (intro has_bochner_integral_integral_eq has_bochner_integral_integrable has_bochner_integral_inner_left)
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1096
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1097
lemma integral_inner_right[simp]: "(c \<noteq> 0 \<Longrightarrow> integrable M f) \<Longrightarrow> (\<integral> x. c \<bullet> f x \<partial>M) = c \<bullet> integral\<^sup>L M f"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1098
  by (intro has_bochner_integral_integral_eq has_bochner_integral_integrable has_bochner_integral_inner_right)
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1099
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1100
lemma integral_divide_zero[simp]:
59867
58043346ca64 given up separate type classes demanding `inverse 0 = 0`
haftmann
parents: 59587
diff changeset
  1101
  fixes c :: "_::{real_normed_field, field, second_countable_topology}"
57166
5cfcc616d485 use 0 as integral-value for non-integrable functions, simplify a couple of rewrite rules
hoelzl
parents: 57137
diff changeset
  1102
  shows "integral\<^sup>L M (\<lambda>x. f x / c) = integral\<^sup>L M f / c"
5cfcc616d485 use 0 as integral-value for non-integrable functions, simplify a couple of rewrite rules
hoelzl
parents: 57137
diff changeset
  1103
  by (rule integral_bounded_linear'[OF bounded_linear_divide bounded_linear_mult_left[of c]]) simp
5cfcc616d485 use 0 as integral-value for non-integrable functions, simplify a couple of rewrite rules
hoelzl
parents: 57137
diff changeset
  1104
5cfcc616d485 use 0 as integral-value for non-integrable functions, simplify a couple of rewrite rules
hoelzl
parents: 57137
diff changeset
  1105
lemma integral_minus[simp]: "integral\<^sup>L M (\<lambda>x. - f x) = - integral\<^sup>L M f"
5cfcc616d485 use 0 as integral-value for non-integrable functions, simplify a couple of rewrite rules
hoelzl
parents: 57137
diff changeset
  1106
  by (rule integral_bounded_linear'[OF bounded_linear_minus[OF bounded_linear_ident] bounded_linear_minus[OF bounded_linear_ident]]) simp
56993
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1107
57166
5cfcc616d485 use 0 as integral-value for non-integrable functions, simplify a couple of rewrite rules
hoelzl
parents: 57137
diff changeset
  1108
lemma integral_complex_of_real[simp]: "integral\<^sup>L M (\<lambda>x. complex_of_real (f x)) = of_real (integral\<^sup>L M f)"
5cfcc616d485 use 0 as integral-value for non-integrable functions, simplify a couple of rewrite rules
hoelzl
parents: 57137
diff changeset
  1109
  by (rule integral_bounded_linear'[OF bounded_linear_of_real bounded_linear_Re]) simp
5cfcc616d485 use 0 as integral-value for non-integrable functions, simplify a couple of rewrite rules
hoelzl
parents: 57137
diff changeset
  1110
5cfcc616d485 use 0 as integral-value for non-integrable functions, simplify a couple of rewrite rules
hoelzl
parents: 57137
diff changeset
  1111
lemma integral_cnj[simp]: "integral\<^sup>L M (\<lambda>x. cnj (f x)) = cnj (integral\<^sup>L M f)"
5cfcc616d485 use 0 as integral-value for non-integrable functions, simplify a couple of rewrite rules
hoelzl
parents: 57137
diff changeset
  1112
  by (rule integral_bounded_linear'[OF bounded_linear_cnj bounded_linear_cnj]) simp
5cfcc616d485 use 0 as integral-value for non-integrable functions, simplify a couple of rewrite rules
hoelzl
parents: 57137
diff changeset
  1113
56993
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1114
lemmas integral_divide[simp] =
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1115
  integral_bounded_linear[OF bounded_linear_divide]
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1116
lemmas integral_Re[simp] =
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1117
  integral_bounded_linear[OF bounded_linear_Re]
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1118
lemmas integral_Im[simp] =
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1119
  integral_bounded_linear[OF bounded_linear_Im]
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1120
lemmas integral_of_real[simp] =
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1121
  integral_bounded_linear[OF bounded_linear_of_real]
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1122
lemmas integral_fst[simp] =
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1123
  integral_bounded_linear[OF bounded_linear_fst]
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1124
lemmas integral_snd[simp] =
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1125
  integral_bounded_linear[OF bounded_linear_snd]
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1126
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1127
lemma integral_norm_bound_ereal:
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1128
  "integrable M f \<Longrightarrow> norm (integral\<^sup>L M f) \<le> (\<integral>\<^sup>+x. norm (f x) \<partial>M)"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1129
  by (metis has_bochner_integral_integrable has_bochner_integral_norm_bound)
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1130
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1131
lemma integrableI_sequence:
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1132
  fixes f :: "'a \<Rightarrow> 'b::{banach, second_countable_topology}"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1133
  assumes f[measurable]: "f \<in> borel_measurable M"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1134
  assumes s: "\<And>i. simple_bochner_integrable M (s i)"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1135
  assumes lim: "(\<lambda>i. \<integral>\<^sup>+x. norm (f x - s i x) \<partial>M) ----> 0" (is "?S ----> 0")
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1136
  shows "integrable M f"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1137
proof -
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1138
  let ?s = "\<lambda>n. simple_bochner_integral M (s n)"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1139
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1140
  have "\<exists>x. ?s ----> x"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1141
    unfolding convergent_eq_cauchy
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1142
  proof (rule metric_CauchyI)
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1143
    fix e :: real assume "0 < e"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1144
    then have "0 < ereal (e / 2)" by auto
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1145
    from order_tendstoD(2)[OF lim this]
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1146
    obtain M where M: "\<And>n. M \<le> n \<Longrightarrow> ?S n < e / 2"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1147
      by (auto simp: eventually_sequentially)
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1148
    show "\<exists>M. \<forall>m\<ge>M. \<forall>n\<ge>M. dist (?s m) (?s n) < e"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1149
    proof (intro exI allI impI)
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1150
      fix m n assume m: "M \<le> m" and n: "M \<le> n"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1151
      have "?S n \<noteq> \<infinity>"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1152
        using M[OF n] by auto
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1153
      have "norm (?s n - ?s m) \<le> ?S n + ?S m"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1154
        by (intro simple_bochner_integral_bounded s f)
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1155
      also have "\<dots> < ereal (e / 2) + e / 2"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1156
        using ereal_add_strict_mono[OF less_imp_le[OF M[OF n]] _ `?S n \<noteq> \<infinity>` M[OF m]]
56996
891e992e510f renamed positive_integral to nn_integral
hoelzl
parents: 56994
diff changeset
  1157
        by (auto simp: nn_integral_nonneg)
56993
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1158
      also have "\<dots> = e" by simp
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1159
      finally show "dist (?s n) (?s m) < e"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1160
        by (simp add: dist_norm)
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1161
    qed
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1162
  qed
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1163
  then obtain x where "?s ----> x" ..
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1164
  show ?thesis
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1165
    by (rule, rule) fact+
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1166
qed
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1167
56996
891e992e510f renamed positive_integral to nn_integral
hoelzl
parents: 56994
diff changeset
  1168
lemma nn_integral_dominated_convergence_norm:
56993
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1169
  fixes u' :: "_ \<Rightarrow> _::{real_normed_vector, second_countable_topology}"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1170
  assumes [measurable]:
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1171
       "\<And>i. u i \<in> borel_measurable M" "u' \<in> borel_measurable M" "w \<in> borel_measurable M"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1172
    and bound: "\<And>j. AE x in M. norm (u j x) \<le> w x"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1173
    and w: "(\<integral>\<^sup>+x. w x \<partial>M) < \<infinity>"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1174
    and u': "AE x in M. (\<lambda>i. u i x) ----> u' x"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1175
  shows "(\<lambda>i. (\<integral>\<^sup>+x. norm (u' x - u i x) \<partial>M)) ----> 0"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1176
proof -
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1177
  have "AE x in M. \<forall>j. norm (u j x) \<le> w x"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1178
    unfolding AE_all_countable by rule fact
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1179
  with u' have bnd: "AE x in M. \<forall>j. norm (u' x - u j x) \<le> 2 * w x"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1180
  proof (eventually_elim, intro allI)
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1181
    fix i x assume "(\<lambda>i. u i x) ----> u' x" "\<forall>j. norm (u j x) \<le> w x" "\<forall>j. norm (u j x) \<le> w x"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1182
    then have "norm (u' x) \<le> w x" "norm (u i x) \<le> w x"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1183
      by (auto intro: LIMSEQ_le_const2 tendsto_norm)
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1184
    then have "norm (u' x) + norm (u i x) \<le> 2 * w x"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1185
      by simp
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1186
    also have "norm (u' x - u i x) \<le> norm (u' x) + norm (u i x)"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1187
      by (rule norm_triangle_ineq4)
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1188
    finally (xtrans) show "norm (u' x - u i x) \<le> 2 * w x" .
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1189
  qed
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1190
  
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1191
  have "(\<lambda>i. (\<integral>\<^sup>+x. norm (u' x - u i x) \<partial>M)) ----> (\<integral>\<^sup>+x. 0 \<partial>M)"
56996
891e992e510f renamed positive_integral to nn_integral
hoelzl
parents: 56994
diff changeset
  1192
  proof (rule nn_integral_dominated_convergence)  
56993
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1193
    show "(\<integral>\<^sup>+x. 2 * w x \<partial>M) < \<infinity>"
56996
891e992e510f renamed positive_integral to nn_integral
hoelzl
parents: 56994
diff changeset
  1194
      by (rule nn_integral_mult_bounded_inf[OF _ w, of 2]) auto
56993
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1195
    show "AE x in M. (\<lambda>i. ereal (norm (u' x - u i x))) ----> 0"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1196
      using u' 
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1197
    proof eventually_elim
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1198
      fix x assume "(\<lambda>i. u i x) ----> u' x"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1199
      from tendsto_diff[OF tendsto_const[of "u' x"] this]
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1200
      show "(\<lambda>i. ereal (norm (u' x - u i x))) ----> 0"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1201
        by (simp add: zero_ereal_def tendsto_norm_zero_iff)
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1202
    qed
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1203
  qed (insert bnd, auto)
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1204
  then show ?thesis by simp
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1205
qed
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1206
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1207
lemma integrableI_bounded:
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1208
  fixes f :: "'a \<Rightarrow> 'b::{banach, second_countable_topology}"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1209
  assumes f[measurable]: "f \<in> borel_measurable M" and fin: "(\<integral>\<^sup>+x. norm (f x) \<partial>M) < \<infinity>"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1210
  shows "integrable M f"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1211
proof -
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1212
  from borel_measurable_implies_sequence_metric[OF f, of 0] obtain s where
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1213
    s: "\<And>i. simple_function M (s i)" and
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1214
    pointwise: "\<And>x. x \<in> space M \<Longrightarrow> (\<lambda>i. s i x) ----> f x" and
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1215
    bound: "\<And>i x. x \<in> space M \<Longrightarrow> norm (s i x) \<le> 2 * norm (f x)"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1216
    by (simp add: norm_conv_dist) metis
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1217
  
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1218
  show ?thesis
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1219
  proof (rule integrableI_sequence)
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1220
    { fix i
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1221
      have "(\<integral>\<^sup>+x. norm (s i x) \<partial>M) \<le> (\<integral>\<^sup>+x. 2 * ereal (norm (f x)) \<partial>M)"
56996
891e992e510f renamed positive_integral to nn_integral
hoelzl
parents: 56994
diff changeset
  1222
        by (intro nn_integral_mono) (simp add: bound)
56993
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1223
      also have "\<dots> = 2 * (\<integral>\<^sup>+x. ereal (norm (f x)) \<partial>M)"
56996
891e992e510f renamed positive_integral to nn_integral
hoelzl
parents: 56994
diff changeset
  1224
        by (rule nn_integral_cmult) auto
56993
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1225
      finally have "(\<integral>\<^sup>+x. norm (s i x) \<partial>M) < \<infinity>"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1226
        using fin by auto }
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1227
    note fin_s = this
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1228
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1229
    show "\<And>i. simple_bochner_integrable M (s i)"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1230
      by (rule simple_bochner_integrableI_bounded) fact+
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1231
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1232
    show "(\<lambda>i. \<integral>\<^sup>+ x. ereal (norm (f x - s i x)) \<partial>M) ----> 0"
56996
891e992e510f renamed positive_integral to nn_integral
hoelzl
parents: 56994
diff changeset
  1233
    proof (rule nn_integral_dominated_convergence_norm)
56993
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1234
      show "\<And>j. AE x in M. norm (s j x) \<le> 2 * norm (f x)"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1235
        using bound by auto
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1236
      show "\<And>i. s i \<in> borel_measurable M" "(\<lambda>x. 2 * norm (f x)) \<in> borel_measurable M"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1237
        using s by (auto intro: borel_measurable_simple_function)
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1238
      show "(\<integral>\<^sup>+ x. ereal (2 * norm (f x)) \<partial>M) < \<infinity>"
56996
891e992e510f renamed positive_integral to nn_integral
hoelzl
parents: 56994
diff changeset
  1239
        using fin unfolding times_ereal.simps(1)[symmetric] by (subst nn_integral_cmult) auto
56993
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1240
      show "AE x in M. (\<lambda>i. s i x) ----> f x"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1241
        using pointwise by auto
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1242
    qed fact
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1243
  qed fact
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1244
qed
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1245
57275
0ddb5b755cdc moved lemmas from the proof of the Central Limit Theorem by Jeremy Avigad and Luke Serafin
hoelzl
parents: 57235
diff changeset
  1246
lemma integrableI_bounded_set:
0ddb5b755cdc moved lemmas from the proof of the Central Limit Theorem by Jeremy Avigad and Luke Serafin
hoelzl
parents: 57235
diff changeset
  1247
  fixes f :: "'a \<Rightarrow> 'b::{banach, second_countable_topology}"
0ddb5b755cdc moved lemmas from the proof of the Central Limit Theorem by Jeremy Avigad and Luke Serafin
hoelzl
parents: 57235
diff changeset
  1248
  assumes [measurable]: "A \<in> sets M" "f \<in> borel_measurable M"
0ddb5b755cdc moved lemmas from the proof of the Central Limit Theorem by Jeremy Avigad and Luke Serafin
hoelzl
parents: 57235
diff changeset
  1249
  assumes finite: "emeasure M A < \<infinity>"
0ddb5b755cdc moved lemmas from the proof of the Central Limit Theorem by Jeremy Avigad and Luke Serafin
hoelzl
parents: 57235
diff changeset
  1250
    and bnd: "AE x in M. x \<in> A \<longrightarrow> norm (f x) \<le> B"
0ddb5b755cdc moved lemmas from the proof of the Central Limit Theorem by Jeremy Avigad and Luke Serafin
hoelzl
parents: 57235
diff changeset
  1251
    and null: "AE x in M. x \<notin> A \<longrightarrow> f x = 0"
0ddb5b755cdc moved lemmas from the proof of the Central Limit Theorem by Jeremy Avigad and Luke Serafin
hoelzl
parents: 57235
diff changeset
  1252
  shows "integrable M f"
0ddb5b755cdc moved lemmas from the proof of the Central Limit Theorem by Jeremy Avigad and Luke Serafin
hoelzl
parents: 57235
diff changeset
  1253
proof (rule integrableI_bounded)
0ddb5b755cdc moved lemmas from the proof of the Central Limit Theorem by Jeremy Avigad and Luke Serafin
hoelzl
parents: 57235
diff changeset
  1254
  { fix x :: 'b have "norm x \<le> B \<Longrightarrow> 0 \<le> B"
0ddb5b755cdc moved lemmas from the proof of the Central Limit Theorem by Jeremy Avigad and Luke Serafin
hoelzl
parents: 57235
diff changeset
  1255
      using norm_ge_zero[of x] by arith }
0ddb5b755cdc moved lemmas from the proof of the Central Limit Theorem by Jeremy Avigad and Luke Serafin
hoelzl
parents: 57235
diff changeset
  1256
  with bnd null have "(\<integral>\<^sup>+ x. ereal (norm (f x)) \<partial>M) \<le> (\<integral>\<^sup>+ x. ereal (max 0 B) * indicator A x \<partial>M)"
0ddb5b755cdc moved lemmas from the proof of the Central Limit Theorem by Jeremy Avigad and Luke Serafin
hoelzl
parents: 57235
diff changeset
  1257
    by (intro nn_integral_mono_AE) (auto split: split_indicator split_max)
0ddb5b755cdc moved lemmas from the proof of the Central Limit Theorem by Jeremy Avigad and Luke Serafin
hoelzl
parents: 57235
diff changeset
  1258
  also have "\<dots> < \<infinity>"
0ddb5b755cdc moved lemmas from the proof of the Central Limit Theorem by Jeremy Avigad and Luke Serafin
hoelzl
parents: 57235
diff changeset
  1259
    using finite by (subst nn_integral_cmult_indicator) (auto simp: max_def)
0ddb5b755cdc moved lemmas from the proof of the Central Limit Theorem by Jeremy Avigad and Luke Serafin
hoelzl
parents: 57235
diff changeset
  1260
  finally show "(\<integral>\<^sup>+ x. ereal (norm (f x)) \<partial>M) < \<infinity>" .
0ddb5b755cdc moved lemmas from the proof of the Central Limit Theorem by Jeremy Avigad and Luke Serafin
hoelzl
parents: 57235
diff changeset
  1261
qed simp
0ddb5b755cdc moved lemmas from the proof of the Central Limit Theorem by Jeremy Avigad and Luke Serafin
hoelzl
parents: 57235
diff changeset
  1262
0ddb5b755cdc moved lemmas from the proof of the Central Limit Theorem by Jeremy Avigad and Luke Serafin
hoelzl
parents: 57235
diff changeset
  1263
lemma integrableI_bounded_set_indicator:
0ddb5b755cdc moved lemmas from the proof of the Central Limit Theorem by Jeremy Avigad and Luke Serafin
hoelzl
parents: 57235
diff changeset
  1264
  fixes f :: "'a \<Rightarrow> 'b::{banach, second_countable_topology}"
0ddb5b755cdc moved lemmas from the proof of the Central Limit Theorem by Jeremy Avigad and Luke Serafin
hoelzl
parents: 57235
diff changeset
  1265
  shows "A \<in> sets M \<Longrightarrow> f \<in> borel_measurable M \<Longrightarrow>
0ddb5b755cdc moved lemmas from the proof of the Central Limit Theorem by Jeremy Avigad and Luke Serafin
hoelzl
parents: 57235
diff changeset
  1266
    emeasure M A < \<infinity> \<Longrightarrow> (AE x in M. x \<in> A \<longrightarrow> norm (f x) \<le> B) \<Longrightarrow>
0ddb5b755cdc moved lemmas from the proof of the Central Limit Theorem by Jeremy Avigad and Luke Serafin
hoelzl
parents: 57235
diff changeset
  1267
    integrable M (\<lambda>x. indicator A x *\<^sub>R f x)"
0ddb5b755cdc moved lemmas from the proof of the Central Limit Theorem by Jeremy Avigad and Luke Serafin
hoelzl
parents: 57235
diff changeset
  1268
  by (rule integrableI_bounded_set[where A=A]) auto
0ddb5b755cdc moved lemmas from the proof of the Central Limit Theorem by Jeremy Avigad and Luke Serafin
hoelzl
parents: 57235
diff changeset
  1269
56993
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1270
lemma integrableI_nonneg:
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1271
  fixes f :: "'a \<Rightarrow> real"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1272
  assumes "f \<in> borel_measurable M" "AE x in M. 0 \<le> f x" "(\<integral>\<^sup>+x. f x \<partial>M) < \<infinity>"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1273
  shows "integrable M f"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1274
proof -
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1275
  have "(\<integral>\<^sup>+x. norm (f x) \<partial>M) = (\<integral>\<^sup>+x. f x \<partial>M)"
56996
891e992e510f renamed positive_integral to nn_integral
hoelzl
parents: 56994
diff changeset
  1276
    using assms by (intro nn_integral_cong_AE) auto
56993
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1277
  then show ?thesis
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1278
    using assms by (intro integrableI_bounded) auto
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1279
qed
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1280
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1281
lemma integrable_iff_bounded:
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1282
  fixes f :: "'a \<Rightarrow> 'b::{banach, second_countable_topology}"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1283
  shows "integrable M f \<longleftrightarrow> f \<in> borel_measurable M \<and> (\<integral>\<^sup>+x. norm (f x) \<partial>M) < \<infinity>"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1284
  using integrableI_bounded[of f M] has_bochner_integral_implies_finite_norm[of M f]
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1285
  unfolding integrable.simps has_bochner_integral.simps[abs_def] by auto
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1286
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1287
lemma integrable_bound:
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1288
  fixes f :: "'a \<Rightarrow> 'b::{banach, second_countable_topology}"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1289
    and g :: "'a \<Rightarrow> 'c::{banach, second_countable_topology}"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1290
  shows "integrable M f \<Longrightarrow> g \<in> borel_measurable M \<Longrightarrow> (AE x in M. norm (g x) \<le> norm (f x)) \<Longrightarrow>
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1291
    integrable M g"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1292
  unfolding integrable_iff_bounded
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1293
proof safe
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1294
  assume "f \<in> borel_measurable M" "g \<in> borel_measurable M"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1295
  assume "AE x in M. norm (g x) \<le> norm (f x)"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1296
  then have "(\<integral>\<^sup>+ x. ereal (norm (g x)) \<partial>M) \<le> (\<integral>\<^sup>+ x. ereal (norm (f x)) \<partial>M)"
56996
891e992e510f renamed positive_integral to nn_integral
hoelzl
parents: 56994
diff changeset
  1297
    by  (intro nn_integral_mono_AE) auto
56993
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1298
  also assume "(\<integral>\<^sup>+ x. ereal (norm (f x)) \<partial>M) < \<infinity>"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1299
  finally show "(\<integral>\<^sup>+ x. ereal (norm (g x)) \<partial>M) < \<infinity>" .
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1300
qed 
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1301
57275
0ddb5b755cdc moved lemmas from the proof of the Central Limit Theorem by Jeremy Avigad and Luke Serafin
hoelzl
parents: 57235
diff changeset
  1302
lemma integrable_mult_indicator:
0ddb5b755cdc moved lemmas from the proof of the Central Limit Theorem by Jeremy Avigad and Luke Serafin
hoelzl
parents: 57235
diff changeset
  1303
  fixes f :: "'a \<Rightarrow> 'b::{banach, second_countable_topology}"
0ddb5b755cdc moved lemmas from the proof of the Central Limit Theorem by Jeremy Avigad and Luke Serafin
hoelzl
parents: 57235
diff changeset
  1304
  shows "A \<in> sets M \<Longrightarrow> integrable M f \<Longrightarrow> integrable M (\<lambda>x. indicator A x *\<^sub>R f x)"
0ddb5b755cdc moved lemmas from the proof of the Central Limit Theorem by Jeremy Avigad and Luke Serafin
hoelzl
parents: 57235
diff changeset
  1305
  by (rule integrable_bound[of M f]) (auto split: split_indicator)
0ddb5b755cdc moved lemmas from the proof of the Central Limit Theorem by Jeremy Avigad and Luke Serafin
hoelzl
parents: 57235
diff changeset
  1306
59000
6eb0725503fc import general theorems from AFP/Markov_Models
hoelzl
parents: 58876
diff changeset
  1307
lemma integrable_real_mult_indicator:
6eb0725503fc import general theorems from AFP/Markov_Models
hoelzl
parents: 58876
diff changeset
  1308
  fixes f :: "'a \<Rightarrow> real"
6eb0725503fc import general theorems from AFP/Markov_Models
hoelzl
parents: 58876
diff changeset
  1309
  shows "A \<in> sets M \<Longrightarrow> integrable M f \<Longrightarrow> integrable M (\<lambda>x. f x * indicator A x)"
6eb0725503fc import general theorems from AFP/Markov_Models
hoelzl
parents: 58876
diff changeset
  1310
  using integrable_mult_indicator[of A M f] by (simp add: mult_ac)
6eb0725503fc import general theorems from AFP/Markov_Models
hoelzl
parents: 58876
diff changeset
  1311
56993
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1312
lemma integrable_abs[simp, intro]:
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1313
  fixes f :: "'a \<Rightarrow> real"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1314
  assumes [measurable]: "integrable M f" shows "integrable M (\<lambda>x. \<bar>f x\<bar>)"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1315
  using assms by (rule integrable_bound) auto
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1316
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1317
lemma integrable_norm[simp, intro]:
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1318
  fixes f :: "'a \<Rightarrow> 'b::{banach, second_countable_topology}"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1319
  assumes [measurable]: "integrable M f" shows "integrable M (\<lambda>x. norm (f x))"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1320
  using assms by (rule integrable_bound) auto
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1321
  
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1322
lemma integrable_norm_cancel:
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1323
  fixes f :: "'a \<Rightarrow> 'b::{banach, second_countable_topology}"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1324
  assumes [measurable]: "integrable M (\<lambda>x. norm (f x))" "f \<in> borel_measurable M" shows "integrable M f"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1325
  using assms by (rule integrable_bound) auto
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1326
57275
0ddb5b755cdc moved lemmas from the proof of the Central Limit Theorem by Jeremy Avigad and Luke Serafin
hoelzl
parents: 57235
diff changeset
  1327
lemma integrable_norm_iff:
0ddb5b755cdc moved lemmas from the proof of the Central Limit Theorem by Jeremy Avigad and Luke Serafin
hoelzl
parents: 57235
diff changeset
  1328
  fixes f :: "'a \<Rightarrow> 'b::{banach, second_countable_topology}"
0ddb5b755cdc moved lemmas from the proof of the Central Limit Theorem by Jeremy Avigad and Luke Serafin
hoelzl
parents: 57235
diff changeset
  1329
  shows "f \<in> borel_measurable M \<Longrightarrow> integrable M (\<lambda>x. norm (f x)) \<longleftrightarrow> integrable M f"
0ddb5b755cdc moved lemmas from the proof of the Central Limit Theorem by Jeremy Avigad and Luke Serafin
hoelzl
parents: 57235
diff changeset
  1330
  by (auto intro: integrable_norm_cancel)
0ddb5b755cdc moved lemmas from the proof of the Central Limit Theorem by Jeremy Avigad and Luke Serafin
hoelzl
parents: 57235
diff changeset
  1331
56993
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1332
lemma integrable_abs_cancel:
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1333
  fixes f :: "'a \<Rightarrow> real"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1334
  assumes [measurable]: "integrable M (\<lambda>x. \<bar>f x\<bar>)" "f \<in> borel_measurable M" shows "integrable M f"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1335
  using assms by (rule integrable_bound) auto
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1336
57275
0ddb5b755cdc moved lemmas from the proof of the Central Limit Theorem by Jeremy Avigad and Luke Serafin
hoelzl
parents: 57235
diff changeset
  1337
lemma integrable_abs_iff:
0ddb5b755cdc moved lemmas from the proof of the Central Limit Theorem by Jeremy Avigad and Luke Serafin
hoelzl
parents: 57235
diff changeset
  1338
  fixes f :: "'a \<Rightarrow> real"
0ddb5b755cdc moved lemmas from the proof of the Central Limit Theorem by Jeremy Avigad and Luke Serafin
hoelzl
parents: 57235
diff changeset
  1339
  shows "f \<in> borel_measurable M \<Longrightarrow> integrable M (\<lambda>x. \<bar>f x\<bar>) \<longleftrightarrow> integrable M f"
0ddb5b755cdc moved lemmas from the proof of the Central Limit Theorem by Jeremy Avigad and Luke Serafin
hoelzl
parents: 57235
diff changeset
  1340
  by (auto intro: integrable_abs_cancel)
0ddb5b755cdc moved lemmas from the proof of the Central Limit Theorem by Jeremy Avigad and Luke Serafin
hoelzl
parents: 57235
diff changeset
  1341
56993
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1342
lemma integrable_max[simp, intro]:
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1343
  fixes f :: "'a \<Rightarrow> real"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1344
  assumes fg[measurable]: "integrable M f" "integrable M g"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1345
  shows "integrable M (\<lambda>x. max (f x) (g x))"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1346
  using integrable_add[OF integrable_norm[OF fg(1)] integrable_norm[OF fg(2)]]
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1347
  by (rule integrable_bound) auto
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1348
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1349
lemma integrable_min[simp, intro]:
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1350
  fixes f :: "'a \<Rightarrow> real"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1351
  assumes fg[measurable]: "integrable M f" "integrable M g"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1352
  shows "integrable M (\<lambda>x. min (f x) (g x))"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1353
  using integrable_add[OF integrable_norm[OF fg(1)] integrable_norm[OF fg(2)]]
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1354
  by (rule integrable_bound) auto
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1355
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1356
lemma integral_minus_iff[simp]:
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1357
  "integrable M (\<lambda>x. - f x ::'a::{banach, second_countable_topology}) \<longleftrightarrow> integrable M f"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1358
  unfolding integrable_iff_bounded
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1359
  by (auto intro: borel_measurable_uminus[of "\<lambda>x. - f x" M, simplified])
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1360
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1361
lemma integrable_indicator_iff:
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1362
  "integrable M (indicator A::_ \<Rightarrow> real) \<longleftrightarrow> A \<inter> space M \<in> sets M \<and> emeasure M (A \<inter> space M) < \<infinity>"
56996
891e992e510f renamed positive_integral to nn_integral
hoelzl
parents: 56994
diff changeset
  1363
  by (simp add: integrable_iff_bounded borel_measurable_indicator_iff ereal_indicator nn_integral_indicator'
56993
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1364
           cong: conj_cong)
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1365
57166
5cfcc616d485 use 0 as integral-value for non-integrable functions, simplify a couple of rewrite rules
hoelzl
parents: 57137
diff changeset
  1366
lemma integral_indicator[simp]: "integral\<^sup>L M (indicator A) = measure M (A \<inter> space M)"
5cfcc616d485 use 0 as integral-value for non-integrable functions, simplify a couple of rewrite rules
hoelzl
parents: 57137
diff changeset
  1367
proof cases
5cfcc616d485 use 0 as integral-value for non-integrable functions, simplify a couple of rewrite rules
hoelzl
parents: 57137
diff changeset
  1368
  assume *: "A \<inter> space M \<in> sets M \<and> emeasure M (A \<inter> space M) < \<infinity>"
5cfcc616d485 use 0 as integral-value for non-integrable functions, simplify a couple of rewrite rules
hoelzl
parents: 57137
diff changeset
  1369
  have "integral\<^sup>L M (indicator A) = integral\<^sup>L M (indicator (A \<inter> space M))"
5cfcc616d485 use 0 as integral-value for non-integrable functions, simplify a couple of rewrite rules
hoelzl
parents: 57137
diff changeset
  1370
    by (intro integral_cong) (auto split: split_indicator)
5cfcc616d485 use 0 as integral-value for non-integrable functions, simplify a couple of rewrite rules
hoelzl
parents: 57137
diff changeset
  1371
  also have "\<dots> = measure M (A \<inter> space M)"
5cfcc616d485 use 0 as integral-value for non-integrable functions, simplify a couple of rewrite rules
hoelzl
parents: 57137
diff changeset
  1372
    using * by (intro has_bochner_integral_integral_eq has_bochner_integral_real_indicator) auto
5cfcc616d485 use 0 as integral-value for non-integrable functions, simplify a couple of rewrite rules
hoelzl
parents: 57137
diff changeset
  1373
  finally show ?thesis .
5cfcc616d485 use 0 as integral-value for non-integrable functions, simplify a couple of rewrite rules
hoelzl
parents: 57137
diff changeset
  1374
next
5cfcc616d485 use 0 as integral-value for non-integrable functions, simplify a couple of rewrite rules
hoelzl
parents: 57137
diff changeset
  1375
  assume *: "\<not> (A \<inter> space M \<in> sets M \<and> emeasure M (A \<inter> space M) < \<infinity>)"
5cfcc616d485 use 0 as integral-value for non-integrable functions, simplify a couple of rewrite rules
hoelzl
parents: 57137
diff changeset
  1376
  have "integral\<^sup>L M (indicator A) = integral\<^sup>L M (indicator (A \<inter> space M) :: _ \<Rightarrow> real)"
5cfcc616d485 use 0 as integral-value for non-integrable functions, simplify a couple of rewrite rules
hoelzl
parents: 57137
diff changeset
  1377
    by (intro integral_cong) (auto split: split_indicator)
5cfcc616d485 use 0 as integral-value for non-integrable functions, simplify a couple of rewrite rules
hoelzl
parents: 57137
diff changeset
  1378
  also have "\<dots> = 0"
5cfcc616d485 use 0 as integral-value for non-integrable functions, simplify a couple of rewrite rules
hoelzl
parents: 57137
diff changeset
  1379
    using * by (subst not_integrable_integral_eq) (auto simp: integrable_indicator_iff)
5cfcc616d485 use 0 as integral-value for non-integrable functions, simplify a couple of rewrite rules
hoelzl
parents: 57137
diff changeset
  1380
  also have "\<dots> = measure M (A \<inter> space M)"
5cfcc616d485 use 0 as integral-value for non-integrable functions, simplify a couple of rewrite rules
hoelzl
parents: 57137
diff changeset
  1381
    using * by (auto simp: measure_def emeasure_notin_sets)
5cfcc616d485 use 0 as integral-value for non-integrable functions, simplify a couple of rewrite rules
hoelzl
parents: 57137
diff changeset
  1382
  finally show ?thesis .
5cfcc616d485 use 0 as integral-value for non-integrable functions, simplify a couple of rewrite rules
hoelzl
parents: 57137
diff changeset
  1383
qed
5cfcc616d485 use 0 as integral-value for non-integrable functions, simplify a couple of rewrite rules
hoelzl
parents: 57137
diff changeset
  1384
57275
0ddb5b755cdc moved lemmas from the proof of the Central Limit Theorem by Jeremy Avigad and Luke Serafin
hoelzl
parents: 57235
diff changeset
  1385
lemma integrable_discrete_difference:
0ddb5b755cdc moved lemmas from the proof of the Central Limit Theorem by Jeremy Avigad and Luke Serafin
hoelzl
parents: 57235
diff changeset
  1386
  fixes f :: "'a \<Rightarrow> 'b::{banach, second_countable_topology}"
0ddb5b755cdc moved lemmas from the proof of the Central Limit Theorem by Jeremy Avigad and Luke Serafin
hoelzl
parents: 57235
diff changeset
  1387
  assumes X: "countable X"
0ddb5b755cdc moved lemmas from the proof of the Central Limit Theorem by Jeremy Avigad and Luke Serafin
hoelzl
parents: 57235
diff changeset
  1388
  assumes null: "\<And>x. x \<in> X \<Longrightarrow> emeasure M {x} = 0" 
0ddb5b755cdc moved lemmas from the proof of the Central Limit Theorem by Jeremy Avigad and Luke Serafin
hoelzl
parents: 57235
diff changeset
  1389
  assumes sets: "\<And>x. x \<in> X \<Longrightarrow> {x} \<in> sets M"
0ddb5b755cdc moved lemmas from the proof of the Central Limit Theorem by Jeremy Avigad and Luke Serafin
hoelzl
parents: 57235
diff changeset
  1390
  assumes eq: "\<And>x. x \<in> space M \<Longrightarrow> x \<notin> X \<Longrightarrow> f x = g x"
0ddb5b755cdc moved lemmas from the proof of the Central Limit Theorem by Jeremy Avigad and Luke Serafin
hoelzl
parents: 57235
diff changeset
  1391
  shows "integrable M f \<longleftrightarrow> integrable M g"
0ddb5b755cdc moved lemmas from the proof of the Central Limit Theorem by Jeremy Avigad and Luke Serafin
hoelzl
parents: 57235
diff changeset
  1392
  unfolding integrable_iff_bounded
0ddb5b755cdc moved lemmas from the proof of the Central Limit Theorem by Jeremy Avigad and Luke Serafin
hoelzl
parents: 57235
diff changeset
  1393
proof (rule conj_cong)
0ddb5b755cdc moved lemmas from the proof of the Central Limit Theorem by Jeremy Avigad and Luke Serafin
hoelzl
parents: 57235
diff changeset
  1394
  { assume "f \<in> borel_measurable M" then have "g \<in> borel_measurable M"
0ddb5b755cdc moved lemmas from the proof of the Central Limit Theorem by Jeremy Avigad and Luke Serafin
hoelzl
parents: 57235
diff changeset
  1395
      by (rule measurable_discrete_difference[where X=X]) (auto simp: assms) }
0ddb5b755cdc moved lemmas from the proof of the Central Limit Theorem by Jeremy Avigad and Luke Serafin
hoelzl
parents: 57235
diff changeset
  1396
  moreover
0ddb5b755cdc moved lemmas from the proof of the Central Limit Theorem by Jeremy Avigad and Luke Serafin
hoelzl
parents: 57235
diff changeset
  1397
  { assume "g \<in> borel_measurable M" then have "f \<in> borel_measurable M"
0ddb5b755cdc moved lemmas from the proof of the Central Limit Theorem by Jeremy Avigad and Luke Serafin
hoelzl
parents: 57235
diff changeset
  1398
      by (rule measurable_discrete_difference[where X=X]) (auto simp: assms) }
0ddb5b755cdc moved lemmas from the proof of the Central Limit Theorem by Jeremy Avigad and Luke Serafin
hoelzl
parents: 57235
diff changeset
  1399
  ultimately show "f \<in> borel_measurable M \<longleftrightarrow> g \<in> borel_measurable M" ..
0ddb5b755cdc moved lemmas from the proof of the Central Limit Theorem by Jeremy Avigad and Luke Serafin
hoelzl
parents: 57235
diff changeset
  1400
next
0ddb5b755cdc moved lemmas from the proof of the Central Limit Theorem by Jeremy Avigad and Luke Serafin
hoelzl
parents: 57235
diff changeset
  1401
  have "AE x in M. x \<notin> X"
0ddb5b755cdc moved lemmas from the proof of the Central Limit Theorem by Jeremy Avigad and Luke Serafin
hoelzl
parents: 57235
diff changeset
  1402
    by (rule AE_discrete_difference) fact+
0ddb5b755cdc moved lemmas from the proof of the Central Limit Theorem by Jeremy Avigad and Luke Serafin
hoelzl
parents: 57235
diff changeset
  1403
  then have "(\<integral>\<^sup>+ x. norm (f x) \<partial>M) = (\<integral>\<^sup>+ x. norm (g x) \<partial>M)"
0ddb5b755cdc moved lemmas from the proof of the Central Limit Theorem by Jeremy Avigad and Luke Serafin
hoelzl
parents: 57235
diff changeset
  1404
    by (intro nn_integral_cong_AE) (auto simp: eq)
0ddb5b755cdc moved lemmas from the proof of the Central Limit Theorem by Jeremy Avigad and Luke Serafin
hoelzl
parents: 57235
diff changeset
  1405
  then show "(\<integral>\<^sup>+ x. norm (f x) \<partial>M) < \<infinity> \<longleftrightarrow> (\<integral>\<^sup>+ x. norm (g x) \<partial>M) < \<infinity>"
0ddb5b755cdc moved lemmas from the proof of the Central Limit Theorem by Jeremy Avigad and Luke Serafin
hoelzl
parents: 57235
diff changeset
  1406
    by simp
0ddb5b755cdc moved lemmas from the proof of the Central Limit Theorem by Jeremy Avigad and Luke Serafin
hoelzl
parents: 57235
diff changeset
  1407
qed
0ddb5b755cdc moved lemmas from the proof of the Central Limit Theorem by Jeremy Avigad and Luke Serafin
hoelzl
parents: 57235
diff changeset
  1408
0ddb5b755cdc moved lemmas from the proof of the Central Limit Theorem by Jeremy Avigad and Luke Serafin
hoelzl
parents: 57235
diff changeset
  1409
lemma integral_discrete_difference:
0ddb5b755cdc moved lemmas from the proof of the Central Limit Theorem by Jeremy Avigad and Luke Serafin
hoelzl
parents: 57235
diff changeset
  1410
  fixes f :: "'a \<Rightarrow> 'b::{banach, second_countable_topology}"
0ddb5b755cdc moved lemmas from the proof of the Central Limit Theorem by Jeremy Avigad and Luke Serafin
hoelzl
parents: 57235
diff changeset
  1411
  assumes X: "countable X"
0ddb5b755cdc moved lemmas from the proof of the Central Limit Theorem by Jeremy Avigad and Luke Serafin
hoelzl
parents: 57235
diff changeset
  1412
  assumes null: "\<And>x. x \<in> X \<Longrightarrow> emeasure M {x} = 0" 
0ddb5b755cdc moved lemmas from the proof of the Central Limit Theorem by Jeremy Avigad and Luke Serafin
hoelzl
parents: 57235
diff changeset
  1413
  assumes sets: "\<And>x. x \<in> X \<Longrightarrow> {x} \<in> sets M"
0ddb5b755cdc moved lemmas from the proof of the Central Limit Theorem by Jeremy Avigad and Luke Serafin
hoelzl
parents: 57235
diff changeset
  1414
  assumes eq: "\<And>x. x \<in> space M \<Longrightarrow> x \<notin> X \<Longrightarrow> f x = g x"
0ddb5b755cdc moved lemmas from the proof of the Central Limit Theorem by Jeremy Avigad and Luke Serafin
hoelzl
parents: 57235
diff changeset
  1415
  shows "integral\<^sup>L M f = integral\<^sup>L M g"
0ddb5b755cdc moved lemmas from the proof of the Central Limit Theorem by Jeremy Avigad and Luke Serafin
hoelzl
parents: 57235
diff changeset
  1416
proof (rule integral_eq_cases)
0ddb5b755cdc moved lemmas from the proof of the Central Limit Theorem by Jeremy Avigad and Luke Serafin
hoelzl
parents: 57235
diff changeset
  1417
  show eq: "integrable M f \<longleftrightarrow> integrable M g"
0ddb5b755cdc moved lemmas from the proof of the Central Limit Theorem by Jeremy Avigad and Luke Serafin
hoelzl
parents: 57235
diff changeset
  1418
    by (rule integrable_discrete_difference[where X=X]) fact+
0ddb5b755cdc moved lemmas from the proof of the Central Limit Theorem by Jeremy Avigad and Luke Serafin
hoelzl
parents: 57235
diff changeset
  1419
0ddb5b755cdc moved lemmas from the proof of the Central Limit Theorem by Jeremy Avigad and Luke Serafin
hoelzl
parents: 57235
diff changeset
  1420
  assume f: "integrable M f"
0ddb5b755cdc moved lemmas from the proof of the Central Limit Theorem by Jeremy Avigad and Luke Serafin
hoelzl
parents: 57235
diff changeset
  1421
  show "integral\<^sup>L M f = integral\<^sup>L M g"
0ddb5b755cdc moved lemmas from the proof of the Central Limit Theorem by Jeremy Avigad and Luke Serafin
hoelzl
parents: 57235
diff changeset
  1422
  proof (rule integral_cong_AE)
0ddb5b755cdc moved lemmas from the proof of the Central Limit Theorem by Jeremy Avigad and Luke Serafin
hoelzl
parents: 57235
diff changeset
  1423
    show "f \<in> borel_measurable M" "g \<in> borel_measurable M"
0ddb5b755cdc moved lemmas from the proof of the Central Limit Theorem by Jeremy Avigad and Luke Serafin
hoelzl
parents: 57235
diff changeset
  1424
      using f eq by (auto intro: borel_measurable_integrable)
0ddb5b755cdc moved lemmas from the proof of the Central Limit Theorem by Jeremy Avigad and Luke Serafin
hoelzl
parents: 57235
diff changeset
  1425
0ddb5b755cdc moved lemmas from the proof of the Central Limit Theorem by Jeremy Avigad and Luke Serafin
hoelzl
parents: 57235
diff changeset
  1426
    have "AE x in M. x \<notin> X"
0ddb5b755cdc moved lemmas from the proof of the Central Limit Theorem by Jeremy Avigad and Luke Serafin
hoelzl
parents: 57235
diff changeset
  1427
      by (rule AE_discrete_difference) fact+
0ddb5b755cdc moved lemmas from the proof of the Central Limit Theorem by Jeremy Avigad and Luke Serafin
hoelzl
parents: 57235
diff changeset
  1428
    with AE_space show "AE x in M. f x = g x"
0ddb5b755cdc moved lemmas from the proof of the Central Limit Theorem by Jeremy Avigad and Luke Serafin
hoelzl
parents: 57235
diff changeset
  1429
      by eventually_elim fact
0ddb5b755cdc moved lemmas from the proof of the Central Limit Theorem by Jeremy Avigad and Luke Serafin
hoelzl
parents: 57235
diff changeset
  1430
  qed
0ddb5b755cdc moved lemmas from the proof of the Central Limit Theorem by Jeremy Avigad and Luke Serafin
hoelzl
parents: 57235
diff changeset
  1431
qed
0ddb5b755cdc moved lemmas from the proof of the Central Limit Theorem by Jeremy Avigad and Luke Serafin
hoelzl
parents: 57235
diff changeset
  1432
0ddb5b755cdc moved lemmas from the proof of the Central Limit Theorem by Jeremy Avigad and Luke Serafin
hoelzl
parents: 57235
diff changeset
  1433
lemma has_bochner_integral_discrete_difference:
0ddb5b755cdc moved lemmas from the proof of the Central Limit Theorem by Jeremy Avigad and Luke Serafin
hoelzl
parents: 57235
diff changeset
  1434
  fixes f :: "'a \<Rightarrow> 'b::{banach, second_countable_topology}"
0ddb5b755cdc moved lemmas from the proof of the Central Limit Theorem by Jeremy Avigad and Luke Serafin
hoelzl
parents: 57235
diff changeset
  1435
  assumes X: "countable X"
0ddb5b755cdc moved lemmas from the proof of the Central Limit Theorem by Jeremy Avigad and Luke Serafin
hoelzl
parents: 57235
diff changeset
  1436
  assumes null: "\<And>x. x \<in> X \<Longrightarrow> emeasure M {x} = 0" 
0ddb5b755cdc moved lemmas from the proof of the Central Limit Theorem by Jeremy Avigad and Luke Serafin
hoelzl
parents: 57235
diff changeset
  1437
  assumes sets: "\<And>x. x \<in> X \<Longrightarrow> {x} \<in> sets M"
0ddb5b755cdc moved lemmas from the proof of the Central Limit Theorem by Jeremy Avigad and Luke Serafin
hoelzl
parents: 57235
diff changeset
  1438
  assumes eq: "\<And>x. x \<in> space M \<Longrightarrow> x \<notin> X \<Longrightarrow> f x = g x"
0ddb5b755cdc moved lemmas from the proof of the Central Limit Theorem by Jeremy Avigad and Luke Serafin
hoelzl
parents: 57235
diff changeset
  1439
  shows "has_bochner_integral M f x \<longleftrightarrow> has_bochner_integral M g x"
0ddb5b755cdc moved lemmas from the proof of the Central Limit Theorem by Jeremy Avigad and Luke Serafin
hoelzl
parents: 57235
diff changeset
  1440
  using integrable_discrete_difference[of X M f g, OF assms]
0ddb5b755cdc moved lemmas from the proof of the Central Limit Theorem by Jeremy Avigad and Luke Serafin
hoelzl
parents: 57235
diff changeset
  1441
  using integral_discrete_difference[of X M f g, OF assms]
0ddb5b755cdc moved lemmas from the proof of the Central Limit Theorem by Jeremy Avigad and Luke Serafin
hoelzl
parents: 57235
diff changeset
  1442
  by (metis has_bochner_integral_iff)
0ddb5b755cdc moved lemmas from the proof of the Central Limit Theorem by Jeremy Avigad and Luke Serafin
hoelzl
parents: 57235
diff changeset
  1443
57137
f174712d0a84 better support for restrict_space
hoelzl
parents: 57036
diff changeset
  1444
lemma
56993
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1445
  fixes f :: "'a \<Rightarrow> 'b::{banach, second_countable_topology}" and w :: "'a \<Rightarrow> real"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1446
  assumes "f \<in> borel_measurable M" "\<And>i. s i \<in> borel_measurable M" "integrable M w"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1447
  assumes lim: "AE x in M. (\<lambda>i. s i x) ----> f x"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1448
  assumes bound: "\<And>i. AE x in M. norm (s i x) \<le> w x"
57137
f174712d0a84 better support for restrict_space
hoelzl
parents: 57036
diff changeset
  1449
  shows integrable_dominated_convergence: "integrable M f"
f174712d0a84 better support for restrict_space
hoelzl
parents: 57036
diff changeset
  1450
    and integrable_dominated_convergence2: "\<And>i. integrable M (s i)"
f174712d0a84 better support for restrict_space
hoelzl
parents: 57036
diff changeset
  1451
    and integral_dominated_convergence: "(\<lambda>i. integral\<^sup>L M (s i)) ----> integral\<^sup>L M f"
56993
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1452
proof -
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1453
  have "AE x in M. 0 \<le> w x"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1454
    using bound[of 0] by eventually_elim (auto intro: norm_ge_zero order_trans)
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1455
  then have "(\<integral>\<^sup>+x. w x \<partial>M) = (\<integral>\<^sup>+x. norm (w x) \<partial>M)"
56996
891e992e510f renamed positive_integral to nn_integral
hoelzl
parents: 56994
diff changeset
  1456
    by (intro nn_integral_cong_AE) auto
56993
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1457
  with `integrable M w` have w: "w \<in> borel_measurable M" "(\<integral>\<^sup>+x. w x \<partial>M) < \<infinity>"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1458
    unfolding integrable_iff_bounded by auto
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1459
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1460
  show int_s: "\<And>i. integrable M (s i)"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1461
    unfolding integrable_iff_bounded
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1462
  proof
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1463
    fix i 
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1464
    have "(\<integral>\<^sup>+ x. ereal (norm (s i x)) \<partial>M) \<le> (\<integral>\<^sup>+x. w x \<partial>M)"
56996
891e992e510f renamed positive_integral to nn_integral
hoelzl
parents: 56994
diff changeset
  1465
      using bound by (intro nn_integral_mono_AE) auto
56993
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1466
    with w show "(\<integral>\<^sup>+ x. ereal (norm (s i x)) \<partial>M) < \<infinity>" by auto
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1467
  qed fact
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1468
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1469
  have all_bound: "AE x in M. \<forall>i. norm (s i x) \<le> w x"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1470
    using bound unfolding AE_all_countable by auto
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1471
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1472
  show int_f: "integrable M f"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1473
    unfolding integrable_iff_bounded
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1474
  proof
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1475
    have "(\<integral>\<^sup>+ x. ereal (norm (f x)) \<partial>M) \<le> (\<integral>\<^sup>+x. w x \<partial>M)"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1476
      using all_bound lim
56996
891e992e510f renamed positive_integral to nn_integral
hoelzl
parents: 56994
diff changeset
  1477
    proof (intro nn_integral_mono_AE, eventually_elim)
56993
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1478
      fix x assume "\<forall>i. norm (s i x) \<le> w x" "(\<lambda>i. s i x) ----> f x"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1479
      then show "ereal (norm (f x)) \<le> ereal (w x)"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1480
        by (intro LIMSEQ_le_const2[where X="\<lambda>i. ereal (norm (s i x))"] tendsto_intros lim_ereal[THEN iffD2]) auto
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1481
    qed
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1482
    with w show "(\<integral>\<^sup>+ x. ereal (norm (f x)) \<partial>M) < \<infinity>" by auto
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1483
  qed fact
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1484
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1485
  have "(\<lambda>n. ereal (norm (integral\<^sup>L M (s n) - integral\<^sup>L M f))) ----> ereal 0" (is "?d ----> ereal 0")
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1486
  proof (rule tendsto_sandwich)
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1487
    show "eventually (\<lambda>n. ereal 0 \<le> ?d n) sequentially" "(\<lambda>_. ereal 0) ----> ereal 0" by auto
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1488
    show "eventually (\<lambda>n. ?d n \<le> (\<integral>\<^sup>+x. norm (s n x - f x) \<partial>M)) sequentially"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1489
    proof (intro always_eventually allI)
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1490
      fix n
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1491
      have "?d n = norm (integral\<^sup>L M (\<lambda>x. s n x - f x))"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1492
        using int_f int_s by simp
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1493
      also have "\<dots> \<le> (\<integral>\<^sup>+x. norm (s n x - f x) \<partial>M)"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1494
        by (intro int_f int_s integrable_diff integral_norm_bound_ereal)
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1495
      finally show "?d n \<le> (\<integral>\<^sup>+x. norm (s n x - f x) \<partial>M)" .
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1496
    qed
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1497
    show "(\<lambda>n. \<integral>\<^sup>+x. norm (s n x - f x) \<partial>M) ----> ereal 0"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1498
      unfolding zero_ereal_def[symmetric]
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1499
      apply (subst norm_minus_commute)
56996
891e992e510f renamed positive_integral to nn_integral
hoelzl
parents: 56994
diff changeset
  1500
    proof (rule nn_integral_dominated_convergence_norm[where w=w])
56993
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1501
      show "\<And>n. s n \<in> borel_measurable M"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1502
        using int_s unfolding integrable_iff_bounded by auto
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1503
    qed fact+
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1504
  qed
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1505
  then have "(\<lambda>n. integral\<^sup>L M (s n) - integral\<^sup>L M f) ----> 0"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1506
    unfolding lim_ereal tendsto_norm_zero_iff .
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1507
  from tendsto_add[OF this tendsto_const[of "integral\<^sup>L M f"]]
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1508
  show "(\<lambda>i. integral\<^sup>L M (s i)) ----> integral\<^sup>L M f"  by simp
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1509
qed
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1510
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1511
lemma integrable_mult_left_iff:
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1512
  fixes f :: "'a \<Rightarrow> real"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1513
  shows "integrable M (\<lambda>x. c * f x) \<longleftrightarrow> c = 0 \<or> integrable M f"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1514
  using integrable_mult_left[of c M f] integrable_mult_left[of "1 / c" M "\<lambda>x. c * f x"]
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1515
  by (cases "c = 0") auto
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1516
56996
891e992e510f renamed positive_integral to nn_integral
hoelzl
parents: 56994
diff changeset
  1517
lemma nn_integral_eq_integral:
56993
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1518
  assumes f: "integrable M f"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1519
  assumes nonneg: "AE x in M. 0 \<le> f x" 
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1520
  shows "(\<integral>\<^sup>+ x. f x \<partial>M) = integral\<^sup>L M f"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1521
proof -
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1522
  { fix f :: "'a \<Rightarrow> real" assume f: "f \<in> borel_measurable M" "\<And>x. 0 \<le> f x" "integrable M f"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1523
    then have "(\<integral>\<^sup>+ x. f x \<partial>M) = integral\<^sup>L M f"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1524
    proof (induct rule: borel_measurable_induct_real)
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1525
      case (set A) then show ?case
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1526
        by (simp add: integrable_indicator_iff ereal_indicator emeasure_eq_ereal_measure)
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1527
    next
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1528
      case (mult f c) then show ?case
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1529
        unfolding times_ereal.simps(1)[symmetric]
56996
891e992e510f renamed positive_integral to nn_integral
hoelzl
parents: 56994
diff changeset
  1530
        by (subst nn_integral_cmult)
56993
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1531
           (auto simp add: integrable_mult_left_iff zero_ereal_def[symmetric])
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1532
    next
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1533
      case (add g f)
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1534
      then have "integrable M f" "integrable M g"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1535
        by (auto intro!: integrable_bound[OF add(8)])
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1536
      with add show ?case
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1537
        unfolding plus_ereal.simps(1)[symmetric]
56996
891e992e510f renamed positive_integral to nn_integral
hoelzl
parents: 56994
diff changeset
  1538
        by (subst nn_integral_add) auto
56993
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1539
    next
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1540
      case (seq s)
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1541
      { fix i x assume "x \<in> space M" with seq(4) have "s i x \<le> f x"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1542
          by (intro LIMSEQ_le_const[OF seq(5)] exI[of _ i]) (auto simp: incseq_def le_fun_def) }
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1543
      note s_le_f = this
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1544
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1545
      show ?case
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1546
      proof (rule LIMSEQ_unique)
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1547
        show "(\<lambda>i. ereal (integral\<^sup>L M (s i))) ----> ereal (integral\<^sup>L M f)"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1548
          unfolding lim_ereal
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1549
        proof (rule integral_dominated_convergence[where w=f])
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1550
          show "integrable M f" by fact
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1551
          from s_le_f seq show "\<And>i. AE x in M. norm (s i x) \<le> f x"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1552
            by auto
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1553
        qed (insert seq, auto)
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1554
        have int_s: "\<And>i. integrable M (s i)"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1555
          using seq f s_le_f by (intro integrable_bound[OF f(3)]) auto
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1556
        have "(\<lambda>i. \<integral>\<^sup>+ x. s i x \<partial>M) ----> \<integral>\<^sup>+ x. f x \<partial>M"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1557
          using seq s_le_f f
56996
891e992e510f renamed positive_integral to nn_integral
hoelzl
parents: 56994
diff changeset
  1558
          by (intro nn_integral_dominated_convergence[where w=f])
56993
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1559
             (auto simp: integrable_iff_bounded)
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1560
        also have "(\<lambda>i. \<integral>\<^sup>+x. s i x \<partial>M) = (\<lambda>i. \<integral>x. s i x \<partial>M)"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1561
          using seq int_s by simp
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1562
        finally show "(\<lambda>i. \<integral>x. s i x \<partial>M) ----> \<integral>\<^sup>+x. f x \<partial>M"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1563
          by simp
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1564
      qed
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1565
    qed }
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1566
  from this[of "\<lambda>x. max 0 (f x)"] assms have "(\<integral>\<^sup>+ x. max 0 (f x) \<partial>M) = integral\<^sup>L M (\<lambda>x. max 0 (f x))"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1567
    by simp
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1568
  also have "\<dots> = integral\<^sup>L M f"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1569
    using assms by (auto intro!: integral_cong_AE)
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1570
  also have "(\<integral>\<^sup>+ x. max 0 (f x) \<partial>M) = (\<integral>\<^sup>+ x. f x \<partial>M)"
56996
891e992e510f renamed positive_integral to nn_integral
hoelzl
parents: 56994
diff changeset
  1571
    using assms by (auto intro!: nn_integral_cong_AE simp: max_def)
56993
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1572
  finally show ?thesis .
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1573
qed
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1574
57036
22568fb89165 generalized Bochner integral over infinite sums
hoelzl
parents: 57025
diff changeset
  1575
lemma
22568fb89165 generalized Bochner integral over infinite sums
hoelzl
parents: 57025
diff changeset
  1576
  fixes f :: "_ \<Rightarrow> _ \<Rightarrow> 'a :: {banach, second_countable_topology}"
22568fb89165 generalized Bochner integral over infinite sums
hoelzl
parents: 57025
diff changeset
  1577
  assumes integrable[measurable]: "\<And>i. integrable M (f i)"
22568fb89165 generalized Bochner integral over infinite sums
hoelzl
parents: 57025
diff changeset
  1578
  and summable: "AE x in M. summable (\<lambda>i. norm (f i x))"
22568fb89165 generalized Bochner integral over infinite sums
hoelzl
parents: 57025
diff changeset
  1579
  and sums: "summable (\<lambda>i. (\<integral>x. norm (f i x) \<partial>M))"
22568fb89165 generalized Bochner integral over infinite sums
hoelzl
parents: 57025
diff changeset
  1580
  shows integrable_suminf: "integrable M (\<lambda>x. (\<Sum>i. f i x))" (is "integrable M ?S")
22568fb89165 generalized Bochner integral over infinite sums
hoelzl
parents: 57025
diff changeset
  1581
    and sums_integral: "(\<lambda>i. integral\<^sup>L M (f i)) sums (\<integral>x. (\<Sum>i. f i x) \<partial>M)" (is "?f sums ?x")
22568fb89165 generalized Bochner integral over infinite sums
hoelzl
parents: 57025
diff changeset
  1582
    and integral_suminf: "(\<integral>x. (\<Sum>i. f i x) \<partial>M) = (\<Sum>i. integral\<^sup>L M (f i))"
22568fb89165 generalized Bochner integral over infinite sums
hoelzl
parents: 57025
diff changeset
  1583
    and summable_integral: "summable (\<lambda>i. integral\<^sup>L M (f i))"
22568fb89165 generalized Bochner integral over infinite sums
hoelzl
parents: 57025
diff changeset
  1584
proof -
22568fb89165 generalized Bochner integral over infinite sums
hoelzl
parents: 57025
diff changeset
  1585
  have 1: "integrable M (\<lambda>x. \<Sum>i. norm (f i x))"
22568fb89165 generalized Bochner integral over infinite sums
hoelzl
parents: 57025
diff changeset
  1586
  proof (rule integrableI_bounded)
22568fb89165 generalized Bochner integral over infinite sums
hoelzl
parents: 57025
diff changeset
  1587
    have "(\<integral>\<^sup>+ x. ereal (norm (\<Sum>i. norm (f i x))) \<partial>M) = (\<integral>\<^sup>+ x. (\<Sum>i. ereal (norm (f i x))) \<partial>M)"
22568fb89165 generalized Bochner integral over infinite sums
hoelzl
parents: 57025
diff changeset
  1588
      apply (intro nn_integral_cong_AE) 
22568fb89165 generalized Bochner integral over infinite sums
hoelzl
parents: 57025
diff changeset
  1589
      using summable
22568fb89165 generalized Bochner integral over infinite sums
hoelzl
parents: 57025
diff changeset
  1590
      apply eventually_elim
22568fb89165 generalized Bochner integral over infinite sums
hoelzl
parents: 57025
diff changeset
  1591
      apply (simp add: suminf_ereal' suminf_nonneg)
22568fb89165 generalized Bochner integral over infinite sums
hoelzl
parents: 57025
diff changeset
  1592
      done
22568fb89165 generalized Bochner integral over infinite sums
hoelzl
parents: 57025
diff changeset
  1593
    also have "\<dots> = (\<Sum>i. \<integral>\<^sup>+ x. norm (f i x) \<partial>M)"
22568fb89165 generalized Bochner integral over infinite sums
hoelzl
parents: 57025
diff changeset
  1594
      by (intro nn_integral_suminf) auto
22568fb89165 generalized Bochner integral over infinite sums
hoelzl
parents: 57025
diff changeset
  1595
    also have "\<dots> = (\<Sum>i. ereal (\<integral>x. norm (f i x) \<partial>M))"
22568fb89165 generalized Bochner integral over infinite sums
hoelzl
parents: 57025
diff changeset
  1596
      by (intro arg_cong[where f=suminf] ext nn_integral_eq_integral integrable_norm integrable) auto
22568fb89165 generalized Bochner integral over infinite sums
hoelzl
parents: 57025
diff changeset
  1597
    finally show "(\<integral>\<^sup>+ x. ereal (norm (\<Sum>i. norm (f i x))) \<partial>M) < \<infinity>"
22568fb89165 generalized Bochner integral over infinite sums
hoelzl
parents: 57025
diff changeset
  1598
      by (simp add: suminf_ereal' sums)
22568fb89165 generalized Bochner integral over infinite sums
hoelzl
parents: 57025
diff changeset
  1599
  qed simp
22568fb89165 generalized Bochner integral over infinite sums
hoelzl
parents: 57025
diff changeset
  1600
22568fb89165 generalized Bochner integral over infinite sums
hoelzl
parents: 57025
diff changeset
  1601
  have 2: "AE x in M. (\<lambda>n. \<Sum>i<n. f i x) ----> (\<Sum>i. f i x)"
22568fb89165 generalized Bochner integral over infinite sums
hoelzl
parents: 57025
diff changeset
  1602
    using summable by eventually_elim (auto intro: summable_LIMSEQ summable_norm_cancel)
22568fb89165 generalized Bochner integral over infinite sums
hoelzl
parents: 57025
diff changeset
  1603
22568fb89165 generalized Bochner integral over infinite sums
hoelzl
parents: 57025
diff changeset
  1604
  have 3: "\<And>j. AE x in M. norm (\<Sum>i<j. f i x) \<le> (\<Sum>i. norm (f i x))"
22568fb89165 generalized Bochner integral over infinite sums
hoelzl
parents: 57025
diff changeset
  1605
    using summable
22568fb89165 generalized Bochner integral over infinite sums
hoelzl
parents: 57025
diff changeset
  1606
  proof eventually_elim
22568fb89165 generalized Bochner integral over infinite sums
hoelzl
parents: 57025
diff changeset
  1607
    fix j x assume [simp]: "summable (\<lambda>i. norm (f i x))"
22568fb89165 generalized Bochner integral over infinite sums
hoelzl
parents: 57025
diff changeset
  1608
    have "norm (\<Sum>i<j. f i x) \<le> (\<Sum>i<j. norm (f i x))" by (rule norm_setsum)
22568fb89165 generalized Bochner integral over infinite sums
hoelzl
parents: 57025
diff changeset
  1609
    also have "\<dots> \<le> (\<Sum>i. norm (f i x))"
22568fb89165 generalized Bochner integral over infinite sums
hoelzl
parents: 57025
diff changeset
  1610
      using setsum_le_suminf[of "\<lambda>i. norm (f i x)"] unfolding sums_iff by auto
22568fb89165 generalized Bochner integral over infinite sums
hoelzl
parents: 57025
diff changeset
  1611
    finally show "norm (\<Sum>i<j. f i x) \<le> (\<Sum>i. norm (f i x))" by simp
22568fb89165 generalized Bochner integral over infinite sums
hoelzl
parents: 57025
diff changeset
  1612
  qed
22568fb89165 generalized Bochner integral over infinite sums
hoelzl
parents: 57025
diff changeset
  1613
57137
f174712d0a84 better support for restrict_space
hoelzl
parents: 57036
diff changeset
  1614
  note ibl = integrable_dominated_convergence[OF _ _ 1 2 3]
f174712d0a84 better support for restrict_space
hoelzl
parents: 57036
diff changeset
  1615
  note int = integral_dominated_convergence[OF _ _ 1 2 3]
57036
22568fb89165 generalized Bochner integral over infinite sums
hoelzl
parents: 57025
diff changeset
  1616
22568fb89165 generalized Bochner integral over infinite sums
hoelzl
parents: 57025
diff changeset
  1617
  show "integrable M ?S"
57137
f174712d0a84 better support for restrict_space
hoelzl
parents: 57036
diff changeset
  1618
    by (rule ibl) measurable
57036
22568fb89165 generalized Bochner integral over infinite sums
hoelzl
parents: 57025
diff changeset
  1619
22568fb89165 generalized Bochner integral over infinite sums
hoelzl
parents: 57025
diff changeset
  1620
  show "?f sums ?x" unfolding sums_def
57137
f174712d0a84 better support for restrict_space
hoelzl
parents: 57036
diff changeset
  1621
    using int by (simp add: integrable)
57036
22568fb89165 generalized Bochner integral over infinite sums
hoelzl
parents: 57025
diff changeset
  1622
  then show "?x = suminf ?f" "summable ?f"
22568fb89165 generalized Bochner integral over infinite sums
hoelzl
parents: 57025
diff changeset
  1623
    unfolding sums_iff by auto
22568fb89165 generalized Bochner integral over infinite sums
hoelzl
parents: 57025
diff changeset
  1624
qed
22568fb89165 generalized Bochner integral over infinite sums
hoelzl
parents: 57025
diff changeset
  1625
56993
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1626
lemma integral_norm_bound:
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1627
  fixes f :: "_ \<Rightarrow> 'a :: {banach, second_countable_topology}"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1628
  shows "integrable M f \<Longrightarrow> norm (integral\<^sup>L M f) \<le> (\<integral>x. norm (f x) \<partial>M)"
56996
891e992e510f renamed positive_integral to nn_integral
hoelzl
parents: 56994
diff changeset
  1629
  using nn_integral_eq_integral[of M "\<lambda>x. norm (f x)"]
56993
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1630
  using integral_norm_bound_ereal[of M f] by simp
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1631
  
57235
b0b9a10e4bf4 properties of Erlang and exponentially distributed random variables (by Sudeep Kanav)
hoelzl
parents: 57166
diff changeset
  1632
lemma integrableI_nn_integral_finite:
b0b9a10e4bf4 properties of Erlang and exponentially distributed random variables (by Sudeep Kanav)
hoelzl
parents: 57166
diff changeset
  1633
  assumes [measurable]: "f \<in> borel_measurable M"
b0b9a10e4bf4 properties of Erlang and exponentially distributed random variables (by Sudeep Kanav)
hoelzl
parents: 57166
diff changeset
  1634
    and nonneg: "AE x in M. 0 \<le> f x"
b0b9a10e4bf4 properties of Erlang and exponentially distributed random variables (by Sudeep Kanav)
hoelzl
parents: 57166
diff changeset
  1635
    and finite: "(\<integral>\<^sup>+x. f x \<partial>M) = ereal x"
b0b9a10e4bf4 properties of Erlang and exponentially distributed random variables (by Sudeep Kanav)
hoelzl
parents: 57166
diff changeset
  1636
  shows "integrable M f"
b0b9a10e4bf4 properties of Erlang and exponentially distributed random variables (by Sudeep Kanav)
hoelzl
parents: 57166
diff changeset
  1637
proof (rule integrableI_bounded)
b0b9a10e4bf4 properties of Erlang and exponentially distributed random variables (by Sudeep Kanav)
hoelzl
parents: 57166
diff changeset
  1638
  have "(\<integral>\<^sup>+ x. ereal (norm (f x)) \<partial>M) = (\<integral>\<^sup>+ x. ereal (f x) \<partial>M)"
b0b9a10e4bf4 properties of Erlang and exponentially distributed random variables (by Sudeep Kanav)
hoelzl
parents: 57166
diff changeset
  1639
    using nonneg by (intro nn_integral_cong_AE) auto
b0b9a10e4bf4 properties of Erlang and exponentially distributed random variables (by Sudeep Kanav)
hoelzl
parents: 57166
diff changeset
  1640
  with finite show "(\<integral>\<^sup>+ x. ereal (norm (f x)) \<partial>M) < \<infinity>"
b0b9a10e4bf4 properties of Erlang and exponentially distributed random variables (by Sudeep Kanav)
hoelzl
parents: 57166
diff changeset
  1641
    by auto
b0b9a10e4bf4 properties of Erlang and exponentially distributed random variables (by Sudeep Kanav)
hoelzl
parents: 57166
diff changeset
  1642
qed simp
b0b9a10e4bf4 properties of Erlang and exponentially distributed random variables (by Sudeep Kanav)
hoelzl
parents: 57166
diff changeset
  1643
56996
891e992e510f renamed positive_integral to nn_integral
hoelzl
parents: 56994
diff changeset
  1644
lemma integral_eq_nn_integral:
57235
b0b9a10e4bf4 properties of Erlang and exponentially distributed random variables (by Sudeep Kanav)
hoelzl
parents: 57166
diff changeset
  1645
  assumes [measurable]: "f \<in> borel_measurable M"
b0b9a10e4bf4 properties of Erlang and exponentially distributed random variables (by Sudeep Kanav)
hoelzl
parents: 57166
diff changeset
  1646
  assumes nonneg: "AE x in M. 0 \<le> f x"
b0b9a10e4bf4 properties of Erlang and exponentially distributed random variables (by Sudeep Kanav)
hoelzl
parents: 57166
diff changeset
  1647
  shows "integral\<^sup>L M f = real (\<integral>\<^sup>+ x. ereal (f x) \<partial>M)"
b0b9a10e4bf4 properties of Erlang and exponentially distributed random variables (by Sudeep Kanav)
hoelzl
parents: 57166
diff changeset
  1648
proof cases
b0b9a10e4bf4 properties of Erlang and exponentially distributed random variables (by Sudeep Kanav)
hoelzl
parents: 57166
diff changeset
  1649
  assume *: "(\<integral>\<^sup>+ x. ereal (f x) \<partial>M) = \<infinity>"
b0b9a10e4bf4 properties of Erlang and exponentially distributed random variables (by Sudeep Kanav)
hoelzl
parents: 57166
diff changeset
  1650
  also have "(\<integral>\<^sup>+ x. ereal (f x) \<partial>M) = (\<integral>\<^sup>+ x. ereal (norm (f x)) \<partial>M)"
b0b9a10e4bf4 properties of Erlang and exponentially distributed random variables (by Sudeep Kanav)
hoelzl
parents: 57166
diff changeset
  1651
    using nonneg by (intro nn_integral_cong_AE) auto
b0b9a10e4bf4 properties of Erlang and exponentially distributed random variables (by Sudeep Kanav)
hoelzl
parents: 57166
diff changeset
  1652
  finally have "\<not> integrable M f"
b0b9a10e4bf4 properties of Erlang and exponentially distributed random variables (by Sudeep Kanav)
hoelzl
parents: 57166
diff changeset
  1653
    by (auto simp: integrable_iff_bounded)
b0b9a10e4bf4 properties of Erlang and exponentially distributed random variables (by Sudeep Kanav)
hoelzl
parents: 57166
diff changeset
  1654
  then show ?thesis
b0b9a10e4bf4 properties of Erlang and exponentially distributed random variables (by Sudeep Kanav)
hoelzl
parents: 57166
diff changeset
  1655
    by (simp add: * not_integrable_integral_eq)
b0b9a10e4bf4 properties of Erlang and exponentially distributed random variables (by Sudeep Kanav)
hoelzl
parents: 57166
diff changeset
  1656
next
b0b9a10e4bf4 properties of Erlang and exponentially distributed random variables (by Sudeep Kanav)
hoelzl
parents: 57166
diff changeset
  1657
  assume "(\<integral>\<^sup>+ x. ereal (f x) \<partial>M) \<noteq> \<infinity>"
b0b9a10e4bf4 properties of Erlang and exponentially distributed random variables (by Sudeep Kanav)
hoelzl
parents: 57166
diff changeset
  1658
  then have "integrable M f"
b0b9a10e4bf4 properties of Erlang and exponentially distributed random variables (by Sudeep Kanav)
hoelzl
parents: 57166
diff changeset
  1659
    by (cases "\<integral>\<^sup>+ x. ereal (f x) \<partial>M") (auto intro!: integrableI_nn_integral_finite assms)
b0b9a10e4bf4 properties of Erlang and exponentially distributed random variables (by Sudeep Kanav)
hoelzl
parents: 57166
diff changeset
  1660
  from nn_integral_eq_integral[OF this nonneg] show ?thesis
b0b9a10e4bf4 properties of Erlang and exponentially distributed random variables (by Sudeep Kanav)
hoelzl
parents: 57166
diff changeset
  1661
    by simp
b0b9a10e4bf4 properties of Erlang and exponentially distributed random variables (by Sudeep Kanav)
hoelzl
parents: 57166
diff changeset
  1662
qed
56993
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1663
  
57447
87429bdecad5 import more stuff from the CLT proof; base the lborel measure on interval_measure; remove lebesgue measure
hoelzl
parents: 57418
diff changeset
  1664
lemma has_bochner_integral_nn_integral:
87429bdecad5 import more stuff from the CLT proof; base the lborel measure on interval_measure; remove lebesgue measure
hoelzl
parents: 57418
diff changeset
  1665
  assumes "f \<in> borel_measurable M" "AE x in M. 0 \<le> f x"
87429bdecad5 import more stuff from the CLT proof; base the lborel measure on interval_measure; remove lebesgue measure
hoelzl
parents: 57418
diff changeset
  1666
  assumes "(\<integral>\<^sup>+x. f x \<partial>M) = ereal x"
87429bdecad5 import more stuff from the CLT proof; base the lborel measure on interval_measure; remove lebesgue measure
hoelzl
parents: 57418
diff changeset
  1667
  shows "has_bochner_integral M f x"
87429bdecad5 import more stuff from the CLT proof; base the lborel measure on interval_measure; remove lebesgue measure
hoelzl
parents: 57418
diff changeset
  1668
  unfolding has_bochner_integral_iff
87429bdecad5 import more stuff from the CLT proof; base the lborel measure on interval_measure; remove lebesgue measure
hoelzl
parents: 57418
diff changeset
  1669
  using assms by (auto simp: assms integral_eq_nn_integral intro: integrableI_nn_integral_finite)
87429bdecad5 import more stuff from the CLT proof; base the lborel measure on interval_measure; remove lebesgue measure
hoelzl
parents: 57418
diff changeset
  1670
56993
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1671
lemma integrableI_simple_bochner_integrable:
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1672
  fixes f :: "'a \<Rightarrow> 'b::{banach, second_countable_topology}"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1673
  shows "simple_bochner_integrable M f \<Longrightarrow> integrable M f"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1674
  by (intro integrableI_sequence[where s="\<lambda>_. f"] borel_measurable_simple_function)
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1675
     (auto simp: zero_ereal_def[symmetric] simple_bochner_integrable.simps)
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1676
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1677
lemma integrable_induct[consumes 1, case_names base add lim, induct pred: integrable]:
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1678
  fixes f :: "'a \<Rightarrow> 'b::{banach, second_countable_topology}"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1679
  assumes "integrable M f"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1680
  assumes base: "\<And>A c. A \<in> sets M \<Longrightarrow> emeasure M A < \<infinity> \<Longrightarrow> P (\<lambda>x. indicator A x *\<^sub>R c)"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1681
  assumes add: "\<And>f g. integrable M f \<Longrightarrow> P f \<Longrightarrow> integrable M g \<Longrightarrow> P g \<Longrightarrow> P (\<lambda>x. f x + g x)"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1682
  assumes lim: "\<And>f s. (\<And>i. integrable M (s i)) \<Longrightarrow> (\<And>i. P (s i)) \<Longrightarrow>
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1683
   (\<And>x. x \<in> space M \<Longrightarrow> (\<lambda>i. s i x) ----> f x) \<Longrightarrow>
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1684
   (\<And>i x. x \<in> space M \<Longrightarrow> norm (s i x) \<le> 2 * norm (f x)) \<Longrightarrow> integrable M f \<Longrightarrow> P f"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1685
  shows "P f"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1686
proof -
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1687
  from `integrable M f` have f: "f \<in> borel_measurable M" "(\<integral>\<^sup>+x. norm (f x) \<partial>M) < \<infinity>"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1688
    unfolding integrable_iff_bounded by auto
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1689
  from borel_measurable_implies_sequence_metric[OF f(1)]
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1690
  obtain s where s: "\<And>i. simple_function M (s i)" "\<And>x. x \<in> space M \<Longrightarrow> (\<lambda>i. s i x) ----> f x"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1691
    "\<And>i x. x \<in> space M \<Longrightarrow> norm (s i x) \<le> 2 * norm (f x)"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1692
    unfolding norm_conv_dist by metis
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1693
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1694
  { fix f A 
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1695
    have [simp]: "P (\<lambda>x. 0)"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1696
      using base[of "{}" undefined] by simp
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1697
    have "(\<And>i::'b. i \<in> A \<Longrightarrow> integrable M (f i::'a \<Rightarrow> 'b)) \<Longrightarrow>
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1698
    (\<And>i. i \<in> A \<Longrightarrow> P (f i)) \<Longrightarrow> P (\<lambda>x. \<Sum>i\<in>A. f i x)"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1699
    by (induct A rule: infinite_finite_induct) (auto intro!: add) }
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1700
  note setsum = this
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1701
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1702
  def s' \<equiv> "\<lambda>i z. indicator (space M) z *\<^sub>R s i z"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1703
  then have s'_eq_s: "\<And>i x. x \<in> space M \<Longrightarrow> s' i x = s i x"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1704
    by simp
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1705
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1706
  have sf[measurable]: "\<And>i. simple_function M (s' i)"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1707
    unfolding s'_def using s(1)
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1708
    by (intro simple_function_compose2[where h="op *\<^sub>R"] simple_function_indicator) auto
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1709
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1710
  { fix i 
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1711
    have "\<And>z. {y. s' i z = y \<and> y \<in> s' i ` space M \<and> y \<noteq> 0 \<and> z \<in> space M} =
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1712
        (if z \<in> space M \<and> s' i z \<noteq> 0 then {s' i z} else {})"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1713
      by (auto simp add: s'_def split: split_indicator)
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1714
    then have "\<And>z. s' i = (\<lambda>z. \<Sum>y\<in>s' i`space M - {0}. indicator {x\<in>space M. s' i x = y} z *\<^sub>R y)"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1715
      using sf by (auto simp: fun_eq_iff simple_function_def s'_def) }
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1716
  note s'_eq = this
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1717
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1718
  show "P f"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1719
  proof (rule lim)
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1720
    fix i
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1721
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1722
    have "(\<integral>\<^sup>+x. norm (s' i x) \<partial>M) \<le> (\<integral>\<^sup>+x. 2 * ereal (norm (f x)) \<partial>M)"
56996
891e992e510f renamed positive_integral to nn_integral
hoelzl
parents: 56994
diff changeset
  1723
      using s by (intro nn_integral_mono) (auto simp: s'_eq_s)
56993
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1724
    also have "\<dots> < \<infinity>"
56996
891e992e510f renamed positive_integral to nn_integral
hoelzl
parents: 56994
diff changeset
  1725
      using f by (subst nn_integral_cmult) auto
56993
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1726
    finally have sbi: "simple_bochner_integrable M (s' i)"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1727
      using sf by (intro simple_bochner_integrableI_bounded) auto
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1728
    then show "integrable M (s' i)"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1729
      by (rule integrableI_simple_bochner_integrable)
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1730
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1731
    { fix x assume"x \<in> space M" "s' i x \<noteq> 0"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1732
      then have "emeasure M {y \<in> space M. s' i y = s' i x} \<le> emeasure M {y \<in> space M. s' i y \<noteq> 0}"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1733
        by (intro emeasure_mono) auto
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1734
      also have "\<dots> < \<infinity>"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1735
        using sbi by (auto elim: simple_bochner_integrable.cases)
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1736
      finally have "emeasure M {y \<in> space M. s' i y = s' i x} \<noteq> \<infinity>" by simp }
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1737
    then show "P (s' i)"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1738
      by (subst s'_eq) (auto intro!: setsum base)
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1739
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1740
    fix x assume "x \<in> space M" with s show "(\<lambda>i. s' i x) ----> f x"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1741
      by (simp add: s'_eq_s)
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1742
    show "norm (s' i x) \<le> 2 * norm (f x)"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1743
      using `x \<in> space M` s by (simp add: s'_eq_s)
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1744
  qed fact
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1745
qed
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1746
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1747
lemma integral_nonneg_AE:
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1748
  fixes f :: "'a \<Rightarrow> real"
57166
5cfcc616d485 use 0 as integral-value for non-integrable functions, simplify a couple of rewrite rules
hoelzl
parents: 57137
diff changeset
  1749
  assumes [measurable]: "AE x in M. 0 \<le> f x"
56993
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1750
  shows "0 \<le> integral\<^sup>L M f"
57166
5cfcc616d485 use 0 as integral-value for non-integrable functions, simplify a couple of rewrite rules
hoelzl
parents: 57137
diff changeset
  1751
proof cases
5cfcc616d485 use 0 as integral-value for non-integrable functions, simplify a couple of rewrite rules
hoelzl
parents: 57137
diff changeset
  1752
  assume [measurable]: "integrable M f"
5cfcc616d485 use 0 as integral-value for non-integrable functions, simplify a couple of rewrite rules
hoelzl
parents: 57137
diff changeset
  1753
  then have "0 \<le> ereal (integral\<^sup>L M (\<lambda>x. max 0 (f x)))"
57036
22568fb89165 generalized Bochner integral over infinite sums
hoelzl
parents: 57025
diff changeset
  1754
    by (subst integral_eq_nn_integral) (auto intro: real_of_ereal_pos nn_integral_nonneg assms)
56993
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1755
  also have "integral\<^sup>L M (\<lambda>x. max 0 (f x)) = integral\<^sup>L M f"
57166
5cfcc616d485 use 0 as integral-value for non-integrable functions, simplify a couple of rewrite rules
hoelzl
parents: 57137
diff changeset
  1756
    using assms by (intro integral_cong_AE assms integrable_max) auto
56993
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1757
  finally show ?thesis
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1758
    by simp
57166
5cfcc616d485 use 0 as integral-value for non-integrable functions, simplify a couple of rewrite rules
hoelzl
parents: 57137
diff changeset
  1759
qed (simp add: not_integrable_integral_eq)
56993
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1760
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1761
lemma integral_eq_zero_AE:
57166
5cfcc616d485 use 0 as integral-value for non-integrable functions, simplify a couple of rewrite rules
hoelzl
parents: 57137
diff changeset
  1762
  "(AE x in M. f x = 0) \<Longrightarrow> integral\<^sup>L M f = 0"
5cfcc616d485 use 0 as integral-value for non-integrable functions, simplify a couple of rewrite rules
hoelzl
parents: 57137
diff changeset
  1763
  using integral_cong_AE[of f M "\<lambda>_. 0"]
5cfcc616d485 use 0 as integral-value for non-integrable functions, simplify a couple of rewrite rules
hoelzl
parents: 57137
diff changeset
  1764
  by (cases "integrable M f") (simp_all add: not_integrable_integral_eq)
56993
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1765
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1766
lemma integral_nonneg_eq_0_iff_AE:
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1767
  fixes f :: "_ \<Rightarrow> real"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1768
  assumes f[measurable]: "integrable M f" and nonneg: "AE x in M. 0 \<le> f x"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1769
  shows "integral\<^sup>L M f = 0 \<longleftrightarrow> (AE x in M. f x = 0)"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1770
proof
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1771
  assume "integral\<^sup>L M f = 0"
56996
891e992e510f renamed positive_integral to nn_integral
hoelzl
parents: 56994
diff changeset
  1772
  then have "integral\<^sup>N M f = 0"
891e992e510f renamed positive_integral to nn_integral
hoelzl
parents: 56994
diff changeset
  1773
    using nn_integral_eq_integral[OF f nonneg] by simp
56993
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1774
  then have "AE x in M. ereal (f x) \<le> 0"
56996
891e992e510f renamed positive_integral to nn_integral
hoelzl
parents: 56994
diff changeset
  1775
    by (simp add: nn_integral_0_iff_AE)
56993
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1776
  with nonneg show "AE x in M. f x = 0"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1777
    by auto
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1778
qed (auto simp add: integral_eq_zero_AE)
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1779
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1780
lemma integral_mono_AE:
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1781
  fixes f :: "'a \<Rightarrow> real"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1782
  assumes "integrable M f" "integrable M g" "AE x in M. f x \<le> g x"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1783
  shows "integral\<^sup>L M f \<le> integral\<^sup>L M g"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1784
proof -
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1785
  have "0 \<le> integral\<^sup>L M (\<lambda>x. g x - f x)"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1786
    using assms by (intro integral_nonneg_AE integrable_diff assms) auto
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1787
  also have "\<dots> = integral\<^sup>L M g - integral\<^sup>L M f"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1788
    by (intro integral_diff assms)
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1789
  finally show ?thesis by simp
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1790
qed
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1791
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1792
lemma integral_mono:
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1793
  fixes f :: "'a \<Rightarrow> real"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1794
  shows "integrable M f \<Longrightarrow> integrable M g \<Longrightarrow> (\<And>x. x \<in> space M \<Longrightarrow> f x \<le> g x) \<Longrightarrow> 
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1795
    integral\<^sup>L M f \<le> integral\<^sup>L M g"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1796
  by (intro integral_mono_AE) auto
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1797
57025
e7fd64f82876 add various lemmas
hoelzl
parents: 56996
diff changeset
  1798
lemma (in finite_measure) integrable_measure: 
e7fd64f82876 add various lemmas
hoelzl
parents: 56996
diff changeset
  1799
  assumes I: "disjoint_family_on X I" "countable I"
e7fd64f82876 add various lemmas
hoelzl
parents: 56996
diff changeset
  1800
  shows "integrable (count_space I) (\<lambda>i. measure M (X i))"
e7fd64f82876 add various lemmas
hoelzl
parents: 56996
diff changeset
  1801
proof -
e7fd64f82876 add various lemmas
hoelzl
parents: 56996
diff changeset
  1802
  have "(\<integral>\<^sup>+i. measure M (X i) \<partial>count_space I) = (\<integral>\<^sup>+i. measure M (if X i \<in> sets M then X i else {}) \<partial>count_space I)"
e7fd64f82876 add various lemmas
hoelzl
parents: 56996
diff changeset
  1803
    by (auto intro!: nn_integral_cong measure_notin_sets)
e7fd64f82876 add various lemmas
hoelzl
parents: 56996
diff changeset
  1804
  also have "\<dots> = measure M (\<Union>i\<in>I. if X i \<in> sets M then X i else {})"
e7fd64f82876 add various lemmas
hoelzl
parents: 56996
diff changeset
  1805
    using I unfolding emeasure_eq_measure[symmetric]
e7fd64f82876 add various lemmas
hoelzl
parents: 56996
diff changeset
  1806
    by (subst emeasure_UN_countable) (auto simp: disjoint_family_on_def)
e7fd64f82876 add various lemmas
hoelzl
parents: 56996
diff changeset
  1807
  finally show ?thesis
e7fd64f82876 add various lemmas
hoelzl
parents: 56996
diff changeset
  1808
    by (auto intro!: integrableI_bounded simp: measure_nonneg)
e7fd64f82876 add various lemmas
hoelzl
parents: 56996
diff changeset
  1809
qed
e7fd64f82876 add various lemmas
hoelzl
parents: 56996
diff changeset
  1810
e7fd64f82876 add various lemmas
hoelzl
parents: 56996
diff changeset
  1811
lemma integrableI_real_bounded:
e7fd64f82876 add various lemmas
hoelzl
parents: 56996
diff changeset
  1812
  assumes f: "f \<in> borel_measurable M" and ae: "AE x in M. 0 \<le> f x" and fin: "integral\<^sup>N M f < \<infinity>"
e7fd64f82876 add various lemmas
hoelzl
parents: 56996
diff changeset
  1813
  shows "integrable M f"
e7fd64f82876 add various lemmas
hoelzl
parents: 56996
diff changeset
  1814
proof (rule integrableI_bounded)
e7fd64f82876 add various lemmas
hoelzl
parents: 56996
diff changeset
  1815
  have "(\<integral>\<^sup>+ x. ereal (norm (f x)) \<partial>M) = \<integral>\<^sup>+ x. ereal (f x) \<partial>M"
e7fd64f82876 add various lemmas
hoelzl
parents: 56996
diff changeset
  1816
    using ae by (auto intro: nn_integral_cong_AE)
e7fd64f82876 add various lemmas
hoelzl
parents: 56996
diff changeset
  1817
  also note fin
e7fd64f82876 add various lemmas
hoelzl
parents: 56996
diff changeset
  1818
  finally show "(\<integral>\<^sup>+ x. ereal (norm (f x)) \<partial>M) < \<infinity>" .
e7fd64f82876 add various lemmas
hoelzl
parents: 56996
diff changeset
  1819
qed fact
e7fd64f82876 add various lemmas
hoelzl
parents: 56996
diff changeset
  1820
e7fd64f82876 add various lemmas
hoelzl
parents: 56996
diff changeset
  1821
lemma integral_real_bounded:
57166
5cfcc616d485 use 0 as integral-value for non-integrable functions, simplify a couple of rewrite rules
hoelzl
parents: 57137
diff changeset
  1822
  assumes "AE x in M. 0 \<le> f x" "integral\<^sup>N M f \<le> ereal r"
57025
e7fd64f82876 add various lemmas
hoelzl
parents: 56996
diff changeset
  1823
  shows "integral\<^sup>L M f \<le> r"
57166
5cfcc616d485 use 0 as integral-value for non-integrable functions, simplify a couple of rewrite rules
hoelzl
parents: 57137
diff changeset
  1824
proof cases
5cfcc616d485 use 0 as integral-value for non-integrable functions, simplify a couple of rewrite rules
hoelzl
parents: 57137
diff changeset
  1825
  assume "integrable M f" from nn_integral_eq_integral[OF this] assms show ?thesis
57025
e7fd64f82876 add various lemmas
hoelzl
parents: 56996
diff changeset
  1826
    by simp
57166
5cfcc616d485 use 0 as integral-value for non-integrable functions, simplify a couple of rewrite rules
hoelzl
parents: 57137
diff changeset
  1827
next
5cfcc616d485 use 0 as integral-value for non-integrable functions, simplify a couple of rewrite rules
hoelzl
parents: 57137
diff changeset
  1828
  assume "\<not> integrable M f"
5cfcc616d485 use 0 as integral-value for non-integrable functions, simplify a couple of rewrite rules
hoelzl
parents: 57137
diff changeset
  1829
  moreover have "0 \<le> ereal r"
5cfcc616d485 use 0 as integral-value for non-integrable functions, simplify a couple of rewrite rules
hoelzl
parents: 57137
diff changeset
  1830
    using nn_integral_nonneg assms(2) by (rule order_trans)
5cfcc616d485 use 0 as integral-value for non-integrable functions, simplify a couple of rewrite rules
hoelzl
parents: 57137
diff changeset
  1831
  ultimately show ?thesis
5cfcc616d485 use 0 as integral-value for non-integrable functions, simplify a couple of rewrite rules
hoelzl
parents: 57137
diff changeset
  1832
    by (simp add: not_integrable_integral_eq)
57025
e7fd64f82876 add various lemmas
hoelzl
parents: 56996
diff changeset
  1833
qed
e7fd64f82876 add various lemmas
hoelzl
parents: 56996
diff changeset
  1834
57137
f174712d0a84 better support for restrict_space
hoelzl
parents: 57036
diff changeset
  1835
subsection {* Restricted measure spaces *}
f174712d0a84 better support for restrict_space
hoelzl
parents: 57036
diff changeset
  1836
f174712d0a84 better support for restrict_space
hoelzl
parents: 57036
diff changeset
  1837
lemma integrable_restrict_space:
f174712d0a84 better support for restrict_space
hoelzl
parents: 57036
diff changeset
  1838
  fixes f :: "'a \<Rightarrow> 'b::{banach, second_countable_topology}"
f174712d0a84 better support for restrict_space
hoelzl
parents: 57036
diff changeset
  1839
  assumes \<Omega>[simp]: "\<Omega> \<inter> space M \<in> sets M"
f174712d0a84 better support for restrict_space
hoelzl
parents: 57036
diff changeset
  1840
  shows "integrable (restrict_space M \<Omega>) f \<longleftrightarrow> integrable M (\<lambda>x. indicator \<Omega> x *\<^sub>R f x)"
f174712d0a84 better support for restrict_space
hoelzl
parents: 57036
diff changeset
  1841
  unfolding integrable_iff_bounded
f174712d0a84 better support for restrict_space
hoelzl
parents: 57036
diff changeset
  1842
    borel_measurable_restrict_space_iff[OF \<Omega>]
f174712d0a84 better support for restrict_space
hoelzl
parents: 57036
diff changeset
  1843
    nn_integral_restrict_space[OF \<Omega>]
f174712d0a84 better support for restrict_space
hoelzl
parents: 57036
diff changeset
  1844
  by (simp add: ac_simps ereal_indicator times_ereal.simps(1)[symmetric] del: times_ereal.simps)
f174712d0a84 better support for restrict_space
hoelzl
parents: 57036
diff changeset
  1845
f174712d0a84 better support for restrict_space
hoelzl
parents: 57036
diff changeset
  1846
lemma integral_restrict_space:
f174712d0a84 better support for restrict_space
hoelzl
parents: 57036
diff changeset
  1847
  fixes f :: "'a \<Rightarrow> 'b::{banach, second_countable_topology}"
f174712d0a84 better support for restrict_space
hoelzl
parents: 57036
diff changeset
  1848
  assumes \<Omega>[simp]: "\<Omega> \<inter> space M \<in> sets M"
f174712d0a84 better support for restrict_space
hoelzl
parents: 57036
diff changeset
  1849
  shows "integral\<^sup>L (restrict_space M \<Omega>) f = integral\<^sup>L M (\<lambda>x. indicator \<Omega> x *\<^sub>R f x)"
f174712d0a84 better support for restrict_space
hoelzl
parents: 57036
diff changeset
  1850
proof (rule integral_eq_cases)
f174712d0a84 better support for restrict_space
hoelzl
parents: 57036
diff changeset
  1851
  assume "integrable (restrict_space M \<Omega>) f"
f174712d0a84 better support for restrict_space
hoelzl
parents: 57036
diff changeset
  1852
  then show ?thesis
f174712d0a84 better support for restrict_space
hoelzl
parents: 57036
diff changeset
  1853
  proof induct
f174712d0a84 better support for restrict_space
hoelzl
parents: 57036
diff changeset
  1854
    case (base A c) then show ?case
f174712d0a84 better support for restrict_space
hoelzl
parents: 57036
diff changeset
  1855
      by (simp add: indicator_inter_arith[symmetric] sets_restrict_space_iff
f174712d0a84 better support for restrict_space
hoelzl
parents: 57036
diff changeset
  1856
                    emeasure_restrict_space Int_absorb1 measure_restrict_space)
f174712d0a84 better support for restrict_space
hoelzl
parents: 57036
diff changeset
  1857
  next
f174712d0a84 better support for restrict_space
hoelzl
parents: 57036
diff changeset
  1858
    case (add g f) then show ?case
f174712d0a84 better support for restrict_space
hoelzl
parents: 57036
diff changeset
  1859
      by (simp add: scaleR_add_right integrable_restrict_space)
f174712d0a84 better support for restrict_space
hoelzl
parents: 57036
diff changeset
  1860
  next
f174712d0a84 better support for restrict_space
hoelzl
parents: 57036
diff changeset
  1861
    case (lim f s)
f174712d0a84 better support for restrict_space
hoelzl
parents: 57036
diff changeset
  1862
    show ?case
f174712d0a84 better support for restrict_space
hoelzl
parents: 57036
diff changeset
  1863
    proof (rule LIMSEQ_unique)
f174712d0a84 better support for restrict_space
hoelzl
parents: 57036
diff changeset
  1864
      show "(\<lambda>i. integral\<^sup>L (restrict_space M \<Omega>) (s i)) ----> integral\<^sup>L (restrict_space M \<Omega>) f"
f174712d0a84 better support for restrict_space
hoelzl
parents: 57036
diff changeset
  1865
        using lim by (intro integral_dominated_convergence[where w="\<lambda>x. 2 * norm (f x)"]) simp_all
f174712d0a84 better support for restrict_space
hoelzl
parents: 57036
diff changeset
  1866
      
f174712d0a84 better support for restrict_space
hoelzl
parents: 57036
diff changeset
  1867
      show "(\<lambda>i. integral\<^sup>L (restrict_space M \<Omega>) (s i)) ----> (\<integral> x. indicator \<Omega> x *\<^sub>R f x \<partial>M)"
f174712d0a84 better support for restrict_space
hoelzl
parents: 57036
diff changeset
  1868
        unfolding lim
f174712d0a84 better support for restrict_space
hoelzl
parents: 57036
diff changeset
  1869
        using lim
f174712d0a84 better support for restrict_space
hoelzl
parents: 57036
diff changeset
  1870
        by (intro integral_dominated_convergence[where w="\<lambda>x. 2 * norm (indicator \<Omega> x *\<^sub>R f x)"])
f174712d0a84 better support for restrict_space
hoelzl
parents: 57036
diff changeset
  1871
           (auto simp add: space_restrict_space integrable_restrict_space
f174712d0a84 better support for restrict_space
hoelzl
parents: 57036
diff changeset
  1872
                 simp del: norm_scaleR
f174712d0a84 better support for restrict_space
hoelzl
parents: 57036
diff changeset
  1873
                 split: split_indicator)
f174712d0a84 better support for restrict_space
hoelzl
parents: 57036
diff changeset
  1874
    qed
f174712d0a84 better support for restrict_space
hoelzl
parents: 57036
diff changeset
  1875
  qed
f174712d0a84 better support for restrict_space
hoelzl
parents: 57036
diff changeset
  1876
qed (simp add: integrable_restrict_space)
f174712d0a84 better support for restrict_space
hoelzl
parents: 57036
diff changeset
  1877
56994
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  1878
subsection {* Measure spaces with an associated density *}
56993
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1879
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1880
lemma integrable_density:
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1881
  fixes f :: "'a \<Rightarrow> 'b::{banach, second_countable_topology}" and g :: "'a \<Rightarrow> real"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1882
  assumes [measurable]: "f \<in> borel_measurable M" "g \<in> borel_measurable M"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1883
    and nn: "AE x in M. 0 \<le> g x"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1884
  shows "integrable (density M g) f \<longleftrightarrow> integrable M (\<lambda>x. g x *\<^sub>R f x)"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1885
  unfolding integrable_iff_bounded using nn
56996
891e992e510f renamed positive_integral to nn_integral
hoelzl
parents: 56994
diff changeset
  1886
  apply (simp add: nn_integral_density )
891e992e510f renamed positive_integral to nn_integral
hoelzl
parents: 56994
diff changeset
  1887
  apply (intro arg_cong2[where f="op ="] refl nn_integral_cong_AE)
56993
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1888
  apply auto
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1889
  done
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1890
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1891
lemma integral_density:
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1892
  fixes f :: "'a \<Rightarrow> 'b::{banach, second_countable_topology}" and g :: "'a \<Rightarrow> real"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1893
  assumes f: "f \<in> borel_measurable M"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1894
    and g[measurable]: "g \<in> borel_measurable M" "AE x in M. 0 \<le> g x"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1895
  shows "integral\<^sup>L (density M g) f = integral\<^sup>L M (\<lambda>x. g x *\<^sub>R f x)"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1896
proof (rule integral_eq_cases)
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1897
  assume "integrable (density M g) f"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1898
  then show ?thesis
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1899
  proof induct
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1900
    case (base A c)
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1901
    then have [measurable]: "A \<in> sets M" by auto
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1902
  
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1903
    have int: "integrable M (\<lambda>x. g x * indicator A x)"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1904
      using g base integrable_density[of "indicator A :: 'a \<Rightarrow> real" M g] by simp
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1905
    then have "integral\<^sup>L M (\<lambda>x. g x * indicator A x) = (\<integral>\<^sup>+ x. ereal (g x * indicator A x) \<partial>M)"
56996
891e992e510f renamed positive_integral to nn_integral
hoelzl
parents: 56994
diff changeset
  1906
      using g by (subst nn_integral_eq_integral) auto
56993
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1907
    also have "\<dots> = (\<integral>\<^sup>+ x. ereal (g x) * indicator A x \<partial>M)"
56996
891e992e510f renamed positive_integral to nn_integral
hoelzl
parents: 56994
diff changeset
  1908
      by (intro nn_integral_cong) (auto split: split_indicator)
56993
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1909
    also have "\<dots> = emeasure (density M g) A"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1910
      by (rule emeasure_density[symmetric]) auto
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1911
    also have "\<dots> = ereal (measure (density M g) A)"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1912
      using base by (auto intro: emeasure_eq_ereal_measure)
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1913
    also have "\<dots> = integral\<^sup>L (density M g) (indicator A)"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1914
      using base by simp
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1915
    finally show ?case
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1916
      using base by (simp add: int)
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1917
  next
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1918
    case (add f h)
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1919
    then have [measurable]: "f \<in> borel_measurable M" "h \<in> borel_measurable M"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1920
      by (auto dest!: borel_measurable_integrable)
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1921
    from add g show ?case
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1922
      by (simp add: scaleR_add_right integrable_density)
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1923
  next
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1924
    case (lim f s)
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1925
    have [measurable]: "f \<in> borel_measurable M" "\<And>i. s i \<in> borel_measurable M"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1926
      using lim(1,5)[THEN borel_measurable_integrable] by auto
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1927
  
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1928
    show ?case
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1929
    proof (rule LIMSEQ_unique)
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1930
      show "(\<lambda>i. integral\<^sup>L M (\<lambda>x. g x *\<^sub>R s i x)) ----> integral\<^sup>L M (\<lambda>x. g x *\<^sub>R f x)"
57137
f174712d0a84 better support for restrict_space
hoelzl
parents: 57036
diff changeset
  1931
      proof (rule integral_dominated_convergence)
56993
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1932
        show "integrable M (\<lambda>x. 2 * norm (g x *\<^sub>R f x))"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1933
          by (intro integrable_mult_right integrable_norm integrable_density[THEN iffD1] lim g) auto
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1934
        show "AE x in M. (\<lambda>i. g x *\<^sub>R s i x) ----> g x *\<^sub>R f x"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1935
          using lim(3) by (auto intro!: tendsto_scaleR AE_I2[of M])
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1936
        show "\<And>i. AE x in M. norm (g x *\<^sub>R s i x) \<le> 2 * norm (g x *\<^sub>R f x)"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1937
          using lim(4) g by (auto intro!: AE_I2[of M] mult_left_mono simp: field_simps)
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1938
      qed auto
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1939
      show "(\<lambda>i. integral\<^sup>L M (\<lambda>x. g x *\<^sub>R s i x)) ----> integral\<^sup>L (density M g) f"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1940
        unfolding lim(2)[symmetric]
57137
f174712d0a84 better support for restrict_space
hoelzl
parents: 57036
diff changeset
  1941
        by (rule integral_dominated_convergence[where w="\<lambda>x. 2 * norm (f x)"])
57036
22568fb89165 generalized Bochner integral over infinite sums
hoelzl
parents: 57025
diff changeset
  1942
           (insert lim(3-5), auto)
56993
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1943
    qed
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1944
  qed
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1945
qed (simp add: f g integrable_density)
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1946
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1947
lemma
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1948
  fixes g :: "'a \<Rightarrow> real"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1949
  assumes "f \<in> borel_measurable M" "AE x in M. 0 \<le> f x" "g \<in> borel_measurable M"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1950
  shows integral_real_density: "integral\<^sup>L (density M f) g = (\<integral> x. f x * g x \<partial>M)"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1951
    and integrable_real_density: "integrable (density M f) g \<longleftrightarrow> integrable M (\<lambda>x. f x * g x)"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1952
  using assms integral_density[of g M f] integrable_density[of g M f] by auto
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1953
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1954
lemma has_bochner_integral_density:
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1955
  fixes f :: "'a \<Rightarrow> 'b::{banach, second_countable_topology}" and g :: "'a \<Rightarrow> real"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1956
  shows "f \<in> borel_measurable M \<Longrightarrow> g \<in> borel_measurable M \<Longrightarrow> (AE x in M. 0 \<le> g x) \<Longrightarrow>
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1957
    has_bochner_integral M (\<lambda>x. g x *\<^sub>R f x) x \<Longrightarrow> has_bochner_integral (density M g) f x"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1958
  by (simp add: has_bochner_integral_iff integrable_density integral_density)
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1959
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1960
subsection {* Distributions *}
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1961
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1962
lemma integrable_distr_eq:
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1963
  fixes f :: "'a \<Rightarrow> 'b::{banach, second_countable_topology}"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1964
  assumes [measurable]: "g \<in> measurable M N" "f \<in> borel_measurable N"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1965
  shows "integrable (distr M N g) f \<longleftrightarrow> integrable M (\<lambda>x. f (g x))"
56996
891e992e510f renamed positive_integral to nn_integral
hoelzl
parents: 56994
diff changeset
  1966
  unfolding integrable_iff_bounded by (simp_all add: nn_integral_distr)
56993
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1967
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1968
lemma integrable_distr:
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1969
  fixes f :: "'a \<Rightarrow> 'b::{banach, second_countable_topology}"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1970
  shows "T \<in> measurable M M' \<Longrightarrow> integrable (distr M M' T) f \<Longrightarrow> integrable M (\<lambda>x. f (T x))"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1971
  by (subst integrable_distr_eq[symmetric, where g=T])
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1972
     (auto dest: borel_measurable_integrable)
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1973
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1974
lemma integral_distr:
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1975
  fixes f :: "'a \<Rightarrow> 'b::{banach, second_countable_topology}"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1976
  assumes g[measurable]: "g \<in> measurable M N" and f: "f \<in> borel_measurable N"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1977
  shows "integral\<^sup>L (distr M N g) f = integral\<^sup>L M (\<lambda>x. f (g x))"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1978
proof (rule integral_eq_cases)
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1979
  assume "integrable (distr M N g) f"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1980
  then show ?thesis
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1981
  proof induct
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1982
    case (base A c)
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1983
    then have [measurable]: "A \<in> sets N" by auto
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1984
    from base have int: "integrable (distr M N g) (\<lambda>a. indicator A a *\<^sub>R c)"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1985
      by (intro integrable_indicator)
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1986
  
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1987
    have "integral\<^sup>L (distr M N g) (\<lambda>a. indicator A a *\<^sub>R c) = measure (distr M N g) A *\<^sub>R c"
57166
5cfcc616d485 use 0 as integral-value for non-integrable functions, simplify a couple of rewrite rules
hoelzl
parents: 57137
diff changeset
  1988
      using base by auto
56993
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1989
    also have "\<dots> = measure M (g -` A \<inter> space M) *\<^sub>R c"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1990
      by (subst measure_distr) auto
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1991
    also have "\<dots> = integral\<^sup>L M (\<lambda>a. indicator (g -` A \<inter> space M) a *\<^sub>R c)"
57166
5cfcc616d485 use 0 as integral-value for non-integrable functions, simplify a couple of rewrite rules
hoelzl
parents: 57137
diff changeset
  1992
      using base by (auto simp: emeasure_distr)
56993
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1993
    also have "\<dots> = integral\<^sup>L M (\<lambda>a. indicator A (g a) *\<^sub>R c)"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1994
      using int base by (intro integral_cong_AE) (auto simp: emeasure_distr split: split_indicator)
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1995
    finally show ?case .
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1996
  next
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1997
    case (add f h)
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1998
    then have [measurable]: "f \<in> borel_measurable N" "h \<in> borel_measurable N"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  1999
      by (auto dest!: borel_measurable_integrable)
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2000
    from add g show ?case
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2001
      by (simp add: scaleR_add_right integrable_distr_eq)
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2002
  next
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2003
    case (lim f s)
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2004
    have [measurable]: "f \<in> borel_measurable N" "\<And>i. s i \<in> borel_measurable N"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2005
      using lim(1,5)[THEN borel_measurable_integrable] by auto
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2006
  
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2007
    show ?case
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2008
    proof (rule LIMSEQ_unique)
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2009
      show "(\<lambda>i. integral\<^sup>L M (\<lambda>x. s i (g x))) ----> integral\<^sup>L M (\<lambda>x. f (g x))"
57137
f174712d0a84 better support for restrict_space
hoelzl
parents: 57036
diff changeset
  2010
      proof (rule integral_dominated_convergence)
56993
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2011
        show "integrable M (\<lambda>x. 2 * norm (f (g x)))"
57036
22568fb89165 generalized Bochner integral over infinite sums
hoelzl
parents: 57025
diff changeset
  2012
          using lim by (auto simp: integrable_distr_eq) 
56993
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2013
        show "AE x in M. (\<lambda>i. s i (g x)) ----> f (g x)"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2014
          using lim(3) g[THEN measurable_space] by auto
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2015
        show "\<And>i. AE x in M. norm (s i (g x)) \<le> 2 * norm (f (g x))"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2016
          using lim(4) g[THEN measurable_space] by auto
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2017
      qed auto
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2018
      show "(\<lambda>i. integral\<^sup>L M (\<lambda>x. s i (g x))) ----> integral\<^sup>L (distr M N g) f"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2019
        unfolding lim(2)[symmetric]
57137
f174712d0a84 better support for restrict_space
hoelzl
parents: 57036
diff changeset
  2020
        by (rule integral_dominated_convergence[where w="\<lambda>x. 2 * norm (f x)"])
57036
22568fb89165 generalized Bochner integral over infinite sums
hoelzl
parents: 57025
diff changeset
  2021
           (insert lim(3-5), auto)
56993
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2022
    qed
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2023
  qed
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2024
qed (simp add: f g integrable_distr_eq)
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2025
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2026
lemma has_bochner_integral_distr:
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2027
  fixes f :: "'a \<Rightarrow> 'b::{banach, second_countable_topology}"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2028
  shows "f \<in> borel_measurable N \<Longrightarrow> g \<in> measurable M N \<Longrightarrow>
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2029
    has_bochner_integral M (\<lambda>x. f (g x)) x \<Longrightarrow> has_bochner_integral (distr M N g) f x"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2030
  by (simp add: has_bochner_integral_iff integrable_distr_eq integral_distr)
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2031
56994
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  2032
subsection {* Lebesgue integration on @{const count_space} *}
56993
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2033
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2034
lemma integrable_count_space:
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2035
  fixes f :: "'a \<Rightarrow> 'b::{banach,second_countable_topology}"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2036
  shows "finite X \<Longrightarrow> integrable (count_space X) f"
56996
891e992e510f renamed positive_integral to nn_integral
hoelzl
parents: 56994
diff changeset
  2037
  by (auto simp: nn_integral_count_space integrable_iff_bounded)
56993
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2038
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2039
lemma measure_count_space[simp]:
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2040
  "B \<subseteq> A \<Longrightarrow> finite B \<Longrightarrow> measure (count_space A) B = card B"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2041
  unfolding measure_def by (subst emeasure_count_space ) auto
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2042
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2043
lemma lebesgue_integral_count_space_finite_support:
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2044
  assumes f: "finite {a\<in>A. f a \<noteq> 0}"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2045
  shows "(\<integral>x. f x \<partial>count_space A) = (\<Sum>a | a \<in> A \<and> f a \<noteq> 0. f a)"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2046
proof -
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2047
  have eq: "\<And>x. x \<in> A \<Longrightarrow> (\<Sum>a | x = a \<and> a \<in> A \<and> f a \<noteq> 0. f a) = (\<Sum>x\<in>{x}. f x)"
57418
6ab1c7cb0b8d fact consolidation
haftmann
parents: 57275
diff changeset
  2048
    by (intro setsum.mono_neutral_cong_left) auto
56993
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2049
    
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2050
  have "(\<integral>x. f x \<partial>count_space A) = (\<integral>x. (\<Sum>a | a \<in> A \<and> f a \<noteq> 0. indicator {a} x *\<^sub>R f a) \<partial>count_space A)"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2051
    by (intro integral_cong refl) (simp add: f eq)
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2052
  also have "\<dots> = (\<Sum>a | a \<in> A \<and> f a \<noteq> 0. measure (count_space A) {a} *\<^sub>R f a)"
57418
6ab1c7cb0b8d fact consolidation
haftmann
parents: 57275
diff changeset
  2053
    by (subst integral_setsum) (auto intro!: setsum.cong)
56993
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2054
  finally show ?thesis
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2055
    by auto
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2056
qed
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2057
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2058
lemma lebesgue_integral_count_space_finite: "finite A \<Longrightarrow> (\<integral>x. f x \<partial>count_space A) = (\<Sum>a\<in>A. f a)"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2059
  by (subst lebesgue_integral_count_space_finite_support)
57418
6ab1c7cb0b8d fact consolidation
haftmann
parents: 57275
diff changeset
  2060
     (auto intro!: setsum.mono_neutral_cong_left)
56993
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2061
59425
c5e79df8cc21 import general thms from Density_Compiler
hoelzl
parents: 59357
diff changeset
  2062
lemma integrable_count_space_nat_iff:
c5e79df8cc21 import general thms from Density_Compiler
hoelzl
parents: 59357
diff changeset
  2063
  fixes f :: "nat \<Rightarrow> _::{banach,second_countable_topology}"
c5e79df8cc21 import general thms from Density_Compiler
hoelzl
parents: 59357
diff changeset
  2064
  shows "integrable (count_space UNIV) f \<longleftrightarrow> summable (\<lambda>x. norm (f x))"
c5e79df8cc21 import general thms from Density_Compiler
hoelzl
parents: 59357
diff changeset
  2065
  by (auto simp add: integrable_iff_bounded nn_integral_count_space_nat summable_ereal suminf_ereal_finite)
c5e79df8cc21 import general thms from Density_Compiler
hoelzl
parents: 59357
diff changeset
  2066
c5e79df8cc21 import general thms from Density_Compiler
hoelzl
parents: 59357
diff changeset
  2067
lemma sums_integral_count_space_nat:
c5e79df8cc21 import general thms from Density_Compiler
hoelzl
parents: 59357
diff changeset
  2068
  fixes f :: "nat \<Rightarrow> _::{banach,second_countable_topology}"
c5e79df8cc21 import general thms from Density_Compiler
hoelzl
parents: 59357
diff changeset
  2069
  assumes *: "integrable (count_space UNIV) f"
c5e79df8cc21 import general thms from Density_Compiler
hoelzl
parents: 59357
diff changeset
  2070
  shows "f sums (integral\<^sup>L (count_space UNIV) f)"
c5e79df8cc21 import general thms from Density_Compiler
hoelzl
parents: 59357
diff changeset
  2071
proof -
c5e79df8cc21 import general thms from Density_Compiler
hoelzl
parents: 59357
diff changeset
  2072
  let ?f = "\<lambda>n i. indicator {n} i *\<^sub>R f i"
c5e79df8cc21 import general thms from Density_Compiler
hoelzl
parents: 59357
diff changeset
  2073
  have f': "\<And>n i. ?f n i = indicator {n} i *\<^sub>R f n"
c5e79df8cc21 import general thms from Density_Compiler
hoelzl
parents: 59357
diff changeset
  2074
    by (auto simp: fun_eq_iff split: split_indicator)
c5e79df8cc21 import general thms from Density_Compiler
hoelzl
parents: 59357
diff changeset
  2075
c5e79df8cc21 import general thms from Density_Compiler
hoelzl
parents: 59357
diff changeset
  2076
  have "(\<lambda>i. \<integral>n. ?f i n \<partial>count_space UNIV) sums \<integral> n. (\<Sum>i. ?f i n) \<partial>count_space UNIV"
c5e79df8cc21 import general thms from Density_Compiler
hoelzl
parents: 59357
diff changeset
  2077
  proof (rule sums_integral)
c5e79df8cc21 import general thms from Density_Compiler
hoelzl
parents: 59357
diff changeset
  2078
    show "\<And>i. integrable (count_space UNIV) (?f i)"
c5e79df8cc21 import general thms from Density_Compiler
hoelzl
parents: 59357
diff changeset
  2079
      using * by (intro integrable_mult_indicator) auto
c5e79df8cc21 import general thms from Density_Compiler
hoelzl
parents: 59357
diff changeset
  2080
    show "AE n in count_space UNIV. summable (\<lambda>i. norm (?f i n))"
c5e79df8cc21 import general thms from Density_Compiler
hoelzl
parents: 59357
diff changeset
  2081
      using summable_finite[of "{n}" "\<lambda>i. norm (?f i n)" for n] by simp
c5e79df8cc21 import general thms from Density_Compiler
hoelzl
parents: 59357
diff changeset
  2082
    show "summable (\<lambda>i. \<integral> n. norm (?f i n) \<partial>count_space UNIV)"
c5e79df8cc21 import general thms from Density_Compiler
hoelzl
parents: 59357
diff changeset
  2083
      using * by (subst f') (simp add: integrable_count_space_nat_iff)
c5e79df8cc21 import general thms from Density_Compiler
hoelzl
parents: 59357
diff changeset
  2084
  qed
c5e79df8cc21 import general thms from Density_Compiler
hoelzl
parents: 59357
diff changeset
  2085
  also have "(\<integral> n. (\<Sum>i. ?f i n) \<partial>count_space UNIV) = (\<integral>n. f n \<partial>count_space UNIV)"
c5e79df8cc21 import general thms from Density_Compiler
hoelzl
parents: 59357
diff changeset
  2086
    using suminf_finite[of "{n}" "\<lambda>i. ?f i n" for n] by (auto intro!: integral_cong)
c5e79df8cc21 import general thms from Density_Compiler
hoelzl
parents: 59357
diff changeset
  2087
  also have "(\<lambda>i. \<integral>n. ?f i n \<partial>count_space UNIV) = f"
c5e79df8cc21 import general thms from Density_Compiler
hoelzl
parents: 59357
diff changeset
  2088
    by (subst f') simp
c5e79df8cc21 import general thms from Density_Compiler
hoelzl
parents: 59357
diff changeset
  2089
  finally show ?thesis .
c5e79df8cc21 import general thms from Density_Compiler
hoelzl
parents: 59357
diff changeset
  2090
qed
c5e79df8cc21 import general thms from Density_Compiler
hoelzl
parents: 59357
diff changeset
  2091
c5e79df8cc21 import general thms from Density_Compiler
hoelzl
parents: 59357
diff changeset
  2092
lemma integral_count_space_nat:
c5e79df8cc21 import general thms from Density_Compiler
hoelzl
parents: 59357
diff changeset
  2093
  fixes f :: "nat \<Rightarrow> _::{banach,second_countable_topology}"
c5e79df8cc21 import general thms from Density_Compiler
hoelzl
parents: 59357
diff changeset
  2094
  shows "integrable (count_space UNIV) f \<Longrightarrow> integral\<^sup>L (count_space UNIV) f = (\<Sum>x. f x)"
c5e79df8cc21 import general thms from Density_Compiler
hoelzl
parents: 59357
diff changeset
  2095
  using sums_integral_count_space_nat by (rule sums_unique)
c5e79df8cc21 import general thms from Density_Compiler
hoelzl
parents: 59357
diff changeset
  2096
56994
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  2097
subsection {* Point measure *}
56993
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2098
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2099
lemma lebesgue_integral_point_measure_finite:
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2100
  fixes g :: "'a \<Rightarrow> 'b::{banach, second_countable_topology}"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2101
  shows "finite A \<Longrightarrow> (\<And>a. a \<in> A \<Longrightarrow> 0 \<le> f a) \<Longrightarrow>
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2102
    integral\<^sup>L (point_measure A f) g = (\<Sum>a\<in>A. f a *\<^sub>R g a)"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2103
  by (simp add: lebesgue_integral_count_space_finite AE_count_space integral_density point_measure_def)
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2104
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2105
lemma integrable_point_measure_finite:
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2106
  fixes g :: "'a \<Rightarrow> 'b::{banach, second_countable_topology}" and f :: "'a \<Rightarrow> real"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2107
  shows "finite A \<Longrightarrow> integrable (point_measure A f) g"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2108
  unfolding point_measure_def
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2109
  apply (subst density_ereal_max_0)
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2110
  apply (subst integrable_density)
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2111
  apply (auto simp: AE_count_space integrable_count_space)
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2112
  done
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2113
59425
c5e79df8cc21 import general thms from Density_Compiler
hoelzl
parents: 59357
diff changeset
  2114
subsection {* Lebesgue integration on @{const null_measure} *}
c5e79df8cc21 import general thms from Density_Compiler
hoelzl
parents: 59357
diff changeset
  2115
c5e79df8cc21 import general thms from Density_Compiler
hoelzl
parents: 59357
diff changeset
  2116
lemma has_bochner_integral_null_measure_iff[iff]:
c5e79df8cc21 import general thms from Density_Compiler
hoelzl
parents: 59357
diff changeset
  2117
  "has_bochner_integral (null_measure M) f 0 \<longleftrightarrow> f \<in> borel_measurable M"
c5e79df8cc21 import general thms from Density_Compiler
hoelzl
parents: 59357
diff changeset
  2118
  by (auto simp add: has_bochner_integral.simps simple_bochner_integral_def[abs_def]
c5e79df8cc21 import general thms from Density_Compiler
hoelzl
parents: 59357
diff changeset
  2119
           intro!: exI[of _ "\<lambda>n x. 0"] simple_bochner_integrable.intros)
c5e79df8cc21 import general thms from Density_Compiler
hoelzl
parents: 59357
diff changeset
  2120
c5e79df8cc21 import general thms from Density_Compiler
hoelzl
parents: 59357
diff changeset
  2121
lemma integrable_null_measure_iff[iff]: "integrable (null_measure M) f \<longleftrightarrow> f \<in> borel_measurable M"
c5e79df8cc21 import general thms from Density_Compiler
hoelzl
parents: 59357
diff changeset
  2122
  by (auto simp add: integrable.simps)
c5e79df8cc21 import general thms from Density_Compiler
hoelzl
parents: 59357
diff changeset
  2123
c5e79df8cc21 import general thms from Density_Compiler
hoelzl
parents: 59357
diff changeset
  2124
lemma integral_null_measure[simp]: "integral\<^sup>L (null_measure M) f = 0"
c5e79df8cc21 import general thms from Density_Compiler
hoelzl
parents: 59357
diff changeset
  2125
  by (cases "integrable (null_measure M) f")
c5e79df8cc21 import general thms from Density_Compiler
hoelzl
parents: 59357
diff changeset
  2126
     (auto simp add: not_integrable_integral_eq has_bochner_integral_integral_eq)
c5e79df8cc21 import general thms from Density_Compiler
hoelzl
parents: 59357
diff changeset
  2127
56994
8d5e5ec1cac3 fixed document generation for HOL-Probability
hoelzl
parents: 56993
diff changeset
  2128
subsection {* Legacy lemmas for the real-valued Lebesgue integral *}
56993
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2129
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2130
lemma real_lebesgue_integral_def:
57235
b0b9a10e4bf4 properties of Erlang and exponentially distributed random variables (by Sudeep Kanav)
hoelzl
parents: 57166
diff changeset
  2131
  assumes f[measurable]: "integrable M f"
56993
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2132
  shows "integral\<^sup>L M f = real (\<integral>\<^sup>+x. f x \<partial>M) - real (\<integral>\<^sup>+x. - f x \<partial>M)"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2133
proof -
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2134
  have "integral\<^sup>L M f = integral\<^sup>L M (\<lambda>x. max 0 (f x) - max 0 (- f x))"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2135
    by (auto intro!: arg_cong[where f="integral\<^sup>L M"])
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2136
  also have "\<dots> = integral\<^sup>L M (\<lambda>x. max 0 (f x)) - integral\<^sup>L M (\<lambda>x. max 0 (- f x))"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2137
    by (intro integral_diff integrable_max integrable_minus integrable_zero f)
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2138
  also have "integral\<^sup>L M (\<lambda>x. max 0 (f x)) = real (\<integral>\<^sup>+x. max 0 (f x) \<partial>M)"
57235
b0b9a10e4bf4 properties of Erlang and exponentially distributed random variables (by Sudeep Kanav)
hoelzl
parents: 57166
diff changeset
  2139
    by (subst integral_eq_nn_integral[symmetric]) auto
56993
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2140
  also have "integral\<^sup>L M (\<lambda>x. max 0 (- f x)) = real (\<integral>\<^sup>+x. max 0 (- f x) \<partial>M)"
57235
b0b9a10e4bf4 properties of Erlang and exponentially distributed random variables (by Sudeep Kanav)
hoelzl
parents: 57166
diff changeset
  2141
    by (subst integral_eq_nn_integral[symmetric]) auto
56993
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2142
  also have "(\<lambda>x. ereal (max 0 (f x))) = (\<lambda>x. max 0 (ereal (f x)))"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2143
    by (auto simp: max_def)
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2144
  also have "(\<lambda>x. ereal (max 0 (- f x))) = (\<lambda>x. max 0 (- ereal (f x)))"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2145
    by (auto simp: max_def)
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2146
  finally show ?thesis
56996
891e992e510f renamed positive_integral to nn_integral
hoelzl
parents: 56994
diff changeset
  2147
    unfolding nn_integral_max_0 .
56993
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2148
qed
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2149
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2150
lemma real_integrable_def:
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2151
  "integrable M f \<longleftrightarrow> f \<in> borel_measurable M \<and>
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2152
    (\<integral>\<^sup>+ x. ereal (f x) \<partial>M) \<noteq> \<infinity> \<and> (\<integral>\<^sup>+ x. ereal (- f x) \<partial>M) \<noteq> \<infinity>"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2153
  unfolding integrable_iff_bounded
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2154
proof (safe del: notI)
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2155
  assume *: "(\<integral>\<^sup>+ x. ereal (norm (f x)) \<partial>M) < \<infinity>"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2156
  have "(\<integral>\<^sup>+ x. ereal (f x) \<partial>M) \<le> (\<integral>\<^sup>+ x. ereal (norm (f x)) \<partial>M)"
56996
891e992e510f renamed positive_integral to nn_integral
hoelzl
parents: 56994
diff changeset
  2157
    by (intro nn_integral_mono) auto
56993
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2158
  also note *
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2159
  finally show "(\<integral>\<^sup>+ x. ereal (f x) \<partial>M) \<noteq> \<infinity>"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2160
    by simp
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2161
  have "(\<integral>\<^sup>+ x. ereal (- f x) \<partial>M) \<le> (\<integral>\<^sup>+ x. ereal (norm (f x)) \<partial>M)"
56996
891e992e510f renamed positive_integral to nn_integral
hoelzl
parents: 56994
diff changeset
  2162
    by (intro nn_integral_mono) auto
56993
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2163
  also note *
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2164
  finally show "(\<integral>\<^sup>+ x. ereal (- f x) \<partial>M) \<noteq> \<infinity>"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2165
    by simp
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2166
next
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2167
  assume [measurable]: "f \<in> borel_measurable M"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2168
  assume fin: "(\<integral>\<^sup>+ x. ereal (f x) \<partial>M) \<noteq> \<infinity>" "(\<integral>\<^sup>+ x. ereal (- f x) \<partial>M) \<noteq> \<infinity>"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2169
  have "(\<integral>\<^sup>+ x. norm (f x) \<partial>M) = (\<integral>\<^sup>+ x. max 0 (ereal (f x)) + max 0 (ereal (- f x)) \<partial>M)"
56996
891e992e510f renamed positive_integral to nn_integral
hoelzl
parents: 56994
diff changeset
  2170
    by (intro nn_integral_cong) (auto simp: max_def)
56993
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2171
  also have"\<dots> = (\<integral>\<^sup>+ x. max 0 (ereal (f x)) \<partial>M) + (\<integral>\<^sup>+ x. max 0 (ereal (- f x)) \<partial>M)"
56996
891e992e510f renamed positive_integral to nn_integral
hoelzl
parents: 56994
diff changeset
  2172
    by (intro nn_integral_add) auto
56993
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2173
  also have "\<dots> < \<infinity>"
56996
891e992e510f renamed positive_integral to nn_integral
hoelzl
parents: 56994
diff changeset
  2174
    using fin by (auto simp: nn_integral_max_0)
56993
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2175
  finally show "(\<integral>\<^sup>+ x. norm (f x) \<partial>M) < \<infinity>" .
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2176
qed
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2177
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2178
lemma integrableD[dest]:
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2179
  assumes "integrable M f"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2180
  shows "f \<in> borel_measurable M" "(\<integral>\<^sup>+ x. ereal (f x) \<partial>M) \<noteq> \<infinity>" "(\<integral>\<^sup>+ x. ereal (- f x) \<partial>M) \<noteq> \<infinity>"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2181
  using assms unfolding real_integrable_def by auto
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2182
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2183
lemma integrableE:
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2184
  assumes "integrable M f"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2185
  obtains r q where
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2186
    "(\<integral>\<^sup>+x. ereal (f x)\<partial>M) = ereal r"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2187
    "(\<integral>\<^sup>+x. ereal (-f x)\<partial>M) = ereal q"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2188
    "f \<in> borel_measurable M" "integral\<^sup>L M f = r - q"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2189
  using assms unfolding real_integrable_def real_lebesgue_integral_def[OF assms]
56996
891e992e510f renamed positive_integral to nn_integral
hoelzl
parents: 56994
diff changeset
  2190
  using nn_integral_nonneg[of M "\<lambda>x. ereal (f x)"]
891e992e510f renamed positive_integral to nn_integral
hoelzl
parents: 56994
diff changeset
  2191
  using nn_integral_nonneg[of M "\<lambda>x. ereal (-f x)"]
56993
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2192
  by (cases rule: ereal2_cases[of "(\<integral>\<^sup>+x. ereal (-f x)\<partial>M)" "(\<integral>\<^sup>+x. ereal (f x)\<partial>M)"]) auto
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2193
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2194
lemma integral_monotone_convergence_nonneg:
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2195
  fixes f :: "nat \<Rightarrow> 'a \<Rightarrow> real"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2196
  assumes i: "\<And>i. integrable M (f i)" and mono: "AE x in M. mono (\<lambda>n. f n x)"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2197
    and pos: "\<And>i. AE x in M. 0 \<le> f i x"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2198
    and lim: "AE x in M. (\<lambda>i. f i x) ----> u x"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2199
    and ilim: "(\<lambda>i. integral\<^sup>L M (f i)) ----> x"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2200
    and u: "u \<in> borel_measurable M"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2201
  shows "integrable M u"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2202
  and "integral\<^sup>L M u = x"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2203
proof -
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2204
  have "(\<integral>\<^sup>+ x. ereal (u x) \<partial>M) = (SUP n. (\<integral>\<^sup>+ x. ereal (f n x) \<partial>M))"
56996
891e992e510f renamed positive_integral to nn_integral
hoelzl
parents: 56994
diff changeset
  2205
  proof (subst nn_integral_monotone_convergence_SUP_AE[symmetric])
56993
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2206
    fix i
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2207
    from mono pos show "AE x in M. ereal (f i x) \<le> ereal (f (Suc i) x) \<and> 0 \<le> ereal (f i x)"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2208
      by eventually_elim (auto simp: mono_def)
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2209
    show "(\<lambda>x. ereal (f i x)) \<in> borel_measurable M"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2210
      using i by auto
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2211
  next
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2212
    show "(\<integral>\<^sup>+ x. ereal (u x) \<partial>M) = \<integral>\<^sup>+ x. (SUP i. ereal (f i x)) \<partial>M"
56996
891e992e510f renamed positive_integral to nn_integral
hoelzl
parents: 56994
diff changeset
  2213
      apply (rule nn_integral_cong_AE)
56993
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2214
      using lim mono
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2215
      by eventually_elim (simp add: SUP_eq_LIMSEQ[THEN iffD2])
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2216
  qed
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2217
  also have "\<dots> = ereal x"
56996
891e992e510f renamed positive_integral to nn_integral
hoelzl
parents: 56994
diff changeset
  2218
    using mono i unfolding nn_integral_eq_integral[OF i pos]
56993
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2219
    by (subst SUP_eq_LIMSEQ) (auto simp: mono_def intro!: integral_mono_AE ilim)
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2220
  finally have "(\<integral>\<^sup>+ x. ereal (u x) \<partial>M) = ereal x" .
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2221
  moreover have "(\<integral>\<^sup>+ x. ereal (- u x) \<partial>M) = 0"
56996
891e992e510f renamed positive_integral to nn_integral
hoelzl
parents: 56994
diff changeset
  2222
  proof (subst nn_integral_0_iff_AE)
56993
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2223
    show "(\<lambda>x. ereal (- u x)) \<in> borel_measurable M"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2224
      using u by auto
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2225
    from mono pos[of 0] lim show "AE x in M. ereal (- u x) \<le> 0"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2226
    proof eventually_elim
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2227
      fix x assume "mono (\<lambda>n. f n x)" "0 \<le> f 0 x" "(\<lambda>i. f i x) ----> u x"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2228
      then show "ereal (- u x) \<le> 0"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2229
        using incseq_le[of "\<lambda>n. f n x" "u x" 0] by (simp add: mono_def incseq_def)
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2230
    qed
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2231
  qed
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2232
  ultimately show "integrable M u" "integral\<^sup>L M u = x"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2233
    by (auto simp: real_integrable_def real_lebesgue_integral_def u)
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2234
qed
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2235
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2236
lemma
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2237
  fixes f :: "nat \<Rightarrow> 'a \<Rightarrow> real"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2238
  assumes f: "\<And>i. integrable M (f i)" and mono: "AE x in M. mono (\<lambda>n. f n x)"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2239
  and lim: "AE x in M. (\<lambda>i. f i x) ----> u x"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2240
  and ilim: "(\<lambda>i. integral\<^sup>L M (f i)) ----> x"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2241
  and u: "u \<in> borel_measurable M"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2242
  shows integrable_monotone_convergence: "integrable M u"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2243
    and integral_monotone_convergence: "integral\<^sup>L M u = x"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2244
    and has_bochner_integral_monotone_convergence: "has_bochner_integral M u x"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2245
proof -
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2246
  have 1: "\<And>i. integrable M (\<lambda>x. f i x - f 0 x)"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2247
    using f by auto
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2248
  have 2: "AE x in M. mono (\<lambda>n. f n x - f 0 x)"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2249
    using mono by (auto simp: mono_def le_fun_def)
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2250
  have 3: "\<And>n. AE x in M. 0 \<le> f n x - f 0 x"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2251
    using mono by (auto simp: field_simps mono_def le_fun_def)
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2252
  have 4: "AE x in M. (\<lambda>i. f i x - f 0 x) ----> u x - f 0 x"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2253
    using lim by (auto intro!: tendsto_diff)
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2254
  have 5: "(\<lambda>i. (\<integral>x. f i x - f 0 x \<partial>M)) ----> x - integral\<^sup>L M (f 0)"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2255
    using f ilim by (auto intro!: tendsto_diff)
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2256
  have 6: "(\<lambda>x. u x - f 0 x) \<in> borel_measurable M"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2257
    using f[of 0] u by auto
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2258
  note diff = integral_monotone_convergence_nonneg[OF 1 2 3 4 5 6]
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2259
  have "integrable M (\<lambda>x. (u x - f 0 x) + f 0 x)"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2260
    using diff(1) f by (rule integrable_add)
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2261
  with diff(2) f show "integrable M u" "integral\<^sup>L M u = x"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2262
    by auto
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2263
  then show "has_bochner_integral M u x"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2264
    by (metis has_bochner_integral_integrable)
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2265
qed
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2266
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2267
lemma integral_norm_eq_0_iff:
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2268
  fixes f :: "'a \<Rightarrow> 'b::{banach, second_countable_topology}"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2269
  assumes f[measurable]: "integrable M f"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2270
  shows "(\<integral>x. norm (f x) \<partial>M) = 0 \<longleftrightarrow> emeasure M {x\<in>space M. f x \<noteq> 0} = 0"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2271
proof -
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2272
  have "(\<integral>\<^sup>+x. norm (f x) \<partial>M) = (\<integral>x. norm (f x) \<partial>M)"
56996
891e992e510f renamed positive_integral to nn_integral
hoelzl
parents: 56994
diff changeset
  2273
    using f by (intro nn_integral_eq_integral integrable_norm) auto
56993
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2274
  then have "(\<integral>x. norm (f x) \<partial>M) = 0 \<longleftrightarrow> (\<integral>\<^sup>+x. norm (f x) \<partial>M) = 0"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2275
    by simp
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2276
  also have "\<dots> \<longleftrightarrow> emeasure M {x\<in>space M. ereal (norm (f x)) \<noteq> 0} = 0"
56996
891e992e510f renamed positive_integral to nn_integral
hoelzl
parents: 56994
diff changeset
  2277
    by (intro nn_integral_0_iff) auto
56993
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2278
  finally show ?thesis
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2279
    by simp
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2280
qed
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2281
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2282
lemma integral_0_iff:
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2283
  fixes f :: "'a \<Rightarrow> real"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2284
  shows "integrable M f \<Longrightarrow> (\<integral>x. abs (f x) \<partial>M) = 0 \<longleftrightarrow> emeasure M {x\<in>space M. f x \<noteq> 0} = 0"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2285
  using integral_norm_eq_0_iff[of M f] by simp
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2286
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2287
lemma (in finite_measure) integrable_const[intro!, simp]: "integrable M (\<lambda>x. a)"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2288
  using integrable_indicator[of "space M" M a] by (simp cong: integrable_cong)
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2289
57166
5cfcc616d485 use 0 as integral-value for non-integrable functions, simplify a couple of rewrite rules
hoelzl
parents: 57137
diff changeset
  2290
lemma lebesgue_integral_const[simp]: 
5cfcc616d485 use 0 as integral-value for non-integrable functions, simplify a couple of rewrite rules
hoelzl
parents: 57137
diff changeset
  2291
  fixes a :: "'a :: {banach, second_countable_topology}"
5cfcc616d485 use 0 as integral-value for non-integrable functions, simplify a couple of rewrite rules
hoelzl
parents: 57137
diff changeset
  2292
  shows "(\<integral>x. a \<partial>M) = measure M (space M) *\<^sub>R a"
5cfcc616d485 use 0 as integral-value for non-integrable functions, simplify a couple of rewrite rules
hoelzl
parents: 57137
diff changeset
  2293
proof -
5cfcc616d485 use 0 as integral-value for non-integrable functions, simplify a couple of rewrite rules
hoelzl
parents: 57137
diff changeset
  2294
  { assume "emeasure M (space M) = \<infinity>" "a \<noteq> 0"
5cfcc616d485 use 0 as integral-value for non-integrable functions, simplify a couple of rewrite rules
hoelzl
parents: 57137
diff changeset
  2295
    then have ?thesis
5cfcc616d485 use 0 as integral-value for non-integrable functions, simplify a couple of rewrite rules
hoelzl
parents: 57137
diff changeset
  2296
      by (simp add: not_integrable_integral_eq measure_def integrable_iff_bounded) }
5cfcc616d485 use 0 as integral-value for non-integrable functions, simplify a couple of rewrite rules
hoelzl
parents: 57137
diff changeset
  2297
  moreover
5cfcc616d485 use 0 as integral-value for non-integrable functions, simplify a couple of rewrite rules
hoelzl
parents: 57137
diff changeset
  2298
  { assume "a = 0" then have ?thesis by simp }
5cfcc616d485 use 0 as integral-value for non-integrable functions, simplify a couple of rewrite rules
hoelzl
parents: 57137
diff changeset
  2299
  moreover
5cfcc616d485 use 0 as integral-value for non-integrable functions, simplify a couple of rewrite rules
hoelzl
parents: 57137
diff changeset
  2300
  { assume "emeasure M (space M) \<noteq> \<infinity>"
5cfcc616d485 use 0 as integral-value for non-integrable functions, simplify a couple of rewrite rules
hoelzl
parents: 57137
diff changeset
  2301
    interpret finite_measure M
5cfcc616d485 use 0 as integral-value for non-integrable functions, simplify a couple of rewrite rules
hoelzl
parents: 57137
diff changeset
  2302
      proof qed fact
5cfcc616d485 use 0 as integral-value for non-integrable functions, simplify a couple of rewrite rules
hoelzl
parents: 57137
diff changeset
  2303
    have "(\<integral>x. a \<partial>M) = (\<integral>x. indicator (space M) x *\<^sub>R a \<partial>M)"
5cfcc616d485 use 0 as integral-value for non-integrable functions, simplify a couple of rewrite rules
hoelzl
parents: 57137
diff changeset
  2304
      by (intro integral_cong) auto
5cfcc616d485 use 0 as integral-value for non-integrable functions, simplify a couple of rewrite rules
hoelzl
parents: 57137
diff changeset
  2305
    also have "\<dots> = measure M (space M) *\<^sub>R a"
5cfcc616d485 use 0 as integral-value for non-integrable functions, simplify a couple of rewrite rules
hoelzl
parents: 57137
diff changeset
  2306
      by simp
5cfcc616d485 use 0 as integral-value for non-integrable functions, simplify a couple of rewrite rules
hoelzl
parents: 57137
diff changeset
  2307
    finally have ?thesis . }
5cfcc616d485 use 0 as integral-value for non-integrable functions, simplify a couple of rewrite rules
hoelzl
parents: 57137
diff changeset
  2308
  ultimately show ?thesis by blast
5cfcc616d485 use 0 as integral-value for non-integrable functions, simplify a couple of rewrite rules
hoelzl
parents: 57137
diff changeset
  2309
qed
5cfcc616d485 use 0 as integral-value for non-integrable functions, simplify a couple of rewrite rules
hoelzl
parents: 57137
diff changeset
  2310
56993
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2311
lemma (in finite_measure) integrable_const_bound:
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2312
  fixes f :: "'a \<Rightarrow> 'b::{banach,second_countable_topology}"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2313
  shows "AE x in M. norm (f x) \<le> B \<Longrightarrow> f \<in> borel_measurable M \<Longrightarrow> integrable M f"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2314
  apply (rule integrable_bound[OF integrable_const[of B], of f])
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2315
  apply assumption
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2316
  apply (cases "0 \<le> B")
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2317
  apply auto
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2318
  done
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2319
59000
6eb0725503fc import general theorems from AFP/Markov_Models
hoelzl
parents: 58876
diff changeset
  2320
lemma integral_indicator_finite_real:
6eb0725503fc import general theorems from AFP/Markov_Models
hoelzl
parents: 58876
diff changeset
  2321
  fixes f :: "'a \<Rightarrow> real"
6eb0725503fc import general theorems from AFP/Markov_Models
hoelzl
parents: 58876
diff changeset
  2322
  assumes [simp]: "finite A"
6eb0725503fc import general theorems from AFP/Markov_Models
hoelzl
parents: 58876
diff changeset
  2323
  assumes [measurable]: "\<And>a. a \<in> A \<Longrightarrow> {a} \<in> sets M"
6eb0725503fc import general theorems from AFP/Markov_Models
hoelzl
parents: 58876
diff changeset
  2324
  assumes finite: "\<And>a. a \<in> A \<Longrightarrow> emeasure M {a} < \<infinity>"
6eb0725503fc import general theorems from AFP/Markov_Models
hoelzl
parents: 58876
diff changeset
  2325
  shows "(\<integral>x. f x * indicator A x \<partial>M) = (\<Sum>a\<in>A. f a * measure M {a})"
6eb0725503fc import general theorems from AFP/Markov_Models
hoelzl
parents: 58876
diff changeset
  2326
proof -
6eb0725503fc import general theorems from AFP/Markov_Models
hoelzl
parents: 58876
diff changeset
  2327
  have "(\<integral>x. f x * indicator A x \<partial>M) = (\<integral>x. (\<Sum>a\<in>A. f a * indicator {a} x) \<partial>M)"
6eb0725503fc import general theorems from AFP/Markov_Models
hoelzl
parents: 58876
diff changeset
  2328
  proof (intro integral_cong refl)
6eb0725503fc import general theorems from AFP/Markov_Models
hoelzl
parents: 58876
diff changeset
  2329
    fix x show "f x * indicator A x = (\<Sum>a\<in>A. f a * indicator {a} x)"
6eb0725503fc import general theorems from AFP/Markov_Models
hoelzl
parents: 58876
diff changeset
  2330
      by (auto split: split_indicator simp: eq_commute[of x] cong: conj_cong)
6eb0725503fc import general theorems from AFP/Markov_Models
hoelzl
parents: 58876
diff changeset
  2331
  qed
6eb0725503fc import general theorems from AFP/Markov_Models
hoelzl
parents: 58876
diff changeset
  2332
  also have "\<dots> = (\<Sum>a\<in>A. f a * measure M {a})"
6eb0725503fc import general theorems from AFP/Markov_Models
hoelzl
parents: 58876
diff changeset
  2333
    using finite by (subst integral_setsum) (auto simp add: integrable_mult_left_iff)
6eb0725503fc import general theorems from AFP/Markov_Models
hoelzl
parents: 58876
diff changeset
  2334
  finally show ?thesis .
6eb0725503fc import general theorems from AFP/Markov_Models
hoelzl
parents: 58876
diff changeset
  2335
qed
6eb0725503fc import general theorems from AFP/Markov_Models
hoelzl
parents: 58876
diff changeset
  2336
6eb0725503fc import general theorems from AFP/Markov_Models
hoelzl
parents: 58876
diff changeset
  2337
lemma (in finite_measure) ereal_integral_real:
6eb0725503fc import general theorems from AFP/Markov_Models
hoelzl
parents: 58876
diff changeset
  2338
  assumes [measurable]: "f \<in> borel_measurable M" 
6eb0725503fc import general theorems from AFP/Markov_Models
hoelzl
parents: 58876
diff changeset
  2339
  assumes ae: "AE x in M. 0 \<le> f x" "AE x in M. f x \<le> ereal B"
6eb0725503fc import general theorems from AFP/Markov_Models
hoelzl
parents: 58876
diff changeset
  2340
  shows "ereal (\<integral>x. real (f x) \<partial>M) = (\<integral>\<^sup>+x. f x \<partial>M)"
6eb0725503fc import general theorems from AFP/Markov_Models
hoelzl
parents: 58876
diff changeset
  2341
proof (subst nn_integral_eq_integral[symmetric])
6eb0725503fc import general theorems from AFP/Markov_Models
hoelzl
parents: 58876
diff changeset
  2342
  show "integrable M (\<lambda>x. real (f x))"
6eb0725503fc import general theorems from AFP/Markov_Models
hoelzl
parents: 58876
diff changeset
  2343
    using ae by (intro integrable_const_bound[where B=B]) (auto simp: real_le_ereal_iff)
6eb0725503fc import general theorems from AFP/Markov_Models
hoelzl
parents: 58876
diff changeset
  2344
  show "AE x in M. 0 \<le> real (f x)"
6eb0725503fc import general theorems from AFP/Markov_Models
hoelzl
parents: 58876
diff changeset
  2345
    using ae by (auto simp: real_of_ereal_pos)
6eb0725503fc import general theorems from AFP/Markov_Models
hoelzl
parents: 58876
diff changeset
  2346
  show "(\<integral>\<^sup>+ x. ereal (real (f x)) \<partial>M) = integral\<^sup>N M f"
6eb0725503fc import general theorems from AFP/Markov_Models
hoelzl
parents: 58876
diff changeset
  2347
    using ae by (intro nn_integral_cong_AE) (auto simp: ereal_real)
6eb0725503fc import general theorems from AFP/Markov_Models
hoelzl
parents: 58876
diff changeset
  2348
qed
6eb0725503fc import general theorems from AFP/Markov_Models
hoelzl
parents: 58876
diff changeset
  2349
56993
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2350
lemma (in finite_measure) integral_less_AE:
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2351
  fixes X Y :: "'a \<Rightarrow> real"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2352
  assumes int: "integrable M X" "integrable M Y"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2353
  assumes A: "(emeasure M) A \<noteq> 0" "A \<in> sets M" "AE x in M. x \<in> A \<longrightarrow> X x \<noteq> Y x"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2354
  assumes gt: "AE x in M. X x \<le> Y x"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2355
  shows "integral\<^sup>L M X < integral\<^sup>L M Y"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2356
proof -
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2357
  have "integral\<^sup>L M X \<le> integral\<^sup>L M Y"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2358
    using gt int by (intro integral_mono_AE) auto
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2359
  moreover
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2360
  have "integral\<^sup>L M X \<noteq> integral\<^sup>L M Y"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2361
  proof
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2362
    assume eq: "integral\<^sup>L M X = integral\<^sup>L M Y"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2363
    have "integral\<^sup>L M (\<lambda>x. \<bar>Y x - X x\<bar>) = integral\<^sup>L M (\<lambda>x. Y x - X x)"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2364
      using gt int by (intro integral_cong_AE) auto
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2365
    also have "\<dots> = 0"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2366
      using eq int by simp
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2367
    finally have "(emeasure M) {x \<in> space M. Y x - X x \<noteq> 0} = 0"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2368
      using int by (simp add: integral_0_iff)
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2369
    moreover
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2370
    have "(\<integral>\<^sup>+x. indicator A x \<partial>M) \<le> (\<integral>\<^sup>+x. indicator {x \<in> space M. Y x - X x \<noteq> 0} x \<partial>M)"
56996
891e992e510f renamed positive_integral to nn_integral
hoelzl
parents: 56994
diff changeset
  2371
      using A by (intro nn_integral_mono_AE) auto
56993
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2372
    then have "(emeasure M) A \<le> (emeasure M) {x \<in> space M. Y x - X x \<noteq> 0}"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2373
      using int A by (simp add: integrable_def)
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2374
    ultimately have "emeasure M A = 0"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2375
      using emeasure_nonneg[of M A] by simp
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2376
    with `(emeasure M) A \<noteq> 0` show False by auto
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2377
  qed
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2378
  ultimately show ?thesis by auto
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2379
qed
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2380
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2381
lemma (in finite_measure) integral_less_AE_space:
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2382
  fixes X Y :: "'a \<Rightarrow> real"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2383
  assumes int: "integrable M X" "integrable M Y"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2384
  assumes gt: "AE x in M. X x < Y x" "emeasure M (space M) \<noteq> 0"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2385
  shows "integral\<^sup>L M X < integral\<^sup>L M Y"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2386
  using gt by (intro integral_less_AE[OF int, where A="space M"]) auto
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2387
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2388
lemma tendsto_integral_at_top:
57275
0ddb5b755cdc moved lemmas from the proof of the Central Limit Theorem by Jeremy Avigad and Luke Serafin
hoelzl
parents: 57235
diff changeset
  2389
  fixes f :: "real \<Rightarrow> 'a::{banach, second_countable_topology}"
59048
7dc8ac6f0895 add congruence solver to measurability prover
hoelzl
parents: 59000
diff changeset
  2390
  assumes [measurable_cong]: "sets M = sets borel" and f[measurable]: "integrable M f"
57275
0ddb5b755cdc moved lemmas from the proof of the Central Limit Theorem by Jeremy Avigad and Luke Serafin
hoelzl
parents: 57235
diff changeset
  2391
  shows "((\<lambda>y. \<integral> x. indicator {.. y} x *\<^sub>R f x \<partial>M) ---> \<integral> x. f x \<partial>M) at_top"
0ddb5b755cdc moved lemmas from the proof of the Central Limit Theorem by Jeremy Avigad and Luke Serafin
hoelzl
parents: 57235
diff changeset
  2392
proof (rule tendsto_at_topI_sequentially)
0ddb5b755cdc moved lemmas from the proof of the Central Limit Theorem by Jeremy Avigad and Luke Serafin
hoelzl
parents: 57235
diff changeset
  2393
  fix X :: "nat \<Rightarrow> real" assume "filterlim X at_top sequentially"
0ddb5b755cdc moved lemmas from the proof of the Central Limit Theorem by Jeremy Avigad and Luke Serafin
hoelzl
parents: 57235
diff changeset
  2394
  show "(\<lambda>n. \<integral>x. indicator {..X n} x *\<^sub>R f x \<partial>M) ----> integral\<^sup>L M f"
0ddb5b755cdc moved lemmas from the proof of the Central Limit Theorem by Jeremy Avigad and Luke Serafin
hoelzl
parents: 57235
diff changeset
  2395
  proof (rule integral_dominated_convergence)
0ddb5b755cdc moved lemmas from the proof of the Central Limit Theorem by Jeremy Avigad and Luke Serafin
hoelzl
parents: 57235
diff changeset
  2396
    show "integrable M (\<lambda>x. norm (f x))"
0ddb5b755cdc moved lemmas from the proof of the Central Limit Theorem by Jeremy Avigad and Luke Serafin
hoelzl
parents: 57235
diff changeset
  2397
      by (rule integrable_norm) fact
0ddb5b755cdc moved lemmas from the proof of the Central Limit Theorem by Jeremy Avigad and Luke Serafin
hoelzl
parents: 57235
diff changeset
  2398
    show "AE x in M. (\<lambda>n. indicator {..X n} x *\<^sub>R f x) ----> f x"
0ddb5b755cdc moved lemmas from the proof of the Central Limit Theorem by Jeremy Avigad and Luke Serafin
hoelzl
parents: 57235
diff changeset
  2399
    proof
0ddb5b755cdc moved lemmas from the proof of the Central Limit Theorem by Jeremy Avigad and Luke Serafin
hoelzl
parents: 57235
diff changeset
  2400
      fix x
0ddb5b755cdc moved lemmas from the proof of the Central Limit Theorem by Jeremy Avigad and Luke Serafin
hoelzl
parents: 57235
diff changeset
  2401
      from `filterlim X at_top sequentially` 
0ddb5b755cdc moved lemmas from the proof of the Central Limit Theorem by Jeremy Avigad and Luke Serafin
hoelzl
parents: 57235
diff changeset
  2402
      have "eventually (\<lambda>n. x \<le> X n) sequentially"
0ddb5b755cdc moved lemmas from the proof of the Central Limit Theorem by Jeremy Avigad and Luke Serafin
hoelzl
parents: 57235
diff changeset
  2403
        unfolding filterlim_at_top_ge[where c=x] by auto
0ddb5b755cdc moved lemmas from the proof of the Central Limit Theorem by Jeremy Avigad and Luke Serafin
hoelzl
parents: 57235
diff changeset
  2404
      then show "(\<lambda>n. indicator {..X n} x *\<^sub>R f x) ----> f x"
0ddb5b755cdc moved lemmas from the proof of the Central Limit Theorem by Jeremy Avigad and Luke Serafin
hoelzl
parents: 57235
diff changeset
  2405
        by (intro Lim_eventually) (auto split: split_indicator elim!: eventually_elim1)
0ddb5b755cdc moved lemmas from the proof of the Central Limit Theorem by Jeremy Avigad and Luke Serafin
hoelzl
parents: 57235
diff changeset
  2406
    qed
0ddb5b755cdc moved lemmas from the proof of the Central Limit Theorem by Jeremy Avigad and Luke Serafin
hoelzl
parents: 57235
diff changeset
  2407
    fix n show "AE x in M. norm (indicator {..X n} x *\<^sub>R f x) \<le> norm (f x)"
0ddb5b755cdc moved lemmas from the proof of the Central Limit Theorem by Jeremy Avigad and Luke Serafin
hoelzl
parents: 57235
diff changeset
  2408
      by (auto split: split_indicator)
0ddb5b755cdc moved lemmas from the proof of the Central Limit Theorem by Jeremy Avigad and Luke Serafin
hoelzl
parents: 57235
diff changeset
  2409
  qed auto
56993
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2410
qed
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2411
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2412
lemma
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2413
  fixes f :: "real \<Rightarrow> real"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2414
  assumes M: "sets M = sets borel"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2415
  assumes nonneg: "AE x in M. 0 \<le> f x"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2416
  assumes borel: "f \<in> borel_measurable borel"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2417
  assumes int: "\<And>y. integrable M (\<lambda>x. f x * indicator {.. y} x)"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2418
  assumes conv: "((\<lambda>y. \<integral> x. f x * indicator {.. y} x \<partial>M) ---> x) at_top"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2419
  shows has_bochner_integral_monotone_convergence_at_top: "has_bochner_integral M f x"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2420
    and integrable_monotone_convergence_at_top: "integrable M f"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2421
    and integral_monotone_convergence_at_top:"integral\<^sup>L M f = x"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2422
proof -
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2423
  from nonneg have "AE x in M. mono (\<lambda>n::nat. f x * indicator {..real n} x)"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2424
    by (auto split: split_indicator intro!: monoI)
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2425
  { fix x have "eventually (\<lambda>n. f x * indicator {..real n} x = f x) sequentially"
59587
8ea7b22525cb Removed the obsolete functions "natfloor" and "natceiling"
nipkow
parents: 59452
diff changeset
  2426
      by (rule eventually_sequentiallyI[of "nat(ceiling x)"])
8ea7b22525cb Removed the obsolete functions "natfloor" and "natceiling"
nipkow
parents: 59452
diff changeset
  2427
         (auto split: split_indicator simp: nat_le_iff ceiling_le_iff) }
56993
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2428
  from filterlim_cong[OF refl refl this]
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2429
  have "AE x in M. (\<lambda>i. f x * indicator {..real i} x) ----> f x"
58729
e8ecc79aee43 add tendsto_const and tendsto_ident_at as simp and intro rules
hoelzl
parents: 57514
diff changeset
  2430
    by simp
56993
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2431
  have "(\<lambda>i. \<integral> x. f x * indicator {..real i} x \<partial>M) ----> x"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2432
    using conv filterlim_real_sequentially by (rule filterlim_compose)
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2433
  have M_measure[simp]: "borel_measurable M = borel_measurable borel"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2434
    using M by (simp add: sets_eq_imp_space_eq measurable_def)
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2435
  have "f \<in> borel_measurable M"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2436
    using borel by simp
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2437
  show "has_bochner_integral M f x"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2438
    by (rule has_bochner_integral_monotone_convergence) fact+
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2439
  then show "integrable M f" "integral\<^sup>L M f = x"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2440
    by (auto simp: _has_bochner_integral_iff)
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2441
qed
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2442
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2443
subsection {* Product measure *}
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2444
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2445
lemma (in sigma_finite_measure) borel_measurable_lebesgue_integrable[measurable (raw)]:
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2446
  fixes f :: "_ \<Rightarrow> _ \<Rightarrow> _::{banach, second_countable_topology}"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2447
  assumes [measurable]: "split f \<in> borel_measurable (N \<Otimes>\<^sub>M M)"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2448
  shows "Measurable.pred N (\<lambda>x. integrable M (f x))"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2449
proof -
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2450
  have [simp]: "\<And>x. x \<in> space N \<Longrightarrow> integrable M (f x) \<longleftrightarrow> (\<integral>\<^sup>+y. norm (f x y) \<partial>M) < \<infinity>"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2451
    unfolding integrable_iff_bounded by simp
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2452
  show ?thesis
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2453
    by (simp cong: measurable_cong)
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2454
qed
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2455
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2456
lemma (in sigma_finite_measure) measurable_measure[measurable (raw)]:
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2457
  "(\<And>x. x \<in> space N \<Longrightarrow> A x \<subseteq> space M) \<Longrightarrow>
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2458
    {x \<in> space (N \<Otimes>\<^sub>M M). snd x \<in> A (fst x)} \<in> sets (N \<Otimes>\<^sub>M M) \<Longrightarrow>
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2459
    (\<lambda>x. measure M (A x)) \<in> borel_measurable N"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2460
  unfolding measure_def by (intro measurable_emeasure borel_measurable_real_of_ereal)
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2461
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2462
lemma Collect_subset [simp]: "{x\<in>A. P x} \<subseteq> A" by auto
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2463
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2464
lemma (in sigma_finite_measure) borel_measurable_lebesgue_integral[measurable (raw)]:
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2465
  fixes f :: "_ \<Rightarrow> _ \<Rightarrow> _::{banach, second_countable_topology}"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2466
  assumes f[measurable]: "split f \<in> borel_measurable (N \<Otimes>\<^sub>M M)"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2467
  shows "(\<lambda>x. \<integral>y. f x y \<partial>M) \<in> borel_measurable N"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2468
proof -
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2469
  from borel_measurable_implies_sequence_metric[OF f, of 0] guess s ..
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2470
  then have s: "\<And>i. simple_function (N \<Otimes>\<^sub>M M) (s i)"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2471
    "\<And>x y. x \<in> space N \<Longrightarrow> y \<in> space M \<Longrightarrow> (\<lambda>i. s i (x, y)) ----> f x y"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2472
    "\<And>i x y. x \<in> space N \<Longrightarrow> y \<in> space M \<Longrightarrow> norm (s i (x, y)) \<le> 2 * norm (f x y)"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2473
    by (auto simp: space_pair_measure norm_conv_dist)
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2474
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2475
  have [measurable]: "\<And>i. s i \<in> borel_measurable (N \<Otimes>\<^sub>M M)"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2476
    by (rule borel_measurable_simple_function) fact
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2477
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2478
  have "\<And>i. s i \<in> measurable (N \<Otimes>\<^sub>M M) (count_space UNIV)"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2479
    by (rule measurable_simple_function) fact
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2480
57166
5cfcc616d485 use 0 as integral-value for non-integrable functions, simplify a couple of rewrite rules
hoelzl
parents: 57137
diff changeset
  2481
  def f' \<equiv> "\<lambda>i x. if integrable M (f x) then simple_bochner_integral M (\<lambda>y. s i (x, y)) else 0"
56993
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2482
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2483
  { fix i x assume "x \<in> space N"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2484
    then have "simple_bochner_integral M (\<lambda>y. s i (x, y)) =
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2485
      (\<Sum>z\<in>s i ` (space N \<times> space M). measure M {y \<in> space M. s i (x, y) = z} *\<^sub>R z)"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2486
      using s(1)[THEN simple_functionD(1)]
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2487
      unfolding simple_bochner_integral_def
57418
6ab1c7cb0b8d fact consolidation
haftmann
parents: 57275
diff changeset
  2488
      by (intro setsum.mono_neutral_cong_left)
56993
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2489
         (auto simp: eq_commute space_pair_measure image_iff cong: conj_cong) }
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2490
  note eq = this
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2491
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2492
  show ?thesis
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2493
  proof (rule borel_measurable_LIMSEQ_metric)
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2494
    fix i show "f' i \<in> borel_measurable N"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2495
      unfolding f'_def by (simp_all add: eq cong: measurable_cong if_cong)
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2496
  next
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2497
    fix x assume x: "x \<in> space N"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2498
    { assume int_f: "integrable M (f x)"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2499
      have int_2f: "integrable M (\<lambda>y. 2 * norm (f x y))"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2500
        by (intro integrable_norm integrable_mult_right int_f)
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2501
      have "(\<lambda>i. integral\<^sup>L M (\<lambda>y. s i (x, y))) ----> integral\<^sup>L M (f x)"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2502
      proof (rule integral_dominated_convergence)
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2503
        from int_f show "f x \<in> borel_measurable M" by auto
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2504
        show "\<And>i. (\<lambda>y. s i (x, y)) \<in> borel_measurable M"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2505
          using x by simp
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2506
        show "AE xa in M. (\<lambda>i. s i (x, xa)) ----> f x xa"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2507
          using x s(2) by auto
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2508
        show "\<And>i. AE xa in M. norm (s i (x, xa)) \<le> 2 * norm (f x xa)"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2509
          using x s(3) by auto
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2510
      qed fact
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2511
      moreover
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2512
      { fix i
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2513
        have "simple_bochner_integrable M (\<lambda>y. s i (x, y))"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2514
        proof (rule simple_bochner_integrableI_bounded)
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2515
          have "(\<lambda>y. s i (x, y)) ` space M \<subseteq> s i ` (space N \<times> space M)"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2516
            using x by auto
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2517
          then show "simple_function M (\<lambda>y. s i (x, y))"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2518
            using simple_functionD(1)[OF s(1), of i] x
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2519
            by (intro simple_function_borel_measurable)
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2520
               (auto simp: space_pair_measure dest: finite_subset)
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2521
          have "(\<integral>\<^sup>+ y. ereal (norm (s i (x, y))) \<partial>M) \<le> (\<integral>\<^sup>+ y. 2 * norm (f x y) \<partial>M)"
56996
891e992e510f renamed positive_integral to nn_integral
hoelzl
parents: 56994
diff changeset
  2522
            using x s by (intro nn_integral_mono) auto
56993
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2523
          also have "(\<integral>\<^sup>+ y. 2 * norm (f x y) \<partial>M) < \<infinity>"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2524
            using int_2f by (simp add: integrable_iff_bounded)
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2525
          finally show "(\<integral>\<^sup>+ xa. ereal (norm (s i (x, xa))) \<partial>M) < \<infinity>" .
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2526
        qed
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2527
        then have "integral\<^sup>L M (\<lambda>y. s i (x, y)) = simple_bochner_integral M (\<lambda>y. s i (x, y))"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2528
          by (rule simple_bochner_integrable_eq_integral[symmetric]) }
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2529
      ultimately have "(\<lambda>i. simple_bochner_integral M (\<lambda>y. s i (x, y))) ----> integral\<^sup>L M (f x)"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2530
        by simp }
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2531
    then 
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2532
    show "(\<lambda>i. f' i x) ----> integral\<^sup>L M (f x)"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2533
      unfolding f'_def
58729
e8ecc79aee43 add tendsto_const and tendsto_ident_at as simp and intro rules
hoelzl
parents: 57514
diff changeset
  2534
      by (cases "integrable M (f x)") (simp_all add: not_integrable_integral_eq)
56993
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2535
  qed
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2536
qed
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2537
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2538
lemma (in pair_sigma_finite) integrable_product_swap:
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2539
  fixes f :: "_ \<Rightarrow> _::{banach, second_countable_topology}"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2540
  assumes "integrable (M1 \<Otimes>\<^sub>M M2) f"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2541
  shows "integrable (M2 \<Otimes>\<^sub>M M1) (\<lambda>(x,y). f (y,x))"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2542
proof -
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2543
  interpret Q: pair_sigma_finite M2 M1 by default
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2544
  have *: "(\<lambda>(x,y). f (y,x)) = (\<lambda>x. f (case x of (x,y)\<Rightarrow>(y,x)))" by (auto simp: fun_eq_iff)
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2545
  show ?thesis unfolding *
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2546
    by (rule integrable_distr[OF measurable_pair_swap'])
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2547
       (simp add: distr_pair_swap[symmetric] assms)
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2548
qed
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2549
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2550
lemma (in pair_sigma_finite) integrable_product_swap_iff:
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2551
  fixes f :: "_ \<Rightarrow> _::{banach, second_countable_topology}"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2552
  shows "integrable (M2 \<Otimes>\<^sub>M M1) (\<lambda>(x,y). f (y,x)) \<longleftrightarrow> integrable (M1 \<Otimes>\<^sub>M M2) f"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2553
proof -
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2554
  interpret Q: pair_sigma_finite M2 M1 by default
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2555
  from Q.integrable_product_swap[of "\<lambda>(x,y). f (y,x)"] integrable_product_swap[of f]
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2556
  show ?thesis by auto
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2557
qed
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2558
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2559
lemma (in pair_sigma_finite) integral_product_swap:
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2560
  fixes f :: "_ \<Rightarrow> _::{banach, second_countable_topology}"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2561
  assumes f: "f \<in> borel_measurable (M1 \<Otimes>\<^sub>M M2)"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2562
  shows "(\<integral>(x,y). f (y,x) \<partial>(M2 \<Otimes>\<^sub>M M1)) = integral\<^sup>L (M1 \<Otimes>\<^sub>M M2) f"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2563
proof -
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2564
  have *: "(\<lambda>(x,y). f (y,x)) = (\<lambda>x. f (case x of (x,y)\<Rightarrow>(y,x)))" by (auto simp: fun_eq_iff)
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2565
  show ?thesis unfolding *
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2566
    by (simp add: integral_distr[symmetric, OF measurable_pair_swap' f] distr_pair_swap[symmetric])
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2567
qed
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2568
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2569
lemma (in pair_sigma_finite) emeasure_pair_measure_finite:
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2570
  assumes A: "A \<in> sets (M1 \<Otimes>\<^sub>M M2)" and finite: "emeasure (M1 \<Otimes>\<^sub>M M2) A < \<infinity>"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2571
  shows "AE x in M1. emeasure M2 {y\<in>space M2. (x, y) \<in> A} < \<infinity>"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2572
proof -
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2573
  from M2.emeasure_pair_measure_alt[OF A] finite
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2574
  have "(\<integral>\<^sup>+ x. emeasure M2 (Pair x -` A) \<partial>M1) \<noteq> \<infinity>"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2575
    by simp
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2576
  then have "AE x in M1. emeasure M2 (Pair x -` A) \<noteq> \<infinity>"
56996
891e992e510f renamed positive_integral to nn_integral
hoelzl
parents: 56994
diff changeset
  2577
    by (rule nn_integral_PInf_AE[rotated]) (intro M2.measurable_emeasure_Pair A)
56993
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2578
  moreover have "\<And>x. x \<in> space M1 \<Longrightarrow> Pair x -` A = {y\<in>space M2. (x, y) \<in> A}"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2579
    using sets.sets_into_space[OF A] by (auto simp: space_pair_measure)
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2580
  ultimately show ?thesis by auto
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2581
qed
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2582
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2583
lemma (in pair_sigma_finite) AE_integrable_fst':
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2584
  fixes f :: "_ \<Rightarrow> _::{banach, second_countable_topology}"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2585
  assumes f[measurable]: "integrable (M1 \<Otimes>\<^sub>M M2) f"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2586
  shows "AE x in M1. integrable M2 (\<lambda>y. f (x, y))"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2587
proof -
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2588
  have "(\<integral>\<^sup>+x. (\<integral>\<^sup>+y. norm (f (x, y)) \<partial>M2) \<partial>M1) = (\<integral>\<^sup>+x. norm (f x) \<partial>(M1 \<Otimes>\<^sub>M M2))"
56996
891e992e510f renamed positive_integral to nn_integral
hoelzl
parents: 56994
diff changeset
  2589
    by (rule M2.nn_integral_fst) simp
56993
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2590
  also have "(\<integral>\<^sup>+x. norm (f x) \<partial>(M1 \<Otimes>\<^sub>M M2)) \<noteq> \<infinity>"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2591
    using f unfolding integrable_iff_bounded by simp
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2592
  finally have "AE x in M1. (\<integral>\<^sup>+y. norm (f (x, y)) \<partial>M2) \<noteq> \<infinity>"
56996
891e992e510f renamed positive_integral to nn_integral
hoelzl
parents: 56994
diff changeset
  2593
    by (intro nn_integral_PInf_AE M2.borel_measurable_nn_integral )
56993
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2594
       (auto simp: measurable_split_conv)
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2595
  with AE_space show ?thesis
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2596
    by eventually_elim
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2597
       (auto simp: integrable_iff_bounded measurable_compose[OF _ borel_measurable_integrable[OF f]])
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2598
qed
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2599
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2600
lemma (in pair_sigma_finite) integrable_fst':
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2601
  fixes f :: "_ \<Rightarrow> _::{banach, second_countable_topology}"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2602
  assumes f[measurable]: "integrable (M1 \<Otimes>\<^sub>M M2) f"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2603
  shows "integrable M1 (\<lambda>x. \<integral>y. f (x, y) \<partial>M2)"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2604
  unfolding integrable_iff_bounded
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2605
proof
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2606
  show "(\<lambda>x. \<integral> y. f (x, y) \<partial>M2) \<in> borel_measurable M1"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2607
    by (rule M2.borel_measurable_lebesgue_integral) simp
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2608
  have "(\<integral>\<^sup>+ x. ereal (norm (\<integral> y. f (x, y) \<partial>M2)) \<partial>M1) \<le> (\<integral>\<^sup>+x. (\<integral>\<^sup>+y. norm (f (x, y)) \<partial>M2) \<partial>M1)"
56996
891e992e510f renamed positive_integral to nn_integral
hoelzl
parents: 56994
diff changeset
  2609
    using AE_integrable_fst'[OF f] by (auto intro!: nn_integral_mono_AE integral_norm_bound_ereal)
56993
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2610
  also have "(\<integral>\<^sup>+x. (\<integral>\<^sup>+y. norm (f (x, y)) \<partial>M2) \<partial>M1) = (\<integral>\<^sup>+x. norm (f x) \<partial>(M1 \<Otimes>\<^sub>M M2))"
56996
891e992e510f renamed positive_integral to nn_integral
hoelzl
parents: 56994
diff changeset
  2611
    by (rule M2.nn_integral_fst) simp
56993
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2612
  also have "(\<integral>\<^sup>+x. norm (f x) \<partial>(M1 \<Otimes>\<^sub>M M2)) < \<infinity>"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2613
    using f unfolding integrable_iff_bounded by simp
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2614
  finally show "(\<integral>\<^sup>+ x. ereal (norm (\<integral> y. f (x, y) \<partial>M2)) \<partial>M1) < \<infinity>" .
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2615
qed
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2616
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2617
lemma (in pair_sigma_finite) integral_fst':
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2618
  fixes f :: "_ \<Rightarrow> _::{banach, second_countable_topology}"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2619
  assumes f: "integrable (M1 \<Otimes>\<^sub>M M2) f"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2620
  shows "(\<integral>x. (\<integral>y. f (x, y) \<partial>M2) \<partial>M1) = integral\<^sup>L (M1 \<Otimes>\<^sub>M M2) f"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2621
using f proof induct
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2622
  case (base A c)
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2623
  have A[measurable]: "A \<in> sets (M1 \<Otimes>\<^sub>M M2)" by fact
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2624
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2625
  have eq: "\<And>x y. x \<in> space M1 \<Longrightarrow> indicator A (x, y) = indicator {y\<in>space M2. (x, y) \<in> A} y"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2626
    using sets.sets_into_space[OF A] by (auto split: split_indicator simp: space_pair_measure)
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2627
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2628
  have int_A: "integrable (M1 \<Otimes>\<^sub>M M2) (indicator A :: _ \<Rightarrow> real)"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2629
    using base by (rule integrable_real_indicator)
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2630
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2631
  have "(\<integral> x. \<integral> y. indicator A (x, y) *\<^sub>R c \<partial>M2 \<partial>M1) = (\<integral>x. measure M2 {y\<in>space M2. (x, y) \<in> A} *\<^sub>R c \<partial>M1)"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2632
  proof (intro integral_cong_AE, simp, simp)
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2633
    from AE_integrable_fst'[OF int_A] AE_space
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2634
    show "AE x in M1. (\<integral>y. indicator A (x, y) *\<^sub>R c \<partial>M2) = measure M2 {y\<in>space M2. (x, y) \<in> A} *\<^sub>R c"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2635
      by eventually_elim (simp add: eq integrable_indicator_iff)
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2636
  qed
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2637
  also have "\<dots> = measure (M1 \<Otimes>\<^sub>M M2) A *\<^sub>R c"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2638
  proof (subst integral_scaleR_left)
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2639
    have "(\<integral>\<^sup>+x. ereal (measure M2 {y \<in> space M2. (x, y) \<in> A}) \<partial>M1) =
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2640
      (\<integral>\<^sup>+x. emeasure M2 {y \<in> space M2. (x, y) \<in> A} \<partial>M1)"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2641
      using emeasure_pair_measure_finite[OF base]
56996
891e992e510f renamed positive_integral to nn_integral
hoelzl
parents: 56994
diff changeset
  2642
      by (intro nn_integral_cong_AE, eventually_elim) (simp add: emeasure_eq_ereal_measure)
56993
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2643
    also have "\<dots> = emeasure (M1 \<Otimes>\<^sub>M M2) A"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2644
      using sets.sets_into_space[OF A]
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2645
      by (subst M2.emeasure_pair_measure_alt)
56996
891e992e510f renamed positive_integral to nn_integral
hoelzl
parents: 56994
diff changeset
  2646
         (auto intro!: nn_integral_cong arg_cong[where f="emeasure M2"] simp: space_pair_measure)
56993
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2647
    finally have *: "(\<integral>\<^sup>+x. ereal (measure M2 {y \<in> space M2. (x, y) \<in> A}) \<partial>M1) = emeasure (M1 \<Otimes>\<^sub>M M2) A" .
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2648
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2649
    from base * show "integrable M1 (\<lambda>x. measure M2 {y \<in> space M2. (x, y) \<in> A})"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2650
      by (simp add: measure_nonneg integrable_iff_bounded)
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2651
    then have "(\<integral>x. measure M2 {y \<in> space M2. (x, y) \<in> A} \<partial>M1) = 
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2652
      (\<integral>\<^sup>+x. ereal (measure M2 {y \<in> space M2. (x, y) \<in> A}) \<partial>M1)"
56996
891e992e510f renamed positive_integral to nn_integral
hoelzl
parents: 56994
diff changeset
  2653
      by (rule nn_integral_eq_integral[symmetric]) (simp add: measure_nonneg)
56993
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2654
    also note *
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2655
    finally show "(\<integral>x. measure M2 {y \<in> space M2. (x, y) \<in> A} \<partial>M1) *\<^sub>R c = measure (M1 \<Otimes>\<^sub>M M2) A *\<^sub>R c"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2656
      using base by (simp add: emeasure_eq_ereal_measure)
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2657
  qed
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2658
  also have "\<dots> = (\<integral> a. indicator A a *\<^sub>R c \<partial>(M1 \<Otimes>\<^sub>M M2))"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2659
    using base by simp
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2660
  finally show ?case .
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2661
next
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2662
  case (add f g)
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2663
  then have [measurable]: "f \<in> borel_measurable (M1 \<Otimes>\<^sub>M M2)" "g \<in> borel_measurable (M1 \<Otimes>\<^sub>M M2)"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2664
    by auto
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2665
  have "(\<integral> x. \<integral> y. f (x, y) + g (x, y) \<partial>M2 \<partial>M1) = 
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2666
    (\<integral> x. (\<integral> y. f (x, y) \<partial>M2) + (\<integral> y. g (x, y) \<partial>M2) \<partial>M1)"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2667
    apply (rule integral_cong_AE)
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2668
    apply simp_all
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2669
    using AE_integrable_fst'[OF add(1)] AE_integrable_fst'[OF add(3)]
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2670
    apply eventually_elim
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2671
    apply simp
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2672
    done 
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2673
  also have "\<dots> = (\<integral> x. f x \<partial>(M1 \<Otimes>\<^sub>M M2)) + (\<integral> x. g x \<partial>(M1 \<Otimes>\<^sub>M M2))"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2674
    using integrable_fst'[OF add(1)] integrable_fst'[OF add(3)] add(2,4) by simp
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2675
  finally show ?case
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2676
    using add by simp
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2677
next
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2678
  case (lim f s)
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2679
  then have [measurable]: "f \<in> borel_measurable (M1 \<Otimes>\<^sub>M M2)" "\<And>i. s i \<in> borel_measurable (M1 \<Otimes>\<^sub>M M2)"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2680
    by auto
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2681
  
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2682
  show ?case
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2683
  proof (rule LIMSEQ_unique)
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2684
    show "(\<lambda>i. integral\<^sup>L (M1 \<Otimes>\<^sub>M M2) (s i)) ----> integral\<^sup>L (M1 \<Otimes>\<^sub>M M2) f"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2685
    proof (rule integral_dominated_convergence)
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2686
      show "integrable (M1 \<Otimes>\<^sub>M M2) (\<lambda>x. 2 * norm (f x))"
57036
22568fb89165 generalized Bochner integral over infinite sums
hoelzl
parents: 57025
diff changeset
  2687
        using lim(5) by auto
56993
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2688
    qed (insert lim, auto)
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2689
    have "(\<lambda>i. \<integral> x. \<integral> y. s i (x, y) \<partial>M2 \<partial>M1) ----> \<integral> x. \<integral> y. f (x, y) \<partial>M2 \<partial>M1"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2690
    proof (rule integral_dominated_convergence)
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2691
      have "AE x in M1. \<forall>i. integrable M2 (\<lambda>y. s i (x, y))"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2692
        unfolding AE_all_countable using AE_integrable_fst'[OF lim(1)] ..
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2693
      with AE_space AE_integrable_fst'[OF lim(5)]
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2694
      show "AE x in M1. (\<lambda>i. \<integral> y. s i (x, y) \<partial>M2) ----> \<integral> y. f (x, y) \<partial>M2"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2695
      proof eventually_elim
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2696
        fix x assume x: "x \<in> space M1" and
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2697
          s: "\<forall>i. integrable M2 (\<lambda>y. s i (x, y))" and f: "integrable M2 (\<lambda>y. f (x, y))"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2698
        show "(\<lambda>i. \<integral> y. s i (x, y) \<partial>M2) ----> \<integral> y. f (x, y) \<partial>M2"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2699
        proof (rule integral_dominated_convergence)
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2700
          show "integrable M2 (\<lambda>y. 2 * norm (f (x, y)))"
57036
22568fb89165 generalized Bochner integral over infinite sums
hoelzl
parents: 57025
diff changeset
  2701
             using f by auto
56993
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2702
          show "AE xa in M2. (\<lambda>i. s i (x, xa)) ----> f (x, xa)"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2703
            using x lim(3) by (auto simp: space_pair_measure)
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2704
          show "\<And>i. AE xa in M2. norm (s i (x, xa)) \<le> 2 * norm (f (x, xa))"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2705
            using x lim(4) by (auto simp: space_pair_measure)
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2706
        qed (insert x, measurable)
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2707
      qed
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2708
      show "integrable M1 (\<lambda>x. (\<integral> y. 2 * norm (f (x, y)) \<partial>M2))"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2709
        by (intro integrable_mult_right integrable_norm integrable_fst' lim)
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2710
      fix i show "AE x in M1. norm (\<integral> y. s i (x, y) \<partial>M2) \<le> (\<integral> y. 2 * norm (f (x, y)) \<partial>M2)"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2711
        using AE_space AE_integrable_fst'[OF lim(1), of i] AE_integrable_fst'[OF lim(5)]
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2712
      proof eventually_elim 
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2713
        fix x assume x: "x \<in> space M1"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2714
          and s: "integrable M2 (\<lambda>y. s i (x, y))" and f: "integrable M2 (\<lambda>y. f (x, y))"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2715
        from s have "norm (\<integral> y. s i (x, y) \<partial>M2) \<le> (\<integral>\<^sup>+y. norm (s i (x, y)) \<partial>M2)"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2716
          by (rule integral_norm_bound_ereal)
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2717
        also have "\<dots> \<le> (\<integral>\<^sup>+y. 2 * norm (f (x, y)) \<partial>M2)"
56996
891e992e510f renamed positive_integral to nn_integral
hoelzl
parents: 56994
diff changeset
  2718
          using x lim by (auto intro!: nn_integral_mono simp: space_pair_measure)
56993
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2719
        also have "\<dots> = (\<integral>y. 2 * norm (f (x, y)) \<partial>M2)"
56996
891e992e510f renamed positive_integral to nn_integral
hoelzl
parents: 56994
diff changeset
  2720
          using f by (intro nn_integral_eq_integral) auto
56993
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2721
        finally show "norm (\<integral> y. s i (x, y) \<partial>M2) \<le> (\<integral> y. 2 * norm (f (x, y)) \<partial>M2)"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2722
          by simp
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2723
      qed
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2724
    qed simp_all
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2725
    then show "(\<lambda>i. integral\<^sup>L (M1 \<Otimes>\<^sub>M M2) (s i)) ----> \<integral> x. \<integral> y. f (x, y) \<partial>M2 \<partial>M1"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2726
      using lim by simp
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2727
  qed
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2728
qed
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2729
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2730
lemma (in pair_sigma_finite)
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2731
  fixes f :: "_ \<Rightarrow> _ \<Rightarrow> _::{banach, second_countable_topology}"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2732
  assumes f: "integrable (M1 \<Otimes>\<^sub>M M2) (split f)"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2733
  shows AE_integrable_fst: "AE x in M1. integrable M2 (\<lambda>y. f x y)" (is "?AE")
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2734
    and integrable_fst: "integrable M1 (\<lambda>x. \<integral>y. f x y \<partial>M2)" (is "?INT")
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2735
    and integral_fst: "(\<integral>x. (\<integral>y. f x y \<partial>M2) \<partial>M1) = integral\<^sup>L (M1 \<Otimes>\<^sub>M M2) (\<lambda>(x, y). f x y)" (is "?EQ")
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2736
  using AE_integrable_fst'[OF f] integrable_fst'[OF f] integral_fst'[OF f] by auto
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2737
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2738
lemma (in pair_sigma_finite)
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2739
  fixes f :: "_ \<Rightarrow> _ \<Rightarrow> _::{banach, second_countable_topology}"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2740
  assumes f[measurable]: "integrable (M1 \<Otimes>\<^sub>M M2) (split f)"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2741
  shows AE_integrable_snd: "AE y in M2. integrable M1 (\<lambda>x. f x y)" (is "?AE")
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2742
    and integrable_snd: "integrable M2 (\<lambda>y. \<integral>x. f x y \<partial>M1)" (is "?INT")
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2743
    and integral_snd: "(\<integral>y. (\<integral>x. f x y \<partial>M1) \<partial>M2) = integral\<^sup>L (M1 \<Otimes>\<^sub>M M2) (split f)" (is "?EQ")
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2744
proof -
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2745
  interpret Q: pair_sigma_finite M2 M1 by default
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2746
  have Q_int: "integrable (M2 \<Otimes>\<^sub>M M1) (\<lambda>(x, y). f y x)"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2747
    using f unfolding integrable_product_swap_iff[symmetric] by simp
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2748
  show ?AE  using Q.AE_integrable_fst'[OF Q_int] by simp
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2749
  show ?INT using Q.integrable_fst'[OF Q_int] by simp
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2750
  show ?EQ using Q.integral_fst'[OF Q_int]
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2751
    using integral_product_swap[of "split f"] by simp
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2752
qed
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2753
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2754
lemma (in pair_sigma_finite) Fubini_integral:
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2755
  fixes f :: "_ \<Rightarrow> _ \<Rightarrow> _ :: {banach, second_countable_topology}"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2756
  assumes f: "integrable (M1 \<Otimes>\<^sub>M M2) (split f)"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2757
  shows "(\<integral>y. (\<integral>x. f x y \<partial>M1) \<partial>M2) = (\<integral>x. (\<integral>y. f x y \<partial>M2) \<partial>M1)"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2758
  unfolding integral_snd[OF assms] integral_fst[OF assms] ..
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2759
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2760
lemma (in product_sigma_finite) product_integral_singleton:
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2761
  fixes f :: "_ \<Rightarrow> _::{banach, second_countable_topology}"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2762
  shows "f \<in> borel_measurable (M i) \<Longrightarrow> (\<integral>x. f (x i) \<partial>Pi\<^sub>M {i} M) = integral\<^sup>L (M i) f"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2763
  apply (subst distr_singleton[symmetric])
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2764
  apply (subst integral_distr)
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2765
  apply simp_all
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2766
  done
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2767
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2768
lemma (in product_sigma_finite) product_integral_fold:
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2769
  fixes f :: "_ \<Rightarrow> _::{banach, second_countable_topology}"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2770
  assumes IJ[simp]: "I \<inter> J = {}" and fin: "finite I" "finite J"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2771
  and f: "integrable (Pi\<^sub>M (I \<union> J) M) f"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2772
  shows "integral\<^sup>L (Pi\<^sub>M (I \<union> J) M) f = (\<integral>x. (\<integral>y. f (merge I J (x, y)) \<partial>Pi\<^sub>M J M) \<partial>Pi\<^sub>M I M)"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2773
proof -
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2774
  interpret I: finite_product_sigma_finite M I by default fact
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2775
  interpret J: finite_product_sigma_finite M J by default fact
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2776
  have "finite (I \<union> J)" using fin by auto
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2777
  interpret IJ: finite_product_sigma_finite M "I \<union> J" by default fact
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2778
  interpret P: pair_sigma_finite "Pi\<^sub>M I M" "Pi\<^sub>M J M" by default
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2779
  let ?M = "merge I J"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2780
  let ?f = "\<lambda>x. f (?M x)"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2781
  from f have f_borel: "f \<in> borel_measurable (Pi\<^sub>M (I \<union> J) M)"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2782
    by auto
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2783
  have P_borel: "(\<lambda>x. f (merge I J x)) \<in> borel_measurable (Pi\<^sub>M I M \<Otimes>\<^sub>M Pi\<^sub>M J M)"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2784
    using measurable_comp[OF measurable_merge f_borel] by (simp add: comp_def)
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2785
  have f_int: "integrable (Pi\<^sub>M I M \<Otimes>\<^sub>M Pi\<^sub>M J M) ?f"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2786
    by (rule integrable_distr[OF measurable_merge]) (simp add: distr_merge[OF IJ fin] f)
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2787
  show ?thesis
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2788
    apply (subst distr_merge[symmetric, OF IJ fin])
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2789
    apply (subst integral_distr[OF measurable_merge f_borel])
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2790
    apply (subst P.integral_fst'[symmetric, OF f_int])
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2791
    apply simp
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2792
    done
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2793
qed
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2794
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2795
lemma (in product_sigma_finite) product_integral_insert:
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2796
  fixes f :: "_ \<Rightarrow> _::{banach, second_countable_topology}"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2797
  assumes I: "finite I" "i \<notin> I"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2798
    and f: "integrable (Pi\<^sub>M (insert i I) M) f"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2799
  shows "integral\<^sup>L (Pi\<^sub>M (insert i I) M) f = (\<integral>x. (\<integral>y. f (x(i:=y)) \<partial>M i) \<partial>Pi\<^sub>M I M)"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2800
proof -
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2801
  have "integral\<^sup>L (Pi\<^sub>M (insert i I) M) f = integral\<^sup>L (Pi\<^sub>M (I \<union> {i}) M) f"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2802
    by simp
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2803
  also have "\<dots> = (\<integral>x. (\<integral>y. f (merge I {i} (x,y)) \<partial>Pi\<^sub>M {i} M) \<partial>Pi\<^sub>M I M)"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2804
    using f I by (intro product_integral_fold) auto
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2805
  also have "\<dots> = (\<integral>x. (\<integral>y. f (x(i := y)) \<partial>M i) \<partial>Pi\<^sub>M I M)"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2806
  proof (rule integral_cong[OF refl], subst product_integral_singleton[symmetric])
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2807
    fix x assume x: "x \<in> space (Pi\<^sub>M I M)"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2808
    have f_borel: "f \<in> borel_measurable (Pi\<^sub>M (insert i I) M)"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2809
      using f by auto
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2810
    show "(\<lambda>y. f (x(i := y))) \<in> borel_measurable (M i)"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2811
      using measurable_comp[OF measurable_component_update f_borel, OF x `i \<notin> I`]
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2812
      unfolding comp_def .
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2813
    from x I show "(\<integral> y. f (merge I {i} (x,y)) \<partial>Pi\<^sub>M {i} M) = (\<integral> xa. f (x(i := xa i)) \<partial>Pi\<^sub>M {i} M)"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2814
      by (auto intro!: integral_cong arg_cong[where f=f] simp: merge_def space_PiM extensional_def PiE_def)
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2815
  qed
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2816
  finally show ?thesis .
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2817
qed
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2818
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2819
lemma (in product_sigma_finite) product_integrable_setprod:
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2820
  fixes f :: "'i \<Rightarrow> 'a \<Rightarrow> _::{real_normed_field,banach,second_countable_topology}"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2821
  assumes [simp]: "finite I" and integrable: "\<And>i. i \<in> I \<Longrightarrow> integrable (M i) (f i)"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2822
  shows "integrable (Pi\<^sub>M I M) (\<lambda>x. (\<Prod>i\<in>I. f i (x i)))" (is "integrable _ ?f")
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2823
proof (unfold integrable_iff_bounded, intro conjI)
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2824
  interpret finite_product_sigma_finite M I by default fact
59353
f0707dc3d9aa measurability prover: removed app splitting, replaced by more powerful destruction rules
hoelzl
parents: 59048
diff changeset
  2825
56993
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2826
  show "?f \<in> borel_measurable (Pi\<^sub>M I M)"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2827
    using assms by simp
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2828
  have "(\<integral>\<^sup>+ x. ereal (norm (\<Prod>i\<in>I. f i (x i))) \<partial>Pi\<^sub>M I M) = 
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2829
      (\<integral>\<^sup>+ x. (\<Prod>i\<in>I. ereal (norm (f i (x i)))) \<partial>Pi\<^sub>M I M)"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2830
    by (simp add: setprod_norm setprod_ereal)
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2831
  also have "\<dots> = (\<Prod>i\<in>I. \<integral>\<^sup>+ x. ereal (norm (f i x)) \<partial>M i)"
56996
891e992e510f renamed positive_integral to nn_integral
hoelzl
parents: 56994
diff changeset
  2832
    using assms by (intro product_nn_integral_setprod) auto
56993
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2833
  also have "\<dots> < \<infinity>"
56996
891e992e510f renamed positive_integral to nn_integral
hoelzl
parents: 56994
diff changeset
  2834
    using integrable by (simp add: setprod_PInf nn_integral_nonneg integrable_iff_bounded)
56993
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2835
  finally show "(\<integral>\<^sup>+ x. ereal (norm (\<Prod>i\<in>I. f i (x i))) \<partial>Pi\<^sub>M I M) < \<infinity>" .
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2836
qed
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2837
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2838
lemma (in product_sigma_finite) product_integral_setprod:
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2839
  fixes f :: "'i \<Rightarrow> 'a \<Rightarrow> _::{real_normed_field,banach,second_countable_topology}"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2840
  assumes "finite I" and integrable: "\<And>i. i \<in> I \<Longrightarrow> integrable (M i) (f i)"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2841
  shows "(\<integral>x. (\<Prod>i\<in>I. f i (x i)) \<partial>Pi\<^sub>M I M) = (\<Prod>i\<in>I. integral\<^sup>L (M i) (f i))"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2842
using assms proof induct
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2843
  case empty
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2844
  interpret finite_measure "Pi\<^sub>M {} M"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2845
    by rule (simp add: space_PiM)
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2846
  show ?case by (simp add: space_PiM measure_def)
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2847
next
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2848
  case (insert i I)
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2849
  then have iI: "finite (insert i I)" by auto
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2850
  then have prod: "\<And>J. J \<subseteq> insert i I \<Longrightarrow>
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2851
    integrable (Pi\<^sub>M J M) (\<lambda>x. (\<Prod>i\<in>J. f i (x i)))"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2852
    by (intro product_integrable_setprod insert(4)) (auto intro: finite_subset)
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2853
  interpret I: finite_product_sigma_finite M I by default fact
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2854
  have *: "\<And>x y. (\<Prod>j\<in>I. f j (if j = i then y else x j)) = (\<Prod>j\<in>I. f j (x j))"
57418
6ab1c7cb0b8d fact consolidation
haftmann
parents: 57275
diff changeset
  2855
    using `i \<notin> I` by (auto intro!: setprod.cong)
56993
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2856
  show ?case
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2857
    unfolding product_integral_insert[OF insert(1,2) prod[OF subset_refl]]
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2858
    by (simp add: * insert prod subset_insertI)
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2859
qed
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2860
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2861
lemma integrable_subalgebra:
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2862
  fixes f :: "'a \<Rightarrow> 'b::{banach, second_countable_topology}"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2863
  assumes borel: "f \<in> borel_measurable N"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2864
  and N: "sets N \<subseteq> sets M" "space N = space M" "\<And>A. A \<in> sets N \<Longrightarrow> emeasure N A = emeasure M A"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2865
  shows "integrable N f \<longleftrightarrow> integrable M f" (is ?P)
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2866
proof -
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2867
  have "f \<in> borel_measurable M"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2868
    using assms by (auto simp: measurable_def)
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2869
  with assms show ?thesis
56996
891e992e510f renamed positive_integral to nn_integral
hoelzl
parents: 56994
diff changeset
  2870
    using assms by (auto simp: integrable_iff_bounded nn_integral_subalgebra)
56993
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2871
qed
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2872
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2873
lemma integral_subalgebra:
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2874
  fixes f :: "'a \<Rightarrow> 'b::{banach, second_countable_topology}"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2875
  assumes borel: "f \<in> borel_measurable N"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2876
  and N: "sets N \<subseteq> sets M" "space N = space M" "\<And>A. A \<in> sets N \<Longrightarrow> emeasure N A = emeasure M A"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2877
  shows "integral\<^sup>L N f = integral\<^sup>L M f"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2878
proof cases
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2879
  assume "integrable N f"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2880
  then show ?thesis
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2881
  proof induct
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2882
    case base with assms show ?case by (auto simp: subset_eq measure_def)
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2883
  next
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2884
    case (add f g)
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2885
    then have "(\<integral> a. f a + g a \<partial>N) = integral\<^sup>L M f + integral\<^sup>L M g"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2886
      by simp
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2887
    also have "\<dots> = (\<integral> a. f a + g a \<partial>M)"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2888
      using add integrable_subalgebra[OF _ N, of f] integrable_subalgebra[OF _ N, of g] by simp
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2889
    finally show ?case .
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2890
  next
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2891
    case (lim f s)
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2892
    then have M: "\<And>i. integrable M (s i)" "integrable M f"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2893
      using integrable_subalgebra[OF _ N, of f] integrable_subalgebra[OF _ N, of "s i" for i] by simp_all
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2894
    show ?case
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2895
    proof (intro LIMSEQ_unique)
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2896
      show "(\<lambda>i. integral\<^sup>L N (s i)) ----> integral\<^sup>L N f"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2897
        apply (rule integral_dominated_convergence[where w="\<lambda>x. 2 * norm (f x)"])
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2898
        using lim
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2899
        apply auto
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2900
        done
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2901
      show "(\<lambda>i. integral\<^sup>L N (s i)) ----> integral\<^sup>L M f"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2902
        unfolding lim
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2903
        apply (rule integral_dominated_convergence[where w="\<lambda>x. 2 * norm (f x)"])
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2904
        using lim M N(2)
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2905
        apply auto
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2906
        done
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2907
    qed
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2908
  qed
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2909
qed (simp add: not_integrable_integral_eq integrable_subalgebra[OF assms])
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2910
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2911
hide_const simple_bochner_integral
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2912
hide_const simple_bochner_integrable
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2913
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces
hoelzl
parents:
diff changeset
  2914
end
59353
f0707dc3d9aa measurability prover: removed app splitting, replaced by more powerful destruction rules
hoelzl
parents: 59048
diff changeset
  2915