src/HOL/Library/Indicator_Function.thy
author haftmann
Sun, 18 Nov 2018 18:07:51 +0000
changeset 69313 b021008c5397
parent 67683 817944aeac3f
child 70381 b151d1f00204
permissions -rw-r--r--
removed legacy input syntax
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(*  Title:      HOL/Library/Indicator_Function.thy
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    Author:     Johannes Hoelzl (TU Muenchen)
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*)
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section \<open>Indicator Function\<close>
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theory Indicator_Function
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imports Complex_Main Disjoint_Sets
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begin
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definition "indicator S x = (if x \<in> S then 1 else 0)"
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text\<open>Type constrained version\<close>
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abbreviation indicat_real :: "'a set \<Rightarrow> 'a \<Rightarrow> real" where "indicat_real S \<equiv> indicator S"
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lemma indicator_simps[simp]:
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  "x \<in> S \<Longrightarrow> indicator S x = 1"
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  "x \<notin> S \<Longrightarrow> indicator S x = 0"
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  unfolding indicator_def by auto
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lemma indicator_pos_le[intro, simp]: "(0::'a::linordered_semidom) \<le> indicator S x"
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  and indicator_le_1[intro, simp]: "indicator S x \<le> (1::'a::linordered_semidom)"
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  unfolding indicator_def by auto
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lemma indicator_abs_le_1: "\<bar>indicator S x\<bar> \<le> (1::'a::linordered_idom)"
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  unfolding indicator_def by auto
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lemma indicator_eq_0_iff: "indicator A x = (0::'a::zero_neq_one) \<longleftrightarrow> x \<notin> A"
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  by (auto simp: indicator_def)
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lemma indicator_eq_1_iff: "indicator A x = (1::'a::zero_neq_one) \<longleftrightarrow> x \<in> A"
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  by (auto simp: indicator_def)
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lemma indicator_UNIV [simp]: "indicator UNIV = (\<lambda>x. 1)"
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  by auto
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lemma indicator_leI:
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  "(x \<in> A \<Longrightarrow> y \<in> B) \<Longrightarrow> (indicator A x :: 'a::linordered_nonzero_semiring) \<le> indicator B y"
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  by (auto simp: indicator_def)
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lemma split_indicator: "P (indicator S x) \<longleftrightarrow> ((x \<in> S \<longrightarrow> P 1) \<and> (x \<notin> S \<longrightarrow> P 0))"
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  unfolding indicator_def by auto
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lemma split_indicator_asm: "P (indicator S x) \<longleftrightarrow> (\<not> (x \<in> S \<and> \<not> P 1 \<or> x \<notin> S \<and> \<not> P 0))"
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  unfolding indicator_def by auto
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lemma indicator_inter_arith: "indicator (A \<inter> B) x = indicator A x * (indicator B x::'a::semiring_1)"
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  unfolding indicator_def by (auto simp: min_def max_def)
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lemma indicator_union_arith:
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  "indicator (A \<union> B) x = indicator A x + indicator B x - indicator A x * (indicator B x :: 'a::ring_1)"
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  unfolding indicator_def by (auto simp: min_def max_def)
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lemma indicator_inter_min: "indicator (A \<inter> B) x = min (indicator A x) (indicator B x::'a::linordered_semidom)"
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  and indicator_union_max: "indicator (A \<union> B) x = max (indicator A x) (indicator B x::'a::linordered_semidom)"
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  unfolding indicator_def by (auto simp: min_def max_def)
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lemma indicator_disj_union:
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  "A \<inter> B = {} \<Longrightarrow> indicator (A \<union> B) x = (indicator A x + indicator B x :: 'a::linordered_semidom)"
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  by (auto split: split_indicator)
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lemma indicator_compl: "indicator (- A) x = 1 - (indicator A x :: 'a::ring_1)"
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  and indicator_diff: "indicator (A - B) x = indicator A x * (1 - indicator B x ::'a::ring_1)"
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  unfolding indicator_def by (auto simp: min_def max_def)
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lemma indicator_times:
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  "indicator (A \<times> B) x = indicator A (fst x) * (indicator B (snd x) :: 'a::semiring_1)"
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  unfolding indicator_def by (cases x) auto
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lemma indicator_sum:
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  "indicator (A <+> B) x = (case x of Inl x \<Rightarrow> indicator A x | Inr x \<Rightarrow> indicator B x)"
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  unfolding indicator_def by (cases x) auto
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lemma indicator_image: "inj f \<Longrightarrow> indicator (f ` X) (f x) = (indicator X x::_::zero_neq_one)"
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  by (auto simp: indicator_def inj_def)
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lemma indicator_vimage: "indicator (f -` A) x = indicator A (f x)"
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  by (auto split: split_indicator)
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lemma  (* FIXME unnamed!? *)
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  fixes f :: "'a \<Rightarrow> 'b::semiring_1"
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  assumes "finite A"
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  shows sum_mult_indicator[simp]: "(\<Sum>x \<in> A. f x * indicator B x) = (\<Sum>x \<in> A \<inter> B. f x)"
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    and sum_indicator_mult[simp]: "(\<Sum>x \<in> A. indicator B x * f x) = (\<Sum>x \<in> A \<inter> B. f x)"
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  unfolding indicator_def
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  using assms by (auto intro!: sum.mono_neutral_cong_right split: if_split_asm)
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lemma sum_indicator_eq_card:
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  assumes "finite A"
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  shows "(\<Sum>x \<in> A. indicator B x) = card (A Int B)"
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  using sum_mult_indicator [OF assms, of "\<lambda>x. 1::nat"]
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  unfolding card_eq_sum by simp
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lemma sum_indicator_scaleR[simp]:
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  "finite A \<Longrightarrow>
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    (\<Sum>x \<in> A. indicator (B x) (g x) *\<^sub>R f x) = (\<Sum>x \<in> {x\<in>A. g x \<in> B x}. f x :: 'a::real_vector)"
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  by (auto intro!: sum.mono_neutral_cong_right split: if_split_asm simp: indicator_def)
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lemma LIMSEQ_indicator_incseq:
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  assumes "incseq A"
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  shows "(\<lambda>i. indicator (A i) x :: 'a::{topological_space,one,zero}) \<longlonglongrightarrow> indicator (\<Union>i. A i) x"
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proof (cases "\<exists>i. x \<in> A i")
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  case True
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  then obtain i where "x \<in> A i"
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    by auto
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  then have *:
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    "\<And>n. (indicator (A (n + i)) x :: 'a) = 1"
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    "(indicator (\<Union>i. A i) x :: 'a) = 1"
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    using incseqD[OF \<open>incseq A\<close>, of i "n + i" for n] \<open>x \<in> A i\<close> by (auto simp: indicator_def)
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  show ?thesis
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    by (rule LIMSEQ_offset[of _ i]) (use * in simp)
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next
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  case False
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  then show ?thesis by (simp add: indicator_def)
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qed
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lemma LIMSEQ_indicator_UN:
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  "(\<lambda>k. indicator (\<Union>i<k. A i) x :: 'a::{topological_space,one,zero}) \<longlonglongrightarrow> indicator (\<Union>i. A i) x"
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proof -
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  have "(\<lambda>k. indicator (\<Union>i<k. A i) x::'a) \<longlonglongrightarrow> indicator (\<Union>k. \<Union>i<k. A i) x"
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    by (intro LIMSEQ_indicator_incseq) (auto simp: incseq_def intro: less_le_trans)
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  also have "(\<Union>k. \<Union>i<k. A i) = (\<Union>i. A i)"
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    by auto
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  finally show ?thesis .
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qed
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lemma LIMSEQ_indicator_decseq:
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  assumes "decseq A"
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  shows "(\<lambda>i. indicator (A i) x :: 'a::{topological_space,one,zero}) \<longlonglongrightarrow> indicator (\<Inter>i. A i) x"
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proof (cases "\<exists>i. x \<notin> A i")
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  case True
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  then obtain i where "x \<notin> A i"
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    by auto
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  then have *:
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    "\<And>n. (indicator (A (n + i)) x :: 'a) = 0"
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    "(indicator (\<Inter>i. A i) x :: 'a) = 0"
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    using decseqD[OF \<open>decseq A\<close>, of i "n + i" for n] \<open>x \<notin> A i\<close> by (auto simp: indicator_def)
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  show ?thesis
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    by (rule LIMSEQ_offset[of _ i]) (use * in simp)
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next
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  case False
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  then show ?thesis by (simp add: indicator_def)
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qed
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lemma LIMSEQ_indicator_INT:
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  "(\<lambda>k. indicator (\<Inter>i<k. A i) x :: 'a::{topological_space,one,zero}) \<longlonglongrightarrow> indicator (\<Inter>i. A i) x"
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proof -
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  have "(\<lambda>k. indicator (\<Inter>i<k. A i) x::'a) \<longlonglongrightarrow> indicator (\<Inter>k. \<Inter>i<k. A i) x"
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    by (intro LIMSEQ_indicator_decseq) (auto simp: decseq_def intro: less_le_trans)
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  also have "(\<Inter>k. \<Inter>i<k. A i) = (\<Inter>i. A i)"
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    by auto
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  finally show ?thesis .
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qed
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lemma indicator_add:
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  "A \<inter> B = {} \<Longrightarrow> (indicator A x::_::monoid_add) + indicator B x = indicator (A \<union> B) x"
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  unfolding indicator_def by auto
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lemma of_real_indicator: "of_real (indicator A x) = indicator A x"
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  by (simp split: split_indicator)
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lemma real_of_nat_indicator: "real (indicator A x :: nat) = indicator A x"
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  by (simp split: split_indicator)
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lemma abs_indicator: "\<bar>indicator A x :: 'a::linordered_idom\<bar> = indicator A x"
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  by (simp split: split_indicator)
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lemma mult_indicator_subset:
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  "A \<subseteq> B \<Longrightarrow> indicator A x * indicator B x = (indicator A x :: 'a::comm_semiring_1)"
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  by (auto split: split_indicator simp: fun_eq_iff)
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lemma indicator_sums:
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  assumes "\<And>i j. i \<noteq> j \<Longrightarrow> A i \<inter> A j = {}"
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  shows "(\<lambda>i. indicator (A i) x::real) sums indicator (\<Union>i. A i) x"
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proof (cases "\<exists>i. x \<in> A i")
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  case True
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  then obtain i where i: "x \<in> A i" ..
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  with assms have "(\<lambda>i. indicator (A i) x::real) sums (\<Sum>i\<in>{i}. indicator (A i) x)"
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    by (intro sums_finite) (auto split: split_indicator)
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  also have "(\<Sum>i\<in>{i}. indicator (A i) x) = indicator (\<Union>i. A i) x"
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    using i by (auto split: split_indicator)
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  finally show ?thesis .
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next
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  case False
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  then show ?thesis by simp
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qed
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text \<open>
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  The indicator function of the union of a disjoint family of sets is the
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  sum over all the individual indicators.
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\<close>
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lemma indicator_UN_disjoint:
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  "finite A \<Longrightarrow> disjoint_family_on f A \<Longrightarrow> indicator (\<Union>(f ` A)) x = (\<Sum>y\<in>A. indicator (f y) x)"
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  by (induct A rule: finite_induct)
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    (auto simp: disjoint_family_on_def indicator_def split: if_splits)
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end