src/HOL/Multivariate_Analysis/Linear_Algebra.thy
author wenzelm
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tuned proofs;
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(*  Title:      HOL/Multivariate_Analysis/Linear_Algebra.thy
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    Author:     Amine Chaieb, University of Cambridge
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*)
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header {* Elementary linear algebra on Euclidean spaces *}
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theory Linear_Algebra
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imports
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  Euclidean_Space
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  "~~/src/HOL/Library/Infinite_Set"
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begin
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lemma cond_application_beta: "(if b then f else g) x = (if b then f x else g x)"
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  by auto
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notation inner (infix "\<bullet>" 70)
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lemma square_bound_lemma: "(x::real) < (1 + x) * (1 + x)"
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proof -
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  have "(x + 1/2)\<^sup>2 + 3/4 > 0"
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    using zero_le_power2[of "x+1/2"] by arith
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  then show ?thesis
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    by (simp add: field_simps power2_eq_square)
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qed
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lemma square_continuous:
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  fixes e :: real
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  shows "e > 0 \<Longrightarrow> \<exists>d. 0 < d \<and> (\<forall>y. abs (y - x) < d \<longrightarrow> abs (y * y - x * x) < e)"
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  using isCont_power[OF isCont_ident, of x, unfolded isCont_def LIM_eq, rule_format, of e 2]
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  apply (auto simp add: power2_eq_square)
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  apply (rule_tac x="s" in exI)
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  apply auto
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  apply (erule_tac x=y in allE)
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  apply auto
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  done
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lemma real_le_lsqrt: "0 \<le> x \<Longrightarrow> 0 \<le> y \<Longrightarrow> x \<le> y\<^sup>2 \<Longrightarrow> sqrt x \<le> y"
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  using real_sqrt_le_iff[of x "y\<^sup>2"] by simp
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lemma real_le_rsqrt: "x\<^sup>2 \<le> y \<Longrightarrow> x \<le> sqrt y"
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  using real_sqrt_le_mono[of "x\<^sup>2" y] by simp
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lemma real_less_rsqrt: "x\<^sup>2 < y \<Longrightarrow> x < sqrt y"
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  using real_sqrt_less_mono[of "x\<^sup>2" y] by simp
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lemma sqrt_even_pow2:
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  assumes n: "even n"
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  shows "sqrt (2 ^ n) = 2 ^ (n div 2)"
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proof -
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  from n obtain m where m: "n = 2 * m"
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    unfolding even_mult_two_ex ..
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  from m have "sqrt (2 ^ n) = sqrt ((2 ^ m)\<^sup>2)"
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    by (simp only: power_mult[symmetric] mult_commute)
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  then show ?thesis
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    using m by simp
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qed
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lemma real_div_sqrt: "0 \<le> x \<Longrightarrow> x / sqrt x = sqrt x"
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  apply (cases "x = 0")
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  apply simp_all
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  using sqrt_divide_self_eq[of x]
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  apply (simp add: inverse_eq_divide field_simps)
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  done
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text{* Hence derive more interesting properties of the norm. *}
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lemma norm_eq_0_dot: "norm x = 0 \<longleftrightarrow> x \<bullet> x = (0::real)"
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  by simp (* TODO: delete *)
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lemma norm_cauchy_schwarz: "x \<bullet> y \<le> norm x * norm y"
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  (* TODO: move to Inner_Product.thy *)
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  using Cauchy_Schwarz_ineq2[of x y] by auto
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lemma norm_triangle_sub:
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  fixes x y :: "'a::real_normed_vector"
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  shows "norm x \<le> norm y + norm (x - y)"
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  using norm_triangle_ineq[of "y" "x - y"] by (simp add: field_simps)
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lemma norm_le: "norm x \<le> norm y \<longleftrightarrow> x \<bullet> x \<le> y \<bullet> y"
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  by (simp add: norm_eq_sqrt_inner)
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lemma norm_lt: "norm x < norm y \<longleftrightarrow> x \<bullet> x < y \<bullet> y"
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  by (simp add: norm_eq_sqrt_inner)
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lemma norm_eq: "norm x = norm y \<longleftrightarrow> x \<bullet> x = y \<bullet> y"
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  apply (subst order_eq_iff)
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  apply (auto simp: norm_le)
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  done
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lemma norm_eq_1: "norm x = 1 \<longleftrightarrow> x \<bullet> x = 1"
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  by (simp add: norm_eq_sqrt_inner)
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text{* Squaring equations and inequalities involving norms.  *}
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lemma dot_square_norm: "x \<bullet> x = (norm x)\<^sup>2"
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  by (simp only: power2_norm_eq_inner) (* TODO: move? *)
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lemma norm_eq_square: "norm x = a \<longleftrightarrow> 0 \<le> a \<and> x \<bullet> x = a\<^sup>2"
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  by (auto simp add: norm_eq_sqrt_inner)
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lemma real_abs_le_square_iff: "\<bar>x\<bar> \<le> \<bar>y\<bar> \<longleftrightarrow> (x::real)\<^sup>2 \<le> y\<^sup>2"
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proof
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  assume "\<bar>x\<bar> \<le> \<bar>y\<bar>"
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  then have "\<bar>x\<bar>\<^sup>2 \<le> \<bar>y\<bar>\<^sup>2" by (rule power_mono, simp)
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  then show "x\<^sup>2 \<le> y\<^sup>2" by simp
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next
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  assume "x\<^sup>2 \<le> y\<^sup>2"
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  then have "sqrt (x\<^sup>2) \<le> sqrt (y\<^sup>2)" by (rule real_sqrt_le_mono)
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  then show "\<bar>x\<bar> \<le> \<bar>y\<bar>" by simp
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qed
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lemma norm_le_square: "norm x \<le> a \<longleftrightarrow> 0 \<le> a \<and> x \<bullet> x \<le> a\<^sup>2"
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  apply (simp add: dot_square_norm real_abs_le_square_iff[symmetric])
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  using norm_ge_zero[of x]
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  apply arith
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  done
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lemma norm_ge_square: "norm x \<ge> a \<longleftrightarrow> a \<le> 0 \<or> x \<bullet> x \<ge> a\<^sup>2"
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  apply (simp add: dot_square_norm real_abs_le_square_iff[symmetric])
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  using norm_ge_zero[of x]
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  apply arith
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  done
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lemma norm_lt_square: "norm(x) < a \<longleftrightarrow> 0 < a \<and> x \<bullet> x < a\<^sup>2"
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  by (metis not_le norm_ge_square)
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lemma norm_gt_square: "norm(x) > a \<longleftrightarrow> a < 0 \<or> x \<bullet> x > a\<^sup>2"
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  by (metis norm_le_square not_less)
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text{* Dot product in terms of the norm rather than conversely. *}
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lemmas inner_simps = inner_add_left inner_add_right inner_diff_right inner_diff_left
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  inner_scaleR_left inner_scaleR_right
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lemma dot_norm: "x \<bullet> y = ((norm (x + y))\<^sup>2 - (norm x)\<^sup>2 - (norm y)\<^sup>2) / 2"
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  unfolding power2_norm_eq_inner inner_simps inner_commute by auto
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lemma dot_norm_neg: "x \<bullet> y = (((norm x)\<^sup>2 + (norm y)\<^sup>2) - (norm (x - y))\<^sup>2) / 2"
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  unfolding power2_norm_eq_inner inner_simps inner_commute
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  by (auto simp add: algebra_simps)
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text{* Equality of vectors in terms of @{term "op \<bullet>"} products.    *}
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lemma vector_eq: "x = y \<longleftrightarrow> x \<bullet> x = x \<bullet> y \<and> y \<bullet> y = x \<bullet> x"
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  (is "?lhs \<longleftrightarrow> ?rhs")
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proof
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  assume ?lhs
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  then show ?rhs by simp
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next
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  assume ?rhs
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  then have "x \<bullet> x - x \<bullet> y = 0 \<and> x \<bullet> y - y \<bullet> y = 0"
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    by simp
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  then have "x \<bullet> (x - y) = 0 \<and> y \<bullet> (x - y) = 0"
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    by (simp add: inner_diff inner_commute)
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  then have "(x - y) \<bullet> (x - y) = 0"
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    by (simp add: field_simps inner_diff inner_commute)
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  then show "x = y" by simp
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qed
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lemma norm_triangle_half_r:
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  "norm (y - x1) < e / 2 \<Longrightarrow> norm (y - x2) < e / 2 \<Longrightarrow> norm (x1 - x2) < e"
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  using dist_triangle_half_r unfolding dist_norm[symmetric] by auto
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lemma norm_triangle_half_l:
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  assumes "norm (x - y) < e / 2"
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    and "norm (x' - (y)) < e / 2"
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  shows "norm (x - x') < e"
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  using dist_triangle_half_l[OF assms[unfolded dist_norm[symmetric]]]
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  unfolding dist_norm[symmetric] .
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lemma norm_triangle_le: "norm x + norm y \<le> e \<Longrightarrow> norm (x + y) \<le> e"
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  by (rule norm_triangle_ineq [THEN order_trans])
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lemma norm_triangle_lt: "norm x + norm y < e \<Longrightarrow> norm (x + y) < e"
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  by (rule norm_triangle_ineq [THEN le_less_trans])
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lemma setsum_clauses:
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  shows "setsum f {} = 0"
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    and "finite S \<Longrightarrow> setsum f (insert x S) = (if x \<in> S then setsum f S else f x + setsum f S)"
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  by (auto simp add: insert_absorb)
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lemma setsum_norm_le:
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  fixes f :: "'a \<Rightarrow> 'b::real_normed_vector"
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  assumes fg: "\<forall>x \<in> S. norm (f x) \<le> g x"
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  shows "norm (setsum f S) \<le> setsum g S"
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  by (rule order_trans [OF norm_setsum setsum_mono]) (simp add: fg)
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lemma setsum_norm_bound:
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  fixes f :: "'a \<Rightarrow> 'b::real_normed_vector"
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  assumes fS: "finite S"
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    and K: "\<forall>x \<in> S. norm (f x) \<le> K"
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  shows "norm (setsum f S) \<le> of_nat (card S) * K"
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  using setsum_norm_le[OF K] setsum_constant[symmetric]
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  by simp
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lemma setsum_group:
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  assumes fS: "finite S" and fT: "finite T" and fST: "f ` S \<subseteq> T"
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  shows "setsum (\<lambda>y. setsum g {x. x\<in> S \<and> f x = y}) T = setsum g S"
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  apply (subst setsum_image_gen[OF fS, of g f])
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  apply (rule setsum_mono_zero_right[OF fT fST])
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  apply (auto intro: setsum_0')
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  done
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lemma vector_eq_ldot: "(\<forall>x. x \<bullet> y = x \<bullet> z) \<longleftrightarrow> y = z"
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proof
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  assume "\<forall>x. x \<bullet> y = x \<bullet> z"
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  then have "\<forall>x. x \<bullet> (y - z) = 0"
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    by (simp add: inner_diff)
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  then have "(y - z) \<bullet> (y - z) = 0" ..
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  then show "y = z" by simp
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qed simp
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lemma vector_eq_rdot: "(\<forall>z. x \<bullet> z = y \<bullet> z) \<longleftrightarrow> x = y"
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proof
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  assume "\<forall>z. x \<bullet> z = y \<bullet> z"
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  then have "\<forall>z. (x - y) \<bullet> z = 0"
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    by (simp add: inner_diff)
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  then have "(x - y) \<bullet> (x - y) = 0" ..
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  then show "x = y" by simp
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qed simp
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subsection {* Orthogonality. *}
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context real_inner
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begin
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definition "orthogonal x y \<longleftrightarrow> (x \<bullet> y = 0)"
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lemma orthogonal_clauses:
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  "orthogonal a 0"
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  "orthogonal a x \<Longrightarrow> orthogonal a (c *\<^sub>R x)"
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  "orthogonal a x \<Longrightarrow> orthogonal a (-x)"
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  "orthogonal a x \<Longrightarrow> orthogonal a y \<Longrightarrow> orthogonal a (x + y)"
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  "orthogonal a x \<Longrightarrow> orthogonal a y \<Longrightarrow> orthogonal a (x - y)"
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  "orthogonal 0 a"
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  "orthogonal x a \<Longrightarrow> orthogonal (c *\<^sub>R x) a"
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  "orthogonal x a \<Longrightarrow> orthogonal (-x) a"
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  "orthogonal x a \<Longrightarrow> orthogonal y a \<Longrightarrow> orthogonal (x + y) a"
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  "orthogonal x a \<Longrightarrow> orthogonal y a \<Longrightarrow> orthogonal (x - y) a"
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  unfolding orthogonal_def inner_add inner_diff by auto
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end
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691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
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lemma orthogonal_commute: "orthogonal x y \<longleftrightarrow> orthogonal y x"
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  by (simp add: orthogonal_def inner_commute)
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subsection {* Linear functions. *}
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lemma linear_iff:
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  "linear f \<longleftrightarrow> (\<forall>x y. f(x + y) = f x + f y) \<and> (\<forall>c x. f(c *\<^sub>R x) = c *\<^sub>R f x)"
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  (is "linear f \<longleftrightarrow> ?rhs")
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proof
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  assume "linear f" then interpret f: linear f .
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  show "?rhs" by (simp add: f.add f.scaleR)
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next
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  assume "?rhs" then show "linear f" by unfold_locales simp_all
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qed
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lemma linear_compose_cmul: "linear f \<Longrightarrow> linear (\<lambda>x. c *\<^sub>R f x)"
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  by (simp add: linear_iff algebra_simps)
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lemma linear_compose_neg: "linear f \<Longrightarrow> linear (\<lambda>x. - f x)"
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  by (simp add: linear_iff)
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lemma linear_compose_add: "linear f \<Longrightarrow> linear g \<Longrightarrow> linear (\<lambda>x. f x + g x)"
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  by (simp add: linear_iff algebra_simps)
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lemma linear_compose_sub: "linear f \<Longrightarrow> linear g \<Longrightarrow> linear (\<lambda>x. f x - g x)"
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  by (simp add: linear_iff algebra_simps)
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lemma linear_compose: "linear f \<Longrightarrow> linear g \<Longrightarrow> linear (g \<circ> f)"
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  by (simp add: linear_iff)
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lemma linear_id: "linear id"
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  by (simp add: linear_iff id_def)
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lemma linear_zero: "linear (\<lambda>x. 0)"
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  by (simp add: linear_iff)
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lemma linear_compose_setsum:
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  assumes fS: "finite S"
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    and lS: "\<forall>a \<in> S. linear (f a)"
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  shows "linear(\<lambda>x. setsum (\<lambda>a. f a x) S)"
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  using lS
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  apply (induct rule: finite_induct[OF fS])
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  apply (auto simp add: linear_zero intro: linear_compose_add)
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  done
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lemma linear_0: "linear f \<Longrightarrow> f 0 = 0"
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  unfolding linear_iff
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  apply clarsimp
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  apply (erule allE[where x="0::'a"])
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  apply simp
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  done
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lemma linear_cmul: "linear f \<Longrightarrow> f (c *\<^sub>R x) = c *\<^sub>R f x"
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  by (simp add: linear_iff)
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lemma linear_neg: "linear f \<Longrightarrow> f (- x) = - f x"
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  using linear_cmul [where c="-1"] by simp
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parents: 53077
diff changeset
   304
lemma linear_add: "linear f \<Longrightarrow> f(x + y) = f x + f y"
53600
8fda7ad57466 make 'linear' into a sublocale of 'bounded_linear';
huffman
parents: 53596
diff changeset
   305
  by (metis linear_iff)
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
   306
53406
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
   307
lemma linear_sub: "linear f \<Longrightarrow> f(x - y) = f x - f y"
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
   308
  by (simp add: diff_minus linear_add linear_neg)
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
   309
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
   310
lemma linear_setsum:
53406
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
   311
  assumes lin: "linear f"
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
   312
    and fin: "finite S"
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
   313
  shows "f (setsum g S) = setsum (f \<circ> g) S"
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
   314
  using fin
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
   315
proof induct
49522
355f3d076924 tuned proofs;
wenzelm
parents: 44890
diff changeset
   316
  case empty
53406
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
   317
  then show ?case
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
   318
    by (simp add: linear_0[OF lin])
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
   319
next
49522
355f3d076924 tuned proofs;
wenzelm
parents: 44890
diff changeset
   320
  case (insert x F)
53406
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
   321
  have "f (setsum g (insert x F)) = f (g x + setsum g F)"
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
   322
    using insert.hyps by simp
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
   323
  also have "\<dots> = f (g x) + f (setsum g F)"
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
   324
    using linear_add[OF lin] by simp
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
   325
  also have "\<dots> = setsum (f \<circ> g) (insert x F)"
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
   326
    using insert.hyps by simp
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
   327
  finally show ?case .
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
   328
qed
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
   329
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
   330
lemma linear_setsum_mul:
53406
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
   331
  assumes lin: "linear f"
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
   332
    and fin: "finite S"
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
   333
  shows "f (setsum (\<lambda>i. c i *\<^sub>R v i) S) = setsum (\<lambda>i. c i *\<^sub>R f (v i)) S"
53406
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
   334
  using linear_setsum[OF lin fin, of "\<lambda>i. c i *\<^sub>R v i" , unfolded o_def] linear_cmul[OF lin]
49522
355f3d076924 tuned proofs;
wenzelm
parents: 44890
diff changeset
   335
  by simp
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
   336
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
   337
lemma linear_injective_0:
53406
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
   338
  assumes lin: "linear f"
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
   339
  shows "inj f \<longleftrightarrow> (\<forall>x. f x = 0 \<longrightarrow> x = 0)"
49663
b84fafaea4bb tuned proofs;
wenzelm
parents: 49652
diff changeset
   340
proof -
53406
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
   341
  have "inj f \<longleftrightarrow> (\<forall> x y. f x = f y \<longrightarrow> x = y)"
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
   342
    by (simp add: inj_on_def)
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
   343
  also have "\<dots> \<longleftrightarrow> (\<forall> x y. f x - f y = 0 \<longrightarrow> x - y = 0)"
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
   344
    by simp
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
   345
  also have "\<dots> \<longleftrightarrow> (\<forall> x y. f (x - y) = 0 \<longrightarrow> x - y = 0)"
53406
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
   346
    by (simp add: linear_sub[OF lin])
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
   347
  also have "\<dots> \<longleftrightarrow> (\<forall> x. f x = 0 \<longrightarrow> x = 0)"
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
   348
    by auto
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
   349
  finally show ?thesis .
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
   350
qed
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
   351
49522
355f3d076924 tuned proofs;
wenzelm
parents: 44890
diff changeset
   352
355f3d076924 tuned proofs;
wenzelm
parents: 44890
diff changeset
   353
subsection {* Bilinear functions. *}
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
   354
53406
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
   355
definition "bilinear f \<longleftrightarrow> (\<forall>x. linear (\<lambda>y. f x y)) \<and> (\<forall>y. linear (\<lambda>x. f x y))"
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
   356
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
   357
lemma bilinear_ladd: "bilinear h \<Longrightarrow> h (x + y) z = h x z + h y z"
53600
8fda7ad57466 make 'linear' into a sublocale of 'bounded_linear';
huffman
parents: 53596
diff changeset
   358
  by (simp add: bilinear_def linear_iff)
49663
b84fafaea4bb tuned proofs;
wenzelm
parents: 49652
diff changeset
   359
53406
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
   360
lemma bilinear_radd: "bilinear h \<Longrightarrow> h x (y + z) = h x y + h x z"
53600
8fda7ad57466 make 'linear' into a sublocale of 'bounded_linear';
huffman
parents: 53596
diff changeset
   361
  by (simp add: bilinear_def linear_iff)
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
   362
53406
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
   363
lemma bilinear_lmul: "bilinear h \<Longrightarrow> h (c *\<^sub>R x) y = c *\<^sub>R h x y"
53600
8fda7ad57466 make 'linear' into a sublocale of 'bounded_linear';
huffman
parents: 53596
diff changeset
   364
  by (simp add: bilinear_def linear_iff)
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
   365
53406
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
   366
lemma bilinear_rmul: "bilinear h \<Longrightarrow> h x (c *\<^sub>R y) = c *\<^sub>R h x y"
53600
8fda7ad57466 make 'linear' into a sublocale of 'bounded_linear';
huffman
parents: 53596
diff changeset
   367
  by (simp add: bilinear_def linear_iff)
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
   368
53406
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
   369
lemma bilinear_lneg: "bilinear h \<Longrightarrow> h (- x) y = - h x y"
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
   370
  by (simp only: scaleR_minus1_left [symmetric] bilinear_lmul)
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
   371
53406
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
   372
lemma bilinear_rneg: "bilinear h \<Longrightarrow> h x (- y) = - h x y"
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
   373
  by (simp only: scaleR_minus1_left [symmetric] bilinear_rmul)
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
   374
53406
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
   375
lemma (in ab_group_add) eq_add_iff: "x = x + y \<longleftrightarrow> y = 0"
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
   376
  using add_imp_eq[of x y 0] by auto
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
   377
53406
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
   378
lemma bilinear_lzero:
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
   379
  assumes "bilinear h"
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
   380
  shows "h 0 x = 0"
49663
b84fafaea4bb tuned proofs;
wenzelm
parents: 49652
diff changeset
   381
  using bilinear_ladd [OF assms, of 0 0 x] by (simp add: eq_add_iff field_simps)
b84fafaea4bb tuned proofs;
wenzelm
parents: 49652
diff changeset
   382
53406
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
   383
lemma bilinear_rzero:
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
   384
  assumes "bilinear h"
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
   385
  shows "h x 0 = 0"
49663
b84fafaea4bb tuned proofs;
wenzelm
parents: 49652
diff changeset
   386
  using bilinear_radd [OF assms, of x 0 0 ] by (simp add: eq_add_iff field_simps)
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
   387
53406
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
   388
lemma bilinear_lsub: "bilinear h \<Longrightarrow> h (x - y) z = h x z - h y z"
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
   389
  by (simp  add: diff_minus bilinear_ladd bilinear_lneg)
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
   390
53406
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
   391
lemma bilinear_rsub: "bilinear h \<Longrightarrow> h z (x - y) = h z x - h z y"
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
   392
  by (simp  add: diff_minus bilinear_radd bilinear_rneg)
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
   393
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
   394
lemma bilinear_setsum:
49663
b84fafaea4bb tuned proofs;
wenzelm
parents: 49652
diff changeset
   395
  assumes bh: "bilinear h"
b84fafaea4bb tuned proofs;
wenzelm
parents: 49652
diff changeset
   396
    and fS: "finite S"
b84fafaea4bb tuned proofs;
wenzelm
parents: 49652
diff changeset
   397
    and fT: "finite T"
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
   398
  shows "h (setsum f S) (setsum g T) = setsum (\<lambda>(i,j). h (f i) (g j)) (S \<times> T) "
49522
355f3d076924 tuned proofs;
wenzelm
parents: 44890
diff changeset
   399
proof -
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
   400
  have "h (setsum f S) (setsum g T) = setsum (\<lambda>x. h (f x) (setsum g T)) S"
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
   401
    apply (rule linear_setsum[unfolded o_def])
53406
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
   402
    using bh fS
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
   403
    apply (auto simp add: bilinear_def)
49522
355f3d076924 tuned proofs;
wenzelm
parents: 44890
diff changeset
   404
    done
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
   405
  also have "\<dots> = setsum (\<lambda>x. setsum (\<lambda>y. h (f x) (g y)) T) S"
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
   406
    apply (rule setsum_cong, simp)
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
   407
    apply (rule linear_setsum[unfolded o_def])
49522
355f3d076924 tuned proofs;
wenzelm
parents: 44890
diff changeset
   408
    using bh fT
355f3d076924 tuned proofs;
wenzelm
parents: 44890
diff changeset
   409
    apply (auto simp add: bilinear_def)
355f3d076924 tuned proofs;
wenzelm
parents: 44890
diff changeset
   410
    done
53406
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
   411
  finally show ?thesis
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
   412
    unfolding setsum_cartesian_product .
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
   413
qed
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
   414
49522
355f3d076924 tuned proofs;
wenzelm
parents: 44890
diff changeset
   415
355f3d076924 tuned proofs;
wenzelm
parents: 44890
diff changeset
   416
subsection {* Adjoints. *}
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
   417
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
   418
definition "adjoint f = (SOME f'. \<forall>x y. f x \<bullet> y = x \<bullet> f' y)"
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
   419
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
   420
lemma adjoint_unique:
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
   421
  assumes "\<forall>x y. inner (f x) y = inner x (g y)"
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
   422
  shows "adjoint f = g"
49522
355f3d076924 tuned proofs;
wenzelm
parents: 44890
diff changeset
   423
  unfolding adjoint_def
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
   424
proof (rule some_equality)
53406
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
   425
  show "\<forall>x y. inner (f x) y = inner x (g y)"
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
   426
    by (rule assms)
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
   427
next
53406
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
   428
  fix h
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
   429
  assume "\<forall>x y. inner (f x) y = inner x (h y)"
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
   430
  then have "\<forall>x y. inner x (g y) = inner x (h y)"
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
   431
    using assms by simp
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
   432
  then have "\<forall>x y. inner x (g y - h y) = 0"
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
   433
    by (simp add: inner_diff_right)
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
   434
  then have "\<forall>y. inner (g y - h y) (g y - h y) = 0"
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
   435
    by simp
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
   436
  then have "\<forall>y. h y = g y"
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
   437
    by simp
49652
2b82d495b586 tuned proofs;
wenzelm
parents: 49525
diff changeset
   438
  then show "h = g" by (simp add: ext)
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
   439
qed
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
   440
50526
899c9c4e4a4c Remove the indexed basis from the definition of euclidean spaces and only use the set of Basis vectors
hoelzl
parents: 50105
diff changeset
   441
text {* TODO: The following lemmas about adjoints should hold for any
899c9c4e4a4c Remove the indexed basis from the definition of euclidean spaces and only use the set of Basis vectors
hoelzl
parents: 50105
diff changeset
   442
Hilbert space (i.e. complete inner product space).
899c9c4e4a4c Remove the indexed basis from the definition of euclidean spaces and only use the set of Basis vectors
hoelzl
parents: 50105
diff changeset
   443
(see \url{http://en.wikipedia.org/wiki/Hermitian_adjoint})
899c9c4e4a4c Remove the indexed basis from the definition of euclidean spaces and only use the set of Basis vectors
hoelzl
parents: 50105
diff changeset
   444
*}
899c9c4e4a4c Remove the indexed basis from the definition of euclidean spaces and only use the set of Basis vectors
hoelzl
parents: 50105
diff changeset
   445
899c9c4e4a4c Remove the indexed basis from the definition of euclidean spaces and only use the set of Basis vectors
hoelzl
parents: 50105
diff changeset
   446
lemma adjoint_works:
899c9c4e4a4c Remove the indexed basis from the definition of euclidean spaces and only use the set of Basis vectors
hoelzl
parents: 50105
diff changeset
   447
  fixes f:: "'n::euclidean_space \<Rightarrow> 'm::euclidean_space"
899c9c4e4a4c Remove the indexed basis from the definition of euclidean spaces and only use the set of Basis vectors
hoelzl
parents: 50105
diff changeset
   448
  assumes lf: "linear f"
899c9c4e4a4c Remove the indexed basis from the definition of euclidean spaces and only use the set of Basis vectors
hoelzl
parents: 50105
diff changeset
   449
  shows "x \<bullet> adjoint f y = f x \<bullet> y"
899c9c4e4a4c Remove the indexed basis from the definition of euclidean spaces and only use the set of Basis vectors
hoelzl
parents: 50105
diff changeset
   450
proof -
899c9c4e4a4c Remove the indexed basis from the definition of euclidean spaces and only use the set of Basis vectors
hoelzl
parents: 50105
diff changeset
   451
  have "\<forall>y. \<exists>w. \<forall>x. f x \<bullet> y = x \<bullet> w"
899c9c4e4a4c Remove the indexed basis from the definition of euclidean spaces and only use the set of Basis vectors
hoelzl
parents: 50105
diff changeset
   452
  proof (intro allI exI)
899c9c4e4a4c Remove the indexed basis from the definition of euclidean spaces and only use the set of Basis vectors
hoelzl
parents: 50105
diff changeset
   453
    fix y :: "'m" and x
899c9c4e4a4c Remove the indexed basis from the definition of euclidean spaces and only use the set of Basis vectors
hoelzl
parents: 50105
diff changeset
   454
    let ?w = "(\<Sum>i\<in>Basis. (f i \<bullet> y) *\<^sub>R i) :: 'n"
899c9c4e4a4c Remove the indexed basis from the definition of euclidean spaces and only use the set of Basis vectors
hoelzl
parents: 50105
diff changeset
   455
    have "f x \<bullet> y = f (\<Sum>i\<in>Basis. (x \<bullet> i) *\<^sub>R i) \<bullet> y"
899c9c4e4a4c Remove the indexed basis from the definition of euclidean spaces and only use the set of Basis vectors
hoelzl
parents: 50105
diff changeset
   456
      by (simp add: euclidean_representation)
899c9c4e4a4c Remove the indexed basis from the definition of euclidean spaces and only use the set of Basis vectors
hoelzl
parents: 50105
diff changeset
   457
    also have "\<dots> = (\<Sum>i\<in>Basis. (x \<bullet> i) *\<^sub>R f i) \<bullet> y"
899c9c4e4a4c Remove the indexed basis from the definition of euclidean spaces and only use the set of Basis vectors
hoelzl
parents: 50105
diff changeset
   458
      unfolding linear_setsum[OF lf finite_Basis]
899c9c4e4a4c Remove the indexed basis from the definition of euclidean spaces and only use the set of Basis vectors
hoelzl
parents: 50105
diff changeset
   459
      by (simp add: linear_cmul[OF lf])
899c9c4e4a4c Remove the indexed basis from the definition of euclidean spaces and only use the set of Basis vectors
hoelzl
parents: 50105
diff changeset
   460
    finally show "f x \<bullet> y = x \<bullet> ?w"
53406
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
   461
      by (simp add: inner_setsum_left inner_setsum_right mult_commute)
50526
899c9c4e4a4c Remove the indexed basis from the definition of euclidean spaces and only use the set of Basis vectors
hoelzl
parents: 50105
diff changeset
   462
  qed
899c9c4e4a4c Remove the indexed basis from the definition of euclidean spaces and only use the set of Basis vectors
hoelzl
parents: 50105
diff changeset
   463
  then show ?thesis
899c9c4e4a4c Remove the indexed basis from the definition of euclidean spaces and only use the set of Basis vectors
hoelzl
parents: 50105
diff changeset
   464
    unfolding adjoint_def choice_iff
899c9c4e4a4c Remove the indexed basis from the definition of euclidean spaces and only use the set of Basis vectors
hoelzl
parents: 50105
diff changeset
   465
    by (intro someI2_ex[where Q="\<lambda>f'. x \<bullet> f' y = f x \<bullet> y"]) auto
899c9c4e4a4c Remove the indexed basis from the definition of euclidean spaces and only use the set of Basis vectors
hoelzl
parents: 50105
diff changeset
   466
qed
899c9c4e4a4c Remove the indexed basis from the definition of euclidean spaces and only use the set of Basis vectors
hoelzl
parents: 50105
diff changeset
   467
899c9c4e4a4c Remove the indexed basis from the definition of euclidean spaces and only use the set of Basis vectors
hoelzl
parents: 50105
diff changeset
   468
lemma adjoint_clauses:
899c9c4e4a4c Remove the indexed basis from the definition of euclidean spaces and only use the set of Basis vectors
hoelzl
parents: 50105
diff changeset
   469
  fixes f:: "'n::euclidean_space \<Rightarrow> 'm::euclidean_space"
899c9c4e4a4c Remove the indexed basis from the definition of euclidean spaces and only use the set of Basis vectors
hoelzl
parents: 50105
diff changeset
   470
  assumes lf: "linear f"
899c9c4e4a4c Remove the indexed basis from the definition of euclidean spaces and only use the set of Basis vectors
hoelzl
parents: 50105
diff changeset
   471
  shows "x \<bullet> adjoint f y = f x \<bullet> y"
899c9c4e4a4c Remove the indexed basis from the definition of euclidean spaces and only use the set of Basis vectors
hoelzl
parents: 50105
diff changeset
   472
    and "adjoint f y \<bullet> x = y \<bullet> f x"
899c9c4e4a4c Remove the indexed basis from the definition of euclidean spaces and only use the set of Basis vectors
hoelzl
parents: 50105
diff changeset
   473
  by (simp_all add: adjoint_works[OF lf] inner_commute)
899c9c4e4a4c Remove the indexed basis from the definition of euclidean spaces and only use the set of Basis vectors
hoelzl
parents: 50105
diff changeset
   474
899c9c4e4a4c Remove the indexed basis from the definition of euclidean spaces and only use the set of Basis vectors
hoelzl
parents: 50105
diff changeset
   475
lemma adjoint_linear:
899c9c4e4a4c Remove the indexed basis from the definition of euclidean spaces and only use the set of Basis vectors
hoelzl
parents: 50105
diff changeset
   476
  fixes f:: "'n::euclidean_space \<Rightarrow> 'm::euclidean_space"
899c9c4e4a4c Remove the indexed basis from the definition of euclidean spaces and only use the set of Basis vectors
hoelzl
parents: 50105
diff changeset
   477
  assumes lf: "linear f"
899c9c4e4a4c Remove the indexed basis from the definition of euclidean spaces and only use the set of Basis vectors
hoelzl
parents: 50105
diff changeset
   478
  shows "linear (adjoint f)"
53600
8fda7ad57466 make 'linear' into a sublocale of 'bounded_linear';
huffman
parents: 53596
diff changeset
   479
  by (simp add: lf linear_iff euclidean_eq_iff[where 'a='n] euclidean_eq_iff[where 'a='m]
50526
899c9c4e4a4c Remove the indexed basis from the definition of euclidean spaces and only use the set of Basis vectors
hoelzl
parents: 50105
diff changeset
   480
    adjoint_clauses[OF lf] inner_simps)
899c9c4e4a4c Remove the indexed basis from the definition of euclidean spaces and only use the set of Basis vectors
hoelzl
parents: 50105
diff changeset
   481
899c9c4e4a4c Remove the indexed basis from the definition of euclidean spaces and only use the set of Basis vectors
hoelzl
parents: 50105
diff changeset
   482
lemma adjoint_adjoint:
899c9c4e4a4c Remove the indexed basis from the definition of euclidean spaces and only use the set of Basis vectors
hoelzl
parents: 50105
diff changeset
   483
  fixes f:: "'n::euclidean_space \<Rightarrow> 'm::euclidean_space"
899c9c4e4a4c Remove the indexed basis from the definition of euclidean spaces and only use the set of Basis vectors
hoelzl
parents: 50105
diff changeset
   484
  assumes lf: "linear f"
899c9c4e4a4c Remove the indexed basis from the definition of euclidean spaces and only use the set of Basis vectors
hoelzl
parents: 50105
diff changeset
   485
  shows "adjoint (adjoint f) = f"
899c9c4e4a4c Remove the indexed basis from the definition of euclidean spaces and only use the set of Basis vectors
hoelzl
parents: 50105
diff changeset
   486
  by (rule adjoint_unique, simp add: adjoint_clauses [OF lf])
899c9c4e4a4c Remove the indexed basis from the definition of euclidean spaces and only use the set of Basis vectors
hoelzl
parents: 50105
diff changeset
   487
53406
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
   488
49522
355f3d076924 tuned proofs;
wenzelm
parents: 44890
diff changeset
   489
subsection {* Interlude: Some properties of real sets *}
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
   490
53406
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
   491
lemma seq_mono_lemma:
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
   492
  assumes "\<forall>(n::nat) \<ge> m. (d n :: real) < e n"
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
   493
    and "\<forall>n \<ge> m. e n \<le> e m"
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
   494
  shows "\<forall>n \<ge> m. d n < e m"
53406
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
   495
  using assms
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
   496
  apply auto
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
   497
  apply (erule_tac x="n" in allE)
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
   498
  apply (erule_tac x="n" in allE)
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
   499
  apply auto
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
   500
  done
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
   501
53406
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
   502
lemma infinite_enumerate:
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
   503
  assumes fS: "infinite S"
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
   504
  shows "\<exists>r. subseq r \<and> (\<forall>n. r n \<in> S)"
49525
e87b42a26991 misc tuning;
wenzelm
parents: 49522
diff changeset
   505
  unfolding subseq_def
e87b42a26991 misc tuning;
wenzelm
parents: 49522
diff changeset
   506
  using enumerate_in_set[OF fS] enumerate_mono[of _ _ S] fS by auto
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
   507
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
   508
lemma approachable_lt_le: "(\<exists>(d::real)>0. \<forall>x. f x < d \<longrightarrow> P x) \<longleftrightarrow> (\<exists>d>0. \<forall>x. f x \<le> d \<longrightarrow> P x)"
49522
355f3d076924 tuned proofs;
wenzelm
parents: 44890
diff changeset
   509
  apply auto
355f3d076924 tuned proofs;
wenzelm
parents: 44890
diff changeset
   510
  apply (rule_tac x="d/2" in exI)
355f3d076924 tuned proofs;
wenzelm
parents: 44890
diff changeset
   511
  apply auto
355f3d076924 tuned proofs;
wenzelm
parents: 44890
diff changeset
   512
  done
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
   513
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
   514
lemma triangle_lemma:
53406
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
   515
  fixes x y z :: real
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
   516
  assumes x: "0 \<le> x"
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
   517
    and y: "0 \<le> y"
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
   518
    and z: "0 \<le> z"
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
   519
    and xy: "x\<^sup>2 \<le> y\<^sup>2 + z\<^sup>2"
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
   520
  shows "x \<le> y + z"
49522
355f3d076924 tuned proofs;
wenzelm
parents: 44890
diff changeset
   521
proof -
53406
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
   522
  have "y\<^sup>2 + z\<^sup>2 \<le> y\<^sup>2 + 2 *y * z + z\<^sup>2"
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
   523
    using z y by (simp add: mult_nonneg_nonneg)
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
   524
  with xy have th: "x\<^sup>2 \<le> (y + z)\<^sup>2"
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
   525
    by (simp add: power2_eq_square field_simps)
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
   526
  from y z have yz: "y + z \<ge> 0"
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
   527
    by arith
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
   528
  from power2_le_imp_le[OF th yz] show ?thesis .
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
   529
qed
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
   530
49522
355f3d076924 tuned proofs;
wenzelm
parents: 44890
diff changeset
   531
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
   532
subsection {* A generic notion of "hull" (convex, affine, conic hull and closure). *}
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
   533
53406
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
   534
definition hull :: "('a set \<Rightarrow> bool) \<Rightarrow> 'a set \<Rightarrow> 'a set"  (infixl "hull" 75)
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
   535
  where "S hull s = \<Inter>{t. S t \<and> s \<subseteq> t}"
44170
510ac30f44c0 make Multivariate_Analysis work with separate set type
huffman
parents: 44166
diff changeset
   536
510ac30f44c0 make Multivariate_Analysis work with separate set type
huffman
parents: 44166
diff changeset
   537
lemma hull_same: "S s \<Longrightarrow> S hull s = s"
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
   538
  unfolding hull_def by auto
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
   539
53406
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
   540
lemma hull_in: "(\<And>T. Ball T S \<Longrightarrow> S (\<Inter>T)) \<Longrightarrow> S (S hull s)"
49522
355f3d076924 tuned proofs;
wenzelm
parents: 44890
diff changeset
   541
  unfolding hull_def Ball_def by auto
44170
510ac30f44c0 make Multivariate_Analysis work with separate set type
huffman
parents: 44166
diff changeset
   542
53406
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
   543
lemma hull_eq: "(\<And>T. Ball T S \<Longrightarrow> S (\<Inter>T)) \<Longrightarrow> (S hull s) = s \<longleftrightarrow> S s"
49522
355f3d076924 tuned proofs;
wenzelm
parents: 44890
diff changeset
   544
  using hull_same[of S s] hull_in[of S s] by metis
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
   545
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
   546
lemma hull_hull: "S hull (S hull s) = S hull s"
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
   547
  unfolding hull_def by blast
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
   548
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
   549
lemma hull_subset[intro]: "s \<subseteq> (S hull s)"
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
   550
  unfolding hull_def by blast
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
   551
53406
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
   552
lemma hull_mono: "s \<subseteq> t \<Longrightarrow> (S hull s) \<subseteq> (S hull t)"
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
   553
  unfolding hull_def by blast
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
   554
53406
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
   555
lemma hull_antimono: "\<forall>x. S x \<longrightarrow> T x \<Longrightarrow> (T hull s) \<subseteq> (S hull s)"
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
   556
  unfolding hull_def by blast
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
   557
53406
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
   558
lemma hull_minimal: "s \<subseteq> t \<Longrightarrow> S t \<Longrightarrow> (S hull s) \<subseteq> t"
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
   559
  unfolding hull_def by blast
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
   560
53406
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
   561
lemma subset_hull: "S t \<Longrightarrow> S hull s \<subseteq> t \<longleftrightarrow> s \<subseteq> t"
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
   562
  unfolding hull_def by blast
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
   563
53596
d29d63460d84 new lemmas
huffman
parents: 53595
diff changeset
   564
lemma hull_UNIV: "S hull UNIV = UNIV"
d29d63460d84 new lemmas
huffman
parents: 53595
diff changeset
   565
  unfolding hull_def by auto
d29d63460d84 new lemmas
huffman
parents: 53595
diff changeset
   566
53406
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
   567
lemma hull_unique: "s \<subseteq> t \<Longrightarrow> S t \<Longrightarrow> (\<And>t'. s \<subseteq> t' \<Longrightarrow> S t' \<Longrightarrow> t \<subseteq> t') \<Longrightarrow> (S hull s = t)"
49652
2b82d495b586 tuned proofs;
wenzelm
parents: 49525
diff changeset
   568
  unfolding hull_def by auto
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
   569
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
   570
lemma hull_induct: "(\<And>x. x\<in> S \<Longrightarrow> P x) \<Longrightarrow> Q {x. P x} \<Longrightarrow> \<forall>x\<in> Q hull S. P x"
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
   571
  using hull_minimal[of S "{x. P x}" Q]
44170
510ac30f44c0 make Multivariate_Analysis work with separate set type
huffman
parents: 44166
diff changeset
   572
  by (auto simp add: subset_eq)
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
   573
49522
355f3d076924 tuned proofs;
wenzelm
parents: 44890
diff changeset
   574
lemma hull_inc: "x \<in> S \<Longrightarrow> x \<in> P hull S"
355f3d076924 tuned proofs;
wenzelm
parents: 44890
diff changeset
   575
  by (metis hull_subset subset_eq)
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
   576
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
   577
lemma hull_union_subset: "(S hull s) \<union> (S hull t) \<subseteq> (S hull (s \<union> t))"
49522
355f3d076924 tuned proofs;
wenzelm
parents: 44890
diff changeset
   578
  unfolding Un_subset_iff by (metis hull_mono Un_upper1 Un_upper2)
355f3d076924 tuned proofs;
wenzelm
parents: 44890
diff changeset
   579
355f3d076924 tuned proofs;
wenzelm
parents: 44890
diff changeset
   580
lemma hull_union:
53406
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
   581
  assumes T: "\<And>T. Ball T S \<Longrightarrow> S (\<Inter>T)"
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
   582
  shows "S hull (s \<union> t) = S hull (S hull s \<union> S hull t)"
49522
355f3d076924 tuned proofs;
wenzelm
parents: 44890
diff changeset
   583
  apply rule
355f3d076924 tuned proofs;
wenzelm
parents: 44890
diff changeset
   584
  apply (rule hull_mono)
355f3d076924 tuned proofs;
wenzelm
parents: 44890
diff changeset
   585
  unfolding Un_subset_iff
355f3d076924 tuned proofs;
wenzelm
parents: 44890
diff changeset
   586
  apply (metis hull_subset Un_upper1 Un_upper2 subset_trans)
355f3d076924 tuned proofs;
wenzelm
parents: 44890
diff changeset
   587
  apply (rule hull_minimal)
355f3d076924 tuned proofs;
wenzelm
parents: 44890
diff changeset
   588
  apply (metis hull_union_subset)
355f3d076924 tuned proofs;
wenzelm
parents: 44890
diff changeset
   589
  apply (metis hull_in T)
355f3d076924 tuned proofs;
wenzelm
parents: 44890
diff changeset
   590
  done
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
   591
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
   592
lemma hull_redundant_eq: "a \<in> (S hull s) \<longleftrightarrow> (S hull (insert a s) = S hull s)"
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
   593
  unfolding hull_def by blast
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
   594
53406
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
   595
lemma hull_redundant: "a \<in> (S hull s) \<Longrightarrow> (S hull (insert a s) = S hull s)"
49522
355f3d076924 tuned proofs;
wenzelm
parents: 44890
diff changeset
   596
  by (metis hull_redundant_eq)
355f3d076924 tuned proofs;
wenzelm
parents: 44890
diff changeset
   597
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
   598
44666
8670a39d4420 remove more duplicate lemmas
huffman
parents: 44646
diff changeset
   599
subsection {* Archimedean properties and useful consequences *}
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
   600
53406
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
   601
lemma real_arch_simple: "\<exists>n. x \<le> real (n::nat)"
44666
8670a39d4420 remove more duplicate lemmas
huffman
parents: 44646
diff changeset
   602
  unfolding real_of_nat_def by (rule ex_le_of_nat)
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
   603
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
   604
lemma real_arch_inv: "0 < e \<longleftrightarrow> (\<exists>n::nat. n \<noteq> 0 \<and> 0 < inverse (real n) \<and> inverse (real n) < e)"
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
   605
  using reals_Archimedean
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
   606
  apply (auto simp add: field_simps)
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
   607
  apply (subgoal_tac "inverse (real n) > 0")
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
   608
  apply arith
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
   609
  apply simp
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
   610
  done
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
   611
53406
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
   612
lemma real_pow_lbound: "0 \<le> x \<Longrightarrow> 1 + real n * x \<le> (1 + x) ^ n"
49522
355f3d076924 tuned proofs;
wenzelm
parents: 44890
diff changeset
   613
proof (induct n)
355f3d076924 tuned proofs;
wenzelm
parents: 44890
diff changeset
   614
  case 0
355f3d076924 tuned proofs;
wenzelm
parents: 44890
diff changeset
   615
  then show ?case by simp
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
   616
next
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
   617
  case (Suc n)
53406
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
   618
  then have h: "1 + real n * x \<le> (1 + x) ^ n"
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
   619
    by simp
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
   620
  from h have p: "1 \<le> (1 + x) ^ n"
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
   621
    using Suc.prems by simp
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
   622
  from h have "1 + real n * x + x \<le> (1 + x) ^ n + x"
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
   623
    by simp
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
   624
  also have "\<dots> \<le> (1 + x) ^ Suc n"
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
   625
    apply (subst diff_le_0_iff_le[symmetric])
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
   626
    apply (simp add: field_simps)
53406
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
   627
    using mult_left_mono[OF p Suc.prems]
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
   628
    apply simp
49522
355f3d076924 tuned proofs;
wenzelm
parents: 44890
diff changeset
   629
    done
53406
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
   630
  finally show ?case
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
   631
    by (simp add: real_of_nat_Suc field_simps)
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
   632
qed
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
   633
53406
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
   634
lemma real_arch_pow:
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
   635
  fixes x :: real
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
   636
  assumes x: "1 < x"
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
   637
  shows "\<exists>n. y < x^n"
49522
355f3d076924 tuned proofs;
wenzelm
parents: 44890
diff changeset
   638
proof -
53406
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
   639
  from x have x0: "x - 1 > 0"
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
   640
    by arith
44666
8670a39d4420 remove more duplicate lemmas
huffman
parents: 44646
diff changeset
   641
  from reals_Archimedean3[OF x0, rule_format, of y]
53406
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
   642
  obtain n :: nat where n: "y < real n * (x - 1)" by metis
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
   643
  from x0 have x00: "x- 1 \<ge> 0" by arith
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
   644
  from real_pow_lbound[OF x00, of n] n
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
   645
  have "y < x^n" by auto
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
   646
  then show ?thesis by metis
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
   647
qed
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
   648
53406
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
   649
lemma real_arch_pow2:
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
   650
  fixes x :: real
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
   651
  shows "\<exists>n. x < 2^ n"
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
   652
  using real_arch_pow[of 2 x] by simp
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
   653
49522
355f3d076924 tuned proofs;
wenzelm
parents: 44890
diff changeset
   654
lemma real_arch_pow_inv:
53406
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
   655
  fixes x y :: real
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
   656
  assumes y: "y > 0"
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
   657
    and x1: "x < 1"
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
   658
  shows "\<exists>n. x^n < y"
53406
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
   659
proof (cases "x > 0")
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
   660
  case True
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
   661
  with x1 have ix: "1 < 1/x" by (simp add: field_simps)
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
   662
  from real_arch_pow[OF ix, of "1/y"]
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
   663
  obtain n where n: "1/y < (1/x)^n" by blast
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
   664
  then show ?thesis using y `x > 0`
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
   665
    by (auto simp add: field_simps power_divide)
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
   666
next
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
   667
  case False
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
   668
  with y x1 show ?thesis
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
   669
    apply auto
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
   670
    apply (rule exI[where x=1])
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
   671
    apply auto
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
   672
    done
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
   673
qed
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
   674
49522
355f3d076924 tuned proofs;
wenzelm
parents: 44890
diff changeset
   675
lemma forall_pos_mono:
53406
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
   676
  "(\<And>d e::real. d < e \<Longrightarrow> P d \<Longrightarrow> P e) \<Longrightarrow>
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
   677
    (\<And>n::nat. n \<noteq> 0 \<Longrightarrow> P (inverse (real n))) \<Longrightarrow> (\<And>e. 0 < e \<Longrightarrow> P e)"
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
   678
  by (metis real_arch_inv)
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
   679
49522
355f3d076924 tuned proofs;
wenzelm
parents: 44890
diff changeset
   680
lemma forall_pos_mono_1:
53406
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
   681
  "(\<And>d e::real. d < e \<Longrightarrow> P d \<Longrightarrow> P e) \<Longrightarrow>
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
   682
    (\<And>n. P(inverse(real (Suc n)))) \<Longrightarrow> 0 < e \<Longrightarrow> P e"
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
   683
  apply (rule forall_pos_mono)
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
   684
  apply auto
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
   685
  apply (atomize)
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
   686
  apply (erule_tac x="n - 1" in allE)
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
   687
  apply auto
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
   688
  done
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
   689
49522
355f3d076924 tuned proofs;
wenzelm
parents: 44890
diff changeset
   690
lemma real_archimedian_rdiv_eq_0:
53406
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
   691
  assumes x0: "x \<ge> 0"
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
   692
    and c: "c \<ge> 0"
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
   693
    and xc: "\<forall>(m::nat)>0. real m * x \<le> c"
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
   694
  shows "x = 0"
53406
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
   695
proof (rule ccontr)
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
   696
  assume "x \<noteq> 0"
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
   697
  with x0 have xp: "x > 0" by arith
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
   698
  from reals_Archimedean3[OF xp, rule_format, of c]
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
   699
  obtain n :: nat where n: "c < real n * x"
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
   700
    by blast
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
   701
  with xc[rule_format, of n] have "n = 0"
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
   702
    by arith
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
   703
  with n c show False
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
   704
    by simp
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
   705
qed
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
   706
49522
355f3d076924 tuned proofs;
wenzelm
parents: 44890
diff changeset
   707
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
   708
subsection{* A bit of linear algebra. *}
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
   709
49522
355f3d076924 tuned proofs;
wenzelm
parents: 44890
diff changeset
   710
definition (in real_vector) subspace :: "'a set \<Rightarrow> bool"
355f3d076924 tuned proofs;
wenzelm
parents: 44890
diff changeset
   711
  where "subspace S \<longleftrightarrow> 0 \<in> S \<and> (\<forall>x\<in> S. \<forall>y \<in>S. x + y \<in> S) \<and> (\<forall>c. \<forall>x \<in>S. c *\<^sub>R x \<in>S )"
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
   712
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
   713
definition (in real_vector) "span S = (subspace hull S)"
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
   714
definition (in real_vector) "dependent S \<longleftrightarrow> (\<exists>a \<in> S. a \<in> span(S - {a}))"
53406
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
   715
abbreviation (in real_vector) "independent s \<equiv> \<not> dependent s"
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
   716
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
   717
text {* Closure properties of subspaces. *}
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
   718
53406
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
   719
lemma subspace_UNIV[simp]: "subspace UNIV"
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
   720
  by (simp add: subspace_def)
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
   721
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
   722
lemma (in real_vector) subspace_0: "subspace S \<Longrightarrow> 0 \<in> S"
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
   723
  by (metis subspace_def)
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
   724
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
   725
lemma (in real_vector) subspace_add: "subspace S \<Longrightarrow> x \<in> S \<Longrightarrow> y \<in> S \<Longrightarrow> x + y \<in> S"
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
   726
  by (metis subspace_def)
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
   727
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
   728
lemma (in real_vector) subspace_mul: "subspace S \<Longrightarrow> x \<in> S \<Longrightarrow> c *\<^sub>R x \<in> S"
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
   729
  by (metis subspace_def)
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
   730
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
   731
lemma subspace_neg: "subspace S \<Longrightarrow> x \<in> S \<Longrightarrow> - x \<in> S"
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
   732
  by (metis scaleR_minus1_left subspace_mul)
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
   733
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
   734
lemma subspace_sub: "subspace S \<Longrightarrow> x \<in> S \<Longrightarrow> y \<in> S \<Longrightarrow> x - y \<in> S"
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
   735
  by (metis diff_minus subspace_add subspace_neg)
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
   736
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
   737
lemma (in real_vector) subspace_setsum:
53406
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
   738
  assumes sA: "subspace A"
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
   739
    and fB: "finite B"
49522
355f3d076924 tuned proofs;
wenzelm
parents: 44890
diff changeset
   740
    and f: "\<forall>x\<in> B. f x \<in> A"
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
   741
  shows "setsum f B \<in> A"
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
   742
  using  fB f sA
49522
355f3d076924 tuned proofs;
wenzelm
parents: 44890
diff changeset
   743
  by (induct rule: finite_induct[OF fB])
355f3d076924 tuned proofs;
wenzelm
parents: 44890
diff changeset
   744
    (simp add: subspace_def sA, auto simp add: sA subspace_add)
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
   745
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
   746
lemma subspace_linear_image:
53406
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
   747
  assumes lf: "linear f"
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
   748
    and sS: "subspace S"
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
   749
  shows "subspace (f ` S)"
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
   750
  using lf sS linear_0[OF lf]
53600
8fda7ad57466 make 'linear' into a sublocale of 'bounded_linear';
huffman
parents: 53596
diff changeset
   751
  unfolding linear_iff subspace_def
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
   752
  apply (auto simp add: image_iff)
53406
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
   753
  apply (rule_tac x="x + y" in bexI)
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
   754
  apply auto
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
   755
  apply (rule_tac x="c *\<^sub>R x" in bexI)
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
   756
  apply auto
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
   757
  done
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
   758
44521
083eedb37a37 simplify many proofs about subspace and span;
huffman
parents: 44517
diff changeset
   759
lemma subspace_linear_vimage: "linear f \<Longrightarrow> subspace S \<Longrightarrow> subspace (f -` S)"
53600
8fda7ad57466 make 'linear' into a sublocale of 'bounded_linear';
huffman
parents: 53596
diff changeset
   760
  by (auto simp add: subspace_def linear_iff linear_0[of f])
44521
083eedb37a37 simplify many proofs about subspace and span;
huffman
parents: 44517
diff changeset
   761
53406
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
   762
lemma subspace_linear_preimage: "linear f \<Longrightarrow> subspace S \<Longrightarrow> subspace {x. f x \<in> S}"
53600
8fda7ad57466 make 'linear' into a sublocale of 'bounded_linear';
huffman
parents: 53596
diff changeset
   763
  by (auto simp add: subspace_def linear_iff linear_0[of f])
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
   764
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
   765
lemma subspace_trivial: "subspace {0}"
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
   766
  by (simp add: subspace_def)
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
   767
53406
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
   768
lemma (in real_vector) subspace_inter: "subspace A \<Longrightarrow> subspace B \<Longrightarrow> subspace (A \<inter> B)"
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
   769
  by (simp add: subspace_def)
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
   770
53406
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
   771
lemma subspace_Times: "subspace A \<Longrightarrow> subspace B \<Longrightarrow> subspace (A \<times> B)"
44521
083eedb37a37 simplify many proofs about subspace and span;
huffman
parents: 44517
diff changeset
   772
  unfolding subspace_def zero_prod_def by simp
083eedb37a37 simplify many proofs about subspace and span;
huffman
parents: 44517
diff changeset
   773
083eedb37a37 simplify many proofs about subspace and span;
huffman
parents: 44517
diff changeset
   774
text {* Properties of span. *}
083eedb37a37 simplify many proofs about subspace and span;
huffman
parents: 44517
diff changeset
   775
53406
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
   776
lemma (in real_vector) span_mono: "A \<subseteq> B \<Longrightarrow> span A \<subseteq> span B"
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
   777
  by (metis span_def hull_mono)
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
   778
53406
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
   779
lemma (in real_vector) subspace_span: "subspace (span S)"
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
   780
  unfolding span_def
44170
510ac30f44c0 make Multivariate_Analysis work with separate set type
huffman
parents: 44166
diff changeset
   781
  apply (rule hull_in)
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
   782
  apply (simp only: subspace_def Inter_iff Int_iff subset_eq)
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
   783
  apply auto
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
   784
  done
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
   785
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
   786
lemma (in real_vector) span_clauses:
53406
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
   787
  "a \<in> S \<Longrightarrow> a \<in> span S"
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
   788
  "0 \<in> span S"
53406
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
   789
  "x\<in> span S \<Longrightarrow> y \<in> span S \<Longrightarrow> x + y \<in> span S"
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
   790
  "x \<in> span S \<Longrightarrow> c *\<^sub>R x \<in> span S"
53406
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
   791
  by (metis span_def hull_subset subset_eq) (metis subspace_span subspace_def)+
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
   792
44521
083eedb37a37 simplify many proofs about subspace and span;
huffman
parents: 44517
diff changeset
   793
lemma span_unique:
49522
355f3d076924 tuned proofs;
wenzelm
parents: 44890
diff changeset
   794
  "S \<subseteq> T \<Longrightarrow> subspace T \<Longrightarrow> (\<And>T'. S \<subseteq> T' \<Longrightarrow> subspace T' \<Longrightarrow> T \<subseteq> T') \<Longrightarrow> span S = T"
44521
083eedb37a37 simplify many proofs about subspace and span;
huffman
parents: 44517
diff changeset
   795
  unfolding span_def by (rule hull_unique)
083eedb37a37 simplify many proofs about subspace and span;
huffman
parents: 44517
diff changeset
   796
083eedb37a37 simplify many proofs about subspace and span;
huffman
parents: 44517
diff changeset
   797
lemma span_minimal: "S \<subseteq> T \<Longrightarrow> subspace T \<Longrightarrow> span S \<subseteq> T"
083eedb37a37 simplify many proofs about subspace and span;
huffman
parents: 44517
diff changeset
   798
  unfolding span_def by (rule hull_minimal)
083eedb37a37 simplify many proofs about subspace and span;
huffman
parents: 44517
diff changeset
   799
083eedb37a37 simplify many proofs about subspace and span;
huffman
parents: 44517
diff changeset
   800
lemma (in real_vector) span_induct:
49522
355f3d076924 tuned proofs;
wenzelm
parents: 44890
diff changeset
   801
  assumes x: "x \<in> span S"
355f3d076924 tuned proofs;
wenzelm
parents: 44890
diff changeset
   802
    and P: "subspace P"
53406
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
   803
    and SP: "\<And>x. x \<in> S \<Longrightarrow> x \<in> P"
44521
083eedb37a37 simplify many proofs about subspace and span;
huffman
parents: 44517
diff changeset
   804
  shows "x \<in> P"
49522
355f3d076924 tuned proofs;
wenzelm
parents: 44890
diff changeset
   805
proof -
53406
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
   806
  from SP have SP': "S \<subseteq> P"
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
   807
    by (simp add: subset_eq)
44170
510ac30f44c0 make Multivariate_Analysis work with separate set type
huffman
parents: 44166
diff changeset
   808
  from x hull_minimal[where S=subspace, OF SP' P, unfolded span_def[symmetric]]
53406
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
   809
  show "x \<in> P"
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
   810
    by (metis subset_eq)
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
   811
qed
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
   812
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
   813
lemma span_empty[simp]: "span {} = {0}"
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
   814
  apply (simp add: span_def)
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
   815
  apply (rule hull_unique)
44170
510ac30f44c0 make Multivariate_Analysis work with separate set type
huffman
parents: 44166
diff changeset
   816
  apply (auto simp add: subspace_def)
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
   817
  done
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
   818
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
   819
lemma (in real_vector) independent_empty[intro]: "independent {}"
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
   820
  by (simp add: dependent_def)
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
   821
49522
355f3d076924 tuned proofs;
wenzelm
parents: 44890
diff changeset
   822
lemma dependent_single[simp]: "dependent {x} \<longleftrightarrow> x = 0"
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
   823
  unfolding dependent_def by auto
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
   824
53406
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
   825
lemma (in real_vector) independent_mono: "independent A \<Longrightarrow> B \<subseteq> A \<Longrightarrow> independent B"
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
   826
  apply (clarsimp simp add: dependent_def span_mono)
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
   827
  apply (subgoal_tac "span (B - {a}) \<le> span (A - {a})")
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
   828
  apply force
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
   829
  apply (rule span_mono)
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
   830
  apply auto
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
   831
  done
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
   832
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
   833
lemma (in real_vector) span_subspace: "A \<subseteq> B \<Longrightarrow> B \<le> span A \<Longrightarrow>  subspace B \<Longrightarrow> span A = B"
44170
510ac30f44c0 make Multivariate_Analysis work with separate set type
huffman
parents: 44166
diff changeset
   834
  by (metis order_antisym span_def hull_minimal)
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
   835
49711
e5aaae7eadc9 tuned proofs;
wenzelm
parents: 49663
diff changeset
   836
lemma (in real_vector) span_induct':
e5aaae7eadc9 tuned proofs;
wenzelm
parents: 49663
diff changeset
   837
  assumes SP: "\<forall>x \<in> S. P x"
e5aaae7eadc9 tuned proofs;
wenzelm
parents: 49663
diff changeset
   838
    and P: "subspace {x. P x}"
e5aaae7eadc9 tuned proofs;
wenzelm
parents: 49663
diff changeset
   839
  shows "\<forall>x \<in> span S. P x"
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
   840
  using span_induct SP P by blast
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
   841
44170
510ac30f44c0 make Multivariate_Analysis work with separate set type
huffman
parents: 44166
diff changeset
   842
inductive_set (in real_vector) span_induct_alt_help for S:: "'a set"
53406
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
   843
where
44170
510ac30f44c0 make Multivariate_Analysis work with separate set type
huffman
parents: 44166
diff changeset
   844
  span_induct_alt_help_0: "0 \<in> span_induct_alt_help S"
49522
355f3d076924 tuned proofs;
wenzelm
parents: 44890
diff changeset
   845
| span_induct_alt_help_S:
53406
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
   846
    "x \<in> S \<Longrightarrow> z \<in> span_induct_alt_help S \<Longrightarrow>
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
   847
      (c *\<^sub>R x + z) \<in> span_induct_alt_help S"
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
   848
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
   849
lemma span_induct_alt':
53406
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
   850
  assumes h0: "h 0"
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
   851
    and hS: "\<And>c x y. x \<in> S \<Longrightarrow> h y \<Longrightarrow> h (c *\<^sub>R x + y)"
49522
355f3d076924 tuned proofs;
wenzelm
parents: 44890
diff changeset
   852
  shows "\<forall>x \<in> span S. h x"
355f3d076924 tuned proofs;
wenzelm
parents: 44890
diff changeset
   853
proof -
53406
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
   854
  {
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
   855
    fix x :: 'a
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
   856
    assume x: "x \<in> span_induct_alt_help S"
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
   857
    have "h x"
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
   858
      apply (rule span_induct_alt_help.induct[OF x])
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
   859
      apply (rule h0)
53406
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
   860
      apply (rule hS)
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
   861
      apply assumption
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
   862
      apply assumption
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
   863
      done
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
   864
  }
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
   865
  note th0 = this
53406
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
   866
  {
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
   867
    fix x
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
   868
    assume x: "x \<in> span S"
44170
510ac30f44c0 make Multivariate_Analysis work with separate set type
huffman
parents: 44166
diff changeset
   869
    have "x \<in> span_induct_alt_help S"
49522
355f3d076924 tuned proofs;
wenzelm
parents: 44890
diff changeset
   870
    proof (rule span_induct[where x=x and S=S])
53406
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
   871
      show "x \<in> span S" by (rule x)
49522
355f3d076924 tuned proofs;
wenzelm
parents: 44890
diff changeset
   872
    next
53406
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
   873
      fix x
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
   874
      assume xS: "x \<in> S"
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
   875
      from span_induct_alt_help_S[OF xS span_induct_alt_help_0, of 1]
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
   876
      show "x \<in> span_induct_alt_help S"
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
   877
        by simp
49522
355f3d076924 tuned proofs;
wenzelm
parents: 44890
diff changeset
   878
    next
355f3d076924 tuned proofs;
wenzelm
parents: 44890
diff changeset
   879
      have "0 \<in> span_induct_alt_help S" by (rule span_induct_alt_help_0)
355f3d076924 tuned proofs;
wenzelm
parents: 44890
diff changeset
   880
      moreover
53406
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
   881
      {
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
   882
        fix x y
49522
355f3d076924 tuned proofs;
wenzelm
parents: 44890
diff changeset
   883
        assume h: "x \<in> span_induct_alt_help S" "y \<in> span_induct_alt_help S"
355f3d076924 tuned proofs;
wenzelm
parents: 44890
diff changeset
   884
        from h have "(x + y) \<in> span_induct_alt_help S"
355f3d076924 tuned proofs;
wenzelm
parents: 44890
diff changeset
   885
          apply (induct rule: span_induct_alt_help.induct)
355f3d076924 tuned proofs;
wenzelm
parents: 44890
diff changeset
   886
          apply simp
355f3d076924 tuned proofs;
wenzelm
parents: 44890
diff changeset
   887
          unfolding add_assoc
355f3d076924 tuned proofs;
wenzelm
parents: 44890
diff changeset
   888
          apply (rule span_induct_alt_help_S)
355f3d076924 tuned proofs;
wenzelm
parents: 44890
diff changeset
   889
          apply assumption
355f3d076924 tuned proofs;
wenzelm
parents: 44890
diff changeset
   890
          apply simp
53406
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
   891
          done
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
   892
      }
49522
355f3d076924 tuned proofs;
wenzelm
parents: 44890
diff changeset
   893
      moreover
53406
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
   894
      {
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
   895
        fix c x
49522
355f3d076924 tuned proofs;
wenzelm
parents: 44890
diff changeset
   896
        assume xt: "x \<in> span_induct_alt_help S"
355f3d076924 tuned proofs;
wenzelm
parents: 44890
diff changeset
   897
        then have "(c *\<^sub>R x) \<in> span_induct_alt_help S"
355f3d076924 tuned proofs;
wenzelm
parents: 44890
diff changeset
   898
          apply (induct rule: span_induct_alt_help.induct)
355f3d076924 tuned proofs;
wenzelm
parents: 44890
diff changeset
   899
          apply (simp add: span_induct_alt_help_0)
355f3d076924 tuned proofs;
wenzelm
parents: 44890
diff changeset
   900
          apply (simp add: scaleR_right_distrib)
355f3d076924 tuned proofs;
wenzelm
parents: 44890
diff changeset
   901
          apply (rule span_induct_alt_help_S)
355f3d076924 tuned proofs;
wenzelm
parents: 44890
diff changeset
   902
          apply assumption
355f3d076924 tuned proofs;
wenzelm
parents: 44890
diff changeset
   903
          apply simp
355f3d076924 tuned proofs;
wenzelm
parents: 44890
diff changeset
   904
          done }
53406
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
   905
      ultimately show "subspace (span_induct_alt_help S)"
49522
355f3d076924 tuned proofs;
wenzelm
parents: 44890
diff changeset
   906
        unfolding subspace_def Ball_def by blast
53406
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
   907
    qed
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
   908
  }
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
   909
  with th0 show ?thesis by blast
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
   910
qed
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
   911
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
   912
lemma span_induct_alt:
53406
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
   913
  assumes h0: "h 0"
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
   914
    and hS: "\<And>c x y. x \<in> S \<Longrightarrow> h y \<Longrightarrow> h (c *\<^sub>R x + y)"
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
   915
    and x: "x \<in> span S"
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
   916
  shows "h x"
49522
355f3d076924 tuned proofs;
wenzelm
parents: 44890
diff changeset
   917
  using span_induct_alt'[of h S] h0 hS x by blast
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
   918
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
   919
text {* Individual closure properties. *}
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
   920
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
   921
lemma span_span: "span (span A) = span A"
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
   922
  unfolding span_def hull_hull ..
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
   923
53406
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
   924
lemma (in real_vector) span_superset: "x \<in> S \<Longrightarrow> x \<in> span S"
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
   925
  by (metis span_clauses(1))
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
   926
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
   927
lemma (in real_vector) span_0: "0 \<in> span S"
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
   928
  by (metis subspace_span subspace_0)
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
   929
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
   930
lemma span_inc: "S \<subseteq> span S"
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
   931
  by (metis subset_eq span_superset)
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
   932
53406
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
   933
lemma (in real_vector) dependent_0:
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
   934
  assumes "0 \<in> A"
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
   935
  shows "dependent A"
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
   936
  unfolding dependent_def
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
   937
  apply (rule_tac x=0 in bexI)
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
   938
  using assms span_0
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
   939
  apply auto
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
   940
  done
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
   941
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
   942
lemma (in real_vector) span_add: "x \<in> span S \<Longrightarrow> y \<in> span S \<Longrightarrow> x + y \<in> span S"
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
   943
  by (metis subspace_add subspace_span)
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
   944
53406
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
   945
lemma (in real_vector) span_mul: "x \<in> span S \<Longrightarrow> c *\<^sub>R x \<in> span S"
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
   946
  by (metis subspace_span subspace_mul)
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
   947
53406
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
   948
lemma span_neg: "x \<in> span S \<Longrightarrow> - x \<in> span S"
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
   949
  by (metis subspace_neg subspace_span)
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
   950
53406
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
   951
lemma span_sub: "x \<in> span S \<Longrightarrow> y \<in> span S \<Longrightarrow> x - y \<in> span S"
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
   952
  by (metis subspace_span subspace_sub)
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
   953
53406
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
   954
lemma (in real_vector) span_setsum: "finite A \<Longrightarrow> \<forall>x \<in> A. f x \<in> span S \<Longrightarrow> setsum f A \<in> span S"
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
   955
  by (rule subspace_setsum, rule subspace_span)
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
   956
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
   957
lemma span_add_eq: "x \<in> span S \<Longrightarrow> x + y \<in> span S \<longleftrightarrow> y \<in> span S"
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
   958
  apply (auto simp only: span_add span_sub)
53406
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
   959
  apply (subgoal_tac "(x + y) - x \<in> span S")
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
   960
  apply simp
49522
355f3d076924 tuned proofs;
wenzelm
parents: 44890
diff changeset
   961
  apply (simp only: span_add span_sub)
355f3d076924 tuned proofs;
wenzelm
parents: 44890
diff changeset
   962
  done
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
   963
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
   964
text {* Mapping under linear image. *}
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
   965
44521
083eedb37a37 simplify many proofs about subspace and span;
huffman
parents: 44517
diff changeset
   966
lemma image_subset_iff_subset_vimage: "f ` A \<subseteq> B \<longleftrightarrow> A \<subseteq> f -` B"
083eedb37a37 simplify many proofs about subspace and span;
huffman
parents: 44517
diff changeset
   967
  by auto (* TODO: move *)
083eedb37a37 simplify many proofs about subspace and span;
huffman
parents: 44517
diff changeset
   968
083eedb37a37 simplify many proofs about subspace and span;
huffman
parents: 44517
diff changeset
   969
lemma span_linear_image:
083eedb37a37 simplify many proofs about subspace and span;
huffman
parents: 44517
diff changeset
   970
  assumes lf: "linear f"
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
   971
  shows "span (f ` S) = f ` (span S)"
44521
083eedb37a37 simplify many proofs about subspace and span;
huffman
parents: 44517
diff changeset
   972
proof (rule span_unique)
083eedb37a37 simplify many proofs about subspace and span;
huffman
parents: 44517
diff changeset
   973
  show "f ` S \<subseteq> f ` span S"
083eedb37a37 simplify many proofs about subspace and span;
huffman
parents: 44517
diff changeset
   974
    by (intro image_mono span_inc)
083eedb37a37 simplify many proofs about subspace and span;
huffman
parents: 44517
diff changeset
   975
  show "subspace (f ` span S)"
083eedb37a37 simplify many proofs about subspace and span;
huffman
parents: 44517
diff changeset
   976
    using lf subspace_span by (rule subspace_linear_image)
083eedb37a37 simplify many proofs about subspace and span;
huffman
parents: 44517
diff changeset
   977
next
53406
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
   978
  fix T
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
   979
  assume "f ` S \<subseteq> T" and "subspace T"
49522
355f3d076924 tuned proofs;
wenzelm
parents: 44890
diff changeset
   980
  then show "f ` span S \<subseteq> T"
44521
083eedb37a37 simplify many proofs about subspace and span;
huffman
parents: 44517
diff changeset
   981
    unfolding image_subset_iff_subset_vimage
083eedb37a37 simplify many proofs about subspace and span;
huffman
parents: 44517
diff changeset
   982
    by (intro span_minimal subspace_linear_vimage lf)
083eedb37a37 simplify many proofs about subspace and span;
huffman
parents: 44517
diff changeset
   983
qed
083eedb37a37 simplify many proofs about subspace and span;
huffman
parents: 44517
diff changeset
   984
083eedb37a37 simplify many proofs about subspace and span;
huffman
parents: 44517
diff changeset
   985
lemma span_union: "span (A \<union> B) = (\<lambda>(a, b). a + b) ` (span A \<times> span B)"
083eedb37a37 simplify many proofs about subspace and span;
huffman
parents: 44517
diff changeset
   986
proof (rule span_unique)
083eedb37a37 simplify many proofs about subspace and span;
huffman
parents: 44517
diff changeset
   987
  show "A \<union> B \<subseteq> (\<lambda>(a, b). a + b) ` (span A \<times> span B)"
083eedb37a37 simplify many proofs about subspace and span;
huffman
parents: 44517
diff changeset
   988
    by safe (force intro: span_clauses)+
083eedb37a37 simplify many proofs about subspace and span;
huffman
parents: 44517
diff changeset
   989
next
083eedb37a37 simplify many proofs about subspace and span;
huffman
parents: 44517
diff changeset
   990
  have "linear (\<lambda>(a, b). a + b)"
53600
8fda7ad57466 make 'linear' into a sublocale of 'bounded_linear';
huffman
parents: 53596
diff changeset
   991
    by (simp add: linear_iff scaleR_add_right)
44521
083eedb37a37 simplify many proofs about subspace and span;
huffman
parents: 44517
diff changeset
   992
  moreover have "subspace (span A \<times> span B)"
083eedb37a37 simplify many proofs about subspace and span;
huffman
parents: 44517
diff changeset
   993
    by (intro subspace_Times subspace_span)
083eedb37a37 simplify many proofs about subspace and span;
huffman
parents: 44517
diff changeset
   994
  ultimately show "subspace ((\<lambda>(a, b). a + b) ` (span A \<times> span B))"
083eedb37a37 simplify many proofs about subspace and span;
huffman
parents: 44517
diff changeset
   995
    by (rule subspace_linear_image)
083eedb37a37 simplify many proofs about subspace and span;
huffman
parents: 44517
diff changeset
   996
next
49711
e5aaae7eadc9 tuned proofs;
wenzelm
parents: 49663
diff changeset
   997
  fix T
e5aaae7eadc9 tuned proofs;
wenzelm
parents: 49663
diff changeset
   998
  assume "A \<union> B \<subseteq> T" and "subspace T"
49522
355f3d076924 tuned proofs;
wenzelm
parents: 44890
diff changeset
   999
  then show "(\<lambda>(a, b). a + b) ` (span A \<times> span B) \<subseteq> T"
44521
083eedb37a37 simplify many proofs about subspace and span;
huffman
parents: 44517
diff changeset
  1000
    by (auto intro!: subspace_add elim: span_induct)
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1001
qed
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1002
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1003
text {* The key breakdown property. *}
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1004
44521
083eedb37a37 simplify many proofs about subspace and span;
huffman
parents: 44517
diff changeset
  1005
lemma span_singleton: "span {x} = range (\<lambda>k. k *\<^sub>R x)"
083eedb37a37 simplify many proofs about subspace and span;
huffman
parents: 44517
diff changeset
  1006
proof (rule span_unique)
083eedb37a37 simplify many proofs about subspace and span;
huffman
parents: 44517
diff changeset
  1007
  show "{x} \<subseteq> range (\<lambda>k. k *\<^sub>R x)"
083eedb37a37 simplify many proofs about subspace and span;
huffman
parents: 44517
diff changeset
  1008
    by (fast intro: scaleR_one [symmetric])
083eedb37a37 simplify many proofs about subspace and span;
huffman
parents: 44517
diff changeset
  1009
  show "subspace (range (\<lambda>k. k *\<^sub>R x))"
083eedb37a37 simplify many proofs about subspace and span;
huffman
parents: 44517
diff changeset
  1010
    unfolding subspace_def
083eedb37a37 simplify many proofs about subspace and span;
huffman
parents: 44517
diff changeset
  1011
    by (auto intro: scaleR_add_left [symmetric])
53406
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1012
next
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1013
  fix T
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1014
  assume "{x} \<subseteq> T" and "subspace T"
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1015
  then show "range (\<lambda>k. k *\<^sub>R x) \<subseteq> T"
44521
083eedb37a37 simplify many proofs about subspace and span;
huffman
parents: 44517
diff changeset
  1016
    unfolding subspace_def by auto
083eedb37a37 simplify many proofs about subspace and span;
huffman
parents: 44517
diff changeset
  1017
qed
083eedb37a37 simplify many proofs about subspace and span;
huffman
parents: 44517
diff changeset
  1018
49522
355f3d076924 tuned proofs;
wenzelm
parents: 44890
diff changeset
  1019
lemma span_insert: "span (insert a S) = {x. \<exists>k. (x - k *\<^sub>R a) \<in> span S}"
44521
083eedb37a37 simplify many proofs about subspace and span;
huffman
parents: 44517
diff changeset
  1020
proof -
083eedb37a37 simplify many proofs about subspace and span;
huffman
parents: 44517
diff changeset
  1021
  have "span ({a} \<union> S) = {x. \<exists>k. (x - k *\<^sub>R a) \<in> span S}"
083eedb37a37 simplify many proofs about subspace and span;
huffman
parents: 44517
diff changeset
  1022
    unfolding span_union span_singleton
083eedb37a37 simplify many proofs about subspace and span;
huffman
parents: 44517
diff changeset
  1023
    apply safe
083eedb37a37 simplify many proofs about subspace and span;
huffman
parents: 44517
diff changeset
  1024
    apply (rule_tac x=k in exI, simp)
083eedb37a37 simplify many proofs about subspace and span;
huffman
parents: 44517
diff changeset
  1025
    apply (erule rev_image_eqI [OF SigmaI [OF rangeI]])
083eedb37a37 simplify many proofs about subspace and span;
huffman
parents: 44517
diff changeset
  1026
    apply simp
083eedb37a37 simplify many proofs about subspace and span;
huffman
parents: 44517
diff changeset
  1027
    apply (rule right_minus)
083eedb37a37 simplify many proofs about subspace and span;
huffman
parents: 44517
diff changeset
  1028
    done
49522
355f3d076924 tuned proofs;
wenzelm
parents: 44890
diff changeset
  1029
  then show ?thesis by simp
44521
083eedb37a37 simplify many proofs about subspace and span;
huffman
parents: 44517
diff changeset
  1030
qed
083eedb37a37 simplify many proofs about subspace and span;
huffman
parents: 44517
diff changeset
  1031
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1032
lemma span_breakdown:
53406
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1033
  assumes bS: "b \<in> S"
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1034
    and aS: "a \<in> span S"
44521
083eedb37a37 simplify many proofs about subspace and span;
huffman
parents: 44517
diff changeset
  1035
  shows "\<exists>k. a - k *\<^sub>R b \<in> span (S - {b})"
083eedb37a37 simplify many proofs about subspace and span;
huffman
parents: 44517
diff changeset
  1036
  using assms span_insert [of b "S - {b}"]
083eedb37a37 simplify many proofs about subspace and span;
huffman
parents: 44517
diff changeset
  1037
  by (simp add: insert_absorb)
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1038
53406
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1039
lemma span_breakdown_eq: "x \<in> span (insert a S) \<longleftrightarrow> (\<exists>k. x - k *\<^sub>R a \<in> span S)"
44521
083eedb37a37 simplify many proofs about subspace and span;
huffman
parents: 44517
diff changeset
  1040
  by (simp add: span_insert)
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1041
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1042
text {* Hence some "reversal" results. *}
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1043
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1044
lemma in_span_insert:
49711
e5aaae7eadc9 tuned proofs;
wenzelm
parents: 49663
diff changeset
  1045
  assumes a: "a \<in> span (insert b S)"
e5aaae7eadc9 tuned proofs;
wenzelm
parents: 49663
diff changeset
  1046
    and na: "a \<notin> span S"
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1047
  shows "b \<in> span (insert a S)"
49663
b84fafaea4bb tuned proofs;
wenzelm
parents: 49652
diff changeset
  1048
proof -
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1049
  from span_breakdown[of b "insert b S" a, OF insertI1 a]
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1050
  obtain k where k: "a - k*\<^sub>R b \<in> span (S - {b})" by auto
53406
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1051
  show ?thesis
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1052
  proof (cases "k = 0")
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1053
    case True
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1054
    with k have "a \<in> span S"
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1055
      apply (simp)
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1056
      apply (rule set_rev_mp)
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1057
      apply assumption
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1058
      apply (rule span_mono)
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1059
      apply blast
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1060
      done
53406
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1061
    with na show ?thesis by blast
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1062
  next
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1063
    case False
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1064
    have eq: "b = (1/k) *\<^sub>R a - ((1/k) *\<^sub>R a - b)" by simp
53406
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1065
    from False have eq': "(1/k) *\<^sub>R (a - k*\<^sub>R b) = (1/k) *\<^sub>R a - b"
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1066
      by (simp add: algebra_simps)
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1067
    from k have "(1/k) *\<^sub>R (a - k*\<^sub>R b) \<in> span (S - {b})"
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1068
      by (rule span_mul)
49652
2b82d495b586 tuned proofs;
wenzelm
parents: 49525
diff changeset
  1069
    then have th: "(1/k) *\<^sub>R a - b \<in> span (S - {b})"
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1070
      unfolding eq' .
53406
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1071
    from k show ?thesis
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1072
      apply (subst eq)
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1073
      apply (rule span_sub)
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1074
      apply (rule span_mul)
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1075
      apply (rule span_superset)
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1076
      apply blast
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1077
      apply (rule set_rev_mp)
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1078
      apply (rule th)
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1079
      apply (rule span_mono)
53406
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1080
      using na
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1081
      apply blast
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1082
      done
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1083
  qed
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1084
qed
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1085
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1086
lemma in_span_delete:
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1087
  assumes a: "a \<in> span S"
49522
355f3d076924 tuned proofs;
wenzelm
parents: 44890
diff changeset
  1088
    and na: "a \<notin> span (S-{b})"
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1089
  shows "b \<in> span (insert a (S - {b}))"
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1090
  apply (rule in_span_insert)
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1091
  apply (rule set_rev_mp)
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1092
  apply (rule a)
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1093
  apply (rule span_mono)
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1094
  apply blast
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1095
  apply (rule na)
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1096
  done
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1097
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1098
text {* Transitivity property. *}
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1099
44521
083eedb37a37 simplify many proofs about subspace and span;
huffman
parents: 44517
diff changeset
  1100
lemma span_redundant: "x \<in> span S \<Longrightarrow> span (insert x S) = span S"
083eedb37a37 simplify many proofs about subspace and span;
huffman
parents: 44517
diff changeset
  1101
  unfolding span_def by (rule hull_redundant)
083eedb37a37 simplify many proofs about subspace and span;
huffman
parents: 44517
diff changeset
  1102
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1103
lemma span_trans:
53406
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1104
  assumes x: "x \<in> span S"
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1105
    and y: "y \<in> span (insert x S)"
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1106
  shows "y \<in> span S"
44521
083eedb37a37 simplify many proofs about subspace and span;
huffman
parents: 44517
diff changeset
  1107
  using assms by (simp only: span_redundant)
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1108
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1109
lemma span_insert_0[simp]: "span (insert 0 S) = span S"
44521
083eedb37a37 simplify many proofs about subspace and span;
huffman
parents: 44517
diff changeset
  1110
  by (simp only: span_redundant span_0)
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1111
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1112
text {* An explicit expansion is sometimes needed. *}
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1113
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1114
lemma span_explicit:
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1115
  "span P = {y. \<exists>S u. finite S \<and> S \<subseteq> P \<and> setsum (\<lambda>v. u v *\<^sub>R v) S = y}"
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1116
  (is "_ = ?E" is "_ = {y. ?h y}" is "_ = {y. \<exists>S u. ?Q S u y}")
49663
b84fafaea4bb tuned proofs;
wenzelm
parents: 49652
diff changeset
  1117
proof -
53406
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1118
  {
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1119
    fix x
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1120
    assume x: "x \<in> ?E"
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1121
    then obtain S u where fS: "finite S" and SP: "S\<subseteq>P" and u: "setsum (\<lambda>v. u v *\<^sub>R v) S = x"
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1122
      by blast
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1123
    have "x \<in> span P"
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1124
      unfolding u[symmetric]
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1125
      apply (rule span_setsum[OF fS])
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1126
      using span_mono[OF SP]
49522
355f3d076924 tuned proofs;
wenzelm
parents: 44890
diff changeset
  1127
      apply (auto intro: span_superset span_mul)
53406
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1128
      done
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1129
  }
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1130
  moreover
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1131
  have "\<forall>x \<in> span P. x \<in> ?E"
49522
355f3d076924 tuned proofs;
wenzelm
parents: 44890
diff changeset
  1132
  proof (rule span_induct_alt')
44170
510ac30f44c0 make Multivariate_Analysis work with separate set type
huffman
parents: 44166
diff changeset
  1133
    show "0 \<in> Collect ?h"
510ac30f44c0 make Multivariate_Analysis work with separate set type
huffman
parents: 44166
diff changeset
  1134
      unfolding mem_Collect_eq
49522
355f3d076924 tuned proofs;
wenzelm
parents: 44890
diff changeset
  1135
      apply (rule exI[where x="{}"])
355f3d076924 tuned proofs;
wenzelm
parents: 44890
diff changeset
  1136
      apply simp
355f3d076924 tuned proofs;
wenzelm
parents: 44890
diff changeset
  1137
      done
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1138
  next
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1139
    fix c x y
53406
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1140
    assume x: "x \<in> P"
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1141
    assume hy: "y \<in> Collect ?h"
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1142
    from hy obtain S u where fS: "finite S" and SP: "S\<subseteq>P"
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1143
      and u: "setsum (\<lambda>v. u v *\<^sub>R v) S = y" by blast
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1144
    let ?S = "insert x S"
49522
355f3d076924 tuned proofs;
wenzelm
parents: 44890
diff changeset
  1145
    let ?u = "\<lambda>y. if y = x then (if x \<in> S then u y + c else c) else u y"
53406
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1146
    from fS SP x have th0: "finite (insert x S)" "insert x S \<subseteq> P"
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1147
      by blast+
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1148
    have "?Q ?S ?u (c*\<^sub>R x + y)"
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1149
    proof cases
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1150
      assume xS: "x \<in> S"
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1151
      have S1: "S = (S - {x}) \<union> {x}"
53406
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1152
        and Sss:"finite (S - {x})" "finite {x}" "(S -{x}) \<inter> {x} = {}"
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1153
        using xS fS by auto
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1154
      have "setsum (\<lambda>v. ?u v *\<^sub>R v) ?S =(\<Sum>v\<in>S - {x}. u v *\<^sub>R v) + (u x + c) *\<^sub>R x"
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1155
        using xS
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1156
        by (simp add: setsum_Un_disjoint[OF Sss, unfolded S1[symmetric]]
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1157
          setsum_clauses(2)[OF fS] cong del: if_weak_cong)
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1158
      also have "\<dots> = (\<Sum>v\<in>S. u v *\<^sub>R v) + c *\<^sub>R x"
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1159
        apply (simp add: setsum_Un_disjoint[OF Sss, unfolded S1[symmetric]])
49522
355f3d076924 tuned proofs;
wenzelm
parents: 44890
diff changeset
  1160
        apply (simp add: algebra_simps)
355f3d076924 tuned proofs;
wenzelm
parents: 44890
diff changeset
  1161
        done
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1162
      also have "\<dots> = c*\<^sub>R x + y"
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1163
        by (simp add: add_commute u)
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1164
      finally have "setsum (\<lambda>v. ?u v *\<^sub>R v) ?S = c*\<^sub>R x + y" .
53406
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1165
      then show ?thesis using th0 by blast
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1166
    next
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1167
      assume xS: "x \<notin> S"
49522
355f3d076924 tuned proofs;
wenzelm
parents: 44890
diff changeset
  1168
      have th00: "(\<Sum>v\<in>S. (if v = x then c else u v) *\<^sub>R v) = y"
355f3d076924 tuned proofs;
wenzelm
parents: 44890
diff changeset
  1169
        unfolding u[symmetric]
355f3d076924 tuned proofs;
wenzelm
parents: 44890
diff changeset
  1170
        apply (rule setsum_cong2)
53406
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1171
        using xS
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1172
        apply auto
49522
355f3d076924 tuned proofs;
wenzelm
parents: 44890
diff changeset
  1173
        done
53406
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1174
      show ?thesis using fS xS th0
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1175
        by (simp add: th00 setsum_clauses add_commute cong del: if_weak_cong)
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1176
    qed
44170
510ac30f44c0 make Multivariate_Analysis work with separate set type
huffman
parents: 44166
diff changeset
  1177
    then show "(c*\<^sub>R x + y) \<in> Collect ?h"
510ac30f44c0 make Multivariate_Analysis work with separate set type
huffman
parents: 44166
diff changeset
  1178
      unfolding mem_Collect_eq
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1179
      apply -
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1180
      apply (rule exI[where x="?S"])
49522
355f3d076924 tuned proofs;
wenzelm
parents: 44890
diff changeset
  1181
      apply (rule exI[where x="?u"])
355f3d076924 tuned proofs;
wenzelm
parents: 44890
diff changeset
  1182
      apply metis
355f3d076924 tuned proofs;
wenzelm
parents: 44890
diff changeset
  1183
      done
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1184
  qed
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1185
  ultimately show ?thesis by blast
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1186
qed
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1187
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1188
lemma dependent_explicit:
49522
355f3d076924 tuned proofs;
wenzelm
parents: 44890
diff changeset
  1189
  "dependent P \<longleftrightarrow> (\<exists>S u. finite S \<and> S \<subseteq> P \<and> (\<exists>v\<in>S. u v \<noteq> 0 \<and> setsum (\<lambda>v. u v *\<^sub>R v) S = 0))"
355f3d076924 tuned proofs;
wenzelm
parents: 44890
diff changeset
  1190
  (is "?lhs = ?rhs")
355f3d076924 tuned proofs;
wenzelm
parents: 44890
diff changeset
  1191
proof -
53406
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1192
  {
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1193
    assume dP: "dependent P"
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1194
    then obtain a S u where aP: "a \<in> P" and fS: "finite S"
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1195
      and SP: "S \<subseteq> P - {a}" and ua: "setsum (\<lambda>v. u v *\<^sub>R v) S = a"
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1196
      unfolding dependent_def span_explicit by blast
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1197
    let ?S = "insert a S"
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1198
    let ?u = "\<lambda>y. if y = a then - 1 else u y"
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1199
    let ?v = a
53406
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1200
    from aP SP have aS: "a \<notin> S"
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1201
      by blast
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1202
    from fS SP aP have th0: "finite ?S" "?S \<subseteq> P" "?v \<in> ?S" "?u ?v \<noteq> 0"
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1203
      by auto
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1204
    have s0: "setsum (\<lambda>v. ?u v *\<^sub>R v) ?S = 0"
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1205
      using fS aS
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1206
      apply (simp add: setsum_clauses field_simps)
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1207
      apply (subst (2) ua[symmetric])
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1208
      apply (rule setsum_cong2)
49522
355f3d076924 tuned proofs;
wenzelm
parents: 44890
diff changeset
  1209
      apply auto
355f3d076924 tuned proofs;
wenzelm
parents: 44890
diff changeset
  1210
      done
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1211
    with th0 have ?rhs
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1212
      apply -
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1213
      apply (rule exI[where x= "?S"])
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1214
      apply (rule exI[where x= "?u"])
49522
355f3d076924 tuned proofs;
wenzelm
parents: 44890
diff changeset
  1215
      apply auto
355f3d076924 tuned proofs;
wenzelm
parents: 44890
diff changeset
  1216
      done
355f3d076924 tuned proofs;
wenzelm
parents: 44890
diff changeset
  1217
  }
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1218
  moreover
53406
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1219
  {
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1220
    fix S u v
49522
355f3d076924 tuned proofs;
wenzelm
parents: 44890
diff changeset
  1221
    assume fS: "finite S"
53406
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1222
      and SP: "S \<subseteq> P"
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1223
      and vS: "v \<in> S"
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1224
      and uv: "u v \<noteq> 0"
49522
355f3d076924 tuned proofs;
wenzelm
parents: 44890
diff changeset
  1225
      and u: "setsum (\<lambda>v. u v *\<^sub>R v) S = 0"
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1226
    let ?a = v
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1227
    let ?S = "S - {v}"
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1228
    let ?u = "\<lambda>i. (- u i) / u v"
53406
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1229
    have th0: "?a \<in> P" "finite ?S" "?S \<subseteq> P"
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1230
      using fS SP vS by auto
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1231
    have "setsum (\<lambda>v. ?u v *\<^sub>R v) ?S =
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1232
      setsum (\<lambda>v. (- (inverse (u ?a))) *\<^sub>R (u v *\<^sub>R v)) S - ?u v *\<^sub>R v"
49522
355f3d076924 tuned proofs;
wenzelm
parents: 44890
diff changeset
  1233
      using fS vS uv by (simp add: setsum_diff1 divide_inverse field_simps)
53406
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1234
    also have "\<dots> = ?a"
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1235
      unfolding scaleR_right.setsum [symmetric] u using uv by simp
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1236
    finally have "setsum (\<lambda>v. ?u v *\<^sub>R v) ?S = ?a" .
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1237
    with th0 have ?lhs
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1238
      unfolding dependent_def span_explicit
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1239
      apply -
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1240
      apply (rule bexI[where x= "?a"])
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1241
      apply (simp_all del: scaleR_minus_left)
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1242
      apply (rule exI[where x= "?S"])
49522
355f3d076924 tuned proofs;
wenzelm
parents: 44890
diff changeset
  1243
      apply (auto simp del: scaleR_minus_left)
355f3d076924 tuned proofs;
wenzelm
parents: 44890
diff changeset
  1244
      done
355f3d076924 tuned proofs;
wenzelm
parents: 44890
diff changeset
  1245
  }
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1246
  ultimately show ?thesis by blast
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1247
qed
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1248
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1249
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1250
lemma span_finite:
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1251
  assumes fS: "finite S"
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1252
  shows "span S = {y. \<exists>u. setsum (\<lambda>v. u v *\<^sub>R v) S = y}"
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1253
  (is "_ = ?rhs")
49522
355f3d076924 tuned proofs;
wenzelm
parents: 44890
diff changeset
  1254
proof -
53406
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1255
  {
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1256
    fix y
49711
e5aaae7eadc9 tuned proofs;
wenzelm
parents: 49663
diff changeset
  1257
    assume y: "y \<in> span S"
53406
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1258
    from y obtain S' u where fS': "finite S'"
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1259
      and SS': "S' \<subseteq> S"
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1260
      and u: "setsum (\<lambda>v. u v *\<^sub>R v) S' = y"
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1261
      unfolding span_explicit by blast
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1262
    let ?u = "\<lambda>x. if x \<in> S' then u x else 0"
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1263
    have "setsum (\<lambda>v. ?u v *\<^sub>R v) S = setsum (\<lambda>v. u v *\<^sub>R v) S'"
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1264
      using SS' fS by (auto intro!: setsum_mono_zero_cong_right)
49522
355f3d076924 tuned proofs;
wenzelm
parents: 44890
diff changeset
  1265
    then have "setsum (\<lambda>v. ?u v *\<^sub>R v) S = y" by (metis u)
53406
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1266
    then have "y \<in> ?rhs" by auto
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1267
  }
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1268
  moreover
53406
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1269
  {
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1270
    fix y u
49522
355f3d076924 tuned proofs;
wenzelm
parents: 44890
diff changeset
  1271
    assume u: "setsum (\<lambda>v. u v *\<^sub>R v) S = y"
53406
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1272
    then have "y \<in> span S" using fS unfolding span_explicit by auto
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1273
  }
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1274
  ultimately show ?thesis by blast
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1275
qed
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1276
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1277
text {* This is useful for building a basis step-by-step. *}
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1278
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1279
lemma independent_insert:
53406
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1280
  "independent (insert a S) \<longleftrightarrow>
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1281
    (if a \<in> S then independent S else independent S \<and> a \<notin> span S)"
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1282
  (is "?lhs \<longleftrightarrow> ?rhs")
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1283
proof (cases "a \<in> S")
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1284
  case True
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1285
  then show ?thesis
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1286
    using insert_absorb[OF True] by simp
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1287
next
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1288
  case False
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1289
  show ?thesis
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1290
  proof
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1291
    assume i: ?lhs
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1292
    then show ?rhs
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1293
      using False
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1294
      apply simp
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1295
      apply (rule conjI)
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1296
      apply (rule independent_mono)
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1297
      apply assumption
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1298
      apply blast
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1299
      apply (simp add: dependent_def)
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1300
      done
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1301
  next
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1302
    assume i: ?rhs
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1303
    show ?lhs
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1304
      using i False
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1305
      apply simp
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1306
      apply (auto simp add: dependent_def)
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1307
      apply (case_tac "aa = a")
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1308
      apply auto
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1309
      apply (subgoal_tac "insert a S - {aa} = insert a (S - {aa})")
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1310
      apply simp
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1311
      apply (subgoal_tac "a \<in> span (insert aa (S - {aa}))")
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1312
      apply (subgoal_tac "insert aa (S - {aa}) = S")
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1313
      apply simp
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1314
      apply blast
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1315
      apply (rule in_span_insert)
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1316
      apply assumption
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1317
      apply blast
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1318
      apply blast
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1319
      done
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1320
  qed
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1321
qed
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1322
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1323
text {* The degenerate case of the Exchange Lemma. *}
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1324
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1325
lemma mem_delete: "x \<in> (A - {a}) \<longleftrightarrow> x \<noteq> a \<and> x \<in> A"
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1326
  by blast
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1327
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1328
lemma spanning_subset_independent:
49711
e5aaae7eadc9 tuned proofs;
wenzelm
parents: 49663
diff changeset
  1329
  assumes BA: "B \<subseteq> A"
e5aaae7eadc9 tuned proofs;
wenzelm
parents: 49663
diff changeset
  1330
    and iA: "independent A"
49522
355f3d076924 tuned proofs;
wenzelm
parents: 44890
diff changeset
  1331
    and AsB: "A \<subseteq> span B"
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1332
  shows "A = B"
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1333
proof
49663
b84fafaea4bb tuned proofs;
wenzelm
parents: 49652
diff changeset
  1334
  show "B \<subseteq> A" by (rule BA)
b84fafaea4bb tuned proofs;
wenzelm
parents: 49652
diff changeset
  1335
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1336
  from span_mono[OF BA] span_mono[OF AsB]
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1337
  have sAB: "span A = span B" unfolding span_span by blast
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1338
53406
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1339
  {
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1340
    fix x
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1341
    assume x: "x \<in> A"
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1342
    from iA have th0: "x \<notin> span (A - {x})"
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1343
      unfolding dependent_def using x by blast
53406
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1344
    from x have xsA: "x \<in> span A"
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1345
      by (blast intro: span_superset)
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1346
    have "A - {x} \<subseteq> A" by blast
53406
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1347
    then have th1: "span (A - {x}) \<subseteq> span A"
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1348
      by (metis span_mono)
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1349
    {
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1350
      assume xB: "x \<notin> B"
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1351
      from xB BA have "B \<subseteq> A - {x}"
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1352
        by blast
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1353
      then have "span B \<subseteq> span (A - {x})"
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1354
        by (metis span_mono)
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1355
      with th1 th0 sAB have "x \<notin> span A"
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1356
        by blast
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1357
      with x have False
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1358
        by (metis span_superset)
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1359
    }
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1360
    then have "x \<in> B" by blast
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1361
  }
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1362
  then show "A \<subseteq> B" by blast
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1363
qed
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1364
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1365
text {* The general case of the Exchange Lemma, the key to what follows. *}
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1366
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1367
lemma exchange_lemma:
49711
e5aaae7eadc9 tuned proofs;
wenzelm
parents: 49663
diff changeset
  1368
  assumes f:"finite t"
e5aaae7eadc9 tuned proofs;
wenzelm
parents: 49663
diff changeset
  1369
    and i: "independent s"
e5aaae7eadc9 tuned proofs;
wenzelm
parents: 49663
diff changeset
  1370
    and sp: "s \<subseteq> span t"
53406
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1371
  shows "\<exists>t'. card t' = card t \<and> finite t' \<and> s \<subseteq> t' \<and> t' \<subseteq> s \<union> t \<and> s \<subseteq> span t'"
49663
b84fafaea4bb tuned proofs;
wenzelm
parents: 49652
diff changeset
  1372
  using f i sp
49522
355f3d076924 tuned proofs;
wenzelm
parents: 44890
diff changeset
  1373
proof (induct "card (t - s)" arbitrary: s t rule: less_induct)
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1374
  case less
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1375
  note ft = `finite t` and s = `independent s` and sp = `s \<subseteq> span t`
53406
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1376
  let ?P = "\<lambda>t'. card t' = card t \<and> finite t' \<and> s \<subseteq> t' \<and> t' \<subseteq> s \<union> t \<and> s \<subseteq> span t'"
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1377
  let ?ths = "\<exists>t'. ?P t'"
53406
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1378
  {
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1379
    assume st: "s \<subseteq> t"
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1380
    from st ft span_mono[OF st]
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1381
    have ?ths
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1382
      apply -
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1383
      apply (rule exI[where x=t])
49522
355f3d076924 tuned proofs;
wenzelm
parents: 44890
diff changeset
  1384
      apply (auto intro: span_superset)
53406
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1385
      done
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1386
  }
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1387
  moreover
53406
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1388
  {
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1389
    assume st: "t \<subseteq> s"
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1390
    from spanning_subset_independent[OF st s sp] st ft span_mono[OF st]
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1391
    have ?ths
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1392
      apply -
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1393
      apply (rule exI[where x=t])
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1394
      apply (auto intro: span_superset)
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1395
      done
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1396
  }
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1397
  moreover
53406
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1398
  {
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1399
    assume st: "\<not> s \<subseteq> t" "\<not> t \<subseteq> s"
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1400
    from st(2) obtain b where b: "b \<in> t" "b \<notin> s"
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1401
      by blast
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1402
    from b have "t - {b} - s \<subset> t - s"
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1403
      by blast
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1404
    then have cardlt: "card (t - {b} - s) < card (t - s)"
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1405
      using ft by (auto intro: psubset_card_mono)
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1406
    from b ft have ct0: "card t \<noteq> 0"
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1407
      by auto
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1408
    have ?ths
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1409
    proof cases
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1410
      assume stb: "s \<subseteq> span(t - {b})"
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1411
      from ft have ftb: "finite (t -{b})"
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1412
        by auto
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1413
      from less(1)[OF cardlt ftb s stb]
49522
355f3d076924 tuned proofs;
wenzelm
parents: 44890
diff changeset
  1414
      obtain u where u: "card u = card (t-{b})" "s \<subseteq> u" "u \<subseteq> s \<union> (t - {b})" "s \<subseteq> span u"
355f3d076924 tuned proofs;
wenzelm
parents: 44890
diff changeset
  1415
        and fu: "finite u" by blast
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1416
      let ?w = "insert b u"
53406
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1417
      have th0: "s \<subseteq> insert b u"
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1418
        using u by blast
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1419
      from u(3) b have "u \<subseteq> s \<union> t"
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1420
        by blast
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1421
      then have th1: "insert b u \<subseteq> s \<union> t"
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1422
        using u b by blast
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1423
      have bu: "b \<notin> u"
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1424
        using b u by blast
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1425
      from u(1) ft b have "card u = (card t - 1)"
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1426
        by auto
49522
355f3d076924 tuned proofs;
wenzelm
parents: 44890
diff changeset
  1427
      then have th2: "card (insert b u) = card t"
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1428
        using card_insert_disjoint[OF fu bu] ct0 by auto
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1429
      from u(4) have "s \<subseteq> span u" .
53406
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1430
      also have "\<dots> \<subseteq> span (insert b u)"
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1431
        by (rule span_mono) blast
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1432
      finally have th3: "s \<subseteq> span (insert b u)" .
53406
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1433
      from th0 th1 th2 th3 fu have th: "?P ?w"
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1434
        by blast
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1435
      from th show ?thesis by blast
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1436
    next
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1437
      assume stb: "\<not> s \<subseteq> span(t - {b})"
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1438
      from stb obtain a where a: "a \<in> s" "a \<notin> span (t - {b})"
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1439
        by blast
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1440
      have ab: "a \<noteq> b"
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1441
        using a b by blast
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1442
      have at: "a \<notin> t"
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1443
        using a ab span_superset[of a "t- {b}"] by auto
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1444
      have mlt: "card ((insert a (t - {b})) - s) < card (t - s)"
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1445
        using cardlt ft a b by auto
53406
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1446
      have ft': "finite (insert a (t - {b}))"
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1447
        using ft by auto
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1448
      {
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1449
        fix x
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1450
        assume xs: "x \<in> s"
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1451
        have t: "t \<subseteq> insert b (insert a (t - {b}))"
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1452
          using b by auto
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1453
        from b(1) have "b \<in> span t"
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1454
          by (simp add: span_superset)
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1455
        have bs: "b \<in> span (insert a (t - {b}))"
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1456
          apply (rule in_span_delete)
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1457
          using a sp unfolding subset_eq
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1458
          apply auto
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1459
          done
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1460
        from xs sp have "x \<in> span t"
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1461
          by blast
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1462
        with span_mono[OF t] have x: "x \<in> span (insert b (insert a (t - {b})))" ..
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1463
        from span_trans[OF bs x] have "x \<in> span (insert a (t - {b}))" .
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1464
      }
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1465
      then have sp': "s \<subseteq> span (insert a (t - {b}))"
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1466
        by blast
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1467
      from less(1)[OF mlt ft' s sp'] obtain u where u:
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1468
        "card u = card (insert a (t -{b}))"
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1469
        "finite u" "s \<subseteq> u" "u \<subseteq> s \<union> insert a (t -{b})"
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1470
        "s \<subseteq> span u" by blast
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1471
      from u a b ft at ct0 have "?P u"
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1472
        by auto
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1473
      then show ?thesis by blast
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1474
    qed
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1475
  }
49522
355f3d076924 tuned proofs;
wenzelm
parents: 44890
diff changeset
  1476
  ultimately show ?ths by blast
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1477
qed
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1478
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1479
text {* This implies corresponding size bounds. *}
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1480
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1481
lemma independent_span_bound:
53406
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1482
  assumes f: "finite t"
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1483
    and i: "independent s"
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1484
    and sp: "s \<subseteq> span t"
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1485
  shows "finite s \<and> card s \<le> card t"
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1486
  by (metis exchange_lemma[OF f i sp] finite_subset card_mono)
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1487
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1488
lemma finite_Atleast_Atmost_nat[simp]: "finite {f x |x. x\<in> (UNIV::'a::finite set)}"
49522
355f3d076924 tuned proofs;
wenzelm
parents: 44890
diff changeset
  1489
proof -
53406
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1490
  have eq: "{f x |x. x\<in> UNIV} = f ` UNIV"
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1491
    by auto
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1492
  show ?thesis unfolding eq
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1493
    apply (rule finite_imageI)
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1494
    apply (rule finite)
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1495
    done
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1496
qed
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1497
53406
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1498
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1499
subsection {* Euclidean Spaces as Typeclass *}
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1500
50526
899c9c4e4a4c Remove the indexed basis from the definition of euclidean spaces and only use the set of Basis vectors
hoelzl
parents: 50105
diff changeset
  1501
lemma independent_Basis: "independent Basis"
899c9c4e4a4c Remove the indexed basis from the definition of euclidean spaces and only use the set of Basis vectors
hoelzl
parents: 50105
diff changeset
  1502
  unfolding dependent_def
899c9c4e4a4c Remove the indexed basis from the definition of euclidean spaces and only use the set of Basis vectors
hoelzl
parents: 50105
diff changeset
  1503
  apply (subst span_finite)
899c9c4e4a4c Remove the indexed basis from the definition of euclidean spaces and only use the set of Basis vectors
hoelzl
parents: 50105
diff changeset
  1504
  apply simp
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1505
  apply clarify
50526
899c9c4e4a4c Remove the indexed basis from the definition of euclidean spaces and only use the set of Basis vectors
hoelzl
parents: 50105
diff changeset
  1506
  apply (drule_tac f="inner a" in arg_cong)
899c9c4e4a4c Remove the indexed basis from the definition of euclidean spaces and only use the set of Basis vectors
hoelzl
parents: 50105
diff changeset
  1507
  apply (simp add: inner_Basis inner_setsum_right eq_commute)
899c9c4e4a4c Remove the indexed basis from the definition of euclidean spaces and only use the set of Basis vectors
hoelzl
parents: 50105
diff changeset
  1508
  done
899c9c4e4a4c Remove the indexed basis from the definition of euclidean spaces and only use the set of Basis vectors
hoelzl
parents: 50105
diff changeset
  1509
899c9c4e4a4c Remove the indexed basis from the definition of euclidean spaces and only use the set of Basis vectors
hoelzl
parents: 50105
diff changeset
  1510
lemma span_Basis[simp]: "span Basis = (UNIV :: 'a::euclidean_space set)"
899c9c4e4a4c Remove the indexed basis from the definition of euclidean spaces and only use the set of Basis vectors
hoelzl
parents: 50105
diff changeset
  1511
  apply (subst span_finite)
899c9c4e4a4c Remove the indexed basis from the definition of euclidean spaces and only use the set of Basis vectors
hoelzl
parents: 50105
diff changeset
  1512
  apply simp
899c9c4e4a4c Remove the indexed basis from the definition of euclidean spaces and only use the set of Basis vectors
hoelzl
parents: 50105
diff changeset
  1513
  apply (safe intro!: UNIV_I)
899c9c4e4a4c Remove the indexed basis from the definition of euclidean spaces and only use the set of Basis vectors
hoelzl
parents: 50105
diff changeset
  1514
  apply (rule_tac x="inner x" in exI)
899c9c4e4a4c Remove the indexed basis from the definition of euclidean spaces and only use the set of Basis vectors
hoelzl
parents: 50105
diff changeset
  1515
  apply (simp add: euclidean_representation)
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1516
  done
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1517
50526
899c9c4e4a4c Remove the indexed basis from the definition of euclidean spaces and only use the set of Basis vectors
hoelzl
parents: 50105
diff changeset
  1518
lemma in_span_Basis: "x \<in> span Basis"
899c9c4e4a4c Remove the indexed basis from the definition of euclidean spaces and only use the set of Basis vectors
hoelzl
parents: 50105
diff changeset
  1519
  unfolding span_Basis ..
899c9c4e4a4c Remove the indexed basis from the definition of euclidean spaces and only use the set of Basis vectors
hoelzl
parents: 50105
diff changeset
  1520
899c9c4e4a4c Remove the indexed basis from the definition of euclidean spaces and only use the set of Basis vectors
hoelzl
parents: 50105
diff changeset
  1521
lemma Basis_le_norm: "b \<in> Basis \<Longrightarrow> \<bar>x \<bullet> b\<bar> \<le> norm x"
899c9c4e4a4c Remove the indexed basis from the definition of euclidean spaces and only use the set of Basis vectors
hoelzl
parents: 50105
diff changeset
  1522
  by (rule order_trans [OF Cauchy_Schwarz_ineq2]) simp
899c9c4e4a4c Remove the indexed basis from the definition of euclidean spaces and only use the set of Basis vectors
hoelzl
parents: 50105
diff changeset
  1523
899c9c4e4a4c Remove the indexed basis from the definition of euclidean spaces and only use the set of Basis vectors
hoelzl
parents: 50105
diff changeset
  1524
lemma norm_bound_Basis_le: "b \<in> Basis \<Longrightarrow> norm x \<le> e \<Longrightarrow> \<bar>x \<bullet> b\<bar> \<le> e"
899c9c4e4a4c Remove the indexed basis from the definition of euclidean spaces and only use the set of Basis vectors
hoelzl
parents: 50105
diff changeset
  1525
  by (metis Basis_le_norm order_trans)
899c9c4e4a4c Remove the indexed basis from the definition of euclidean spaces and only use the set of Basis vectors
hoelzl
parents: 50105
diff changeset
  1526
899c9c4e4a4c Remove the indexed basis from the definition of euclidean spaces and only use the set of Basis vectors
hoelzl
parents: 50105
diff changeset
  1527
lemma norm_bound_Basis_lt: "b \<in> Basis \<Longrightarrow> norm x < e \<Longrightarrow> \<bar>x \<bullet> b\<bar> < e"
53595
5078034ade16 prefer theorem name over 'long_thm_list(n)'
huffman
parents: 53406
diff changeset
  1528
  by (metis Basis_le_norm le_less_trans)
50526
899c9c4e4a4c Remove the indexed basis from the definition of euclidean spaces and only use the set of Basis vectors
hoelzl
parents: 50105
diff changeset
  1529
899c9c4e4a4c Remove the indexed basis from the definition of euclidean spaces and only use the set of Basis vectors
hoelzl
parents: 50105
diff changeset
  1530
lemma norm_le_l1: "norm x \<le> (\<Sum>b\<in>Basis. \<bar>x \<bullet> b\<bar>)"
899c9c4e4a4c Remove the indexed basis from the definition of euclidean spaces and only use the set of Basis vectors
hoelzl
parents: 50105
diff changeset
  1531
  apply (subst euclidean_representation[of x, symmetric])
44176
eda112e9cdee remove redundant lemma setsum_norm in favor of norm_setsum;
huffman
parents: 44170
diff changeset
  1532
  apply (rule order_trans[OF norm_setsum])
49522
355f3d076924 tuned proofs;
wenzelm
parents: 44890
diff changeset
  1533
  apply (auto intro!: setsum_mono)
355f3d076924 tuned proofs;
wenzelm
parents: 44890
diff changeset
  1534
  done
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1535
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1536
lemma setsum_norm_allsubsets_bound:
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1537
  fixes f:: "'a \<Rightarrow> 'n::euclidean_space"
53406
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1538
  assumes fP: "finite P"
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1539
    and fPs: "\<And>Q. Q \<subseteq> P \<Longrightarrow> norm (setsum f Q) \<le> e"
50526
899c9c4e4a4c Remove the indexed basis from the definition of euclidean spaces and only use the set of Basis vectors
hoelzl
parents: 50105
diff changeset
  1540
  shows "(\<Sum>x\<in>P. norm (f x)) \<le> 2 * real DIM('n) * e"
49522
355f3d076924 tuned proofs;
wenzelm
parents: 44890
diff changeset
  1541
proof -
50526
899c9c4e4a4c Remove the indexed basis from the definition of euclidean spaces and only use the set of Basis vectors
hoelzl
parents: 50105
diff changeset
  1542
  have "(\<Sum>x\<in>P. norm (f x)) \<le> (\<Sum>x\<in>P. \<Sum>b\<in>Basis. \<bar>f x \<bullet> b\<bar>)"
899c9c4e4a4c Remove the indexed basis from the definition of euclidean spaces and only use the set of Basis vectors
hoelzl
parents: 50105
diff changeset
  1543
    by (rule setsum_mono) (rule norm_le_l1)
899c9c4e4a4c Remove the indexed basis from the definition of euclidean spaces and only use the set of Basis vectors
hoelzl
parents: 50105
diff changeset
  1544
  also have "(\<Sum>x\<in>P. \<Sum>b\<in>Basis. \<bar>f x \<bullet> b\<bar>) = (\<Sum>b\<in>Basis. \<Sum>x\<in>P. \<bar>f x \<bullet> b\<bar>)"
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1545
    by (rule setsum_commute)
50526
899c9c4e4a4c Remove the indexed basis from the definition of euclidean spaces and only use the set of Basis vectors
hoelzl
parents: 50105
diff changeset
  1546
  also have "\<dots> \<le> of_nat (card (Basis :: 'n set)) * (2 * e)"
49522
355f3d076924 tuned proofs;
wenzelm
parents: 44890
diff changeset
  1547
  proof (rule setsum_bounded)
53406
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1548
    fix i :: 'n
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1549
    assume i: "i \<in> Basis"
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1550
    have "norm (\<Sum>x\<in>P. \<bar>f x \<bullet> i\<bar>) \<le>
50526
899c9c4e4a4c Remove the indexed basis from the definition of euclidean spaces and only use the set of Basis vectors
hoelzl
parents: 50105
diff changeset
  1551
      norm ((\<Sum>x\<in>P \<inter> - {x. f x \<bullet> i < 0}. f x) \<bullet> i) + norm ((\<Sum>x\<in>P \<inter> {x. f x \<bullet> i < 0}. f x) \<bullet> i)"
899c9c4e4a4c Remove the indexed basis from the definition of euclidean spaces and only use the set of Basis vectors
hoelzl
parents: 50105
diff changeset
  1552
      by (simp add: abs_real_def setsum_cases[OF fP] setsum_negf uminus_add_conv_diff
53406
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1553
            norm_triangle_ineq4 inner_setsum_left del: real_norm_def)
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1554
    also have "\<dots> \<le> e + e"
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1555
      unfolding real_norm_def
50526
899c9c4e4a4c Remove the indexed basis from the definition of euclidean spaces and only use the set of Basis vectors
hoelzl
parents: 50105
diff changeset
  1556
      by (intro add_mono norm_bound_Basis_le i fPs) auto
899c9c4e4a4c Remove the indexed basis from the definition of euclidean spaces and only use the set of Basis vectors
hoelzl
parents: 50105
diff changeset
  1557
    finally show "(\<Sum>x\<in>P. \<bar>f x \<bullet> i\<bar>) \<le> 2*e" by simp
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1558
  qed
50526
899c9c4e4a4c Remove the indexed basis from the definition of euclidean spaces and only use the set of Basis vectors
hoelzl
parents: 50105
diff changeset
  1559
  also have "\<dots> = 2 * real DIM('n) * e"
899c9c4e4a4c Remove the indexed basis from the definition of euclidean spaces and only use the set of Basis vectors
hoelzl
parents: 50105
diff changeset
  1560
    by (simp add: real_of_nat_def)
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1561
  finally show ?thesis .
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1562
qed
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1563
53406
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1564
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1565
subsection {* Linearity and Bilinearity continued *}
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1566
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1567
lemma linear_bounded:
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1568
  fixes f:: "'a::euclidean_space \<Rightarrow> 'b::real_normed_vector"
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1569
  assumes lf: "linear f"
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1570
  shows "\<exists>B. \<forall>x. norm (f x) \<le> B * norm x"
49522
355f3d076924 tuned proofs;
wenzelm
parents: 44890
diff changeset
  1571
proof -
50526
899c9c4e4a4c Remove the indexed basis from the definition of euclidean spaces and only use the set of Basis vectors
hoelzl
parents: 50105
diff changeset
  1572
  let ?B = "\<Sum>b\<in>Basis. norm (f b)"
53406
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1573
  {
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1574
    fix x :: 'a
50526
899c9c4e4a4c Remove the indexed basis from the definition of euclidean spaces and only use the set of Basis vectors
hoelzl
parents: 50105
diff changeset
  1575
    let ?g = "\<lambda>b. (x \<bullet> b) *\<^sub>R f b"
899c9c4e4a4c Remove the indexed basis from the definition of euclidean spaces and only use the set of Basis vectors
hoelzl
parents: 50105
diff changeset
  1576
    have "norm (f x) = norm (f (\<Sum>b\<in>Basis. (x \<bullet> b) *\<^sub>R b))"
899c9c4e4a4c Remove the indexed basis from the definition of euclidean spaces and only use the set of Basis vectors
hoelzl
parents: 50105
diff changeset
  1577
      unfolding euclidean_representation ..
899c9c4e4a4c Remove the indexed basis from the definition of euclidean spaces and only use the set of Basis vectors
hoelzl
parents: 50105
diff changeset
  1578
    also have "\<dots> = norm (setsum ?g Basis)"
53406
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1579
      using linear_setsum[OF lf finite_Basis, of "\<lambda>b. (x \<bullet> b) *\<^sub>R b", unfolded o_def] linear_cmul[OF lf]
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1580
      by auto
50526
899c9c4e4a4c Remove the indexed basis from the definition of euclidean spaces and only use the set of Basis vectors
hoelzl
parents: 50105
diff changeset
  1581
    finally have th0: "norm (f x) = norm (setsum ?g Basis)" .
53406
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1582
    {
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1583
      fix i :: 'a
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1584
      assume i: "i \<in> Basis"
50526
899c9c4e4a4c Remove the indexed basis from the definition of euclidean spaces and only use the set of Basis vectors
hoelzl
parents: 50105
diff changeset
  1585
      from Basis_le_norm[OF i, of x]
899c9c4e4a4c Remove the indexed basis from the definition of euclidean spaces and only use the set of Basis vectors
hoelzl
parents: 50105
diff changeset
  1586
      have "norm (?g i) \<le> norm (f i) * norm x"
49663
b84fafaea4bb tuned proofs;
wenzelm
parents: 49652
diff changeset
  1587
        unfolding norm_scaleR
50526
899c9c4e4a4c Remove the indexed basis from the definition of euclidean spaces and only use the set of Basis vectors
hoelzl
parents: 50105
diff changeset
  1588
        apply (subst mult_commute)
49663
b84fafaea4bb tuned proofs;
wenzelm
parents: 49652
diff changeset
  1589
        apply (rule mult_mono)
b84fafaea4bb tuned proofs;
wenzelm
parents: 49652
diff changeset
  1590
        apply (auto simp add: field_simps)
53406
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1591
        done
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1592
    }
50526
899c9c4e4a4c Remove the indexed basis from the definition of euclidean spaces and only use the set of Basis vectors
hoelzl
parents: 50105
diff changeset
  1593
    then have th: "\<forall>b\<in>Basis. norm (?g b) \<le> norm (f b) * norm x"
49522
355f3d076924 tuned proofs;
wenzelm
parents: 44890
diff changeset
  1594
      by metis
50526
899c9c4e4a4c Remove the indexed basis from the definition of euclidean spaces and only use the set of Basis vectors
hoelzl
parents: 50105
diff changeset
  1595
    from setsum_norm_le[of _ ?g, OF th]
53406
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1596
    have "norm (f x) \<le> ?B * norm x"
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1597
      unfolding th0 setsum_left_distrib by metis
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1598
  }
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1599
  then show ?thesis by blast
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1600
qed
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1601
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1602
lemma linear_bounded_pos:
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1603
  fixes f:: "'a::euclidean_space \<Rightarrow> 'b::real_normed_vector"
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1604
  assumes lf: "linear f"
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1605
  shows "\<exists>B > 0. \<forall>x. norm (f x) \<le> B * norm x"
49663
b84fafaea4bb tuned proofs;
wenzelm
parents: 49652
diff changeset
  1606
proof -
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1607
  from linear_bounded[OF lf] obtain B where
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1608
    B: "\<forall>x. norm (f x) \<le> B * norm x" by blast
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1609
  let ?K = "\<bar>B\<bar> + 1"
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1610
  have Kp: "?K > 0" by arith
53406
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1611
  {
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1612
    assume C: "B < 0"
50526
899c9c4e4a4c Remove the indexed basis from the definition of euclidean spaces and only use the set of Basis vectors
hoelzl
parents: 50105
diff changeset
  1613
    def One \<equiv> "\<Sum>Basis ::'a"
899c9c4e4a4c Remove the indexed basis from the definition of euclidean spaces and only use the set of Basis vectors
hoelzl
parents: 50105
diff changeset
  1614
    then have "One \<noteq> 0"
899c9c4e4a4c Remove the indexed basis from the definition of euclidean spaces and only use the set of Basis vectors
hoelzl
parents: 50105
diff changeset
  1615
      unfolding euclidean_eq_iff[where 'a='a]
899c9c4e4a4c Remove the indexed basis from the definition of euclidean spaces and only use the set of Basis vectors
hoelzl
parents: 50105
diff changeset
  1616
      by (simp add: inner_setsum_left inner_Basis setsum_cases)
899c9c4e4a4c Remove the indexed basis from the definition of euclidean spaces and only use the set of Basis vectors
hoelzl
parents: 50105
diff changeset
  1617
    then have "norm One > 0" by auto
899c9c4e4a4c Remove the indexed basis from the definition of euclidean spaces and only use the set of Basis vectors
hoelzl
parents: 50105
diff changeset
  1618
    with C have "B * norm One < 0"
49663
b84fafaea4bb tuned proofs;
wenzelm
parents: 49652
diff changeset
  1619
      by (simp add: mult_less_0_iff)
50526
899c9c4e4a4c Remove the indexed basis from the definition of euclidean spaces and only use the set of Basis vectors
hoelzl
parents: 50105
diff changeset
  1620
    with B[rule_format, of One] norm_ge_zero[of "f One"]
899c9c4e4a4c Remove the indexed basis from the definition of euclidean spaces and only use the set of Basis vectors
hoelzl
parents: 50105
diff changeset
  1621
    have False by simp
49663
b84fafaea4bb tuned proofs;
wenzelm
parents: 49652
diff changeset
  1622
  }
53406
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1623
  then have Bp: "B \<ge> 0"
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1624
    by (metis not_leE)
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1625
  {
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1626
    fix x::"'a"
49663
b84fafaea4bb tuned proofs;
wenzelm
parents: 49652
diff changeset
  1627
    have "norm (f x) \<le> ?K *  norm x"
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1628
      using B[rule_format, of x] norm_ge_zero[of x] norm_ge_zero[of "f x"] Bp
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1629
      apply (auto simp add: field_simps split add: abs_split)
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1630
      apply (erule order_trans, simp)
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1631
      done
53406
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1632
  }
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1633
  then show ?thesis
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1634
    using Kp by blast
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1635
qed
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1636
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1637
lemma linear_conv_bounded_linear:
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1638
  fixes f :: "'a::euclidean_space \<Rightarrow> 'b::real_normed_vector"
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1639
  shows "linear f \<longleftrightarrow> bounded_linear f"
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1640
proof
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1641
  assume "linear f"
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1642
  show "bounded_linear f"
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1643
  proof
53406
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1644
    fix x y
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1645
    show "f (x + y) = f x + f y"
53600
8fda7ad57466 make 'linear' into a sublocale of 'bounded_linear';
huffman
parents: 53596
diff changeset
  1646
      using `linear f` unfolding linear_iff by simp
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1647
  next
53406
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1648
    fix r x
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1649
    show "f (scaleR r x) = scaleR r (f x)"
53600
8fda7ad57466 make 'linear' into a sublocale of 'bounded_linear';
huffman
parents: 53596
diff changeset
  1650
      using `linear f` unfolding linear_iff by simp
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1651
  next
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1652
    have "\<exists>B. \<forall>x. norm (f x) \<le> B * norm x"
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1653
      using `linear f` by (rule linear_bounded)
49522
355f3d076924 tuned proofs;
wenzelm
parents: 44890
diff changeset
  1654
    then show "\<exists>K. \<forall>x. norm (f x) \<le> norm x * K"
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1655
      by (simp add: mult_commute)
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1656
  qed
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1657
next
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1658
  assume "bounded_linear f"
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1659
  then interpret f: bounded_linear f .
53600
8fda7ad57466 make 'linear' into a sublocale of 'bounded_linear';
huffman
parents: 53596
diff changeset
  1660
  show "linear f" by (simp add: f.add f.scaleR linear_iff)
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1661
qed
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1662
49522
355f3d076924 tuned proofs;
wenzelm
parents: 44890
diff changeset
  1663
lemma bounded_linearI':
355f3d076924 tuned proofs;
wenzelm
parents: 44890
diff changeset
  1664
  fixes f::"'a::euclidean_space \<Rightarrow> 'b::real_normed_vector"
53406
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1665
  assumes "\<And>x y. f (x + y) = f x + f y"
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1666
    and "\<And>c x. f (c *\<^sub>R x) = c *\<^sub>R f x"
49522
355f3d076924 tuned proofs;
wenzelm
parents: 44890
diff changeset
  1667
  shows "bounded_linear f"
53406
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1668
  unfolding linear_conv_bounded_linear[symmetric]
49522
355f3d076924 tuned proofs;
wenzelm
parents: 44890
diff changeset
  1669
  by (rule linearI[OF assms])
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1670
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1671
lemma bilinear_bounded:
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1672
  fixes h:: "'m::euclidean_space \<Rightarrow> 'n::euclidean_space \<Rightarrow> 'k::real_normed_vector"
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1673
  assumes bh: "bilinear h"
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1674
  shows "\<exists>B. \<forall>x y. norm (h x y) \<le> B * norm x * norm y"
50526
899c9c4e4a4c Remove the indexed basis from the definition of euclidean spaces and only use the set of Basis vectors
hoelzl
parents: 50105
diff changeset
  1675
proof (clarify intro!: exI[of _ "\<Sum>i\<in>Basis. \<Sum>j\<in>Basis. norm (h i j)"])
53406
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1676
  fix x :: 'm
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1677
  fix y :: 'n
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1678
  have "norm (h x y) = norm (h (setsum (\<lambda>i. (x \<bullet> i) *\<^sub>R i) Basis) (setsum (\<lambda>i. (y \<bullet> i) *\<^sub>R i) Basis))"
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1679
    apply (subst euclidean_representation[where 'a='m])
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1680
    apply (subst euclidean_representation[where 'a='n])
50526
899c9c4e4a4c Remove the indexed basis from the definition of euclidean spaces and only use the set of Basis vectors
hoelzl
parents: 50105
diff changeset
  1681
    apply rule
899c9c4e4a4c Remove the indexed basis from the definition of euclidean spaces and only use the set of Basis vectors
hoelzl
parents: 50105
diff changeset
  1682
    done
53406
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1683
  also have "\<dots> = norm (setsum (\<lambda> (i,j). h ((x \<bullet> i) *\<^sub>R i) ((y \<bullet> j) *\<^sub>R j)) (Basis \<times> Basis))"
50526
899c9c4e4a4c Remove the indexed basis from the definition of euclidean spaces and only use the set of Basis vectors
hoelzl
parents: 50105
diff changeset
  1684
    unfolding bilinear_setsum[OF bh finite_Basis finite_Basis] ..
899c9c4e4a4c Remove the indexed basis from the definition of euclidean spaces and only use the set of Basis vectors
hoelzl
parents: 50105
diff changeset
  1685
  finally have th: "norm (h x y) = \<dots>" .
899c9c4e4a4c Remove the indexed basis from the definition of euclidean spaces and only use the set of Basis vectors
hoelzl
parents: 50105
diff changeset
  1686
  show "norm (h x y) \<le> (\<Sum>i\<in>Basis. \<Sum>j\<in>Basis. norm (h i j)) * norm x * norm y"
53406
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1687
    apply (auto simp add: setsum_left_distrib th setsum_cartesian_product)
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1688
    apply (rule setsum_norm_le)
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1689
    apply simp
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1690
    apply (auto simp add: bilinear_rmul[OF bh] bilinear_lmul[OF bh]
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1691
      field_simps simp del: scaleR_scaleR)
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1692
    apply (rule mult_mono)
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1693
    apply (auto simp add: zero_le_mult_iff Basis_le_norm)
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1694
    apply (rule mult_mono)
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1695
    apply (auto simp add: zero_le_mult_iff Basis_le_norm)
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1696
    done
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1697
qed
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1698
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1699
lemma bilinear_bounded_pos:
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1700
  fixes h:: "'a::euclidean_space \<Rightarrow> 'b::euclidean_space \<Rightarrow> 'c::real_normed_vector"
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1701
  assumes bh: "bilinear h"
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1702
  shows "\<exists>B > 0. \<forall>x y. norm (h x y) \<le> B * norm x * norm y"
49522
355f3d076924 tuned proofs;
wenzelm
parents: 44890
diff changeset
  1703
proof -
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1704
  from bilinear_bounded[OF bh] obtain B where
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1705
    B: "\<forall>x y. norm (h x y) \<le> B * norm x * norm y" by blast
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1706
  let ?K = "\<bar>B\<bar> + 1"
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1707
  have Kp: "?K > 0" by arith
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1708
  have KB: "B < ?K" by arith
53406
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1709
  {
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1710
    fix x :: 'a
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1711
    fix y :: 'b
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1712
    from KB Kp have "B * norm x * norm y \<le> ?K * norm x * norm y"
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1713
      apply -
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1714
      apply (rule mult_right_mono, rule mult_right_mono)
49522
355f3d076924 tuned proofs;
wenzelm
parents: 44890
diff changeset
  1715
      apply auto
355f3d076924 tuned proofs;
wenzelm
parents: 44890
diff changeset
  1716
      done
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1717
    then have "norm (h x y) \<le> ?K * norm x * norm y"
53406
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1718
      using B[rule_format, of x y] by simp
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1719
  }
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1720
  with Kp show ?thesis by blast
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1721
qed
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1722
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1723
lemma bilinear_conv_bounded_bilinear:
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1724
  fixes h :: "'a::euclidean_space \<Rightarrow> 'b::euclidean_space \<Rightarrow> 'c::real_normed_vector"
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1725
  shows "bilinear h \<longleftrightarrow> bounded_bilinear h"
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1726
proof
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1727
  assume "bilinear h"
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1728
  show "bounded_bilinear h"
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1729
  proof
53406
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1730
    fix x y z
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1731
    show "h (x + y) z = h x z + h y z"
53600
8fda7ad57466 make 'linear' into a sublocale of 'bounded_linear';
huffman
parents: 53596
diff changeset
  1732
      using `bilinear h` unfolding bilinear_def linear_iff by simp
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1733
  next
53406
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1734
    fix x y z
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1735
    show "h x (y + z) = h x y + h x z"
53600
8fda7ad57466 make 'linear' into a sublocale of 'bounded_linear';
huffman
parents: 53596
diff changeset
  1736
      using `bilinear h` unfolding bilinear_def linear_iff by simp
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1737
  next
53406
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1738
    fix r x y
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1739
    show "h (scaleR r x) y = scaleR r (h x y)"
53600
8fda7ad57466 make 'linear' into a sublocale of 'bounded_linear';
huffman
parents: 53596
diff changeset
  1740
      using `bilinear h` unfolding bilinear_def linear_iff
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1741
      by simp
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1742
  next
53406
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1743
    fix r x y
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1744
    show "h x (scaleR r y) = scaleR r (h x y)"
53600
8fda7ad57466 make 'linear' into a sublocale of 'bounded_linear';
huffman
parents: 53596
diff changeset
  1745
      using `bilinear h` unfolding bilinear_def linear_iff
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1746
      by simp
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1747
  next
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1748
    have "\<exists>B. \<forall>x y. norm (h x y) \<le> B * norm x * norm y"
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1749
      using `bilinear h` by (rule bilinear_bounded)
49522
355f3d076924 tuned proofs;
wenzelm
parents: 44890
diff changeset
  1750
    then show "\<exists>K. \<forall>x y. norm (h x y) \<le> norm x * norm y * K"
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1751
      by (simp add: mult_ac)
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1752
  qed
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1753
next
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1754
  assume "bounded_bilinear h"
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1755
  then interpret h: bounded_bilinear h .
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1756
  show "bilinear h"
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1757
    unfolding bilinear_def linear_conv_bounded_linear
49522
355f3d076924 tuned proofs;
wenzelm
parents: 44890
diff changeset
  1758
    using h.bounded_linear_left h.bounded_linear_right by simp
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1759
qed
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1760
49522
355f3d076924 tuned proofs;
wenzelm
parents: 44890
diff changeset
  1761
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1762
subsection {* We continue. *}
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1763
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1764
lemma independent_bound:
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1765
  fixes S:: "('a::euclidean_space) set"
50526
899c9c4e4a4c Remove the indexed basis from the definition of euclidean spaces and only use the set of Basis vectors
hoelzl
parents: 50105
diff changeset
  1766
  shows "independent S \<Longrightarrow> finite S \<and> card S \<le> DIM('a::euclidean_space)"
899c9c4e4a4c Remove the indexed basis from the definition of euclidean spaces and only use the set of Basis vectors
hoelzl
parents: 50105
diff changeset
  1767
  using independent_span_bound[OF finite_Basis, of S] by auto
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1768
49663
b84fafaea4bb tuned proofs;
wenzelm
parents: 49652
diff changeset
  1769
lemma dependent_biggerset:
53406
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1770
  "(finite (S::('a::euclidean_space) set) \<Longrightarrow> card S > DIM('a)) \<Longrightarrow> dependent S"
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1771
  by (metis independent_bound not_less)
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1772
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1773
text {* Hence we can create a maximal independent subset. *}
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1774
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1775
lemma maximal_independent_subset_extend:
53406
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1776
  fixes S :: "'a::euclidean_space set"
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1777
  assumes sv: "S \<subseteq> V"
49663
b84fafaea4bb tuned proofs;
wenzelm
parents: 49652
diff changeset
  1778
    and iS: "independent S"
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1779
  shows "\<exists>B. S \<subseteq> B \<and> B \<subseteq> V \<and> independent B \<and> V \<subseteq> span B"
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1780
  using sv iS
49522
355f3d076924 tuned proofs;
wenzelm
parents: 44890
diff changeset
  1781
proof (induct "DIM('a) - card S" arbitrary: S rule: less_induct)
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1782
  case less
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1783
  note sv = `S \<subseteq> V` and i = `independent S`
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1784
  let ?P = "\<lambda>B. S \<subseteq> B \<and> B \<subseteq> V \<and> independent B \<and> V \<subseteq> span B"
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1785
  let ?ths = "\<exists>x. ?P x"
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1786
  let ?d = "DIM('a)"
53406
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1787
  show ?ths
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1788
  proof (cases "V \<subseteq> span S")
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1789
    case True
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1790
    then show ?thesis
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1791
      using sv i by blast
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1792
  next
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1793
    case False
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1794
    then obtain a where a: "a \<in> V" "a \<notin> span S"
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1795
      by blast
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1796
    from a have aS: "a \<notin> S"
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1797
      by (auto simp add: span_superset)
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1798
    have th0: "insert a S \<subseteq> V"
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1799
      using a sv by blast
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1800
    from independent_insert[of a S]  i a
53406
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1801
    have th1: "independent (insert a S)"
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1802
      by auto
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1803
    have mlt: "?d - card (insert a S) < ?d - card S"
49522
355f3d076924 tuned proofs;
wenzelm
parents: 44890
diff changeset
  1804
      using aS a independent_bound[OF th1] by auto
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1805
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1806
    from less(1)[OF mlt th0 th1]
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1807
    obtain B where B: "insert a S \<subseteq> B" "B \<subseteq> V" "independent B" " V \<subseteq> span B"
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1808
      by blast
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1809
    from B have "?P B" by auto
53406
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1810
    then show ?thesis by blast
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1811
  qed
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1812
qed
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1813
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1814
lemma maximal_independent_subset:
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1815
  "\<exists>(B:: ('a::euclidean_space) set). B\<subseteq> V \<and> independent B \<and> V \<subseteq> span B"
49522
355f3d076924 tuned proofs;
wenzelm
parents: 44890
diff changeset
  1816
  by (metis maximal_independent_subset_extend[of "{}:: ('a::euclidean_space) set"]
355f3d076924 tuned proofs;
wenzelm
parents: 44890
diff changeset
  1817
    empty_subsetI independent_empty)
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1818
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1819
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1820
text {* Notion of dimension. *}
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1821
53406
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1822
definition "dim V = (SOME n. \<exists>B. B \<subseteq> V \<and> independent B \<and> V \<subseteq> span B \<and> card B = n)"
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1823
49522
355f3d076924 tuned proofs;
wenzelm
parents: 44890
diff changeset
  1824
lemma basis_exists:
355f3d076924 tuned proofs;
wenzelm
parents: 44890
diff changeset
  1825
  "\<exists>B. (B :: ('a::euclidean_space) set) \<subseteq> V \<and> independent B \<and> V \<subseteq> span B \<and> (card B = dim V)"
355f3d076924 tuned proofs;
wenzelm
parents: 44890
diff changeset
  1826
  unfolding dim_def some_eq_ex[of "\<lambda>n. \<exists>B. B \<subseteq> V \<and> independent B \<and> V \<subseteq> span B \<and> (card B = n)"]
355f3d076924 tuned proofs;
wenzelm
parents: 44890
diff changeset
  1827
  using maximal_independent_subset[of V] independent_bound
355f3d076924 tuned proofs;
wenzelm
parents: 44890
diff changeset
  1828
  by auto
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1829
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1830
text {* Consequences of independence or spanning for cardinality. *}
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1831
53406
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1832
lemma independent_card_le_dim:
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1833
  fixes B :: "'a::euclidean_space set"
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1834
  assumes "B \<subseteq> V"
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1835
    and "independent B"
49522
355f3d076924 tuned proofs;
wenzelm
parents: 44890
diff changeset
  1836
  shows "card B \<le> dim V"
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1837
proof -
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1838
  from basis_exists[of V] `B \<subseteq> V`
53406
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1839
  obtain B' where "independent B'"
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1840
    and "B \<subseteq> span B'"
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1841
    and "card B' = dim V"
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1842
    by blast
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1843
  with independent_span_bound[OF _ `independent B` `B \<subseteq> span B'`] independent_bound[of B']
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1844
  show ?thesis by auto
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1845
qed
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1846
49522
355f3d076924 tuned proofs;
wenzelm
parents: 44890
diff changeset
  1847
lemma span_card_ge_dim:
53406
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1848
  fixes B :: "'a::euclidean_space set"
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1849
  shows "B \<subseteq> V \<Longrightarrow> V \<subseteq> span B \<Longrightarrow> finite B \<Longrightarrow> dim V \<le> card B"
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1850
  by (metis basis_exists[of V] independent_span_bound subset_trans)
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1851
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1852
lemma basis_card_eq_dim:
53406
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1853
  fixes V :: "'a::euclidean_space set"
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1854
  shows "B \<subseteq> V \<Longrightarrow> V \<subseteq> span B \<Longrightarrow> independent B \<Longrightarrow> finite B \<and> card B = dim V"
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1855
  by (metis order_eq_iff independent_card_le_dim span_card_ge_dim independent_bound)
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1856
53406
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1857
lemma dim_unique:
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1858
  fixes B :: "'a::euclidean_space set"
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1859
  shows "B \<subseteq> V \<Longrightarrow> V \<subseteq> span B \<Longrightarrow> independent B \<Longrightarrow> card B = n \<Longrightarrow> dim V = n"
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1860
  by (metis basis_card_eq_dim)
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1861
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1862
text {* More lemmas about dimension. *}
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1863
53406
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1864
lemma dim_UNIV: "dim (UNIV :: 'a::euclidean_space set) = DIM('a)"
50526
899c9c4e4a4c Remove the indexed basis from the definition of euclidean spaces and only use the set of Basis vectors
hoelzl
parents: 50105
diff changeset
  1865
  using independent_Basis
899c9c4e4a4c Remove the indexed basis from the definition of euclidean spaces and only use the set of Basis vectors
hoelzl
parents: 50105
diff changeset
  1866
  by (intro dim_unique[of Basis]) auto
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1867
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1868
lemma dim_subset:
53406
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1869
  fixes S :: "'a::euclidean_space set"
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1870
  shows "S \<subseteq> T \<Longrightarrow> dim S \<le> dim T"
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1871
  using basis_exists[of T] basis_exists[of S]
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1872
  by (metis independent_card_le_dim subset_trans)
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1873
53406
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1874
lemma dim_subset_UNIV:
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1875
  fixes S :: "'a::euclidean_space set"
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1876
  shows "dim S \<le> DIM('a)"
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1877
  by (metis dim_subset subset_UNIV dim_UNIV)
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1878
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1879
text {* Converses to those. *}
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1880
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1881
lemma card_ge_dim_independent:
53406
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1882
  fixes B :: "'a::euclidean_space set"
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1883
  assumes BV: "B \<subseteq> V"
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1884
    and iB: "independent B"
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1885
    and dVB: "dim V \<le> card B"
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1886
  shows "V \<subseteq> span B"
53406
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1887
proof
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1888
  fix a
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1889
  assume aV: "a \<in> V"
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1890
  {
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1891
    assume aB: "a \<notin> span B"
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1892
    then have iaB: "independent (insert a B)"
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1893
      using iB aV BV by (simp add: independent_insert)
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1894
    from aV BV have th0: "insert a B \<subseteq> V"
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1895
      by blast
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1896
    from aB have "a \<notin>B"
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1897
      by (auto simp add: span_superset)
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1898
    with independent_card_le_dim[OF th0 iaB] dVB independent_bound[OF iB]
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1899
    have False by auto
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1900
  }
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1901
  then show "a \<in> span B" by blast
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1902
qed
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1903
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1904
lemma card_le_dim_spanning:
49663
b84fafaea4bb tuned proofs;
wenzelm
parents: 49652
diff changeset
  1905
  assumes BV: "(B:: ('a::euclidean_space) set) \<subseteq> V"
b84fafaea4bb tuned proofs;
wenzelm
parents: 49652
diff changeset
  1906
    and VB: "V \<subseteq> span B"
b84fafaea4bb tuned proofs;
wenzelm
parents: 49652
diff changeset
  1907
    and fB: "finite B"
b84fafaea4bb tuned proofs;
wenzelm
parents: 49652
diff changeset
  1908
    and dVB: "dim V \<ge> card B"
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1909
  shows "independent B"
49522
355f3d076924 tuned proofs;
wenzelm
parents: 44890
diff changeset
  1910
proof -
53406
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1911
  {
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1912
    fix a
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1913
    assume a: "a \<in> B" "a \<in> span (B -{a})"
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1914
    from a fB have c0: "card B \<noteq> 0"
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1915
      by auto
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1916
    from a fB have cb: "card (B -{a}) = card B - 1"
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1917
      by auto
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1918
    from BV a have th0: "B -{a} \<subseteq> V"
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1919
      by blast
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1920
    {
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1921
      fix x
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1922
      assume x: "x \<in> V"
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1923
      from a have eq: "insert a (B -{a}) = B"
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1924
        by blast
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1925
      from x VB have x': "x \<in> span B"
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1926
        by blast
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1927
      from span_trans[OF a(2), unfolded eq, OF x']
53406
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1928
      have "x \<in> span (B -{a})" .
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1929
    }
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1930
    then have th1: "V \<subseteq> span (B -{a})"
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1931
      by blast
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1932
    have th2: "finite (B -{a})"
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1933
      using fB by auto
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1934
    from span_card_ge_dim[OF th0 th1 th2]
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1935
    have c: "dim V \<le> card (B -{a})" .
53406
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1936
    from c c0 dVB cb have False by simp
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1937
  }
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1938
  then show ?thesis
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1939
    unfolding dependent_def by blast
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1940
qed
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1941
53406
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1942
lemma card_eq_dim:
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1943
  fixes B :: "'a::euclidean_space set"
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1944
  shows "B \<subseteq> V \<Longrightarrow> card B = dim V \<Longrightarrow> finite B \<Longrightarrow> independent B \<longleftrightarrow> V \<subseteq> span B"
49522
355f3d076924 tuned proofs;
wenzelm
parents: 44890
diff changeset
  1945
  by (metis order_eq_iff card_le_dim_spanning card_ge_dim_independent)
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1946
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1947
text {* More general size bound lemmas. *}
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1948
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1949
lemma independent_bound_general:
53406
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1950
  fixes S :: "'a::euclidean_space set"
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1951
  shows "independent S \<Longrightarrow> finite S \<and> card S \<le> dim S"
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1952
  by (metis independent_card_le_dim independent_bound subset_refl)
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1953
49522
355f3d076924 tuned proofs;
wenzelm
parents: 44890
diff changeset
  1954
lemma dependent_biggerset_general:
53406
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1955
  fixes S :: "'a::euclidean_space set"
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1956
  shows "(finite S \<Longrightarrow> card S > dim S) \<Longrightarrow> dependent S"
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1957
  using independent_bound_general[of S] by (metis linorder_not_le)
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1958
53406
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1959
lemma dim_span:
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1960
  fixes S :: "'a::euclidean_space set"
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1961
  shows "dim (span S) = dim S"
49522
355f3d076924 tuned proofs;
wenzelm
parents: 44890
diff changeset
  1962
proof -
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1963
  have th0: "dim S \<le> dim (span S)"
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1964
    by (auto simp add: subset_eq intro: dim_subset span_superset)
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1965
  from basis_exists[of S]
53406
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1966
  obtain B where B: "B \<subseteq> S" "independent B" "S \<subseteq> span B" "card B = dim S"
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1967
    by blast
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1968
  from B have fB: "finite B" "card B = dim S"
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1969
    using independent_bound by blast+
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1970
  have bSS: "B \<subseteq> span S"
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1971
    using B(1) by (metis subset_eq span_inc)
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1972
  have sssB: "span S \<subseteq> span B"
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1973
    using span_mono[OF B(3)] by (simp add: span_span)
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1974
  from span_card_ge_dim[OF bSS sssB fB(1)] th0 show ?thesis
49522
355f3d076924 tuned proofs;
wenzelm
parents: 44890
diff changeset
  1975
    using fB(2) by arith
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1976
qed
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1977
53406
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1978
lemma subset_le_dim:
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1979
  fixes S :: "'a::euclidean_space set"
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1980
  shows "S \<subseteq> span T \<Longrightarrow> dim S \<le> dim T"
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1981
  by (metis dim_span dim_subset)
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1982
53406
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1983
lemma span_eq_dim:
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1984
  fixes S:: "'a::euclidean_space set"
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1985
  shows "span S = span T \<Longrightarrow> dim S = dim T"
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1986
  by (metis dim_span)
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1987
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1988
lemma spans_image:
49663
b84fafaea4bb tuned proofs;
wenzelm
parents: 49652
diff changeset
  1989
  assumes lf: "linear f"
b84fafaea4bb tuned proofs;
wenzelm
parents: 49652
diff changeset
  1990
    and VB: "V \<subseteq> span B"
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1991
  shows "f ` V \<subseteq> span (f ` B)"
49522
355f3d076924 tuned proofs;
wenzelm
parents: 44890
diff changeset
  1992
  unfolding span_linear_image[OF lf] by (metis VB image_mono)
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1993
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1994
lemma dim_image_le:
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1995
  fixes f :: "'a::euclidean_space \<Rightarrow> 'b::euclidean_space"
49663
b84fafaea4bb tuned proofs;
wenzelm
parents: 49652
diff changeset
  1996
  assumes lf: "linear f"
b84fafaea4bb tuned proofs;
wenzelm
parents: 49652
diff changeset
  1997
  shows "dim (f ` S) \<le> dim (S)"
49522
355f3d076924 tuned proofs;
wenzelm
parents: 44890
diff changeset
  1998
proof -
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1999
  from basis_exists[of S] obtain B where
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  2000
    B: "B \<subseteq> S" "independent B" "S \<subseteq> span B" "card B = dim S" by blast
53406
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2001
  from B have fB: "finite B" "card B = dim S"
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2002
    using independent_bound by blast+
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  2003
  have "dim (f ` S) \<le> card (f ` B)"
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  2004
    apply (rule span_card_ge_dim)
53406
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2005
    using lf B fB
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2006
    apply (auto simp add: span_linear_image spans_image subset_image_iff)
49522
355f3d076924 tuned proofs;
wenzelm
parents: 44890
diff changeset
  2007
    done
53406
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2008
  also have "\<dots> \<le> dim S"
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2009
    using card_image_le[OF fB(1)] fB by simp
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  2010
  finally show ?thesis .
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  2011
qed
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  2012
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  2013
text {* Relation between bases and injectivity/surjectivity of map. *}
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  2014
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  2015
lemma spanning_surjective_image:
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  2016
  assumes us: "UNIV \<subseteq> span S"
53406
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2017
    and lf: "linear f"
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2018
    and sf: "surj f"
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  2019
  shows "UNIV \<subseteq> span (f ` S)"
49663
b84fafaea4bb tuned proofs;
wenzelm
parents: 49652
diff changeset
  2020
proof -
53406
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2021
  have "UNIV \<subseteq> f ` UNIV"
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2022
    using sf by (auto simp add: surj_def)
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2023
  also have " \<dots> \<subseteq> span (f ` S)"
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2024
    using spans_image[OF lf us] .
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2025
  finally show ?thesis .
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  2026
qed
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  2027
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  2028
lemma independent_injective_image:
49663
b84fafaea4bb tuned proofs;
wenzelm
parents: 49652
diff changeset
  2029
  assumes iS: "independent S"
b84fafaea4bb tuned proofs;
wenzelm
parents: 49652
diff changeset
  2030
    and lf: "linear f"
b84fafaea4bb tuned proofs;
wenzelm
parents: 49652
diff changeset
  2031
    and fi: "inj f"
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  2032
  shows "independent (f ` S)"
49663
b84fafaea4bb tuned proofs;
wenzelm
parents: 49652
diff changeset
  2033
proof -
53406
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2034
  {
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2035
    fix a
49663
b84fafaea4bb tuned proofs;
wenzelm
parents: 49652
diff changeset
  2036
    assume a: "a \<in> S" "f a \<in> span (f ` S - {f a})"
53406
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2037
    have eq: "f ` S - {f a} = f ` (S - {a})"
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2038
      using fi by (auto simp add: inj_on_def)
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  2039
    from a have "f a \<in> f ` span (S -{a})"
53406
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2040
      unfolding eq span_linear_image[OF lf, of "S - {a}"] by blast
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2041
    then have "a \<in> span (S -{a})"
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2042
      using fi by (auto simp add: inj_on_def)
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2043
    with a(1) iS have False
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2044
      by (simp add: dependent_def)
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2045
  }
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2046
  then show ?thesis
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2047
    unfolding dependent_def by blast
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  2048
qed
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  2049
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  2050
text {* Picking an orthogonal replacement for a spanning set. *}
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  2051
53406
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2052
(* FIXME : Move to some general theory ?*)
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  2053
definition "pairwise R S \<longleftrightarrow> (\<forall>x \<in> S. \<forall>y\<in> S. x\<noteq>y \<longrightarrow> R x y)"
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  2054
53406
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2055
lemma vector_sub_project_orthogonal:
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2056
  fixes b x :: "'a::euclidean_space"
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2057
  shows "b \<bullet> (x - ((b \<bullet> x) / (b \<bullet> b)) *\<^sub>R b) = 0"
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  2058
  unfolding inner_simps by auto
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  2059
44528
0b8e0dbb2bdd generalize and shorten proof of basis_orthogonal
huffman
parents: 44527
diff changeset
  2060
lemma pairwise_orthogonal_insert:
0b8e0dbb2bdd generalize and shorten proof of basis_orthogonal
huffman
parents: 44527
diff changeset
  2061
  assumes "pairwise orthogonal S"
49522
355f3d076924 tuned proofs;
wenzelm
parents: 44890
diff changeset
  2062
    and "\<And>y. y \<in> S \<Longrightarrow> orthogonal x y"
44528
0b8e0dbb2bdd generalize and shorten proof of basis_orthogonal
huffman
parents: 44527
diff changeset
  2063
  shows "pairwise orthogonal (insert x S)"
0b8e0dbb2bdd generalize and shorten proof of basis_orthogonal
huffman
parents: 44527
diff changeset
  2064
  using assms unfolding pairwise_def
0b8e0dbb2bdd generalize and shorten proof of basis_orthogonal
huffman
parents: 44527
diff changeset
  2065
  by (auto simp add: orthogonal_commute)
0b8e0dbb2bdd generalize and shorten proof of basis_orthogonal
huffman
parents: 44527
diff changeset
  2066
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  2067
lemma basis_orthogonal:
53406
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2068
  fixes B :: "'a::real_inner set"
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  2069
  assumes fB: "finite B"
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  2070
  shows "\<exists>C. finite C \<and> card C \<le> card B \<and> span C = span B \<and> pairwise orthogonal C"
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  2071
  (is " \<exists>C. ?P B C")
49522
355f3d076924 tuned proofs;
wenzelm
parents: 44890
diff changeset
  2072
  using fB
355f3d076924 tuned proofs;
wenzelm
parents: 44890
diff changeset
  2073
proof (induct rule: finite_induct)
355f3d076924 tuned proofs;
wenzelm
parents: 44890
diff changeset
  2074
  case empty
53406
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2075
  then show ?case
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2076
    apply (rule exI[where x="{}"])
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2077
    apply (auto simp add: pairwise_def)
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2078
    done
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  2079
next
49522
355f3d076924 tuned proofs;
wenzelm
parents: 44890
diff changeset
  2080
  case (insert a B)
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  2081
  note fB = `finite B` and aB = `a \<notin> B`
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  2082
  from `\<exists>C. finite C \<and> card C \<le> card B \<and> span C = span B \<and> pairwise orthogonal C`
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  2083
  obtain C where C: "finite C" "card C \<le> card B"
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  2084
    "span C = span B" "pairwise orthogonal C" by blast
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  2085
  let ?a = "a - setsum (\<lambda>x. (x \<bullet> a / (x \<bullet> x)) *\<^sub>R x) C"
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  2086
  let ?C = "insert ?a C"
53406
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2087
  from C(1) have fC: "finite ?C"
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2088
    by simp
49522
355f3d076924 tuned proofs;
wenzelm
parents: 44890
diff changeset
  2089
  from fB aB C(1,2) have cC: "card ?C \<le> card (insert a B)"
355f3d076924 tuned proofs;
wenzelm
parents: 44890
diff changeset
  2090
    by (simp add: card_insert_if)
53406
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2091
  {
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2092
    fix x k
49522
355f3d076924 tuned proofs;
wenzelm
parents: 44890
diff changeset
  2093
    have th0: "\<And>(a::'a) b c. a - (b - c) = c + (a - b)"
355f3d076924 tuned proofs;
wenzelm
parents: 44890
diff changeset
  2094
      by (simp add: field_simps)
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  2095
    have "x - k *\<^sub>R (a - (\<Sum>x\<in>C. (x \<bullet> a / (x \<bullet> x)) *\<^sub>R x)) \<in> span C \<longleftrightarrow> x - k *\<^sub>R a \<in> span C"
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  2096
      apply (simp only: scaleR_right_diff_distrib th0)
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  2097
      apply (rule span_add_eq)
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  2098
      apply (rule span_mul)
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  2099
      apply (rule span_setsum[OF C(1)])
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  2100
      apply clarify
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  2101
      apply (rule span_mul)
49522
355f3d076924 tuned proofs;
wenzelm
parents: 44890
diff changeset
  2102
      apply (rule span_superset)
355f3d076924 tuned proofs;
wenzelm
parents: 44890
diff changeset
  2103
      apply assumption
53406
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2104
      done
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2105
  }
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  2106
  then have SC: "span ?C = span (insert a B)"
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  2107
    unfolding set_eq_iff span_breakdown_eq C(3)[symmetric] by auto
53406
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2108
  {
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2109
    fix y
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2110
    assume yC: "y \<in> C"
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2111
    then have Cy: "C = insert y (C - {y})"
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2112
      by blast
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2113
    have fth: "finite (C - {y})"
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2114
      using C by simp
44528
0b8e0dbb2bdd generalize and shorten proof of basis_orthogonal
huffman
parents: 44527
diff changeset
  2115
    have "orthogonal ?a y"
0b8e0dbb2bdd generalize and shorten proof of basis_orthogonal
huffman
parents: 44527
diff changeset
  2116
      unfolding orthogonal_def
0b8e0dbb2bdd generalize and shorten proof of basis_orthogonal
huffman
parents: 44527
diff changeset
  2117
      unfolding inner_diff inner_setsum_left diff_eq_0_iff_eq
0b8e0dbb2bdd generalize and shorten proof of basis_orthogonal
huffman
parents: 44527
diff changeset
  2118
      unfolding setsum_diff1' [OF `finite C` `y \<in> C`]
0b8e0dbb2bdd generalize and shorten proof of basis_orthogonal
huffman
parents: 44527
diff changeset
  2119
      apply (clarsimp simp add: inner_commute[of y a])
0b8e0dbb2bdd generalize and shorten proof of basis_orthogonal
huffman
parents: 44527
diff changeset
  2120
      apply (rule setsum_0')
0b8e0dbb2bdd generalize and shorten proof of basis_orthogonal
huffman
parents: 44527
diff changeset
  2121
      apply clarsimp
0b8e0dbb2bdd generalize and shorten proof of basis_orthogonal
huffman
parents: 44527
diff changeset
  2122
      apply (rule C(4)[unfolded pairwise_def orthogonal_def, rule_format])
53406
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2123
      using `y \<in> C` by auto
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2124
  }
44528
0b8e0dbb2bdd generalize and shorten proof of basis_orthogonal
huffman
parents: 44527
diff changeset
  2125
  with `pairwise orthogonal C` have CPO: "pairwise orthogonal ?C"
0b8e0dbb2bdd generalize and shorten proof of basis_orthogonal
huffman
parents: 44527
diff changeset
  2126
    by (rule pairwise_orthogonal_insert)
53406
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2127
  from fC cC SC CPO have "?P (insert a B) ?C"
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2128
    by blast
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  2129
  then show ?case by blast
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  2130
qed
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  2131
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  2132
lemma orthogonal_basis_exists:
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  2133
  fixes V :: "('a::euclidean_space) set"
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  2134
  shows "\<exists>B. independent B \<and> B \<subseteq> span V \<and> V \<subseteq> span B \<and> (card B = dim V) \<and> pairwise orthogonal B"
49663
b84fafaea4bb tuned proofs;
wenzelm
parents: 49652
diff changeset
  2135
proof -
49522
355f3d076924 tuned proofs;
wenzelm
parents: 44890
diff changeset
  2136
  from basis_exists[of V] obtain B where
53406
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2137
    B: "B \<subseteq> V" "independent B" "V \<subseteq> span B" "card B = dim V"
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2138
    by blast
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2139
  from B have fB: "finite B" "card B = dim V"
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2140
    using independent_bound by auto
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  2141
  from basis_orthogonal[OF fB(1)] obtain C where
53406
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2142
    C: "finite C" "card C \<le> card B" "span C = span B" "pairwise orthogonal C"
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2143
    by blast
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2144
  from C B have CSV: "C \<subseteq> span V"
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2145
    by (metis span_inc span_mono subset_trans)
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2146
  from span_mono[OF B(3)] C have SVC: "span V \<subseteq> span C"
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2147
    by (simp add: span_span)
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  2148
  from card_le_dim_spanning[OF CSV SVC C(1)] C(2,3) fB
53406
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2149
  have iC: "independent C"
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  2150
    by (simp add: dim_span)
53406
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2151
  from C fB have "card C \<le> dim V"
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2152
    by simp
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2153
  moreover have "dim V \<le> card C"
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2154
    using span_card_ge_dim[OF CSV SVC C(1)]
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2155
    by (simp add: dim_span)
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2156
  ultimately have CdV: "card C = dim V"
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2157
    using C(1) by simp
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2158
  from C B CSV CdV iC show ?thesis
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2159
    by auto
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  2160
qed
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  2161
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  2162
lemma span_eq: "span S = span T \<longleftrightarrow> S \<subseteq> span T \<and> T \<subseteq> span S"
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  2163
  using span_inc[unfolded subset_eq] using span_mono[of T "span S"] span_mono[of S "span T"]
49522
355f3d076924 tuned proofs;
wenzelm
parents: 44890
diff changeset
  2164
  by (auto simp add: span_span)
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  2165
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  2166
text {* Low-dimensional subset is in a hyperplane (weak orthogonal complement). *}
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  2167
49522
355f3d076924 tuned proofs;
wenzelm
parents: 44890
diff changeset
  2168
lemma span_not_univ_orthogonal:
53406
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2169
  fixes S :: "'a::euclidean_space set"
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  2170
  assumes sU: "span S \<noteq> UNIV"
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  2171
  shows "\<exists>(a::'a). a \<noteq>0 \<and> (\<forall>x \<in> span S. a \<bullet> x = 0)"
49522
355f3d076924 tuned proofs;
wenzelm
parents: 44890
diff changeset
  2172
proof -
53406
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2173
  from sU obtain a where a: "a \<notin> span S"
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2174
    by blast
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  2175
  from orthogonal_basis_exists obtain B where
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  2176
    B: "independent B" "B \<subseteq> span S" "S \<subseteq> span B" "card B = dim S" "pairwise orthogonal B"
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  2177
    by blast
53406
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2178
  from B have fB: "finite B" "card B = dim S"
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2179
    using independent_bound by auto
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  2180
  from span_mono[OF B(2)] span_mono[OF B(3)]
53406
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2181
  have sSB: "span S = span B"
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2182
    by (simp add: span_span)
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  2183
  let ?a = "a - setsum (\<lambda>b. (a \<bullet> b / (b \<bullet> b)) *\<^sub>R b) B"
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  2184
  have "setsum (\<lambda>b. (a \<bullet> b / (b \<bullet> b)) *\<^sub>R b) B \<in> span S"
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  2185
    unfolding sSB
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  2186
    apply (rule span_setsum[OF fB(1)])
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  2187
    apply clarsimp
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  2188
    apply (rule span_mul)
49522
355f3d076924 tuned proofs;
wenzelm
parents: 44890
diff changeset
  2189
    apply (rule span_superset)
355f3d076924 tuned proofs;
wenzelm
parents: 44890
diff changeset
  2190
    apply assumption
355f3d076924 tuned proofs;
wenzelm
parents: 44890
diff changeset
  2191
    done
53406
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2192
  with a have a0:"?a  \<noteq> 0"
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2193
    by auto
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  2194
  have "\<forall>x\<in>span B. ?a \<bullet> x = 0"
49522
355f3d076924 tuned proofs;
wenzelm
parents: 44890
diff changeset
  2195
  proof (rule span_induct')
355f3d076924 tuned proofs;
wenzelm
parents: 44890
diff changeset
  2196
    show "subspace {x. ?a \<bullet> x = 0}"
355f3d076924 tuned proofs;
wenzelm
parents: 44890
diff changeset
  2197
      by (auto simp add: subspace_def inner_add)
355f3d076924 tuned proofs;
wenzelm
parents: 44890
diff changeset
  2198
  next
53406
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2199
    {
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2200
      fix x
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2201
      assume x: "x \<in> B"
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2202
      from x have B': "B = insert x (B - {x})"
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2203
        by blast
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2204
      have fth: "finite (B - {x})"
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2205
        using fB by simp
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  2206
      have "?a \<bullet> x = 0"
53406
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2207
        apply (subst B')
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2208
        using fB fth
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  2209
        unfolding setsum_clauses(2)[OF fth]
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  2210
        apply simp unfolding inner_simps
44527
bf8014b4f933 remove dot_lsum and dot_rsum in favor of inner_setsum_{left,right}
huffman
parents: 44521
diff changeset
  2211
        apply (clarsimp simp add: inner_add inner_setsum_left)
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  2212
        apply (rule setsum_0', rule ballI)
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  2213
        unfolding inner_commute
49711
e5aaae7eadc9 tuned proofs;
wenzelm
parents: 49663
diff changeset
  2214
        apply (auto simp add: x field_simps
e5aaae7eadc9 tuned proofs;
wenzelm
parents: 49663
diff changeset
  2215
          intro: B(5)[unfolded pairwise_def orthogonal_def, rule_format])
53406
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2216
        done
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2217
    }
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2218
    then show "\<forall>x \<in> B. ?a \<bullet> x = 0"
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2219
      by blast
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  2220
  qed
53406
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2221
  with a0 show ?thesis
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2222
    unfolding sSB by (auto intro: exI[where x="?a"])
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  2223
qed
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  2224
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  2225
lemma span_not_univ_subset_hyperplane:
53406
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2226
  fixes S :: "'a::euclidean_space set"
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2227
  assumes SU: "span S \<noteq> UNIV"
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  2228
  shows "\<exists> a. a \<noteq>0 \<and> span S \<subseteq> {x. a \<bullet> x = 0}"
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  2229
  using span_not_univ_orthogonal[OF SU] by auto
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  2230
49663
b84fafaea4bb tuned proofs;
wenzelm
parents: 49652
diff changeset
  2231
lemma lowdim_subset_hyperplane:
53406
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2232
  fixes S :: "'a::euclidean_space set"
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  2233
  assumes d: "dim S < DIM('a)"
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  2234
  shows "\<exists>(a::'a). a  \<noteq> 0 \<and> span S \<subseteq> {x. a \<bullet> x = 0}"
49522
355f3d076924 tuned proofs;
wenzelm
parents: 44890
diff changeset
  2235
proof -
53406
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2236
  {
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2237
    assume "span S = UNIV"
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2238
    then have "dim (span S) = dim (UNIV :: ('a) set)"
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2239
      by simp
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2240
    then have "dim S = DIM('a)"
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2241
      by (simp add: dim_span dim_UNIV)
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2242
    with d have False by arith
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2243
  }
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2244
  then have th: "span S \<noteq> UNIV"
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2245
    by blast
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  2246
  from span_not_univ_subset_hyperplane[OF th] show ?thesis .
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  2247
qed
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  2248
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  2249
text {* We can extend a linear basis-basis injection to the whole set. *}
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  2250
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  2251
lemma linear_indep_image_lemma:
49663
b84fafaea4bb tuned proofs;
wenzelm
parents: 49652
diff changeset
  2252
  assumes lf: "linear f"
b84fafaea4bb tuned proofs;
wenzelm
parents: 49652
diff changeset
  2253
    and fB: "finite B"
49522
355f3d076924 tuned proofs;
wenzelm
parents: 44890
diff changeset
  2254
    and ifB: "independent (f ` B)"
49663
b84fafaea4bb tuned proofs;
wenzelm
parents: 49652
diff changeset
  2255
    and fi: "inj_on f B"
b84fafaea4bb tuned proofs;
wenzelm
parents: 49652
diff changeset
  2256
    and xsB: "x \<in> span B"
49522
355f3d076924 tuned proofs;
wenzelm
parents: 44890
diff changeset
  2257
    and fx: "f x = 0"
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  2258
  shows "x = 0"
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  2259
  using fB ifB fi xsB fx
49522
355f3d076924 tuned proofs;
wenzelm
parents: 44890
diff changeset
  2260
proof (induct arbitrary: x rule: finite_induct[OF fB])
49663
b84fafaea4bb tuned proofs;
wenzelm
parents: 49652
diff changeset
  2261
  case 1
b84fafaea4bb tuned proofs;
wenzelm
parents: 49652
diff changeset
  2262
  then show ?case by auto
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  2263
next
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  2264
  case (2 a b x)
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  2265
  have fb: "finite b" using "2.prems" by simp
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  2266
  have th0: "f ` b \<subseteq> f ` (insert a b)"
53406
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2267
    apply (rule image_mono)
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2268
    apply blast
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2269
    done
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  2270
  from independent_mono[ OF "2.prems"(2) th0]
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  2271
  have ifb: "independent (f ` b)"  .
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  2272
  have fib: "inj_on f b"
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  2273
    apply (rule subset_inj_on [OF "2.prems"(3)])
49522
355f3d076924 tuned proofs;
wenzelm
parents: 44890
diff changeset
  2274
    apply blast
355f3d076924 tuned proofs;
wenzelm
parents: 44890
diff changeset
  2275
    done
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  2276
  from span_breakdown[of a "insert a b", simplified, OF "2.prems"(4)]
53406
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2277
  obtain k where k: "x - k*\<^sub>R a \<in> span (b - {a})"
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2278
    by blast
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  2279
  have "f (x - k*\<^sub>R a) \<in> span (f ` b)"
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  2280
    unfolding span_linear_image[OF lf]
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  2281
    apply (rule imageI)
53406
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2282
    using k span_mono[of "b-{a}" b]
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2283
    apply blast
49522
355f3d076924 tuned proofs;
wenzelm
parents: 44890
diff changeset
  2284
    done
355f3d076924 tuned proofs;
wenzelm
parents: 44890
diff changeset
  2285
  then have "f x - k*\<^sub>R f a \<in> span (f ` b)"
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  2286
    by (simp add: linear_sub[OF lf] linear_cmul[OF lf])
49522
355f3d076924 tuned proofs;
wenzelm
parents: 44890
diff changeset
  2287
  then have th: "-k *\<^sub>R f a \<in> span (f ` b)"
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  2288
    using "2.prems"(5) by simp
53406
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2289
  have xsb: "x \<in> span b"
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2290
  proof (cases "k = 0")
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2291
    case True
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2292
    with k have "x \<in> span (b -{a})" by simp
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2293
    then show ?thesis using span_mono[of "b-{a}" b]
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2294
      by blast
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2295
  next
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2296
    case False
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2297
    with span_mul[OF th, of "- 1/ k"]
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  2298
    have th1: "f a \<in> span (f ` b)"
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  2299
      by auto
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  2300
    from inj_on_image_set_diff[OF "2.prems"(3), of "insert a b " "{a}", symmetric]
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  2301
    have tha: "f ` insert a b - f ` {a} = f ` (insert a b - {a})" by blast
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  2302
    from "2.prems"(2) [unfolded dependent_def bex_simps(8), rule_format, of "f a"]
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  2303
    have "f a \<notin> span (f ` b)" using tha
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  2304
      using "2.hyps"(2)
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  2305
      "2.prems"(3) by auto
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  2306
    with th1 have False by blast
53406
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2307
    then show ?thesis by blast
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2308
  qed
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2309
  from "2.hyps"(3)[OF fb ifb fib xsb "2.prems"(5)] show "x = 0" .
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  2310
qed
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  2311
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  2312
text {* We can extend a linear mapping from basis. *}
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  2313
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  2314
lemma linear_independent_extend_lemma:
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  2315
  fixes f :: "'a::real_vector \<Rightarrow> 'b::real_vector"
53406
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2316
  assumes fi: "finite B"
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2317
    and ib: "independent B"
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2318
  shows "\<exists>g.
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2319
    (\<forall>x\<in> span B. \<forall>y\<in> span B. g (x + y) = g x + g y) \<and>
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2320
    (\<forall>x\<in> span B. \<forall>c. g (c*\<^sub>R x) = c *\<^sub>R g x) \<and>
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2321
    (\<forall>x\<in> B. g x = f x)"
49663
b84fafaea4bb tuned proofs;
wenzelm
parents: 49652
diff changeset
  2322
  using ib fi
49522
355f3d076924 tuned proofs;
wenzelm
parents: 44890
diff changeset
  2323
proof (induct rule: finite_induct[OF fi])
49663
b84fafaea4bb tuned proofs;
wenzelm
parents: 49652
diff changeset
  2324
  case 1
b84fafaea4bb tuned proofs;
wenzelm
parents: 49652
diff changeset
  2325
  then show ?case by auto
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  2326
next
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  2327
  case (2 a b)
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  2328
  from "2.prems" "2.hyps" have ibf: "independent b" "finite b"
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  2329
    by (simp_all add: independent_insert)
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  2330
  from "2.hyps"(3)[OF ibf] obtain g where
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  2331
    g: "\<forall>x\<in>span b. \<forall>y\<in>span b. g (x + y) = g x + g y"
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  2332
    "\<forall>x\<in>span b. \<forall>c. g (c *\<^sub>R x) = c *\<^sub>R g x" "\<forall>x\<in>b. g x = f x" by blast
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  2333
  let ?h = "\<lambda>z. SOME k. (z - k *\<^sub>R a) \<in> span b"
53406
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2334
  {
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2335
    fix z
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2336
    assume z: "z \<in> span (insert a b)"
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  2337
    have th0: "z - ?h z *\<^sub>R a \<in> span b"
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  2338
      apply (rule someI_ex)
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  2339
      unfolding span_breakdown_eq[symmetric]
53406
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2340
      apply (rule z)
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2341
      done
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2342
    {
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2343
      fix k
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2344
      assume k: "z - k *\<^sub>R a \<in> span b"
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  2345
      have eq: "z - ?h z *\<^sub>R a - (z - k*\<^sub>R a) = (k - ?h z) *\<^sub>R a"
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  2346
        by (simp add: field_simps scaleR_left_distrib [symmetric])
53406
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2347
      from span_sub[OF th0 k] have khz: "(k - ?h z) *\<^sub>R a \<in> span b"
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2348
        by (simp add: eq)
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2349
      {
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2350
        assume "k \<noteq> ?h z"
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2351
        then have k0: "k - ?h z \<noteq> 0" by simp
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  2352
        from k0 span_mul[OF khz, of "1 /(k - ?h z)"]
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  2353
        have "a \<in> span b" by simp
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  2354
        with "2.prems"(1) "2.hyps"(2) have False
53406
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2355
          by (auto simp add: dependent_def)
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2356
      }
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2357
      then have "k = ?h z" by blast
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2358
    }
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2359
    with th0 have "z - ?h z *\<^sub>R a \<in> span b \<and> (\<forall>k. z - k *\<^sub>R a \<in> span b \<longrightarrow> k = ?h z)"
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2360
      by blast
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2361
  }
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  2362
  note h = this
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  2363
  let ?g = "\<lambda>z. ?h z *\<^sub>R f a + g (z - ?h z *\<^sub>R a)"
53406
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2364
  {
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2365
    fix x y
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2366
    assume x: "x \<in> span (insert a b)"
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2367
      and y: "y \<in> span (insert a b)"
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  2368
    have tha: "\<And>(x::'a) y a k l. (x + y) - (k + l) *\<^sub>R a = (x - k *\<^sub>R a) + (y - l *\<^sub>R a)"
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  2369
      by (simp add: algebra_simps)
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  2370
    have addh: "?h (x + y) = ?h x + ?h y"
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  2371
      apply (rule conjunct2[OF h, rule_format, symmetric])
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  2372
      apply (rule span_add[OF x y])
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  2373
      unfolding tha
53406
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2374
      apply (metis span_add x y conjunct1[OF h, rule_format])
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2375
      done
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  2376
    have "?g (x + y) = ?g x + ?g y"
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  2377
      unfolding addh tha
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  2378
      g(1)[rule_format,OF conjunct1[OF h, OF x] conjunct1[OF h, OF y]]
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  2379
      by (simp add: scaleR_left_distrib)}
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  2380
  moreover
53406
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2381
  {
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2382
    fix x :: "'a"
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2383
    fix c :: real
49522
355f3d076924 tuned proofs;
wenzelm
parents: 44890
diff changeset
  2384
    assume x: "x \<in> span (insert a b)"
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  2385
    have tha: "\<And>(x::'a) c k a. c *\<^sub>R x - (c * k) *\<^sub>R a = c *\<^sub>R (x - k *\<^sub>R a)"
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  2386
      by (simp add: algebra_simps)
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  2387
    have hc: "?h (c *\<^sub>R x) = c * ?h x"
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  2388
      apply (rule conjunct2[OF h, rule_format, symmetric])
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  2389
      apply (metis span_mul x)
49522
355f3d076924 tuned proofs;
wenzelm
parents: 44890
diff changeset
  2390
      apply (metis tha span_mul x conjunct1[OF h])
355f3d076924 tuned proofs;
wenzelm
parents: 44890
diff changeset
  2391
      done
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  2392
    have "?g (c *\<^sub>R x) = c*\<^sub>R ?g x"
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  2393
      unfolding hc tha g(2)[rule_format, OF conjunct1[OF h, OF x]]
53406
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2394
      by (simp add: algebra_simps)
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2395
  }
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  2396
  moreover
53406
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2397
  {
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2398
    fix x
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2399
    assume x: "x \<in> insert a b"
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2400
    {
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2401
      assume xa: "x = a"
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  2402
      have ha1: "1 = ?h a"
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  2403
        apply (rule conjunct2[OF h, rule_format])
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  2404
        apply (metis span_superset insertI1)
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  2405
        using conjunct1[OF h, OF span_superset, OF insertI1]
49522
355f3d076924 tuned proofs;
wenzelm
parents: 44890
diff changeset
  2406
        apply (auto simp add: span_0)
355f3d076924 tuned proofs;
wenzelm
parents: 44890
diff changeset
  2407
        done
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  2408
      from xa ha1[symmetric] have "?g x = f x"
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  2409
        apply simp
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  2410
        using g(2)[rule_format, OF span_0, of 0]
49522
355f3d076924 tuned proofs;
wenzelm
parents: 44890
diff changeset
  2411
        apply simp
53406
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2412
        done
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2413
    }
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  2414
    moreover
53406
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2415
    {
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2416
      assume xb: "x \<in> b"
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  2417
      have h0: "0 = ?h x"
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  2418
        apply (rule conjunct2[OF h, rule_format])
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  2419
        apply (metis  span_superset x)
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  2420
        apply simp
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  2421
        apply (metis span_superset xb)
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  2422
        done
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  2423
      have "?g x = f x"
53406
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2424
        by (simp add: h0[symmetric] g(3)[rule_format, OF xb])
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2425
    }
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2426
    ultimately have "?g x = f x"
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2427
      using x by blast
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2428
  }
49663
b84fafaea4bb tuned proofs;
wenzelm
parents: 49652
diff changeset
  2429
  ultimately show ?case
b84fafaea4bb tuned proofs;
wenzelm
parents: 49652
diff changeset
  2430
    apply -
b84fafaea4bb tuned proofs;
wenzelm
parents: 49652
diff changeset
  2431
    apply (rule exI[where x="?g"])
b84fafaea4bb tuned proofs;
wenzelm
parents: 49652
diff changeset
  2432
    apply blast
b84fafaea4bb tuned proofs;
wenzelm
parents: 49652
diff changeset
  2433
    done
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  2434
qed
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  2435
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  2436
lemma linear_independent_extend:
53406
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2437
  fixes B :: "'a::euclidean_space set"
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2438
  assumes iB: "independent B"
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  2439
  shows "\<exists>g. linear g \<and> (\<forall>x\<in>B. g x = f x)"
49522
355f3d076924 tuned proofs;
wenzelm
parents: 44890
diff changeset
  2440
proof -
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  2441
  from maximal_independent_subset_extend[of B UNIV] iB
53406
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2442
  obtain C where C: "B \<subseteq> C" "independent C" "\<And>x. x \<in> span C"
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2443
    by auto
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  2444
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  2445
  from C(2) independent_bound[of C] linear_independent_extend_lemma[of C f]
53406
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2446
  obtain g where g:
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2447
    "(\<forall>x\<in> span C. \<forall>y\<in> span C. g (x + y) = g x + g y) \<and>
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2448
     (\<forall>x\<in> span C. \<forall>c. g (c*\<^sub>R x) = c *\<^sub>R g x) \<and>
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2449
     (\<forall>x\<in> C. g x = f x)" by blast
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2450
  from g show ?thesis
53600
8fda7ad57466 make 'linear' into a sublocale of 'bounded_linear';
huffman
parents: 53596
diff changeset
  2451
    unfolding linear_iff
53406
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2452
    using C
49663
b84fafaea4bb tuned proofs;
wenzelm
parents: 49652
diff changeset
  2453
    apply clarsimp
b84fafaea4bb tuned proofs;
wenzelm
parents: 49652
diff changeset
  2454
    apply blast
b84fafaea4bb tuned proofs;
wenzelm
parents: 49652
diff changeset
  2455
    done
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  2456
qed
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  2457
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  2458
text {* Can construct an isomorphism between spaces of same dimension. *}
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  2459
49522
355f3d076924 tuned proofs;
wenzelm
parents: 44890
diff changeset
  2460
lemma card_le_inj:
49663
b84fafaea4bb tuned proofs;
wenzelm
parents: 49652
diff changeset
  2461
  assumes fA: "finite A"
b84fafaea4bb tuned proofs;
wenzelm
parents: 49652
diff changeset
  2462
    and fB: "finite B"
49522
355f3d076924 tuned proofs;
wenzelm
parents: 44890
diff changeset
  2463
    and c: "card A \<le> card B"
49663
b84fafaea4bb tuned proofs;
wenzelm
parents: 49652
diff changeset
  2464
  shows "\<exists>f. f ` A \<subseteq> B \<and> inj_on f A"
49522
355f3d076924 tuned proofs;
wenzelm
parents: 44890
diff changeset
  2465
  using fA fB c
355f3d076924 tuned proofs;
wenzelm
parents: 44890
diff changeset
  2466
proof (induct arbitrary: B rule: finite_induct)
355f3d076924 tuned proofs;
wenzelm
parents: 44890
diff changeset
  2467
  case empty
355f3d076924 tuned proofs;
wenzelm
parents: 44890
diff changeset
  2468
  then show ?case by simp
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  2469
next
49522
355f3d076924 tuned proofs;
wenzelm
parents: 44890
diff changeset
  2470
  case (insert x s t)
355f3d076924 tuned proofs;
wenzelm
parents: 44890
diff changeset
  2471
  then show ?case
355f3d076924 tuned proofs;
wenzelm
parents: 44890
diff changeset
  2472
  proof (induct rule: finite_induct[OF "insert.prems"(1)])
355f3d076924 tuned proofs;
wenzelm
parents: 44890
diff changeset
  2473
    case 1
355f3d076924 tuned proofs;
wenzelm
parents: 44890
diff changeset
  2474
    then show ?case by simp
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  2475
  next
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  2476
    case (2 y t)
53406
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2477
    from "2.prems"(1,2,5) "2.hyps"(1,2) have cst: "card s \<le> card t"
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2478
      by simp
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2479
    from "2.prems"(3) [OF "2.hyps"(1) cst]
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2480
    obtain f where "f ` s \<subseteq> t" "inj_on f s"
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2481
      by blast
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2482
    with "2.prems"(2) "2.hyps"(2) show ?case
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  2483
      apply -
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  2484
      apply (rule exI[where x = "\<lambda>z. if z = x then y else f z"])
49522
355f3d076924 tuned proofs;
wenzelm
parents: 44890
diff changeset
  2485
      apply (auto simp add: inj_on_def)
355f3d076924 tuned proofs;
wenzelm
parents: 44890
diff changeset
  2486
      done
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  2487
  qed
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  2488
qed
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  2489
49522
355f3d076924 tuned proofs;
wenzelm
parents: 44890
diff changeset
  2490
lemma card_subset_eq:
49663
b84fafaea4bb tuned proofs;
wenzelm
parents: 49652
diff changeset
  2491
  assumes fB: "finite B"
b84fafaea4bb tuned proofs;
wenzelm
parents: 49652
diff changeset
  2492
    and AB: "A \<subseteq> B"
b84fafaea4bb tuned proofs;
wenzelm
parents: 49652
diff changeset
  2493
    and c: "card A = card B"
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  2494
  shows "A = B"
49522
355f3d076924 tuned proofs;
wenzelm
parents: 44890
diff changeset
  2495
proof -
53406
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2496
  from fB AB have fA: "finite A"
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2497
    by (auto intro: finite_subset)
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2498
  from fA fB have fBA: "finite (B - A)"
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2499
    by auto
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2500
  have e: "A \<inter> (B - A) = {}"
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2501
    by blast
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2502
  have eq: "A \<union> (B - A) = B"
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2503
    using AB by blast
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2504
  from card_Un_disjoint[OF fA fBA e, unfolded eq c] have "card (B - A) = 0"
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2505
    by arith
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2506
  then have "B - A = {}"
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2507
    unfolding card_eq_0_iff using fA fB by simp
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2508
  with AB show "A = B"
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2509
    by blast
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  2510
qed
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  2511
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  2512
lemma subspace_isomorphism:
53406
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2513
  fixes S :: "'a::euclidean_space set"
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2514
    and T :: "'b::euclidean_space set"
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2515
  assumes s: "subspace S"
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2516
    and t: "subspace T"
49522
355f3d076924 tuned proofs;
wenzelm
parents: 44890
diff changeset
  2517
    and d: "dim S = dim T"
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  2518
  shows "\<exists>f. linear f \<and> f ` S = T \<and> inj_on f S"
49522
355f3d076924 tuned proofs;
wenzelm
parents: 44890
diff changeset
  2519
proof -
53406
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2520
  from basis_exists[of S] independent_bound
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2521
  obtain B where B: "B \<subseteq> S" "independent B" "S \<subseteq> span B" "card B = dim S" and fB: "finite B"
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2522
    by blast
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2523
  from basis_exists[of T] independent_bound
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2524
  obtain C where C: "C \<subseteq> T" "independent C" "T \<subseteq> span C" "card C = dim T" and fC: "finite C"
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2525
    by blast
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2526
  from B(4) C(4) card_le_inj[of B C] d
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2527
  obtain f where f: "f ` B \<subseteq> C" "inj_on f B" using `finite B` `finite C`
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2528
    by auto
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2529
  from linear_independent_extend[OF B(2)]
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2530
  obtain g where g: "linear g" "\<forall>x\<in> B. g x = f x"
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2531
    by blast
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2532
  from inj_on_iff_eq_card[OF fB, of f] f(2) have "card (f ` B) = card B"
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  2533
    by simp
53406
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2534
  with B(4) C(4) have ceq: "card (f ` B) = card C"
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2535
    using d by simp
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2536
  have "g ` B = f ` B"
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2537
    using g(2) by (auto simp add: image_iff)
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  2538
  also have "\<dots> = C" using card_subset_eq[OF fC f(1) ceq] .
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  2539
  finally have gBC: "g ` B = C" .
53406
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2540
  have gi: "inj_on g B"
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2541
    using f(2) g(2) by (auto simp add: inj_on_def)
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  2542
  note g0 = linear_indep_image_lemma[OF g(1) fB, unfolded gBC, OF C(2) gi]
53406
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2543
  {
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2544
    fix x y
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2545
    assume x: "x \<in> S" and y: "y \<in> S" and gxy: "g x = g y"
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2546
    from B(3) x y have x': "x \<in> span B" and y': "y \<in> span B"
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2547
      by blast+
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2548
    from gxy have th0: "g (x - y) = 0"
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2549
      by (simp add: linear_sub[OF g(1)])
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2550
    have th1: "x - y \<in> span B"
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2551
      using x' y' by (metis span_sub)
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2552
    have "x = y"
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2553
      using g0[OF th1 th0] by simp
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2554
  }
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  2555
  then have giS: "inj_on g S"
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  2556
    unfolding inj_on_def by blast
53406
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2557
  from span_subspace[OF B(1,3) s] have "g ` S = span (g ` B)"
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2558
    by (simp add: span_linear_image[OF g(1)])
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  2559
  also have "\<dots> = span C" unfolding gBC ..
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  2560
  also have "\<dots> = T" using span_subspace[OF C(1,3) t] .
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  2561
  finally have gS: "g ` S = T" .
53406
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2562
  from g(1) gS giS show ?thesis
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2563
    by blast
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  2564
qed
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  2565
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  2566
text {* Linear functions are equal on a subspace if they are on a spanning set. *}
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  2567
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  2568
lemma subspace_kernel:
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  2569
  assumes lf: "linear f"
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  2570
  shows "subspace {x. f x = 0}"
49522
355f3d076924 tuned proofs;
wenzelm
parents: 44890
diff changeset
  2571
  apply (simp add: subspace_def)
355f3d076924 tuned proofs;
wenzelm
parents: 44890
diff changeset
  2572
  apply (simp add: linear_add[OF lf] linear_cmul[OF lf] linear_0[OF lf])
355f3d076924 tuned proofs;
wenzelm
parents: 44890
diff changeset
  2573
  done
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  2574
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  2575
lemma linear_eq_0_span:
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  2576
  assumes lf: "linear f" and f0: "\<forall>x\<in>B. f x = 0"
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  2577
  shows "\<forall>x \<in> span B. f x = 0"
44170
510ac30f44c0 make Multivariate_Analysis work with separate set type
huffman
parents: 44166
diff changeset
  2578
  using f0 subspace_kernel[OF lf]
510ac30f44c0 make Multivariate_Analysis work with separate set type
huffman
parents: 44166
diff changeset
  2579
  by (rule span_induct')
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  2580
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  2581
lemma linear_eq_0:
49663
b84fafaea4bb tuned proofs;
wenzelm
parents: 49652
diff changeset
  2582
  assumes lf: "linear f"
b84fafaea4bb tuned proofs;
wenzelm
parents: 49652
diff changeset
  2583
    and SB: "S \<subseteq> span B"
b84fafaea4bb tuned proofs;
wenzelm
parents: 49652
diff changeset
  2584
    and f0: "\<forall>x\<in>B. f x = 0"
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  2585
  shows "\<forall>x \<in> S. f x = 0"
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  2586
  by (metis linear_eq_0_span[OF lf] subset_eq SB f0)
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  2587
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  2588
lemma linear_eq:
49663
b84fafaea4bb tuned proofs;
wenzelm
parents: 49652
diff changeset
  2589
  assumes lf: "linear f"
b84fafaea4bb tuned proofs;
wenzelm
parents: 49652
diff changeset
  2590
    and lg: "linear g"
b84fafaea4bb tuned proofs;
wenzelm
parents: 49652
diff changeset
  2591
    and S: "S \<subseteq> span B"
49522
355f3d076924 tuned proofs;
wenzelm
parents: 44890
diff changeset
  2592
    and fg: "\<forall> x\<in> B. f x = g x"
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  2593
  shows "\<forall>x\<in> S. f x = g x"
49663
b84fafaea4bb tuned proofs;
wenzelm
parents: 49652
diff changeset
  2594
proof -
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  2595
  let ?h = "\<lambda>x. f x - g x"
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  2596
  from fg have fg': "\<forall>x\<in> B. ?h x = 0" by simp
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  2597
  from linear_eq_0[OF linear_compose_sub[OF lf lg] S fg']
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  2598
  show ?thesis by simp
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  2599
qed
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  2600
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  2601
lemma linear_eq_stdbasis:
49663
b84fafaea4bb tuned proofs;
wenzelm
parents: 49652
diff changeset
  2602
  assumes lf: "linear (f::'a::euclidean_space \<Rightarrow> _)"
b84fafaea4bb tuned proofs;
wenzelm
parents: 49652
diff changeset
  2603
    and lg: "linear g"
50526
899c9c4e4a4c Remove the indexed basis from the definition of euclidean spaces and only use the set of Basis vectors
hoelzl
parents: 50105
diff changeset
  2604
    and fg: "\<forall>b\<in>Basis. f b = g b"
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  2605
  shows "f = g"
50526
899c9c4e4a4c Remove the indexed basis from the definition of euclidean spaces and only use the set of Basis vectors
hoelzl
parents: 50105
diff changeset
  2606
  using linear_eq[OF lf lg, of _ Basis] fg by auto
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  2607
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  2608
text {* Similar results for bilinear functions. *}
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  2609
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  2610
lemma bilinear_eq:
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  2611
  assumes bf: "bilinear f"
49522
355f3d076924 tuned proofs;
wenzelm
parents: 44890
diff changeset
  2612
    and bg: "bilinear g"
53406
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2613
    and SB: "S \<subseteq> span B"
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2614
    and TC: "T \<subseteq> span C"
49522
355f3d076924 tuned proofs;
wenzelm
parents: 44890
diff changeset
  2615
    and fg: "\<forall>x\<in> B. \<forall>y\<in> C. f x y = g x y"
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  2616
  shows "\<forall>x\<in>S. \<forall>y\<in>T. f x y = g x y "
49663
b84fafaea4bb tuned proofs;
wenzelm
parents: 49652
diff changeset
  2617
proof -
44170
510ac30f44c0 make Multivariate_Analysis work with separate set type
huffman
parents: 44166
diff changeset
  2618
  let ?P = "{x. \<forall>y\<in> span C. f x y = g x y}"
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  2619
  from bf bg have sp: "subspace ?P"
53600
8fda7ad57466 make 'linear' into a sublocale of 'bounded_linear';
huffman
parents: 53596
diff changeset
  2620
    unfolding bilinear_def linear_iff subspace_def bf bg
49663
b84fafaea4bb tuned proofs;
wenzelm
parents: 49652
diff changeset
  2621
    by (auto simp add: span_0 bilinear_lzero[OF bf] bilinear_lzero[OF bg] span_add Ball_def
b84fafaea4bb tuned proofs;
wenzelm
parents: 49652
diff changeset
  2622
      intro: bilinear_ladd[OF bf])
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  2623
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  2624
  have "\<forall>x \<in> span B. \<forall>y\<in> span C. f x y = g x y"
44170
510ac30f44c0 make Multivariate_Analysis work with separate set type
huffman
parents: 44166
diff changeset
  2625
    apply (rule span_induct' [OF _ sp])
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  2626
    apply (rule ballI)
44170
510ac30f44c0 make Multivariate_Analysis work with separate set type
huffman
parents: 44166
diff changeset
  2627
    apply (rule span_induct')
510ac30f44c0 make Multivariate_Analysis work with separate set type
huffman
parents: 44166
diff changeset
  2628
    apply (simp add: fg)
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  2629
    apply (auto simp add: subspace_def)
53600
8fda7ad57466 make 'linear' into a sublocale of 'bounded_linear';
huffman
parents: 53596
diff changeset
  2630
    using bf bg unfolding bilinear_def linear_iff
49522
355f3d076924 tuned proofs;
wenzelm
parents: 44890
diff changeset
  2631
    apply (auto simp add: span_0 bilinear_rzero[OF bf] bilinear_rzero[OF bg] span_add Ball_def
49663
b84fafaea4bb tuned proofs;
wenzelm
parents: 49652
diff changeset
  2632
      intro: bilinear_ladd[OF bf])
49522
355f3d076924 tuned proofs;
wenzelm
parents: 44890
diff changeset
  2633
    done
53406
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2634
  then show ?thesis
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2635
    using SB TC by auto
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  2636
qed
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  2637
49522
355f3d076924 tuned proofs;
wenzelm
parents: 44890
diff changeset
  2638
lemma bilinear_eq_stdbasis:
53406
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2639
  fixes f :: "'a::euclidean_space \<Rightarrow> 'b::euclidean_space \<Rightarrow> _"
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  2640
  assumes bf: "bilinear f"
49522
355f3d076924 tuned proofs;
wenzelm
parents: 44890
diff changeset
  2641
    and bg: "bilinear g"
50526
899c9c4e4a4c Remove the indexed basis from the definition of euclidean spaces and only use the set of Basis vectors
hoelzl
parents: 50105
diff changeset
  2642
    and fg: "\<forall>i\<in>Basis. \<forall>j\<in>Basis. f i j = g i j"
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  2643
  shows "f = g"
50526
899c9c4e4a4c Remove the indexed basis from the definition of euclidean spaces and only use the set of Basis vectors
hoelzl
parents: 50105
diff changeset
  2644
  using bilinear_eq[OF bf bg equalityD2[OF span_Basis] equalityD2[OF span_Basis] fg] by blast
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  2645
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  2646
text {* Detailed theorems about left and right invertibility in general case. *}
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  2647
49522
355f3d076924 tuned proofs;
wenzelm
parents: 44890
diff changeset
  2648
lemma linear_injective_left_inverse:
53406
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2649
  fixes f::"'a::euclidean_space \<Rightarrow> 'b::euclidean_space"
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  2650
  assumes lf: "linear f" and fi: "inj f"
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  2651
  shows "\<exists>g. linear g \<and> g o f = id"
49522
355f3d076924 tuned proofs;
wenzelm
parents: 44890
diff changeset
  2652
proof -
50526
899c9c4e4a4c Remove the indexed basis from the definition of euclidean spaces and only use the set of Basis vectors
hoelzl
parents: 50105
diff changeset
  2653
  from linear_independent_extend[OF independent_injective_image, OF independent_Basis, OF lf fi]
53406
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2654
  obtain h:: "'b \<Rightarrow> 'a" where h: "linear h" "\<forall>x \<in> f ` Basis. h x = inv f x"
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2655
    by blast
50526
899c9c4e4a4c Remove the indexed basis from the definition of euclidean spaces and only use the set of Basis vectors
hoelzl
parents: 50105
diff changeset
  2656
  from h(2) have th: "\<forall>i\<in>Basis. (h \<circ> f) i = id i"
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  2657
    using inv_o_cancel[OF fi, unfolded fun_eq_iff id_def o_def]
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  2658
    by auto
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  2659
  from linear_eq_stdbasis[OF linear_compose[OF lf h(1)] linear_id th]
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  2660
  have "h o f = id" .
53406
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2661
  then show ?thesis
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2662
    using h(1) by blast
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  2663
qed
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  2664
49522
355f3d076924 tuned proofs;
wenzelm
parents: 44890
diff changeset
  2665
lemma linear_surjective_right_inverse:
53406
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2666
  fixes f :: "'a::euclidean_space \<Rightarrow> 'b::euclidean_space"
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2667
  assumes lf: "linear f"
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2668
    and sf: "surj f"
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  2669
  shows "\<exists>g. linear g \<and> f o g = id"
49522
355f3d076924 tuned proofs;
wenzelm
parents: 44890
diff changeset
  2670
proof -
50526
899c9c4e4a4c Remove the indexed basis from the definition of euclidean spaces and only use the set of Basis vectors
hoelzl
parents: 50105
diff changeset
  2671
  from linear_independent_extend[OF independent_Basis[where 'a='b],of "inv f"]
53406
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2672
  obtain h:: "'b \<Rightarrow> 'a" where h: "linear h" "\<forall>x\<in>Basis. h x = inv f x"
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2673
    by blast
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2674
  from h(2) have th: "\<forall>i\<in>Basis. (f o h) i = id i"
50526
899c9c4e4a4c Remove the indexed basis from the definition of euclidean spaces and only use the set of Basis vectors
hoelzl
parents: 50105
diff changeset
  2675
    using sf by (auto simp add: surj_iff_all)
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  2676
  from linear_eq_stdbasis[OF linear_compose[OF h(1) lf] linear_id th]
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  2677
  have "f o h = id" .
53406
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2678
  then show ?thesis
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2679
    using h(1) by blast
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  2680
qed
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  2681
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  2682
text {* An injective map @{typ "'a::euclidean_space \<Rightarrow> 'b::euclidean_space"} is also surjective. *}
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  2683
49522
355f3d076924 tuned proofs;
wenzelm
parents: 44890
diff changeset
  2684
lemma linear_injective_imp_surjective:
53406
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2685
  fixes f::"'a::euclidean_space \<Rightarrow> 'a::euclidean_space"
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2686
  assumes lf: "linear f"
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2687
    and fi: "inj f"
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  2688
  shows "surj f"
49522
355f3d076924 tuned proofs;
wenzelm
parents: 44890
diff changeset
  2689
proof -
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  2690
  let ?U = "UNIV :: 'a set"
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  2691
  from basis_exists[of ?U] obtain B
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  2692
    where B: "B \<subseteq> ?U" "independent B" "?U \<subseteq> span B" "card B = dim ?U"
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  2693
    by blast
53406
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2694
  from B(4) have d: "dim ?U = card B"
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2695
    by simp
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  2696
  have th: "?U \<subseteq> span (f ` B)"
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  2697
    apply (rule card_ge_dim_independent)
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  2698
    apply blast
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  2699
    apply (rule independent_injective_image[OF B(2) lf fi])
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  2700
    apply (rule order_eq_refl)
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  2701
    apply (rule sym)
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  2702
    unfolding d
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  2703
    apply (rule card_image)
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  2704
    apply (rule subset_inj_on[OF fi])
49522
355f3d076924 tuned proofs;
wenzelm
parents: 44890
diff changeset
  2705
    apply blast
355f3d076924 tuned proofs;
wenzelm
parents: 44890
diff changeset
  2706
    done
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  2707
  from th show ?thesis
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  2708
    unfolding span_linear_image[OF lf] surj_def
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  2709
    using B(3) by blast
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  2710
qed
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  2711
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  2712
text {* And vice versa. *}
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  2713
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  2714
lemma surjective_iff_injective_gen:
49663
b84fafaea4bb tuned proofs;
wenzelm
parents: 49652
diff changeset
  2715
  assumes fS: "finite S"
b84fafaea4bb tuned proofs;
wenzelm
parents: 49652
diff changeset
  2716
    and fT: "finite T"
b84fafaea4bb tuned proofs;
wenzelm
parents: 49652
diff changeset
  2717
    and c: "card S = card T"
49522
355f3d076924 tuned proofs;
wenzelm
parents: 44890
diff changeset
  2718
    and ST: "f ` S \<subseteq> T"
53406
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2719
  shows "(\<forall>y \<in> T. \<exists>x \<in> S. f x = y) \<longleftrightarrow> inj_on f S"
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2720
  (is "?lhs \<longleftrightarrow> ?rhs")
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2721
proof
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2722
  assume h: "?lhs"
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2723
  {
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2724
    fix x y
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2725
    assume x: "x \<in> S"
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2726
    assume y: "y \<in> S"
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2727
    assume f: "f x = f y"
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2728
    from x fS have S0: "card S \<noteq> 0"
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2729
      by auto
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2730
    have "x = y"
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2731
    proof (rule ccontr)
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2732
      assume xy: "x \<noteq> y"
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2733
      have th: "card S \<le> card (f ` (S - {y}))"
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2734
        unfolding c
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2735
        apply (rule card_mono)
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2736
        apply (rule finite_imageI)
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2737
        using fS apply simp
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2738
        using h xy x y f unfolding subset_eq image_iff
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2739
        apply auto
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2740
        apply (case_tac "xa = f x")
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2741
        apply (rule bexI[where x=x])
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2742
        apply auto
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2743
        done
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2744
      also have " \<dots> \<le> card (S -{y})"
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2745
        apply (rule card_image_le)
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2746
        using fS by simp
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2747
      also have "\<dots> \<le> card S - 1" using y fS by simp
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2748
      finally show False using S0 by arith
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2749
    qed
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2750
  }
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2751
  then show ?rhs
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2752
    unfolding inj_on_def by blast
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2753
next
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2754
  assume h: ?rhs
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2755
  have "f ` S = T"
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2756
    apply (rule card_subset_eq[OF fT ST])
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2757
    unfolding card_image[OF h]
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2758
    apply (rule c)
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2759
    done
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2760
  then show ?lhs by blast
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  2761
qed
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  2762
49522
355f3d076924 tuned proofs;
wenzelm
parents: 44890
diff changeset
  2763
lemma linear_surjective_imp_injective:
53406
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2764
  fixes f :: "'a::euclidean_space \<Rightarrow> 'a::euclidean_space"
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2765
  assumes lf: "linear f"
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2766
    and sf: "surj f"
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  2767
  shows "inj f"
49522
355f3d076924 tuned proofs;
wenzelm
parents: 44890
diff changeset
  2768
proof -
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  2769
  let ?U = "UNIV :: 'a set"
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  2770
  from basis_exists[of ?U] obtain B
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  2771
    where B: "B \<subseteq> ?U" "independent B" "?U \<subseteq> span B" and d: "card B = dim ?U"
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  2772
    by blast
53406
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2773
  {
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2774
    fix x
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2775
    assume x: "x \<in> span B"
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2776
    assume fx: "f x = 0"
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2777
    from B(2) have fB: "finite B"
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2778
      using independent_bound by auto
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  2779
    have fBi: "independent (f ` B)"
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  2780
      apply (rule card_le_dim_spanning[of "f ` B" ?U])
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  2781
      apply blast
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  2782
      using sf B(3)
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  2783
      unfolding span_linear_image[OF lf] surj_def subset_eq image_iff
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  2784
      apply blast
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  2785
      using fB apply blast
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  2786
      unfolding d[symmetric]
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  2787
      apply (rule card_image_le)
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  2788
      apply (rule fB)
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  2789
      done
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  2790
    have th0: "dim ?U \<le> card (f ` B)"
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  2791
      apply (rule span_card_ge_dim)
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  2792
      apply blast
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  2793
      unfolding span_linear_image[OF lf]
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  2794
      apply (rule subset_trans[where B = "f ` UNIV"])
53406
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2795
      using sf unfolding surj_def
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2796
      apply blast
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  2797
      apply (rule image_mono)
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  2798
      apply (rule B(3))
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  2799
      apply (metis finite_imageI fB)
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  2800
      done
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  2801
    moreover have "card (f ` B) \<le> card B"
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  2802
      by (rule card_image_le, rule fB)
53406
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2803
    ultimately have th1: "card B = card (f ` B)"
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2804
      unfolding d by arith
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  2805
    have fiB: "inj_on f B"
49522
355f3d076924 tuned proofs;
wenzelm
parents: 44890
diff changeset
  2806
      unfolding surjective_iff_injective_gen[OF fB finite_imageI[OF fB] th1 subset_refl, symmetric]
355f3d076924 tuned proofs;
wenzelm
parents: 44890
diff changeset
  2807
      by blast
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  2808
    from linear_indep_image_lemma[OF lf fB fBi fiB x] fx
53406
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2809
    have "x = 0" by blast
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2810
  }
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2811
  then show ?thesis
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2812
    unfolding linear_injective_0[OF lf]
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2813
    using B(3)
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2814
    by blast
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  2815
qed
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  2816
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  2817
text {* Hence either is enough for isomorphism. *}
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  2818
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  2819
lemma left_right_inverse_eq:
53406
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2820
  assumes fg: "f \<circ> g = id"
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2821
    and gh: "g \<circ> h = id"
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  2822
  shows "f = h"
49522
355f3d076924 tuned proofs;
wenzelm
parents: 44890
diff changeset
  2823
proof -
53406
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2824
  have "f = f \<circ> (g \<circ> h)"
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2825
    unfolding gh by simp
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2826
  also have "\<dots> = (f \<circ> g) \<circ> h"
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2827
    by (simp add: o_assoc)
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2828
  finally show "f = h"
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2829
    unfolding fg by simp
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  2830
qed
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  2831
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  2832
lemma isomorphism_expand:
53406
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2833
  "f \<circ> g = id \<and> g \<circ> f = id \<longleftrightarrow> (\<forall>x. f (g x) = x) \<and> (\<forall>x. g (f x) = x)"
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  2834
  by (simp add: fun_eq_iff o_def id_def)
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  2835
49522
355f3d076924 tuned proofs;
wenzelm
parents: 44890
diff changeset
  2836
lemma linear_injective_isomorphism:
53406
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2837
  fixes f::"'a::euclidean_space \<Rightarrow> 'a::euclidean_space"
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2838
  assumes lf: "linear f"
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2839
    and fi: "inj f"
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  2840
  shows "\<exists>f'. linear f' \<and> (\<forall>x. f' (f x) = x) \<and> (\<forall>x. f (f' x) = x)"
49522
355f3d076924 tuned proofs;
wenzelm
parents: 44890
diff changeset
  2841
  unfolding isomorphism_expand[symmetric]
355f3d076924 tuned proofs;
wenzelm
parents: 44890
diff changeset
  2842
  using linear_surjective_right_inverse[OF lf linear_injective_imp_surjective[OF lf fi]]
355f3d076924 tuned proofs;
wenzelm
parents: 44890
diff changeset
  2843
    linear_injective_left_inverse[OF lf fi]
355f3d076924 tuned proofs;
wenzelm
parents: 44890
diff changeset
  2844
  by (metis left_right_inverse_eq)
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  2845
53406
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2846
lemma linear_surjective_isomorphism:
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2847
  fixes f :: "'a::euclidean_space \<Rightarrow> 'a::euclidean_space"
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2848
  assumes lf: "linear f"
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2849
    and sf: "surj f"
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  2850
  shows "\<exists>f'. linear f' \<and> (\<forall>x. f' (f x) = x) \<and> (\<forall>x. f (f' x) = x)"
49522
355f3d076924 tuned proofs;
wenzelm
parents: 44890
diff changeset
  2851
  unfolding isomorphism_expand[symmetric]
355f3d076924 tuned proofs;
wenzelm
parents: 44890
diff changeset
  2852
  using linear_surjective_right_inverse[OF lf sf]
355f3d076924 tuned proofs;
wenzelm
parents: 44890
diff changeset
  2853
    linear_injective_left_inverse[OF lf linear_surjective_imp_injective[OF lf sf]]
355f3d076924 tuned proofs;
wenzelm
parents: 44890
diff changeset
  2854
  by (metis left_right_inverse_eq)
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  2855
53406
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2856
text {* Left and right inverses are the same for
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2857
  @{typ "'a::euclidean_space \<Rightarrow> 'a::euclidean_space"}. *}
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  2858
49522
355f3d076924 tuned proofs;
wenzelm
parents: 44890
diff changeset
  2859
lemma linear_inverse_left:
53406
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2860
  fixes f :: "'a::euclidean_space \<Rightarrow> 'a::euclidean_space"
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2861
  assumes lf: "linear f"
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2862
    and lf': "linear f'"
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2863
  shows "f \<circ> f' = id \<longleftrightarrow> f' \<circ> f = id"
49522
355f3d076924 tuned proofs;
wenzelm
parents: 44890
diff changeset
  2864
proof -
53406
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2865
  {
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2866
    fix f f':: "'a \<Rightarrow> 'a"
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2867
    assume lf: "linear f" "linear f'"
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2868
    assume f: "f \<circ> f' = id"
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  2869
    from f have sf: "surj f"
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  2870
      apply (auto simp add: o_def id_def surj_def)
49522
355f3d076924 tuned proofs;
wenzelm
parents: 44890
diff changeset
  2871
      apply metis
355f3d076924 tuned proofs;
wenzelm
parents: 44890
diff changeset
  2872
      done
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  2873
    from linear_surjective_isomorphism[OF lf(1) sf] lf f
53406
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2874
    have "f' \<circ> f = id"
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2875
      unfolding fun_eq_iff o_def id_def by metis
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2876
  }
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2877
  then show ?thesis
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2878
    using lf lf' by metis
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  2879
qed
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  2880
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  2881
text {* Moreover, a one-sided inverse is automatically linear. *}
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  2882
49522
355f3d076924 tuned proofs;
wenzelm
parents: 44890
diff changeset
  2883
lemma left_inverse_linear:
53406
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2884
  fixes f :: "'a::euclidean_space \<Rightarrow> 'a::euclidean_space"
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2885
  assumes lf: "linear f"
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2886
    and gf: "g \<circ> f = id"
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  2887
  shows "linear g"
49522
355f3d076924 tuned proofs;
wenzelm
parents: 44890
diff changeset
  2888
proof -
355f3d076924 tuned proofs;
wenzelm
parents: 44890
diff changeset
  2889
  from gf have fi: "inj f"
355f3d076924 tuned proofs;
wenzelm
parents: 44890
diff changeset
  2890
    apply (auto simp add: inj_on_def o_def id_def fun_eq_iff)
355f3d076924 tuned proofs;
wenzelm
parents: 44890
diff changeset
  2891
    apply metis
355f3d076924 tuned proofs;
wenzelm
parents: 44890
diff changeset
  2892
    done
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  2893
  from linear_injective_isomorphism[OF lf fi]
53406
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2894
  obtain h :: "'a \<Rightarrow> 'a" where h: "linear h" "\<forall>x. h (f x) = x" "\<forall>x. f (h x) = x"
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2895
    by blast
49522
355f3d076924 tuned proofs;
wenzelm
parents: 44890
diff changeset
  2896
  have "h = g"
355f3d076924 tuned proofs;
wenzelm
parents: 44890
diff changeset
  2897
    apply (rule ext) using gf h(2,3)
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  2898
    apply (simp add: o_def id_def fun_eq_iff)
49522
355f3d076924 tuned proofs;
wenzelm
parents: 44890
diff changeset
  2899
    apply metis
355f3d076924 tuned proofs;
wenzelm
parents: 44890
diff changeset
  2900
    done
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  2901
  with h(1) show ?thesis by blast
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  2902
qed
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  2903
49522
355f3d076924 tuned proofs;
wenzelm
parents: 44890
diff changeset
  2904
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  2905
subsection {* Infinity norm *}
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  2906
50526
899c9c4e4a4c Remove the indexed basis from the definition of euclidean spaces and only use the set of Basis vectors
hoelzl
parents: 50105
diff changeset
  2907
definition "infnorm (x::'a::euclidean_space) = Sup { abs (x \<bullet> b) |b. b \<in> Basis}"
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  2908
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  2909
lemma numseg_dimindex_nonempty: "\<exists>i. i \<in> (UNIV :: 'n set)"
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  2910
  by auto
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  2911
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  2912
lemma infnorm_set_image:
53406
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2913
  "{abs ((x::'a::euclidean_space) \<bullet> i) |i. i \<in> Basis} = (\<lambda>i. abs(x \<bullet> i)) ` Basis"
50526
899c9c4e4a4c Remove the indexed basis from the definition of euclidean spaces and only use the set of Basis vectors
hoelzl
parents: 50105
diff changeset
  2914
  by blast
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  2915
51475
ebf9d4fd00ba introduct the conditional_complete_lattice type class; generalize theorems about real Sup and Inf to it
hoelzl
parents: 50526
diff changeset
  2916
lemma infnorm_Max: "infnorm (x::'a::euclidean_space) = Max ((\<lambda>i. abs(x \<bullet> i)) ` Basis)"
ebf9d4fd00ba introduct the conditional_complete_lattice type class; generalize theorems about real Sup and Inf to it
hoelzl
parents: 50526
diff changeset
  2917
  by (simp add: infnorm_def infnorm_set_image cSup_eq_Max)
ebf9d4fd00ba introduct the conditional_complete_lattice type class; generalize theorems about real Sup and Inf to it
hoelzl
parents: 50526
diff changeset
  2918
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  2919
lemma infnorm_set_lemma:
53406
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2920
  "finite {abs((x::'a::euclidean_space) \<bullet> i) |i. i \<in> Basis}"
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2921
  "{abs(x \<bullet> i) |i. i \<in> Basis} \<noteq> {}"
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  2922
  unfolding infnorm_set_image
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  2923
  by auto
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  2924
53406
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2925
lemma infnorm_pos_le:
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2926
  fixes x :: "'a::euclidean_space"
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2927
  shows "0 \<le> infnorm x"
51475
ebf9d4fd00ba introduct the conditional_complete_lattice type class; generalize theorems about real Sup and Inf to it
hoelzl
parents: 50526
diff changeset
  2928
  by (simp add: infnorm_Max Max_ge_iff ex_in_conv)
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  2929
53406
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2930
lemma infnorm_triangle:
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2931
  fixes x :: "'a::euclidean_space"
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2932
  shows "infnorm (x + y) \<le> infnorm x + infnorm y"
49522
355f3d076924 tuned proofs;
wenzelm
parents: 44890
diff changeset
  2933
proof -
51475
ebf9d4fd00ba introduct the conditional_complete_lattice type class; generalize theorems about real Sup and Inf to it
hoelzl
parents: 50526
diff changeset
  2934
  have *: "\<And>a b c d :: real. \<bar>a\<bar> \<le> c \<Longrightarrow> \<bar>b\<bar> \<le> d \<Longrightarrow> \<bar>a + b\<bar> \<le> c + d"
ebf9d4fd00ba introduct the conditional_complete_lattice type class; generalize theorems about real Sup and Inf to it
hoelzl
parents: 50526
diff changeset
  2935
    by simp
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  2936
  show ?thesis
51475
ebf9d4fd00ba introduct the conditional_complete_lattice type class; generalize theorems about real Sup and Inf to it
hoelzl
parents: 50526
diff changeset
  2937
    by (auto simp: infnorm_Max inner_add_left intro!: *)
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  2938
qed
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  2939
53406
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2940
lemma infnorm_eq_0:
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2941
  fixes x :: "'a::euclidean_space"
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2942
  shows "infnorm x = 0 \<longleftrightarrow> x = 0"
49522
355f3d076924 tuned proofs;
wenzelm
parents: 44890
diff changeset
  2943
proof -
51475
ebf9d4fd00ba introduct the conditional_complete_lattice type class; generalize theorems about real Sup and Inf to it
hoelzl
parents: 50526
diff changeset
  2944
  have "infnorm x \<le> 0 \<longleftrightarrow> x = 0"
ebf9d4fd00ba introduct the conditional_complete_lattice type class; generalize theorems about real Sup and Inf to it
hoelzl
parents: 50526
diff changeset
  2945
    unfolding infnorm_Max by (simp add: euclidean_all_zero_iff)
ebf9d4fd00ba introduct the conditional_complete_lattice type class; generalize theorems about real Sup and Inf to it
hoelzl
parents: 50526
diff changeset
  2946
  then show ?thesis
ebf9d4fd00ba introduct the conditional_complete_lattice type class; generalize theorems about real Sup and Inf to it
hoelzl
parents: 50526
diff changeset
  2947
    using infnorm_pos_le[of x] by simp
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  2948
qed
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  2949
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  2950
lemma infnorm_0: "infnorm 0 = 0"
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  2951
  by (simp add: infnorm_eq_0)
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  2952
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  2953
lemma infnorm_neg: "infnorm (- x) = infnorm x"
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  2954
  unfolding infnorm_def
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  2955
  apply (rule cong[of "Sup" "Sup"])
49522
355f3d076924 tuned proofs;
wenzelm
parents: 44890
diff changeset
  2956
  apply blast
355f3d076924 tuned proofs;
wenzelm
parents: 44890
diff changeset
  2957
  apply auto
355f3d076924 tuned proofs;
wenzelm
parents: 44890
diff changeset
  2958
  done
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  2959
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  2960
lemma infnorm_sub: "infnorm (x - y) = infnorm (y - x)"
49522
355f3d076924 tuned proofs;
wenzelm
parents: 44890
diff changeset
  2961
proof -
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  2962
  have "y - x = - (x - y)" by simp
53406
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2963
  then show ?thesis
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2964
    by (metis infnorm_neg)
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  2965
qed
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  2966
53406
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2967
lemma real_abs_sub_infnorm: "\<bar>infnorm x - infnorm y\<bar> \<le> infnorm (x - y)"
49522
355f3d076924 tuned proofs;
wenzelm
parents: 44890
diff changeset
  2968
proof -
53406
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2969
  have th: "\<And>(nx::real) n ny. nx \<le> n + ny \<Longrightarrow> ny <= n + nx \<Longrightarrow> \<bar>nx - ny\<bar> \<le> n"
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  2970
    by arith
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  2971
  from infnorm_triangle[of "x - y" " y"] infnorm_triangle[of "x - y" "-x"]
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  2972
  have ths: "infnorm x \<le> infnorm (x - y) + infnorm y"
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  2973
    "infnorm y \<le> infnorm (x - y) + infnorm x"
44454
6f28f96a09bf avoid warnings
huffman
parents: 44451
diff changeset
  2974
    by (simp_all add: field_simps infnorm_neg)
53406
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2975
  from th[OF ths] show ?thesis .
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  2976
qed
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  2977
53406
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2978
lemma real_abs_infnorm: "\<bar>infnorm x\<bar> = infnorm x"
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  2979
  using infnorm_pos_le[of x] by arith
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  2980
50526
899c9c4e4a4c Remove the indexed basis from the definition of euclidean spaces and only use the set of Basis vectors
hoelzl
parents: 50105
diff changeset
  2981
lemma Basis_le_infnorm:
53406
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2982
  fixes x :: "'a::euclidean_space"
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2983
  shows "b \<in> Basis \<Longrightarrow> \<bar>x \<bullet> b\<bar> \<le> infnorm x"
51475
ebf9d4fd00ba introduct the conditional_complete_lattice type class; generalize theorems about real Sup and Inf to it
hoelzl
parents: 50526
diff changeset
  2984
  by (simp add: infnorm_Max)
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  2985
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  2986
lemma infnorm_mul: "infnorm(a *\<^sub>R x) = abs a * infnorm x"
51475
ebf9d4fd00ba introduct the conditional_complete_lattice type class; generalize theorems about real Sup and Inf to it
hoelzl
parents: 50526
diff changeset
  2987
  unfolding infnorm_Max
ebf9d4fd00ba introduct the conditional_complete_lattice type class; generalize theorems about real Sup and Inf to it
hoelzl
parents: 50526
diff changeset
  2988
proof (safe intro!: Max_eqI)
ebf9d4fd00ba introduct the conditional_complete_lattice type class; generalize theorems about real Sup and Inf to it
hoelzl
parents: 50526
diff changeset
  2989
  let ?B = "(\<lambda>i. \<bar>x \<bullet> i\<bar>) ` Basis"
53406
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2990
  {
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2991
    fix b :: 'a
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2992
    assume "b \<in> Basis"
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2993
    then show "\<bar>a *\<^sub>R x \<bullet> b\<bar> \<le> \<bar>a\<bar> * Max ?B"
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2994
      by (simp add: abs_mult mult_left_mono)
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2995
  next
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2996
    from Max_in[of ?B] obtain b where "b \<in> Basis" "Max ?B = \<bar>x \<bullet> b\<bar>"
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2997
      by (auto simp del: Max_in)
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2998
    then show "\<bar>a\<bar> * Max ((\<lambda>i. \<bar>x \<bullet> i\<bar>) ` Basis) \<in> (\<lambda>i. \<bar>a *\<^sub>R x \<bullet> i\<bar>) ` Basis"
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  2999
      by (intro image_eqI[where x=b]) (auto simp: abs_mult)
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  3000
  }
51475
ebf9d4fd00ba introduct the conditional_complete_lattice type class; generalize theorems about real Sup and Inf to it
hoelzl
parents: 50526
diff changeset
  3001
qed simp
ebf9d4fd00ba introduct the conditional_complete_lattice type class; generalize theorems about real Sup and Inf to it
hoelzl
parents: 50526
diff changeset
  3002
53406
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  3003
lemma infnorm_mul_lemma: "infnorm (a *\<^sub>R x) \<le> \<bar>a\<bar> * infnorm x"
51475
ebf9d4fd00ba introduct the conditional_complete_lattice type class; generalize theorems about real Sup and Inf to it
hoelzl
parents: 50526
diff changeset
  3004
  unfolding infnorm_mul ..
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  3005
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  3006
lemma infnorm_pos_lt: "infnorm x > 0 \<longleftrightarrow> x \<noteq> 0"
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  3007
  using infnorm_pos_le[of x] infnorm_eq_0[of x] by arith
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  3008
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  3009
text {* Prove that it differs only up to a bound from Euclidean norm. *}
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  3010
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  3011
lemma infnorm_le_norm: "infnorm x \<le> norm x"
51475
ebf9d4fd00ba introduct the conditional_complete_lattice type class; generalize theorems about real Sup and Inf to it
hoelzl
parents: 50526
diff changeset
  3012
  by (simp add: Basis_le_norm infnorm_Max)
50526
899c9c4e4a4c Remove the indexed basis from the definition of euclidean spaces and only use the set of Basis vectors
hoelzl
parents: 50105
diff changeset
  3013
899c9c4e4a4c Remove the indexed basis from the definition of euclidean spaces and only use the set of Basis vectors
hoelzl
parents: 50105
diff changeset
  3014
lemma euclidean_inner: "inner x y = (\<Sum>b\<in>Basis. (x \<bullet> b) * (y \<bullet> b))"
899c9c4e4a4c Remove the indexed basis from the definition of euclidean spaces and only use the set of Basis vectors
hoelzl
parents: 50105
diff changeset
  3015
  by (subst (1 2) euclidean_representation[symmetric, where 'a='a])
899c9c4e4a4c Remove the indexed basis from the definition of euclidean spaces and only use the set of Basis vectors
hoelzl
parents: 50105
diff changeset
  3016
     (simp add: inner_setsum_left inner_setsum_right setsum_cases inner_Basis ac_simps if_distrib)
899c9c4e4a4c Remove the indexed basis from the definition of euclidean spaces and only use the set of Basis vectors
hoelzl
parents: 50105
diff changeset
  3017
51475
ebf9d4fd00ba introduct the conditional_complete_lattice type class; generalize theorems about real Sup and Inf to it
hoelzl
parents: 50526
diff changeset
  3018
lemma norm_le_infnorm: "norm x \<le> sqrt DIM('a) * infnorm(x::'a::euclidean_space)"
49522
355f3d076924 tuned proofs;
wenzelm
parents: 44890
diff changeset
  3019
proof -
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  3020
  let ?d = "DIM('a)"
53406
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  3021
  have "real ?d \<ge> 0"
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  3022
    by simp
53077
a1b3784f8129 more symbols;
wenzelm
parents: 53015
diff changeset
  3023
  then have d2: "(sqrt (real ?d))\<^sup>2 = real ?d"
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  3024
    by (auto intro: real_sqrt_pow2)
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  3025
  have th: "sqrt (real ?d) * infnorm x \<ge> 0"
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  3026
    by (simp add: zero_le_mult_iff infnorm_pos_le)
53077
a1b3784f8129 more symbols;
wenzelm
parents: 53015
diff changeset
  3027
  have th1: "x \<bullet> x \<le> (sqrt (real ?d) * infnorm x)\<^sup>2"
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  3028
    unfolding power_mult_distrib d2
50526
899c9c4e4a4c Remove the indexed basis from the definition of euclidean spaces and only use the set of Basis vectors
hoelzl
parents: 50105
diff changeset
  3029
    unfolding real_of_nat_def
899c9c4e4a4c Remove the indexed basis from the definition of euclidean spaces and only use the set of Basis vectors
hoelzl
parents: 50105
diff changeset
  3030
    apply(subst euclidean_inner)
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  3031
    apply (subst power2_abs[symmetric])
53015
a1119cf551e8 standardized symbols via "isabelle update_sub_sup", excluding src/Pure and src/Tools/WWW_Find;
wenzelm
parents: 51478
diff changeset
  3032
    apply (rule order_trans[OF setsum_bounded[where K="\<bar>infnorm x\<bar>\<^sup>2"]])
49663
b84fafaea4bb tuned proofs;
wenzelm
parents: 49652
diff changeset
  3033
    apply (auto simp add: power2_eq_square[symmetric])
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  3034
    apply (subst power2_abs[symmetric])
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  3035
    apply (rule power_mono)
51475
ebf9d4fd00ba introduct the conditional_complete_lattice type class; generalize theorems about real Sup and Inf to it
hoelzl
parents: 50526
diff changeset
  3036
    apply (auto simp: infnorm_Max)
49522
355f3d076924 tuned proofs;
wenzelm
parents: 44890
diff changeset
  3037
    done
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  3038
  from real_le_lsqrt[OF inner_ge_zero th th1]
53406
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  3039
  show ?thesis
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  3040
    unfolding norm_eq_sqrt_inner id_def .
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  3041
qed
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  3042
44646
a6047ddd9377 add lemma tendsto_infnorm
huffman
parents: 44629
diff changeset
  3043
lemma tendsto_infnorm [tendsto_intros]:
49522
355f3d076924 tuned proofs;
wenzelm
parents: 44890
diff changeset
  3044
  assumes "(f ---> a) F"
355f3d076924 tuned proofs;
wenzelm
parents: 44890
diff changeset
  3045
  shows "((\<lambda>x. infnorm (f x)) ---> infnorm a) F"
44646
a6047ddd9377 add lemma tendsto_infnorm
huffman
parents: 44629
diff changeset
  3046
proof (rule tendsto_compose [OF LIM_I assms])
53406
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  3047
  fix r :: real
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  3048
  assume "r > 0"
49522
355f3d076924 tuned proofs;
wenzelm
parents: 44890
diff changeset
  3049
  then show "\<exists>s>0. \<forall>x. x \<noteq> a \<and> norm (x - a) < s \<longrightarrow> norm (infnorm x - infnorm a) < r"
44646
a6047ddd9377 add lemma tendsto_infnorm
huffman
parents: 44629
diff changeset
  3050
    by (metis real_norm_def le_less_trans real_abs_sub_infnorm infnorm_le_norm)
a6047ddd9377 add lemma tendsto_infnorm
huffman
parents: 44629
diff changeset
  3051
qed
a6047ddd9377 add lemma tendsto_infnorm
huffman
parents: 44629
diff changeset
  3052
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  3053
text {* Equality in Cauchy-Schwarz and triangle inequalities. *}
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  3054
53406
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  3055
lemma norm_cauchy_schwarz_eq: "x \<bullet> y = norm x * norm y \<longleftrightarrow> norm x *\<^sub>R y = norm y *\<^sub>R x"
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  3056
  (is "?lhs \<longleftrightarrow> ?rhs")
49522
355f3d076924 tuned proofs;
wenzelm
parents: 44890
diff changeset
  3057
proof -
53406
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  3058
  {
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  3059
    assume h: "x = 0"
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  3060
    then have ?thesis by simp
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  3061
  }
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  3062
  moreover
53406
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  3063
  {
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  3064
    assume h: "y = 0"
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  3065
    then have ?thesis by simp
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  3066
  }
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  3067
  moreover
53406
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  3068
  {
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  3069
    assume x: "x \<noteq> 0" and y: "y \<noteq> 0"
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  3070
    from inner_eq_zero_iff[of "norm y *\<^sub>R x - norm x *\<^sub>R y"]
49522
355f3d076924 tuned proofs;
wenzelm
parents: 44890
diff changeset
  3071
    have "?rhs \<longleftrightarrow>
355f3d076924 tuned proofs;
wenzelm
parents: 44890
diff changeset
  3072
      (norm y * (norm y * norm x * norm x - norm x * (x \<bullet> y)) -
355f3d076924 tuned proofs;
wenzelm
parents: 44890
diff changeset
  3073
        norm x * (norm y * (y \<bullet> x) - norm x * norm y * norm y) =  0)"
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  3074
      using x y
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  3075
      unfolding inner_simps
49522
355f3d076924 tuned proofs;
wenzelm
parents: 44890
diff changeset
  3076
      unfolding power2_norm_eq_inner[symmetric] power2_eq_square diff_eq_0_iff_eq
355f3d076924 tuned proofs;
wenzelm
parents: 44890
diff changeset
  3077
      apply (simp add: inner_commute)
355f3d076924 tuned proofs;
wenzelm
parents: 44890
diff changeset
  3078
      apply (simp add: field_simps)
355f3d076924 tuned proofs;
wenzelm
parents: 44890
diff changeset
  3079
      apply metis
355f3d076924 tuned proofs;
wenzelm
parents: 44890
diff changeset
  3080
      done
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  3081
    also have "\<dots> \<longleftrightarrow> (2 * norm x * norm y * (norm x * norm y - x \<bullet> y) = 0)" using x y
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  3082
      by (simp add: field_simps inner_commute)
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  3083
    also have "\<dots> \<longleftrightarrow> ?lhs" using x y
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  3084
      apply simp
49522
355f3d076924 tuned proofs;
wenzelm
parents: 44890
diff changeset
  3085
      apply metis
355f3d076924 tuned proofs;
wenzelm
parents: 44890
diff changeset
  3086
      done
53406
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  3087
    finally have ?thesis by blast
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  3088
  }
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  3089
  ultimately show ?thesis by blast
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  3090
qed
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  3091
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  3092
lemma norm_cauchy_schwarz_abs_eq:
49522
355f3d076924 tuned proofs;
wenzelm
parents: 44890
diff changeset
  3093
  "abs(x \<bullet> y) = norm x * norm y \<longleftrightarrow>
53406
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  3094
    norm x *\<^sub>R y = norm y *\<^sub>R x \<or> norm(x) *\<^sub>R y = - norm y *\<^sub>R x"
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  3095
  (is "?lhs \<longleftrightarrow> ?rhs")
49522
355f3d076924 tuned proofs;
wenzelm
parents: 44890
diff changeset
  3096
proof -
53406
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  3097
  have th: "\<And>(x::real) a. a \<ge> 0 \<Longrightarrow> abs x = a \<longleftrightarrow> x = a \<or> x = - a"
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  3098
    by arith
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  3099
  have "?rhs \<longleftrightarrow> norm x *\<^sub>R y = norm y *\<^sub>R x \<or> norm (- x) *\<^sub>R y = norm y *\<^sub>R (- x)"
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  3100
    by simp
53406
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  3101
  also have "\<dots> \<longleftrightarrow>(x \<bullet> y = norm x * norm y \<or> (- x) \<bullet> y = norm x * norm y)"
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  3102
    unfolding norm_cauchy_schwarz_eq[symmetric]
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  3103
    unfolding norm_minus_cancel norm_scaleR ..
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  3104
  also have "\<dots> \<longleftrightarrow> ?lhs"
53406
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  3105
    unfolding th[OF mult_nonneg_nonneg, OF norm_ge_zero[of x] norm_ge_zero[of y]] inner_simps
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  3106
    by auto
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  3107
  finally show ?thesis ..
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  3108
qed
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  3109
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  3110
lemma norm_triangle_eq:
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  3111
  fixes x y :: "'a::real_inner"
53406
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  3112
  shows "norm (x + y) = norm x + norm y \<longleftrightarrow> norm x *\<^sub>R y = norm y *\<^sub>R x"
49522
355f3d076924 tuned proofs;
wenzelm
parents: 44890
diff changeset
  3113
proof -
53406
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  3114
  {
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  3115
    assume x: "x = 0 \<or> y = 0"
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  3116
    then have ?thesis
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  3117
      by (cases "x = 0") simp_all
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  3118
  }
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  3119
  moreover
53406
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  3120
  {
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  3121
    assume x: "x \<noteq> 0" and y: "y \<noteq> 0"
49522
355f3d076924 tuned proofs;
wenzelm
parents: 44890
diff changeset
  3122
    then have "norm x \<noteq> 0" "norm y \<noteq> 0"
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  3123
      by simp_all
49522
355f3d076924 tuned proofs;
wenzelm
parents: 44890
diff changeset
  3124
    then have n: "norm x > 0" "norm y > 0"
355f3d076924 tuned proofs;
wenzelm
parents: 44890
diff changeset
  3125
      using norm_ge_zero[of x] norm_ge_zero[of y] by arith+
53406
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  3126
    have th: "\<And>(a::real) b c. a + b + c \<noteq> 0 \<Longrightarrow> a = b + c \<longleftrightarrow> a\<^sup>2 = (b + c)\<^sup>2"
49522
355f3d076924 tuned proofs;
wenzelm
parents: 44890
diff changeset
  3127
      by algebra
53077
a1b3784f8129 more symbols;
wenzelm
parents: 53015
diff changeset
  3128
    have "norm (x + y) = norm x + norm y \<longleftrightarrow> (norm (x + y))\<^sup>2 = (norm x + norm y)\<^sup>2"
53406
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  3129
      apply (rule th)
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  3130
      using n norm_ge_zero[of "x + y"]
49522
355f3d076924 tuned proofs;
wenzelm
parents: 44890
diff changeset
  3131
      apply arith
355f3d076924 tuned proofs;
wenzelm
parents: 44890
diff changeset
  3132
      done
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  3133
    also have "\<dots> \<longleftrightarrow> norm x *\<^sub>R y = norm y *\<^sub>R x"
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  3134
      unfolding norm_cauchy_schwarz_eq[symmetric]
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  3135
      unfolding power2_norm_eq_inner inner_simps
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  3136
      by (simp add: power2_norm_eq_inner[symmetric] power2_eq_square inner_commute field_simps)
53406
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  3137
    finally have ?thesis .
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  3138
  }
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  3139
  ultimately show ?thesis by blast
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  3140
qed
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  3141
49522
355f3d076924 tuned proofs;
wenzelm
parents: 44890
diff changeset
  3142
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  3143
subsection {* Collinearity *}
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  3144
49522
355f3d076924 tuned proofs;
wenzelm
parents: 44890
diff changeset
  3145
definition collinear :: "'a::real_vector set \<Rightarrow> bool"
355f3d076924 tuned proofs;
wenzelm
parents: 44890
diff changeset
  3146
  where "collinear S \<longleftrightarrow> (\<exists>u. \<forall>x \<in> S. \<forall> y \<in> S. \<exists>c. x - y = c *\<^sub>R u)"
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  3147
53406
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  3148
lemma collinear_empty: "collinear {}"
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  3149
  by (simp add: collinear_def)
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  3150
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  3151
lemma collinear_sing: "collinear {x}"
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  3152
  by (simp add: collinear_def)
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  3153
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  3154
lemma collinear_2: "collinear {x, y}"
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  3155
  apply (simp add: collinear_def)
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  3156
  apply (rule exI[where x="x - y"])
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  3157
  apply auto
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  3158
  apply (rule exI[where x=1], simp)
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  3159
  apply (rule exI[where x="- 1"], simp)
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  3160
  done
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  3161
53406
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  3162
lemma collinear_lemma: "collinear {0,x,y} \<longleftrightarrow> x = 0 \<or> y = 0 \<or> (\<exists>c. y = c *\<^sub>R x)"
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  3163
  (is "?lhs \<longleftrightarrow> ?rhs")
49522
355f3d076924 tuned proofs;
wenzelm
parents: 44890
diff changeset
  3164
proof -
53406
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  3165
  {
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  3166
    assume "x = 0 \<or> y = 0"
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  3167
    then have ?thesis
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  3168
      by (cases "x = 0") (simp_all add: collinear_2 insert_commute)
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  3169
  }
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  3170
  moreover
53406
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  3171
  {
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  3172
    assume x: "x \<noteq> 0" and y: "y \<noteq> 0"
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  3173
    have ?thesis
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  3174
    proof
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  3175
      assume h: "?lhs"
49522
355f3d076924 tuned proofs;
wenzelm
parents: 44890
diff changeset
  3176
      then obtain u where u: "\<forall> x\<in> {0,x,y}. \<forall>y\<in> {0,x,y}. \<exists>c. x - y = c *\<^sub>R u"
355f3d076924 tuned proofs;
wenzelm
parents: 44890
diff changeset
  3177
        unfolding collinear_def by blast
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  3178
      from u[rule_format, of x 0] u[rule_format, of y 0]
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  3179
      obtain cx and cy where
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  3180
        cx: "x = cx *\<^sub>R u" and cy: "y = cy *\<^sub>R u"
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  3181
        by auto
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  3182
      from cx x have cx0: "cx \<noteq> 0" by auto
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  3183
      from cy y have cy0: "cy \<noteq> 0" by auto
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  3184
      let ?d = "cy / cx"
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  3185
      from cx cy cx0 have "y = ?d *\<^sub>R x"
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  3186
        by simp
53406
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  3187
      then show ?rhs using x y by blast
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  3188
    next
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  3189
      assume h: "?rhs"
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  3190
      then obtain c where c: "y = c *\<^sub>R x"
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  3191
        using x y by blast
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  3192
      show ?lhs
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  3193
        unfolding collinear_def c
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  3194
        apply (rule exI[where x=x])
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  3195
        apply auto
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  3196
        apply (rule exI[where x="- 1"], simp)
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  3197
        apply (rule exI[where x= "-c"], simp)
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  3198
        apply (rule exI[where x=1], simp)
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  3199
        apply (rule exI[where x="1 - c"], simp add: scaleR_left_diff_distrib)
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  3200
        apply (rule exI[where x="c - 1"], simp add: scaleR_left_diff_distrib)
53406
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  3201
        done
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  3202
    qed
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  3203
  }
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  3204
  ultimately show ?thesis by blast
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  3205
qed
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  3206
53406
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  3207
lemma norm_cauchy_schwarz_equal: "abs (x \<bullet> y) = norm x * norm y \<longleftrightarrow> collinear {0, x, y}"
49522
355f3d076924 tuned proofs;
wenzelm
parents: 44890
diff changeset
  3208
  unfolding norm_cauchy_schwarz_abs_eq
355f3d076924 tuned proofs;
wenzelm
parents: 44890
diff changeset
  3209
  apply (cases "x=0", simp_all add: collinear_2)
355f3d076924 tuned proofs;
wenzelm
parents: 44890
diff changeset
  3210
  apply (cases "y=0", simp_all add: collinear_2 insert_commute)
355f3d076924 tuned proofs;
wenzelm
parents: 44890
diff changeset
  3211
  unfolding collinear_lemma
355f3d076924 tuned proofs;
wenzelm
parents: 44890
diff changeset
  3212
  apply simp
355f3d076924 tuned proofs;
wenzelm
parents: 44890
diff changeset
  3213
  apply (subgoal_tac "norm x \<noteq> 0")
355f3d076924 tuned proofs;
wenzelm
parents: 44890
diff changeset
  3214
  apply (subgoal_tac "norm y \<noteq> 0")
355f3d076924 tuned proofs;
wenzelm
parents: 44890
diff changeset
  3215
  apply (rule iffI)
355f3d076924 tuned proofs;
wenzelm
parents: 44890
diff changeset
  3216
  apply (cases "norm x *\<^sub>R y = norm y *\<^sub>R x")
355f3d076924 tuned proofs;
wenzelm
parents: 44890
diff changeset
  3217
  apply (rule exI[where x="(1/norm x) * norm y"])
355f3d076924 tuned proofs;
wenzelm
parents: 44890
diff changeset
  3218
  apply (drule sym)
355f3d076924 tuned proofs;
wenzelm
parents: 44890
diff changeset
  3219
  unfolding scaleR_scaleR[symmetric]
355f3d076924 tuned proofs;
wenzelm
parents: 44890
diff changeset
  3220
  apply (simp add: field_simps)
355f3d076924 tuned proofs;
wenzelm
parents: 44890
diff changeset
  3221
  apply (rule exI[where x="(1/norm x) * - norm y"])
355f3d076924 tuned proofs;
wenzelm
parents: 44890
diff changeset
  3222
  apply clarify
355f3d076924 tuned proofs;
wenzelm
parents: 44890
diff changeset
  3223
  apply (drule sym)
355f3d076924 tuned proofs;
wenzelm
parents: 44890
diff changeset
  3224
  unfolding scaleR_scaleR[symmetric]
355f3d076924 tuned proofs;
wenzelm
parents: 44890
diff changeset
  3225
  apply (simp add: field_simps)
355f3d076924 tuned proofs;
wenzelm
parents: 44890
diff changeset
  3226
  apply (erule exE)
355f3d076924 tuned proofs;
wenzelm
parents: 44890
diff changeset
  3227
  apply (erule ssubst)
355f3d076924 tuned proofs;
wenzelm
parents: 44890
diff changeset
  3228
  unfolding scaleR_scaleR
355f3d076924 tuned proofs;
wenzelm
parents: 44890
diff changeset
  3229
  unfolding norm_scaleR
355f3d076924 tuned proofs;
wenzelm
parents: 44890
diff changeset
  3230
  apply (subgoal_tac "norm x * c = \<bar>c\<bar> * norm x \<or> norm x * c = - \<bar>c\<bar> * norm x")
53406
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  3231
  apply (case_tac "c \<le> 0", simp add: field_simps)
49522
355f3d076924 tuned proofs;
wenzelm
parents: 44890
diff changeset
  3232
  apply (simp add: field_simps)
53406
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  3233
  apply (case_tac "c \<le> 0", simp add: field_simps)
49522
355f3d076924 tuned proofs;
wenzelm
parents: 44890
diff changeset
  3234
  apply (simp add: field_simps)
355f3d076924 tuned proofs;
wenzelm
parents: 44890
diff changeset
  3235
  apply simp
355f3d076924 tuned proofs;
wenzelm
parents: 44890
diff changeset
  3236
  apply simp
355f3d076924 tuned proofs;
wenzelm
parents: 44890
diff changeset
  3237
  done
355f3d076924 tuned proofs;
wenzelm
parents: 44890
diff changeset
  3238
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  3239
44529
d4d9ea33703c arrange everything related to ordered_euclidean_space class together
huffman
parents: 44528
diff changeset
  3240
subsection {* An ordering on euclidean spaces that will allow us to talk about intervals *}
d4d9ea33703c arrange everything related to ordered_euclidean_space class together
huffman
parents: 44528
diff changeset
  3241
d4d9ea33703c arrange everything related to ordered_euclidean_space class together
huffman
parents: 44528
diff changeset
  3242
class ordered_euclidean_space = ord + euclidean_space +
50526
899c9c4e4a4c Remove the indexed basis from the definition of euclidean spaces and only use the set of Basis vectors
hoelzl
parents: 50105
diff changeset
  3243
  assumes eucl_le: "x \<le> y \<longleftrightarrow> (\<forall>i\<in>Basis. x \<bullet> i \<le> y \<bullet> i)"
899c9c4e4a4c Remove the indexed basis from the definition of euclidean spaces and only use the set of Basis vectors
hoelzl
parents: 50105
diff changeset
  3244
    and eucl_less: "x < y \<longleftrightarrow> (\<forall>i\<in>Basis. x \<bullet> i < y \<bullet> i)"
44529
d4d9ea33703c arrange everything related to ordered_euclidean_space class together
huffman
parents: 44528
diff changeset
  3245
d4d9ea33703c arrange everything related to ordered_euclidean_space class together
huffman
parents: 44528
diff changeset
  3246
lemma eucl_less_not_refl[simp, intro!]: "\<not> x < (x::'a::ordered_euclidean_space)"
d4d9ea33703c arrange everything related to ordered_euclidean_space class together
huffman
parents: 44528
diff changeset
  3247
  unfolding eucl_less[where 'a='a] by auto
d4d9ea33703c arrange everything related to ordered_euclidean_space class together
huffman
parents: 44528
diff changeset
  3248
d4d9ea33703c arrange everything related to ordered_euclidean_space class together
huffman
parents: 44528
diff changeset
  3249
lemma euclidean_trans[trans]:
d4d9ea33703c arrange everything related to ordered_euclidean_space class together
huffman
parents: 44528
diff changeset
  3250
  fixes x y z :: "'a::ordered_euclidean_space"
d4d9ea33703c arrange everything related to ordered_euclidean_space class together
huffman
parents: 44528
diff changeset
  3251
  shows "x < y \<Longrightarrow> y < z \<Longrightarrow> x < z"
49522
355f3d076924 tuned proofs;
wenzelm
parents: 44890
diff changeset
  3252
    and "x \<le> y \<Longrightarrow> y < z \<Longrightarrow> x < z"
355f3d076924 tuned proofs;
wenzelm
parents: 44890
diff changeset
  3253
    and "x \<le> y \<Longrightarrow> y \<le> z \<Longrightarrow> x \<le> z"
44529
d4d9ea33703c arrange everything related to ordered_euclidean_space class together
huffman
parents: 44528
diff changeset
  3254
  unfolding eucl_less[where 'a='a] eucl_le[where 'a='a]
d4d9ea33703c arrange everything related to ordered_euclidean_space class together
huffman
parents: 44528
diff changeset
  3255
  by (fast intro: less_trans, fast intro: le_less_trans,
d4d9ea33703c arrange everything related to ordered_euclidean_space class together
huffman
parents: 44528
diff changeset
  3256
    fast intro: order_trans)
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  3257
50104
de19856feb54 move theorems to be more generally useable
hoelzl
parents: 49711
diff changeset
  3258
lemma atLeastAtMost_singleton_euclidean[simp]:
53406
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  3259
  fixes a :: "'a::ordered_euclidean_space"
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  3260
  shows "{a .. a} = {a}"
50526
899c9c4e4a4c Remove the indexed basis from the definition of euclidean spaces and only use the set of Basis vectors
hoelzl
parents: 50105
diff changeset
  3261
  by (force simp: eucl_le[where 'a='a] euclidean_eq_iff[where 'a='a])
899c9c4e4a4c Remove the indexed basis from the definition of euclidean spaces and only use the set of Basis vectors
hoelzl
parents: 50105
diff changeset
  3262
899c9c4e4a4c Remove the indexed basis from the definition of euclidean spaces and only use the set of Basis vectors
hoelzl
parents: 50105
diff changeset
  3263
instance real :: ordered_euclidean_space
53406
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  3264
  by default auto
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  3265
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  3266
instantiation prod :: (ordered_euclidean_space, ordered_euclidean_space) ordered_euclidean_space
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  3267
begin
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  3268
50526
899c9c4e4a4c Remove the indexed basis from the definition of euclidean spaces and only use the set of Basis vectors
hoelzl
parents: 50105
diff changeset
  3269
definition "x \<le> (y::('a\<times>'b)) \<longleftrightarrow> (\<forall>i\<in>Basis. x \<bullet> i \<le> y \<bullet> i)"
899c9c4e4a4c Remove the indexed basis from the definition of euclidean spaces and only use the set of Basis vectors
hoelzl
parents: 50105
diff changeset
  3270
definition "x < (y::('a\<times>'b)) \<longleftrightarrow> (\<forall>i\<in>Basis. x \<bullet> i < y \<bullet> i)"
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  3271
49522
355f3d076924 tuned proofs;
wenzelm
parents: 44890
diff changeset
  3272
instance
355f3d076924 tuned proofs;
wenzelm
parents: 44890
diff changeset
  3273
  by default (auto simp: less_prod_def less_eq_prod_def)
355f3d076924 tuned proofs;
wenzelm
parents: 44890
diff changeset
  3274
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  3275
end
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  3276
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  3277
end