src/HOL/Analysis/Linear_Algebra.thy
author haftmann
Fri, 18 Oct 2019 18:41:31 +0000
changeset 70900 954e7f79c25a
parent 70817 dd675800469d
child 70999 5b753486c075
permissions -rw-r--r--
moved generic instance to distribution
Ignore whitespace changes - Everywhere: Within whitespace: At end of lines:
63627
6ddb43c6b711 rename HOL-Multivariate_Analysis to HOL-Analysis.
hoelzl
parents: 63469
diff changeset
     1
(*  Title:      HOL/Analysis/Linear_Algebra.thy
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
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     2
    Author:     Amine Chaieb, University of Cambridge
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
     3
*)
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
     4
69517
dc20f278e8f3 tuned style and headers
nipkow
parents: 69516
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     5
section \<open>Elementary Linear Algebra on Euclidean Spaces\<close>
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
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     6
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
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     7
theory Linear_Algebra
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
     8
imports
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
     9
  Euclidean_Space
66453
cc19f7ca2ed6 session-qualified theory imports: isabelle imports -U -i -d '~~/src/Benchmarks' -a;
wenzelm
parents: 66447
diff changeset
    10
  "HOL-Library.Infinite_Set"
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
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    11
begin
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
    12
63886
685fb01256af move Henstock-Kurzweil integration after Lebesgue_Measure; replace content by abbreviation measure lborel
hoelzl
parents: 63881
diff changeset
    13
lemma linear_simps:
685fb01256af move Henstock-Kurzweil integration after Lebesgue_Measure; replace content by abbreviation measure lborel
hoelzl
parents: 63881
diff changeset
    14
  assumes "bounded_linear f"
685fb01256af move Henstock-Kurzweil integration after Lebesgue_Measure; replace content by abbreviation measure lborel
hoelzl
parents: 63881
diff changeset
    15
  shows
685fb01256af move Henstock-Kurzweil integration after Lebesgue_Measure; replace content by abbreviation measure lborel
hoelzl
parents: 63881
diff changeset
    16
    "f (a + b) = f a + f b"
685fb01256af move Henstock-Kurzweil integration after Lebesgue_Measure; replace content by abbreviation measure lborel
hoelzl
parents: 63881
diff changeset
    17
    "f (a - b) = f a - f b"
685fb01256af move Henstock-Kurzweil integration after Lebesgue_Measure; replace content by abbreviation measure lborel
hoelzl
parents: 63881
diff changeset
    18
    "f 0 = 0"
685fb01256af move Henstock-Kurzweil integration after Lebesgue_Measure; replace content by abbreviation measure lborel
hoelzl
parents: 63881
diff changeset
    19
    "f (- a) = - f a"
685fb01256af move Henstock-Kurzweil integration after Lebesgue_Measure; replace content by abbreviation measure lborel
hoelzl
parents: 63881
diff changeset
    20
    "f (s *\<^sub>R v) = s *\<^sub>R (f v)"
685fb01256af move Henstock-Kurzweil integration after Lebesgue_Measure; replace content by abbreviation measure lborel
hoelzl
parents: 63881
diff changeset
    21
proof -
685fb01256af move Henstock-Kurzweil integration after Lebesgue_Measure; replace content by abbreviation measure lborel
hoelzl
parents: 63881
diff changeset
    22
  interpret f: bounded_linear f by fact
685fb01256af move Henstock-Kurzweil integration after Lebesgue_Measure; replace content by abbreviation measure lborel
hoelzl
parents: 63881
diff changeset
    23
  show "f (a + b) = f a + f b" by (rule f.add)
685fb01256af move Henstock-Kurzweil integration after Lebesgue_Measure; replace content by abbreviation measure lborel
hoelzl
parents: 63881
diff changeset
    24
  show "f (a - b) = f a - f b" by (rule f.diff)
685fb01256af move Henstock-Kurzweil integration after Lebesgue_Measure; replace content by abbreviation measure lborel
hoelzl
parents: 63881
diff changeset
    25
  show "f 0 = 0" by (rule f.zero)
68072
493b818e8e10 added Johannes' generalizations Modules.thy and Vector_Spaces.thy; adapted HOL and HOL-Analysis accordingly
immler
parents: 67982
diff changeset
    26
  show "f (- a) = - f a" by (rule f.neg)
493b818e8e10 added Johannes' generalizations Modules.thy and Vector_Spaces.thy; adapted HOL and HOL-Analysis accordingly
immler
parents: 67982
diff changeset
    27
  show "f (s *\<^sub>R v) = s *\<^sub>R (f v)" by (rule f.scale)
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
    28
qed
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
    29
68069
36209dfb981e tidying up and using real induction methods
paulson <lp15@cam.ac.uk>
parents: 68062
diff changeset
    30
lemma finite_Atleast_Atmost_nat[simp]: "finite {f x |x. x \<in> (UNIV::'a::finite set)}"
36209dfb981e tidying up and using real induction methods
paulson <lp15@cam.ac.uk>
parents: 68062
diff changeset
    31
  using finite finite_image_set by blast
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
    32
69675
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
    33
lemma substdbasis_expansion_unique:
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
    34
  includes inner_syntax
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
    35
  assumes d: "d \<subseteq> Basis"
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
    36
  shows "(\<Sum>i\<in>d. f i *\<^sub>R i) = (x::'a::euclidean_space) \<longleftrightarrow>
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
    37
    (\<forall>i\<in>Basis. (i \<in> d \<longrightarrow> f i = x \<bullet> i) \<and> (i \<notin> d \<longrightarrow> x \<bullet> i = 0))"
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
    38
proof -
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
    39
  have *: "\<And>x a b P. x * (if P then a else b) = (if P then x * a else x * b)"
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
    40
    by auto
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
    41
  have **: "finite d"
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
    42
    by (auto intro: finite_subset[OF assms])
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
    43
  have ***: "\<And>i. i \<in> Basis \<Longrightarrow> (\<Sum>i\<in>d. f i *\<^sub>R i) \<bullet> i = (\<Sum>x\<in>d. if x = i then f x else 0)"
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
    44
    using d
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
    45
    by (auto intro!: sum.cong simp: inner_Basis inner_sum_left)
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
    46
  show ?thesis
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
    47
    unfolding euclidean_eq_iff[where 'a='a] by (auto simp: sum.delta[OF **] ***)
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
    48
qed
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
    49
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
    50
lemma independent_substdbasis: "d \<subseteq> Basis \<Longrightarrow> independent d"
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
    51
  by (rule independent_mono[OF independent_Basis])
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
    52
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
    53
lemma sum_not_0: "sum f A \<noteq> 0 \<Longrightarrow> \<exists>a \<in> A. f a \<noteq> 0"
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
    54
  by (rule ccontr) auto
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
    55
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
    56
lemma subset_translation_eq [simp]:
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
    57
    fixes a :: "'a::real_vector" shows "(+) a ` s \<subseteq> (+) a ` t \<longleftrightarrow> s \<subseteq> t"
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
    58
  by auto
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
    59
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
    60
lemma translate_inj_on:
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
    61
  fixes A :: "'a::ab_group_add set"
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
    62
  shows "inj_on (\<lambda>x. a + x) A"
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
    63
  unfolding inj_on_def by auto
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
    64
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
    65
lemma translation_assoc:
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
    66
  fixes a b :: "'a::ab_group_add"
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
    67
  shows "(\<lambda>x. b + x) ` ((\<lambda>x. a + x) ` S) = (\<lambda>x. (a + b) + x) ` S"
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
    68
  by auto
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
    69
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
    70
lemma translation_invert:
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
    71
  fixes a :: "'a::ab_group_add"
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
    72
  assumes "(\<lambda>x. a + x) ` A = (\<lambda>x. a + x) ` B"
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
    73
  shows "A = B"
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
    74
proof -
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
    75
  have "(\<lambda>x. -a + x) ` ((\<lambda>x. a + x) ` A) = (\<lambda>x. - a + x) ` ((\<lambda>x. a + x) ` B)"
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
    76
    using assms by auto
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
    77
  then show ?thesis
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
    78
    using translation_assoc[of "-a" a A] translation_assoc[of "-a" a B] by auto
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
    79
qed
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
    80
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
    81
lemma translation_galois:
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
    82
  fixes a :: "'a::ab_group_add"
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
    83
  shows "T = ((\<lambda>x. a + x) ` S) \<longleftrightarrow> S = ((\<lambda>x. (- a) + x) ` T)"
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
    84
  using translation_assoc[of "-a" a S]
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
    85
  apply auto
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
    86
  using translation_assoc[of a "-a" T]
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
    87
  apply auto
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
    88
  done
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
    89
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
    90
lemma translation_inverse_subset:
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
    91
  assumes "((\<lambda>x. - a + x) ` V) \<le> (S :: 'n::ab_group_add set)"
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
    92
  shows "V \<le> ((\<lambda>x. a + x) ` S)"
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
    93
proof -
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
    94
  {
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
    95
    fix x
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
    96
    assume "x \<in> V"
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
    97
    then have "x-a \<in> S" using assms by auto
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
    98
    then have "x \<in> {a + v |v. v \<in> S}"
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
    99
      apply auto
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
   100
      apply (rule exI[of _ "x-a"], simp)
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
   101
      done
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
   102
    then have "x \<in> ((\<lambda>x. a+x) ` S)" by auto
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
   103
  }
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
   104
  then show ?thesis by auto
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
   105
qed
53406
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
   106
70136
f03a01a18c6e modernized tags: default scope excludes proof;
wenzelm
parents: 69683
diff changeset
   107
subsection\<^marker>\<open>tag unimportant\<close> \<open>More interesting properties of the norm\<close>
63050
ca4cce24c75d Linear_Algebra: move abstract concepts to front
hoelzl
parents: 63007
diff changeset
   108
69674
fc252acb7100 bundle syntax for inner
immler
parents: 69619
diff changeset
   109
unbundle inner_syntax
63050
ca4cce24c75d Linear_Algebra: move abstract concepts to front
hoelzl
parents: 63007
diff changeset
   110
69597
ff784d5a5bfb isabelle update -u control_cartouches;
wenzelm
parents: 69517
diff changeset
   111
text\<open>Equality of vectors in terms of \<^term>\<open>(\<bullet>)\<close> products.\<close>
63050
ca4cce24c75d Linear_Algebra: move abstract concepts to front
hoelzl
parents: 63007
diff changeset
   112
ca4cce24c75d Linear_Algebra: move abstract concepts to front
hoelzl
parents: 63007
diff changeset
   113
lemma linear_componentwise:
ca4cce24c75d Linear_Algebra: move abstract concepts to front
hoelzl
parents: 63007
diff changeset
   114
  fixes f:: "'a::euclidean_space \<Rightarrow> 'b::real_inner"
ca4cce24c75d Linear_Algebra: move abstract concepts to front
hoelzl
parents: 63007
diff changeset
   115
  assumes lf: "linear f"
ca4cce24c75d Linear_Algebra: move abstract concepts to front
hoelzl
parents: 63007
diff changeset
   116
  shows "(f x) \<bullet> j = (\<Sum>i\<in>Basis. (x\<bullet>i) * (f i\<bullet>j))" (is "?lhs = ?rhs")
ca4cce24c75d Linear_Algebra: move abstract concepts to front
hoelzl
parents: 63007
diff changeset
   117
proof -
68072
493b818e8e10 added Johannes' generalizations Modules.thy and Vector_Spaces.thy; adapted HOL and HOL-Analysis accordingly
immler
parents: 67982
diff changeset
   118
  interpret linear f by fact
63050
ca4cce24c75d Linear_Algebra: move abstract concepts to front
hoelzl
parents: 63007
diff changeset
   119
  have "?rhs = (\<Sum>i\<in>Basis. (x\<bullet>i) *\<^sub>R (f i))\<bullet>j"
64267
b9a1486e79be setsum -> sum
nipkow
parents: 64122
diff changeset
   120
    by (simp add: inner_sum_left)
63050
ca4cce24c75d Linear_Algebra: move abstract concepts to front
hoelzl
parents: 63007
diff changeset
   121
  then show ?thesis
68072
493b818e8e10 added Johannes' generalizations Modules.thy and Vector_Spaces.thy; adapted HOL and HOL-Analysis accordingly
immler
parents: 67982
diff changeset
   122
    by (simp add: euclidean_representation sum[symmetric] scale[symmetric])
63050
ca4cce24c75d Linear_Algebra: move abstract concepts to front
hoelzl
parents: 63007
diff changeset
   123
qed
ca4cce24c75d Linear_Algebra: move abstract concepts to front
hoelzl
parents: 63007
diff changeset
   124
ca4cce24c75d Linear_Algebra: move abstract concepts to front
hoelzl
parents: 63007
diff changeset
   125
lemma vector_eq: "x = y \<longleftrightarrow> x \<bullet> x = x \<bullet> y \<and> y \<bullet> y = x \<bullet> x"
ca4cce24c75d Linear_Algebra: move abstract concepts to front
hoelzl
parents: 63007
diff changeset
   126
  (is "?lhs \<longleftrightarrow> ?rhs")
ca4cce24c75d Linear_Algebra: move abstract concepts to front
hoelzl
parents: 63007
diff changeset
   127
proof
ca4cce24c75d Linear_Algebra: move abstract concepts to front
hoelzl
parents: 63007
diff changeset
   128
  assume ?lhs
ca4cce24c75d Linear_Algebra: move abstract concepts to front
hoelzl
parents: 63007
diff changeset
   129
  then show ?rhs by simp
ca4cce24c75d Linear_Algebra: move abstract concepts to front
hoelzl
parents: 63007
diff changeset
   130
next
ca4cce24c75d Linear_Algebra: move abstract concepts to front
hoelzl
parents: 63007
diff changeset
   131
  assume ?rhs
ca4cce24c75d Linear_Algebra: move abstract concepts to front
hoelzl
parents: 63007
diff changeset
   132
  then have "x \<bullet> x - x \<bullet> y = 0 \<and> x \<bullet> y - y \<bullet> y = 0"
ca4cce24c75d Linear_Algebra: move abstract concepts to front
hoelzl
parents: 63007
diff changeset
   133
    by simp
ca4cce24c75d Linear_Algebra: move abstract concepts to front
hoelzl
parents: 63007
diff changeset
   134
  then have "x \<bullet> (x - y) = 0 \<and> y \<bullet> (x - y) = 0"
ca4cce24c75d Linear_Algebra: move abstract concepts to front
hoelzl
parents: 63007
diff changeset
   135
    by (simp add: inner_diff inner_commute)
ca4cce24c75d Linear_Algebra: move abstract concepts to front
hoelzl
parents: 63007
diff changeset
   136
  then have "(x - y) \<bullet> (x - y) = 0"
ca4cce24c75d Linear_Algebra: move abstract concepts to front
hoelzl
parents: 63007
diff changeset
   137
    by (simp add: field_simps inner_diff inner_commute)
ca4cce24c75d Linear_Algebra: move abstract concepts to front
hoelzl
parents: 63007
diff changeset
   138
  then show "x = y" by simp
ca4cce24c75d Linear_Algebra: move abstract concepts to front
hoelzl
parents: 63007
diff changeset
   139
qed
ca4cce24c75d Linear_Algebra: move abstract concepts to front
hoelzl
parents: 63007
diff changeset
   140
ca4cce24c75d Linear_Algebra: move abstract concepts to front
hoelzl
parents: 63007
diff changeset
   141
lemma norm_triangle_half_r:
ca4cce24c75d Linear_Algebra: move abstract concepts to front
hoelzl
parents: 63007
diff changeset
   142
  "norm (y - x1) < e / 2 \<Longrightarrow> norm (y - x2) < e / 2 \<Longrightarrow> norm (x1 - x2) < e"
ca4cce24c75d Linear_Algebra: move abstract concepts to front
hoelzl
parents: 63007
diff changeset
   143
  using dist_triangle_half_r unfolding dist_norm[symmetric] by auto
ca4cce24c75d Linear_Algebra: move abstract concepts to front
hoelzl
parents: 63007
diff changeset
   144
ca4cce24c75d Linear_Algebra: move abstract concepts to front
hoelzl
parents: 63007
diff changeset
   145
lemma norm_triangle_half_l:
ca4cce24c75d Linear_Algebra: move abstract concepts to front
hoelzl
parents: 63007
diff changeset
   146
  assumes "norm (x - y) < e / 2"
ca4cce24c75d Linear_Algebra: move abstract concepts to front
hoelzl
parents: 63007
diff changeset
   147
    and "norm (x' - y) < e / 2"
ca4cce24c75d Linear_Algebra: move abstract concepts to front
hoelzl
parents: 63007
diff changeset
   148
  shows "norm (x - x') < e"
ca4cce24c75d Linear_Algebra: move abstract concepts to front
hoelzl
parents: 63007
diff changeset
   149
  using dist_triangle_half_l[OF assms[unfolded dist_norm[symmetric]]]
ca4cce24c75d Linear_Algebra: move abstract concepts to front
hoelzl
parents: 63007
diff changeset
   150
  unfolding dist_norm[symmetric] .
ca4cce24c75d Linear_Algebra: move abstract concepts to front
hoelzl
parents: 63007
diff changeset
   151
66420
bc0dab0e7b40 further Hensock tidy-up
paulson <lp15@cam.ac.uk>
parents: 66297
diff changeset
   152
lemma abs_triangle_half_r:
bc0dab0e7b40 further Hensock tidy-up
paulson <lp15@cam.ac.uk>
parents: 66297
diff changeset
   153
  fixes y :: "'a::linordered_field"
bc0dab0e7b40 further Hensock tidy-up
paulson <lp15@cam.ac.uk>
parents: 66297
diff changeset
   154
  shows "abs (y - x1) < e / 2 \<Longrightarrow> abs (y - x2) < e / 2 \<Longrightarrow> abs (x1 - x2) < e"
bc0dab0e7b40 further Hensock tidy-up
paulson <lp15@cam.ac.uk>
parents: 66297
diff changeset
   155
  by linarith
bc0dab0e7b40 further Hensock tidy-up
paulson <lp15@cam.ac.uk>
parents: 66297
diff changeset
   156
bc0dab0e7b40 further Hensock tidy-up
paulson <lp15@cam.ac.uk>
parents: 66297
diff changeset
   157
lemma abs_triangle_half_l:
bc0dab0e7b40 further Hensock tidy-up
paulson <lp15@cam.ac.uk>
parents: 66297
diff changeset
   158
  fixes y :: "'a::linordered_field"
bc0dab0e7b40 further Hensock tidy-up
paulson <lp15@cam.ac.uk>
parents: 66297
diff changeset
   159
  assumes "abs (x - y) < e / 2"
bc0dab0e7b40 further Hensock tidy-up
paulson <lp15@cam.ac.uk>
parents: 66297
diff changeset
   160
    and "abs (x' - y) < e / 2"
bc0dab0e7b40 further Hensock tidy-up
paulson <lp15@cam.ac.uk>
parents: 66297
diff changeset
   161
  shows "abs (x - x') < e"
bc0dab0e7b40 further Hensock tidy-up
paulson <lp15@cam.ac.uk>
parents: 66297
diff changeset
   162
  using assms by linarith
bc0dab0e7b40 further Hensock tidy-up
paulson <lp15@cam.ac.uk>
parents: 66297
diff changeset
   163
64267
b9a1486e79be setsum -> sum
nipkow
parents: 64122
diff changeset
   164
lemma sum_clauses:
b9a1486e79be setsum -> sum
nipkow
parents: 64122
diff changeset
   165
  shows "sum f {} = 0"
b9a1486e79be setsum -> sum
nipkow
parents: 64122
diff changeset
   166
    and "finite S \<Longrightarrow> sum f (insert x S) = (if x \<in> S then sum f S else f x + sum f S)"
63050
ca4cce24c75d Linear_Algebra: move abstract concepts to front
hoelzl
parents: 63007
diff changeset
   167
  by (auto simp add: insert_absorb)
ca4cce24c75d Linear_Algebra: move abstract concepts to front
hoelzl
parents: 63007
diff changeset
   168
ca4cce24c75d Linear_Algebra: move abstract concepts to front
hoelzl
parents: 63007
diff changeset
   169
lemma vector_eq_ldot: "(\<forall>x. x \<bullet> y = x \<bullet> z) \<longleftrightarrow> y = z"
ca4cce24c75d Linear_Algebra: move abstract concepts to front
hoelzl
parents: 63007
diff changeset
   170
proof
ca4cce24c75d Linear_Algebra: move abstract concepts to front
hoelzl
parents: 63007
diff changeset
   171
  assume "\<forall>x. x \<bullet> y = x \<bullet> z"
ca4cce24c75d Linear_Algebra: move abstract concepts to front
hoelzl
parents: 63007
diff changeset
   172
  then have "\<forall>x. x \<bullet> (y - z) = 0"
ca4cce24c75d Linear_Algebra: move abstract concepts to front
hoelzl
parents: 63007
diff changeset
   173
    by (simp add: inner_diff)
ca4cce24c75d Linear_Algebra: move abstract concepts to front
hoelzl
parents: 63007
diff changeset
   174
  then have "(y - z) \<bullet> (y - z) = 0" ..
ca4cce24c75d Linear_Algebra: move abstract concepts to front
hoelzl
parents: 63007
diff changeset
   175
  then show "y = z" by simp
ca4cce24c75d Linear_Algebra: move abstract concepts to front
hoelzl
parents: 63007
diff changeset
   176
qed simp
ca4cce24c75d Linear_Algebra: move abstract concepts to front
hoelzl
parents: 63007
diff changeset
   177
ca4cce24c75d Linear_Algebra: move abstract concepts to front
hoelzl
parents: 63007
diff changeset
   178
lemma vector_eq_rdot: "(\<forall>z. x \<bullet> z = y \<bullet> z) \<longleftrightarrow> x = y"
ca4cce24c75d Linear_Algebra: move abstract concepts to front
hoelzl
parents: 63007
diff changeset
   179
proof
ca4cce24c75d Linear_Algebra: move abstract concepts to front
hoelzl
parents: 63007
diff changeset
   180
  assume "\<forall>z. x \<bullet> z = y \<bullet> z"
ca4cce24c75d Linear_Algebra: move abstract concepts to front
hoelzl
parents: 63007
diff changeset
   181
  then have "\<forall>z. (x - y) \<bullet> z = 0"
ca4cce24c75d Linear_Algebra: move abstract concepts to front
hoelzl
parents: 63007
diff changeset
   182
    by (simp add: inner_diff)
ca4cce24c75d Linear_Algebra: move abstract concepts to front
hoelzl
parents: 63007
diff changeset
   183
  then have "(x - y) \<bullet> (x - y) = 0" ..
ca4cce24c75d Linear_Algebra: move abstract concepts to front
hoelzl
parents: 63007
diff changeset
   184
  then show "x = y" by simp
ca4cce24c75d Linear_Algebra: move abstract concepts to front
hoelzl
parents: 63007
diff changeset
   185
qed simp
ca4cce24c75d Linear_Algebra: move abstract concepts to front
hoelzl
parents: 63007
diff changeset
   186
69619
3f7d8e05e0f2 split off Convex.thy: material that does not require Topology_Euclidean_Space
immler
parents: 69600
diff changeset
   187
subsection \<open>Substandard Basis\<close>
3f7d8e05e0f2 split off Convex.thy: material that does not require Topology_Euclidean_Space
immler
parents: 69600
diff changeset
   188
3f7d8e05e0f2 split off Convex.thy: material that does not require Topology_Euclidean_Space
immler
parents: 69600
diff changeset
   189
lemma ex_card:
3f7d8e05e0f2 split off Convex.thy: material that does not require Topology_Euclidean_Space
immler
parents: 69600
diff changeset
   190
  assumes "n \<le> card A"
3f7d8e05e0f2 split off Convex.thy: material that does not require Topology_Euclidean_Space
immler
parents: 69600
diff changeset
   191
  shows "\<exists>S\<subseteq>A. card S = n"
3f7d8e05e0f2 split off Convex.thy: material that does not require Topology_Euclidean_Space
immler
parents: 69600
diff changeset
   192
proof (cases "finite A")
3f7d8e05e0f2 split off Convex.thy: material that does not require Topology_Euclidean_Space
immler
parents: 69600
diff changeset
   193
  case True
3f7d8e05e0f2 split off Convex.thy: material that does not require Topology_Euclidean_Space
immler
parents: 69600
diff changeset
   194
  from ex_bij_betw_nat_finite[OF this] obtain f where f: "bij_betw f {0..<card A} A" ..
3f7d8e05e0f2 split off Convex.thy: material that does not require Topology_Euclidean_Space
immler
parents: 69600
diff changeset
   195
  moreover from f \<open>n \<le> card A\<close> have "{..< n} \<subseteq> {..< card A}" "inj_on f {..< n}"
3f7d8e05e0f2 split off Convex.thy: material that does not require Topology_Euclidean_Space
immler
parents: 69600
diff changeset
   196
    by (auto simp: bij_betw_def intro: subset_inj_on)
3f7d8e05e0f2 split off Convex.thy: material that does not require Topology_Euclidean_Space
immler
parents: 69600
diff changeset
   197
  ultimately have "f ` {..< n} \<subseteq> A" "card (f ` {..< n}) = n"
3f7d8e05e0f2 split off Convex.thy: material that does not require Topology_Euclidean_Space
immler
parents: 69600
diff changeset
   198
    by (auto simp: bij_betw_def card_image)
3f7d8e05e0f2 split off Convex.thy: material that does not require Topology_Euclidean_Space
immler
parents: 69600
diff changeset
   199
  then show ?thesis by blast
3f7d8e05e0f2 split off Convex.thy: material that does not require Topology_Euclidean_Space
immler
parents: 69600
diff changeset
   200
next
3f7d8e05e0f2 split off Convex.thy: material that does not require Topology_Euclidean_Space
immler
parents: 69600
diff changeset
   201
  case False
3f7d8e05e0f2 split off Convex.thy: material that does not require Topology_Euclidean_Space
immler
parents: 69600
diff changeset
   202
  with \<open>n \<le> card A\<close> show ?thesis by force
3f7d8e05e0f2 split off Convex.thy: material that does not require Topology_Euclidean_Space
immler
parents: 69600
diff changeset
   203
qed
3f7d8e05e0f2 split off Convex.thy: material that does not require Topology_Euclidean_Space
immler
parents: 69600
diff changeset
   204
3f7d8e05e0f2 split off Convex.thy: material that does not require Topology_Euclidean_Space
immler
parents: 69600
diff changeset
   205
lemma subspace_substandard: "subspace {x::'a::euclidean_space. (\<forall>i\<in>Basis. P i \<longrightarrow> x\<bullet>i = 0)}"
3f7d8e05e0f2 split off Convex.thy: material that does not require Topology_Euclidean_Space
immler
parents: 69600
diff changeset
   206
  by (auto simp: subspace_def inner_add_left)
3f7d8e05e0f2 split off Convex.thy: material that does not require Topology_Euclidean_Space
immler
parents: 69600
diff changeset
   207
3f7d8e05e0f2 split off Convex.thy: material that does not require Topology_Euclidean_Space
immler
parents: 69600
diff changeset
   208
lemma dim_substandard:
3f7d8e05e0f2 split off Convex.thy: material that does not require Topology_Euclidean_Space
immler
parents: 69600
diff changeset
   209
  assumes d: "d \<subseteq> Basis"
3f7d8e05e0f2 split off Convex.thy: material that does not require Topology_Euclidean_Space
immler
parents: 69600
diff changeset
   210
  shows "dim {x::'a::euclidean_space. \<forall>i\<in>Basis. i \<notin> d \<longrightarrow> x\<bullet>i = 0} = card d" (is "dim ?A = _")
3f7d8e05e0f2 split off Convex.thy: material that does not require Topology_Euclidean_Space
immler
parents: 69600
diff changeset
   211
proof (rule dim_unique)
3f7d8e05e0f2 split off Convex.thy: material that does not require Topology_Euclidean_Space
immler
parents: 69600
diff changeset
   212
  from d show "d \<subseteq> ?A"
3f7d8e05e0f2 split off Convex.thy: material that does not require Topology_Euclidean_Space
immler
parents: 69600
diff changeset
   213
    by (auto simp: inner_Basis)
3f7d8e05e0f2 split off Convex.thy: material that does not require Topology_Euclidean_Space
immler
parents: 69600
diff changeset
   214
  from d show "independent d"
3f7d8e05e0f2 split off Convex.thy: material that does not require Topology_Euclidean_Space
immler
parents: 69600
diff changeset
   215
    by (rule independent_mono [OF independent_Basis])
3f7d8e05e0f2 split off Convex.thy: material that does not require Topology_Euclidean_Space
immler
parents: 69600
diff changeset
   216
  have "x \<in> span d" if "\<forall>i\<in>Basis. i \<notin> d \<longrightarrow> x \<bullet> i = 0" for x
3f7d8e05e0f2 split off Convex.thy: material that does not require Topology_Euclidean_Space
immler
parents: 69600
diff changeset
   217
  proof -
3f7d8e05e0f2 split off Convex.thy: material that does not require Topology_Euclidean_Space
immler
parents: 69600
diff changeset
   218
    have "finite d"
3f7d8e05e0f2 split off Convex.thy: material that does not require Topology_Euclidean_Space
immler
parents: 69600
diff changeset
   219
      by (rule finite_subset [OF d finite_Basis])
3f7d8e05e0f2 split off Convex.thy: material that does not require Topology_Euclidean_Space
immler
parents: 69600
diff changeset
   220
    then have "(\<Sum>i\<in>d. (x \<bullet> i) *\<^sub>R i) \<in> span d"
3f7d8e05e0f2 split off Convex.thy: material that does not require Topology_Euclidean_Space
immler
parents: 69600
diff changeset
   221
      by (simp add: span_sum span_clauses)
3f7d8e05e0f2 split off Convex.thy: material that does not require Topology_Euclidean_Space
immler
parents: 69600
diff changeset
   222
    also have "(\<Sum>i\<in>d. (x \<bullet> i) *\<^sub>R i) = (\<Sum>i\<in>Basis. (x \<bullet> i) *\<^sub>R i)"
3f7d8e05e0f2 split off Convex.thy: material that does not require Topology_Euclidean_Space
immler
parents: 69600
diff changeset
   223
      by (rule sum.mono_neutral_cong_left [OF finite_Basis d]) (auto simp: that)
3f7d8e05e0f2 split off Convex.thy: material that does not require Topology_Euclidean_Space
immler
parents: 69600
diff changeset
   224
    finally show "x \<in> span d"
3f7d8e05e0f2 split off Convex.thy: material that does not require Topology_Euclidean_Space
immler
parents: 69600
diff changeset
   225
      by (simp only: euclidean_representation)
3f7d8e05e0f2 split off Convex.thy: material that does not require Topology_Euclidean_Space
immler
parents: 69600
diff changeset
   226
  qed
3f7d8e05e0f2 split off Convex.thy: material that does not require Topology_Euclidean_Space
immler
parents: 69600
diff changeset
   227
  then show "?A \<subseteq> span d" by auto
3f7d8e05e0f2 split off Convex.thy: material that does not require Topology_Euclidean_Space
immler
parents: 69600
diff changeset
   228
qed simp
3f7d8e05e0f2 split off Convex.thy: material that does not require Topology_Euclidean_Space
immler
parents: 69600
diff changeset
   229
63050
ca4cce24c75d Linear_Algebra: move abstract concepts to front
hoelzl
parents: 63007
diff changeset
   230
68901
nipkow
parents: 68607
diff changeset
   231
subsection \<open>Orthogonality\<close>
63050
ca4cce24c75d Linear_Algebra: move abstract concepts to front
hoelzl
parents: 63007
diff changeset
   232
70136
f03a01a18c6e modernized tags: default scope excludes proof;
wenzelm
parents: 69683
diff changeset
   233
definition\<^marker>\<open>tag important\<close> (in real_inner) "orthogonal x y \<longleftrightarrow> x \<bullet> y = 0"
67962
0acdcd8f4ba1 a first shot at tagging for HOL-Analysis manual
immler
parents: 67685
diff changeset
   234
63050
ca4cce24c75d Linear_Algebra: move abstract concepts to front
hoelzl
parents: 63007
diff changeset
   235
context real_inner
ca4cce24c75d Linear_Algebra: move abstract concepts to front
hoelzl
parents: 63007
diff changeset
   236
begin
ca4cce24c75d Linear_Algebra: move abstract concepts to front
hoelzl
parents: 63007
diff changeset
   237
63072
eb5d493a9e03 renamings and refinements
paulson <lp15@cam.ac.uk>
parents: 63053
diff changeset
   238
lemma orthogonal_self: "orthogonal x x \<longleftrightarrow> x = 0"
eb5d493a9e03 renamings and refinements
paulson <lp15@cam.ac.uk>
parents: 63053
diff changeset
   239
  by (simp add: orthogonal_def)
eb5d493a9e03 renamings and refinements
paulson <lp15@cam.ac.uk>
parents: 63053
diff changeset
   240
63050
ca4cce24c75d Linear_Algebra: move abstract concepts to front
hoelzl
parents: 63007
diff changeset
   241
lemma orthogonal_clauses:
ca4cce24c75d Linear_Algebra: move abstract concepts to front
hoelzl
parents: 63007
diff changeset
   242
  "orthogonal a 0"
ca4cce24c75d Linear_Algebra: move abstract concepts to front
hoelzl
parents: 63007
diff changeset
   243
  "orthogonal a x \<Longrightarrow> orthogonal a (c *\<^sub>R x)"
ca4cce24c75d Linear_Algebra: move abstract concepts to front
hoelzl
parents: 63007
diff changeset
   244
  "orthogonal a x \<Longrightarrow> orthogonal a (- x)"
ca4cce24c75d Linear_Algebra: move abstract concepts to front
hoelzl
parents: 63007
diff changeset
   245
  "orthogonal a x \<Longrightarrow> orthogonal a y \<Longrightarrow> orthogonal a (x + y)"
ca4cce24c75d Linear_Algebra: move abstract concepts to front
hoelzl
parents: 63007
diff changeset
   246
  "orthogonal a x \<Longrightarrow> orthogonal a y \<Longrightarrow> orthogonal a (x - y)"
ca4cce24c75d Linear_Algebra: move abstract concepts to front
hoelzl
parents: 63007
diff changeset
   247
  "orthogonal 0 a"
ca4cce24c75d Linear_Algebra: move abstract concepts to front
hoelzl
parents: 63007
diff changeset
   248
  "orthogonal x a \<Longrightarrow> orthogonal (c *\<^sub>R x) a"
ca4cce24c75d Linear_Algebra: move abstract concepts to front
hoelzl
parents: 63007
diff changeset
   249
  "orthogonal x a \<Longrightarrow> orthogonal (- x) a"
ca4cce24c75d Linear_Algebra: move abstract concepts to front
hoelzl
parents: 63007
diff changeset
   250
  "orthogonal x a \<Longrightarrow> orthogonal y a \<Longrightarrow> orthogonal (x + y) a"
ca4cce24c75d Linear_Algebra: move abstract concepts to front
hoelzl
parents: 63007
diff changeset
   251
  "orthogonal x a \<Longrightarrow> orthogonal y a \<Longrightarrow> orthogonal (x - y) a"
ca4cce24c75d Linear_Algebra: move abstract concepts to front
hoelzl
parents: 63007
diff changeset
   252
  unfolding orthogonal_def inner_add inner_diff by auto
ca4cce24c75d Linear_Algebra: move abstract concepts to front
hoelzl
parents: 63007
diff changeset
   253
ca4cce24c75d Linear_Algebra: move abstract concepts to front
hoelzl
parents: 63007
diff changeset
   254
end
ca4cce24c75d Linear_Algebra: move abstract concepts to front
hoelzl
parents: 63007
diff changeset
   255
ca4cce24c75d Linear_Algebra: move abstract concepts to front
hoelzl
parents: 63007
diff changeset
   256
lemma orthogonal_commute: "orthogonal x y \<longleftrightarrow> orthogonal y x"
ca4cce24c75d Linear_Algebra: move abstract concepts to front
hoelzl
parents: 63007
diff changeset
   257
  by (simp add: orthogonal_def inner_commute)
ca4cce24c75d Linear_Algebra: move abstract concepts to front
hoelzl
parents: 63007
diff changeset
   258
63114
27afe7af7379 Lots of new material for multivariate analysis
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parents: 63075
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   259
lemma orthogonal_scaleR [simp]: "c \<noteq> 0 \<Longrightarrow> orthogonal (c *\<^sub>R x) = orthogonal x"
27afe7af7379 Lots of new material for multivariate analysis
paulson <lp15@cam.ac.uk>
parents: 63075
diff changeset
   260
  by (rule ext) (simp add: orthogonal_def)
27afe7af7379 Lots of new material for multivariate analysis
paulson <lp15@cam.ac.uk>
parents: 63075
diff changeset
   261
27afe7af7379 Lots of new material for multivariate analysis
paulson <lp15@cam.ac.uk>
parents: 63075
diff changeset
   262
lemma pairwise_ortho_scaleR:
27afe7af7379 Lots of new material for multivariate analysis
paulson <lp15@cam.ac.uk>
parents: 63075
diff changeset
   263
    "pairwise (\<lambda>i j. orthogonal (f i) (g j)) B
27afe7af7379 Lots of new material for multivariate analysis
paulson <lp15@cam.ac.uk>
parents: 63075
diff changeset
   264
    \<Longrightarrow> pairwise (\<lambda>i j. orthogonal (a i *\<^sub>R f i) (a j *\<^sub>R g j)) B"
27afe7af7379 Lots of new material for multivariate analysis
paulson <lp15@cam.ac.uk>
parents: 63075
diff changeset
   265
  by (auto simp: pairwise_def orthogonal_clauses)
27afe7af7379 Lots of new material for multivariate analysis
paulson <lp15@cam.ac.uk>
parents: 63075
diff changeset
   266
27afe7af7379 Lots of new material for multivariate analysis
paulson <lp15@cam.ac.uk>
parents: 63075
diff changeset
   267
lemma orthogonal_rvsum:
64267
b9a1486e79be setsum -> sum
nipkow
parents: 64122
diff changeset
   268
    "\<lbrakk>finite s; \<And>y. y \<in> s \<Longrightarrow> orthogonal x (f y)\<rbrakk> \<Longrightarrow> orthogonal x (sum f s)"
63114
27afe7af7379 Lots of new material for multivariate analysis
paulson <lp15@cam.ac.uk>
parents: 63075
diff changeset
   269
  by (induction s rule: finite_induct) (auto simp: orthogonal_clauses)
27afe7af7379 Lots of new material for multivariate analysis
paulson <lp15@cam.ac.uk>
parents: 63075
diff changeset
   270
27afe7af7379 Lots of new material for multivariate analysis
paulson <lp15@cam.ac.uk>
parents: 63075
diff changeset
   271
lemma orthogonal_lvsum:
64267
b9a1486e79be setsum -> sum
nipkow
parents: 64122
diff changeset
   272
    "\<lbrakk>finite s; \<And>x. x \<in> s \<Longrightarrow> orthogonal (f x) y\<rbrakk> \<Longrightarrow> orthogonal (sum f s) y"
63114
27afe7af7379 Lots of new material for multivariate analysis
paulson <lp15@cam.ac.uk>
parents: 63075
diff changeset
   273
  by (induction s rule: finite_induct) (auto simp: orthogonal_clauses)
27afe7af7379 Lots of new material for multivariate analysis
paulson <lp15@cam.ac.uk>
parents: 63075
diff changeset
   274
27afe7af7379 Lots of new material for multivariate analysis
paulson <lp15@cam.ac.uk>
parents: 63075
diff changeset
   275
lemma norm_add_Pythagorean:
27afe7af7379 Lots of new material for multivariate analysis
paulson <lp15@cam.ac.uk>
parents: 63075
diff changeset
   276
  assumes "orthogonal a b"
27afe7af7379 Lots of new material for multivariate analysis
paulson <lp15@cam.ac.uk>
parents: 63075
diff changeset
   277
    shows "norm(a + b) ^ 2 = norm a ^ 2 + norm b ^ 2"
27afe7af7379 Lots of new material for multivariate analysis
paulson <lp15@cam.ac.uk>
parents: 63075
diff changeset
   278
proof -
27afe7af7379 Lots of new material for multivariate analysis
paulson <lp15@cam.ac.uk>
parents: 63075
diff changeset
   279
  from assms have "(a - (0 - b)) \<bullet> (a - (0 - b)) = a \<bullet> a - (0 - b \<bullet> b)"
27afe7af7379 Lots of new material for multivariate analysis
paulson <lp15@cam.ac.uk>
parents: 63075
diff changeset
   280
    by (simp add: algebra_simps orthogonal_def inner_commute)
27afe7af7379 Lots of new material for multivariate analysis
paulson <lp15@cam.ac.uk>
parents: 63075
diff changeset
   281
  then show ?thesis
27afe7af7379 Lots of new material for multivariate analysis
paulson <lp15@cam.ac.uk>
parents: 63075
diff changeset
   282
    by (simp add: power2_norm_eq_inner)
27afe7af7379 Lots of new material for multivariate analysis
paulson <lp15@cam.ac.uk>
parents: 63075
diff changeset
   283
qed
27afe7af7379 Lots of new material for multivariate analysis
paulson <lp15@cam.ac.uk>
parents: 63075
diff changeset
   284
64267
b9a1486e79be setsum -> sum
nipkow
parents: 64122
diff changeset
   285
lemma norm_sum_Pythagorean:
63114
27afe7af7379 Lots of new material for multivariate analysis
paulson <lp15@cam.ac.uk>
parents: 63075
diff changeset
   286
  assumes "finite I" "pairwise (\<lambda>i j. orthogonal (f i) (f j)) I"
64267
b9a1486e79be setsum -> sum
nipkow
parents: 64122
diff changeset
   287
    shows "(norm (sum f I))\<^sup>2 = (\<Sum>i\<in>I. (norm (f i))\<^sup>2)"
63114
27afe7af7379 Lots of new material for multivariate analysis
paulson <lp15@cam.ac.uk>
parents: 63075
diff changeset
   288
using assms
27afe7af7379 Lots of new material for multivariate analysis
paulson <lp15@cam.ac.uk>
parents: 63075
diff changeset
   289
proof (induction I rule: finite_induct)
27afe7af7379 Lots of new material for multivariate analysis
paulson <lp15@cam.ac.uk>
parents: 63075
diff changeset
   290
  case empty then show ?case by simp
27afe7af7379 Lots of new material for multivariate analysis
paulson <lp15@cam.ac.uk>
parents: 63075
diff changeset
   291
next
27afe7af7379 Lots of new material for multivariate analysis
paulson <lp15@cam.ac.uk>
parents: 63075
diff changeset
   292
  case (insert x I)
64267
b9a1486e79be setsum -> sum
nipkow
parents: 64122
diff changeset
   293
  then have "orthogonal (f x) (sum f I)"
63114
27afe7af7379 Lots of new material for multivariate analysis
paulson <lp15@cam.ac.uk>
parents: 63075
diff changeset
   294
    by (metis pairwise_insert orthogonal_rvsum)
27afe7af7379 Lots of new material for multivariate analysis
paulson <lp15@cam.ac.uk>
parents: 63075
diff changeset
   295
  with insert show ?case
27afe7af7379 Lots of new material for multivariate analysis
paulson <lp15@cam.ac.uk>
parents: 63075
diff changeset
   296
    by (simp add: pairwise_insert norm_add_Pythagorean)
27afe7af7379 Lots of new material for multivariate analysis
paulson <lp15@cam.ac.uk>
parents: 63075
diff changeset
   297
qed
27afe7af7379 Lots of new material for multivariate analysis
paulson <lp15@cam.ac.uk>
parents: 63075
diff changeset
   298
63050
ca4cce24c75d Linear_Algebra: move abstract concepts to front
hoelzl
parents: 63007
diff changeset
   299
69683
8b3458ca0762 subsection is always %important
immler
parents: 69675
diff changeset
   300
subsection  \<open>Orthogonality of a transformation\<close>
69675
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
   301
70136
f03a01a18c6e modernized tags: default scope excludes proof;
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diff changeset
   302
definition\<^marker>\<open>tag important\<close>  "orthogonal_transformation f \<longleftrightarrow> linear f \<and> (\<forall>v w. f v \<bullet> f w = v \<bullet> w)"
69675
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
   303
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   304
lemma\<^marker>\<open>tag unimportant\<close>  orthogonal_transformation:
69675
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
   305
  "orthogonal_transformation f \<longleftrightarrow> linear f \<and> (\<forall>v. norm (f v) = norm v)"
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
   306
  unfolding orthogonal_transformation_def
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
   307
  apply auto
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
   308
  apply (erule_tac x=v in allE)+
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
   309
  apply (simp add: norm_eq_sqrt_inner)
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
   310
  apply (simp add: dot_norm linear_add[symmetric])
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
   311
  done
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
   312
70136
f03a01a18c6e modernized tags: default scope excludes proof;
wenzelm
parents: 69683
diff changeset
   313
lemma\<^marker>\<open>tag unimportant\<close>  orthogonal_transformation_id [simp]: "orthogonal_transformation (\<lambda>x. x)"
69675
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
   314
  by (simp add: linear_iff orthogonal_transformation_def)
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
   315
70136
f03a01a18c6e modernized tags: default scope excludes proof;
wenzelm
parents: 69683
diff changeset
   316
lemma\<^marker>\<open>tag unimportant\<close>  orthogonal_orthogonal_transformation:
69675
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
   317
    "orthogonal_transformation f \<Longrightarrow> orthogonal (f x) (f y) \<longleftrightarrow> orthogonal x y"
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
   318
  by (simp add: orthogonal_def orthogonal_transformation_def)
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
   319
70136
f03a01a18c6e modernized tags: default scope excludes proof;
wenzelm
parents: 69683
diff changeset
   320
lemma\<^marker>\<open>tag unimportant\<close>  orthogonal_transformation_compose:
69675
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
   321
   "\<lbrakk>orthogonal_transformation f; orthogonal_transformation g\<rbrakk> \<Longrightarrow> orthogonal_transformation(f \<circ> g)"
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
   322
  by (auto simp: orthogonal_transformation_def linear_compose)
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
   323
70136
f03a01a18c6e modernized tags: default scope excludes proof;
wenzelm
parents: 69683
diff changeset
   324
lemma\<^marker>\<open>tag unimportant\<close>  orthogonal_transformation_neg:
69675
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
   325
  "orthogonal_transformation(\<lambda>x. -(f x)) \<longleftrightarrow> orthogonal_transformation f"
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
   326
  by (auto simp: orthogonal_transformation_def dest: linear_compose_neg)
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
   327
70136
f03a01a18c6e modernized tags: default scope excludes proof;
wenzelm
parents: 69683
diff changeset
   328
lemma\<^marker>\<open>tag unimportant\<close>  orthogonal_transformation_scaleR: "orthogonal_transformation f \<Longrightarrow> f (c *\<^sub>R v) = c *\<^sub>R f v"
69675
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
   329
  by (simp add: linear_iff orthogonal_transformation_def)
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
   330
70136
f03a01a18c6e modernized tags: default scope excludes proof;
wenzelm
parents: 69683
diff changeset
   331
lemma\<^marker>\<open>tag unimportant\<close>  orthogonal_transformation_linear:
69675
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
   332
   "orthogonal_transformation f \<Longrightarrow> linear f"
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
   333
  by (simp add: orthogonal_transformation_def)
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
   334
70136
f03a01a18c6e modernized tags: default scope excludes proof;
wenzelm
parents: 69683
diff changeset
   335
lemma\<^marker>\<open>tag unimportant\<close>  orthogonal_transformation_inj:
69675
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
   336
  "orthogonal_transformation f \<Longrightarrow> inj f"
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
   337
  unfolding orthogonal_transformation_def inj_on_def
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
   338
  by (metis vector_eq)
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
   339
70136
f03a01a18c6e modernized tags: default scope excludes proof;
wenzelm
parents: 69683
diff changeset
   340
lemma\<^marker>\<open>tag unimportant\<close>  orthogonal_transformation_surj:
69675
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
   341
  "orthogonal_transformation f \<Longrightarrow> surj f"
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
   342
  for f :: "'a::euclidean_space \<Rightarrow> 'a::euclidean_space"
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
   343
  by (simp add: linear_injective_imp_surjective orthogonal_transformation_inj orthogonal_transformation_linear)
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
   344
70136
f03a01a18c6e modernized tags: default scope excludes proof;
wenzelm
parents: 69683
diff changeset
   345
lemma\<^marker>\<open>tag unimportant\<close>  orthogonal_transformation_bij:
69675
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
   346
  "orthogonal_transformation f \<Longrightarrow> bij f"
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
   347
  for f :: "'a::euclidean_space \<Rightarrow> 'a::euclidean_space"
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
   348
  by (simp add: bij_def orthogonal_transformation_inj orthogonal_transformation_surj)
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
   349
70136
f03a01a18c6e modernized tags: default scope excludes proof;
wenzelm
parents: 69683
diff changeset
   350
lemma\<^marker>\<open>tag unimportant\<close>  orthogonal_transformation_inv:
69675
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
   351
  "orthogonal_transformation f \<Longrightarrow> orthogonal_transformation (inv f)"
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
   352
  for f :: "'a::euclidean_space \<Rightarrow> 'a::euclidean_space"
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
   353
  by (metis (no_types, hide_lams) bijection.inv_right bijection_def inj_linear_imp_inv_linear orthogonal_transformation orthogonal_transformation_bij orthogonal_transformation_inj)
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
   354
70136
f03a01a18c6e modernized tags: default scope excludes proof;
wenzelm
parents: 69683
diff changeset
   355
lemma\<^marker>\<open>tag unimportant\<close>  orthogonal_transformation_norm:
69675
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
   356
  "orthogonal_transformation f \<Longrightarrow> norm (f x) = norm x"
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
   357
  by (metis orthogonal_transformation)
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
   358
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
   359
68901
nipkow
parents: 68607
diff changeset
   360
subsection \<open>Bilinear functions\<close>
63050
ca4cce24c75d Linear_Algebra: move abstract concepts to front
hoelzl
parents: 63007
diff changeset
   361
70136
f03a01a18c6e modernized tags: default scope excludes proof;
wenzelm
parents: 69683
diff changeset
   362
definition\<^marker>\<open>tag important\<close>
69600
86e8e7347ac0 typed definitions
nipkow
parents: 69597
diff changeset
   363
bilinear :: "('a::real_vector \<Rightarrow> 'b::real_vector \<Rightarrow> 'c::real_vector) \<Rightarrow> bool" where
86e8e7347ac0 typed definitions
nipkow
parents: 69597
diff changeset
   364
"bilinear f \<longleftrightarrow> (\<forall>x. linear (\<lambda>y. f x y)) \<and> (\<forall>y. linear (\<lambda>x. f x y))"
63050
ca4cce24c75d Linear_Algebra: move abstract concepts to front
hoelzl
parents: 63007
diff changeset
   365
ca4cce24c75d Linear_Algebra: move abstract concepts to front
hoelzl
parents: 63007
diff changeset
   366
lemma bilinear_ladd: "bilinear h \<Longrightarrow> h (x + y) z = h x z + h y z"
ca4cce24c75d Linear_Algebra: move abstract concepts to front
hoelzl
parents: 63007
diff changeset
   367
  by (simp add: bilinear_def linear_iff)
ca4cce24c75d Linear_Algebra: move abstract concepts to front
hoelzl
parents: 63007
diff changeset
   368
ca4cce24c75d Linear_Algebra: move abstract concepts to front
hoelzl
parents: 63007
diff changeset
   369
lemma bilinear_radd: "bilinear h \<Longrightarrow> h x (y + z) = h x y + h x z"
ca4cce24c75d Linear_Algebra: move abstract concepts to front
hoelzl
parents: 63007
diff changeset
   370
  by (simp add: bilinear_def linear_iff)
ca4cce24c75d Linear_Algebra: move abstract concepts to front
hoelzl
parents: 63007
diff changeset
   371
70707
125705f5965f A little-known material, and some tidying up
paulson <lp15@cam.ac.uk>
parents: 70688
diff changeset
   372
lemma bilinear_times:
125705f5965f A little-known material, and some tidying up
paulson <lp15@cam.ac.uk>
parents: 70688
diff changeset
   373
  fixes c::"'a::real_algebra" shows "bilinear (\<lambda>x y::'a. x*y)"
125705f5965f A little-known material, and some tidying up
paulson <lp15@cam.ac.uk>
parents: 70688
diff changeset
   374
  by (auto simp: bilinear_def distrib_left distrib_right intro!: linearI)
125705f5965f A little-known material, and some tidying up
paulson <lp15@cam.ac.uk>
parents: 70688
diff changeset
   375
63050
ca4cce24c75d Linear_Algebra: move abstract concepts to front
hoelzl
parents: 63007
diff changeset
   376
lemma bilinear_lmul: "bilinear h \<Longrightarrow> h (c *\<^sub>R x) y = c *\<^sub>R h x y"
ca4cce24c75d Linear_Algebra: move abstract concepts to front
hoelzl
parents: 63007
diff changeset
   377
  by (simp add: bilinear_def linear_iff)
ca4cce24c75d Linear_Algebra: move abstract concepts to front
hoelzl
parents: 63007
diff changeset
   378
ca4cce24c75d Linear_Algebra: move abstract concepts to front
hoelzl
parents: 63007
diff changeset
   379
lemma bilinear_rmul: "bilinear h \<Longrightarrow> h x (c *\<^sub>R y) = c *\<^sub>R h x y"
ca4cce24c75d Linear_Algebra: move abstract concepts to front
hoelzl
parents: 63007
diff changeset
   380
  by (simp add: bilinear_def linear_iff)
ca4cce24c75d Linear_Algebra: move abstract concepts to front
hoelzl
parents: 63007
diff changeset
   381
ca4cce24c75d Linear_Algebra: move abstract concepts to front
hoelzl
parents: 63007
diff changeset
   382
lemma bilinear_lneg: "bilinear h \<Longrightarrow> h (- x) y = - h x y"
ca4cce24c75d Linear_Algebra: move abstract concepts to front
hoelzl
parents: 63007
diff changeset
   383
  by (drule bilinear_lmul [of _ "- 1"]) simp
ca4cce24c75d Linear_Algebra: move abstract concepts to front
hoelzl
parents: 63007
diff changeset
   384
ca4cce24c75d Linear_Algebra: move abstract concepts to front
hoelzl
parents: 63007
diff changeset
   385
lemma bilinear_rneg: "bilinear h \<Longrightarrow> h x (- y) = - h x y"
ca4cce24c75d Linear_Algebra: move abstract concepts to front
hoelzl
parents: 63007
diff changeset
   386
  by (drule bilinear_rmul [of _ _ "- 1"]) simp
ca4cce24c75d Linear_Algebra: move abstract concepts to front
hoelzl
parents: 63007
diff changeset
   387
ca4cce24c75d Linear_Algebra: move abstract concepts to front
hoelzl
parents: 63007
diff changeset
   388
lemma (in ab_group_add) eq_add_iff: "x = x + y \<longleftrightarrow> y = 0"
ca4cce24c75d Linear_Algebra: move abstract concepts to front
hoelzl
parents: 63007
diff changeset
   389
  using add_left_imp_eq[of x y 0] by auto
ca4cce24c75d Linear_Algebra: move abstract concepts to front
hoelzl
parents: 63007
diff changeset
   390
ca4cce24c75d Linear_Algebra: move abstract concepts to front
hoelzl
parents: 63007
diff changeset
   391
lemma bilinear_lzero:
ca4cce24c75d Linear_Algebra: move abstract concepts to front
hoelzl
parents: 63007
diff changeset
   392
  assumes "bilinear h"
ca4cce24c75d Linear_Algebra: move abstract concepts to front
hoelzl
parents: 63007
diff changeset
   393
  shows "h 0 x = 0"
ca4cce24c75d Linear_Algebra: move abstract concepts to front
hoelzl
parents: 63007
diff changeset
   394
  using bilinear_ladd [OF assms, of 0 0 x] by (simp add: eq_add_iff field_simps)
ca4cce24c75d Linear_Algebra: move abstract concepts to front
hoelzl
parents: 63007
diff changeset
   395
ca4cce24c75d Linear_Algebra: move abstract concepts to front
hoelzl
parents: 63007
diff changeset
   396
lemma bilinear_rzero:
ca4cce24c75d Linear_Algebra: move abstract concepts to front
hoelzl
parents: 63007
diff changeset
   397
  assumes "bilinear h"
ca4cce24c75d Linear_Algebra: move abstract concepts to front
hoelzl
parents: 63007
diff changeset
   398
  shows "h x 0 = 0"
ca4cce24c75d Linear_Algebra: move abstract concepts to front
hoelzl
parents: 63007
diff changeset
   399
  using bilinear_radd [OF assms, of x 0 0 ] by (simp add: eq_add_iff field_simps)
ca4cce24c75d Linear_Algebra: move abstract concepts to front
hoelzl
parents: 63007
diff changeset
   400
ca4cce24c75d Linear_Algebra: move abstract concepts to front
hoelzl
parents: 63007
diff changeset
   401
lemma bilinear_lsub: "bilinear h \<Longrightarrow> h (x - y) z = h x z - h y z"
ca4cce24c75d Linear_Algebra: move abstract concepts to front
hoelzl
parents: 63007
diff changeset
   402
  using bilinear_ladd [of h x "- y"] by (simp add: bilinear_lneg)
ca4cce24c75d Linear_Algebra: move abstract concepts to front
hoelzl
parents: 63007
diff changeset
   403
ca4cce24c75d Linear_Algebra: move abstract concepts to front
hoelzl
parents: 63007
diff changeset
   404
lemma bilinear_rsub: "bilinear h \<Longrightarrow> h z (x - y) = h z x - h z y"
ca4cce24c75d Linear_Algebra: move abstract concepts to front
hoelzl
parents: 63007
diff changeset
   405
  using bilinear_radd [of h _ x "- y"] by (simp add: bilinear_rneg)
ca4cce24c75d Linear_Algebra: move abstract concepts to front
hoelzl
parents: 63007
diff changeset
   406
64267
b9a1486e79be setsum -> sum
nipkow
parents: 64122
diff changeset
   407
lemma bilinear_sum:
68072
493b818e8e10 added Johannes' generalizations Modules.thy and Vector_Spaces.thy; adapted HOL and HOL-Analysis accordingly
immler
parents: 67982
diff changeset
   408
  assumes "bilinear h"
64267
b9a1486e79be setsum -> sum
nipkow
parents: 64122
diff changeset
   409
  shows "h (sum f S) (sum g T) = sum (\<lambda>(i,j). h (f i) (g j)) (S \<times> T) "
63050
ca4cce24c75d Linear_Algebra: move abstract concepts to front
hoelzl
parents: 63007
diff changeset
   410
proof -
68072
493b818e8e10 added Johannes' generalizations Modules.thy and Vector_Spaces.thy; adapted HOL and HOL-Analysis accordingly
immler
parents: 67982
diff changeset
   411
  interpret l: linear "\<lambda>x. h x y" for y using assms by (simp add: bilinear_def)
493b818e8e10 added Johannes' generalizations Modules.thy and Vector_Spaces.thy; adapted HOL and HOL-Analysis accordingly
immler
parents: 67982
diff changeset
   412
  interpret r: linear "\<lambda>y. h x y" for x using assms by (simp add: bilinear_def)
64267
b9a1486e79be setsum -> sum
nipkow
parents: 64122
diff changeset
   413
  have "h (sum f S) (sum g T) = sum (\<lambda>x. h (f x) (sum g T)) S"
68072
493b818e8e10 added Johannes' generalizations Modules.thy and Vector_Spaces.thy; adapted HOL and HOL-Analysis accordingly
immler
parents: 67982
diff changeset
   414
    by (simp add: l.sum)
64267
b9a1486e79be setsum -> sum
nipkow
parents: 64122
diff changeset
   415
  also have "\<dots> = sum (\<lambda>x. sum (\<lambda>y. h (f x) (g y)) T) S"
68072
493b818e8e10 added Johannes' generalizations Modules.thy and Vector_Spaces.thy; adapted HOL and HOL-Analysis accordingly
immler
parents: 67982
diff changeset
   416
    by (rule sum.cong) (simp_all add: r.sum)
63050
ca4cce24c75d Linear_Algebra: move abstract concepts to front
hoelzl
parents: 63007
diff changeset
   417
  finally show ?thesis
64267
b9a1486e79be setsum -> sum
nipkow
parents: 64122
diff changeset
   418
    unfolding sum.cartesian_product .
63050
ca4cce24c75d Linear_Algebra: move abstract concepts to front
hoelzl
parents: 63007
diff changeset
   419
qed
ca4cce24c75d Linear_Algebra: move abstract concepts to front
hoelzl
parents: 63007
diff changeset
   420
ca4cce24c75d Linear_Algebra: move abstract concepts to front
hoelzl
parents: 63007
diff changeset
   421
68901
nipkow
parents: 68607
diff changeset
   422
subsection \<open>Adjoints\<close>
63050
ca4cce24c75d Linear_Algebra: move abstract concepts to front
hoelzl
parents: 63007
diff changeset
   423
70136
f03a01a18c6e modernized tags: default scope excludes proof;
wenzelm
parents: 69683
diff changeset
   424
definition\<^marker>\<open>tag important\<close> adjoint :: "(('a::real_inner) \<Rightarrow> ('b::real_inner)) \<Rightarrow> 'b \<Rightarrow> 'a" where
69600
86e8e7347ac0 typed definitions
nipkow
parents: 69597
diff changeset
   425
"adjoint f = (SOME f'. \<forall>x y. f x \<bullet> y = x \<bullet> f' y)"
63050
ca4cce24c75d Linear_Algebra: move abstract concepts to front
hoelzl
parents: 63007
diff changeset
   426
ca4cce24c75d Linear_Algebra: move abstract concepts to front
hoelzl
parents: 63007
diff changeset
   427
lemma adjoint_unique:
ca4cce24c75d Linear_Algebra: move abstract concepts to front
hoelzl
parents: 63007
diff changeset
   428
  assumes "\<forall>x y. inner (f x) y = inner x (g y)"
ca4cce24c75d Linear_Algebra: move abstract concepts to front
hoelzl
parents: 63007
diff changeset
   429
  shows "adjoint f = g"
ca4cce24c75d Linear_Algebra: move abstract concepts to front
hoelzl
parents: 63007
diff changeset
   430
  unfolding adjoint_def
ca4cce24c75d Linear_Algebra: move abstract concepts to front
hoelzl
parents: 63007
diff changeset
   431
proof (rule some_equality)
ca4cce24c75d Linear_Algebra: move abstract concepts to front
hoelzl
parents: 63007
diff changeset
   432
  show "\<forall>x y. inner (f x) y = inner x (g y)"
ca4cce24c75d Linear_Algebra: move abstract concepts to front
hoelzl
parents: 63007
diff changeset
   433
    by (rule assms)
ca4cce24c75d Linear_Algebra: move abstract concepts to front
hoelzl
parents: 63007
diff changeset
   434
next
ca4cce24c75d Linear_Algebra: move abstract concepts to front
hoelzl
parents: 63007
diff changeset
   435
  fix h
ca4cce24c75d Linear_Algebra: move abstract concepts to front
hoelzl
parents: 63007
diff changeset
   436
  assume "\<forall>x y. inner (f x) y = inner x (h y)"
ca4cce24c75d Linear_Algebra: move abstract concepts to front
hoelzl
parents: 63007
diff changeset
   437
  then have "\<forall>x y. inner x (g y) = inner x (h y)"
ca4cce24c75d Linear_Algebra: move abstract concepts to front
hoelzl
parents: 63007
diff changeset
   438
    using assms by simp
ca4cce24c75d Linear_Algebra: move abstract concepts to front
hoelzl
parents: 63007
diff changeset
   439
  then have "\<forall>x y. inner x (g y - h y) = 0"
ca4cce24c75d Linear_Algebra: move abstract concepts to front
hoelzl
parents: 63007
diff changeset
   440
    by (simp add: inner_diff_right)
ca4cce24c75d Linear_Algebra: move abstract concepts to front
hoelzl
parents: 63007
diff changeset
   441
  then have "\<forall>y. inner (g y - h y) (g y - h y) = 0"
ca4cce24c75d Linear_Algebra: move abstract concepts to front
hoelzl
parents: 63007
diff changeset
   442
    by simp
ca4cce24c75d Linear_Algebra: move abstract concepts to front
hoelzl
parents: 63007
diff changeset
   443
  then have "\<forall>y. h y = g y"
ca4cce24c75d Linear_Algebra: move abstract concepts to front
hoelzl
parents: 63007
diff changeset
   444
    by simp
ca4cce24c75d Linear_Algebra: move abstract concepts to front
hoelzl
parents: 63007
diff changeset
   445
  then show "h = g" by (simp add: ext)
ca4cce24c75d Linear_Algebra: move abstract concepts to front
hoelzl
parents: 63007
diff changeset
   446
qed
ca4cce24c75d Linear_Algebra: move abstract concepts to front
hoelzl
parents: 63007
diff changeset
   447
ca4cce24c75d Linear_Algebra: move abstract concepts to front
hoelzl
parents: 63007
diff changeset
   448
text \<open>TODO: The following lemmas about adjoints should hold for any
63680
6e1e8b5abbfa more symbols;
wenzelm
parents: 63627
diff changeset
   449
  Hilbert space (i.e. complete inner product space).
68224
1f7308050349 prefer HTTPS;
wenzelm
parents: 68074
diff changeset
   450
  (see \<^url>\<open>https://en.wikipedia.org/wiki/Hermitian_adjoint\<close>)
63050
ca4cce24c75d Linear_Algebra: move abstract concepts to front
hoelzl
parents: 63007
diff changeset
   451
\<close>
ca4cce24c75d Linear_Algebra: move abstract concepts to front
hoelzl
parents: 63007
diff changeset
   452
ca4cce24c75d Linear_Algebra: move abstract concepts to front
hoelzl
parents: 63007
diff changeset
   453
lemma adjoint_works:
ca4cce24c75d Linear_Algebra: move abstract concepts to front
hoelzl
parents: 63007
diff changeset
   454
  fixes f :: "'n::euclidean_space \<Rightarrow> 'm::euclidean_space"
ca4cce24c75d Linear_Algebra: move abstract concepts to front
hoelzl
parents: 63007
diff changeset
   455
  assumes lf: "linear f"
ca4cce24c75d Linear_Algebra: move abstract concepts to front
hoelzl
parents: 63007
diff changeset
   456
  shows "x \<bullet> adjoint f y = f x \<bullet> y"
ca4cce24c75d Linear_Algebra: move abstract concepts to front
hoelzl
parents: 63007
diff changeset
   457
proof -
68072
493b818e8e10 added Johannes' generalizations Modules.thy and Vector_Spaces.thy; adapted HOL and HOL-Analysis accordingly
immler
parents: 67982
diff changeset
   458
  interpret linear f by fact
63050
ca4cce24c75d Linear_Algebra: move abstract concepts to front
hoelzl
parents: 63007
diff changeset
   459
  have "\<forall>y. \<exists>w. \<forall>x. f x \<bullet> y = x \<bullet> w"
ca4cce24c75d Linear_Algebra: move abstract concepts to front
hoelzl
parents: 63007
diff changeset
   460
  proof (intro allI exI)
ca4cce24c75d Linear_Algebra: move abstract concepts to front
hoelzl
parents: 63007
diff changeset
   461
    fix y :: "'m" and x
ca4cce24c75d Linear_Algebra: move abstract concepts to front
hoelzl
parents: 63007
diff changeset
   462
    let ?w = "(\<Sum>i\<in>Basis. (f i \<bullet> y) *\<^sub>R i) :: 'n"
ca4cce24c75d Linear_Algebra: move abstract concepts to front
hoelzl
parents: 63007
diff changeset
   463
    have "f x \<bullet> y = f (\<Sum>i\<in>Basis. (x \<bullet> i) *\<^sub>R i) \<bullet> y"
ca4cce24c75d Linear_Algebra: move abstract concepts to front
hoelzl
parents: 63007
diff changeset
   464
      by (simp add: euclidean_representation)
ca4cce24c75d Linear_Algebra: move abstract concepts to front
hoelzl
parents: 63007
diff changeset
   465
    also have "\<dots> = (\<Sum>i\<in>Basis. (x \<bullet> i) *\<^sub>R f i) \<bullet> y"
68072
493b818e8e10 added Johannes' generalizations Modules.thy and Vector_Spaces.thy; adapted HOL and HOL-Analysis accordingly
immler
parents: 67982
diff changeset
   466
      by (simp add: sum scale)
63050
ca4cce24c75d Linear_Algebra: move abstract concepts to front
hoelzl
parents: 63007
diff changeset
   467
    finally show "f x \<bullet> y = x \<bullet> ?w"
64267
b9a1486e79be setsum -> sum
nipkow
parents: 64122
diff changeset
   468
      by (simp add: inner_sum_left inner_sum_right mult.commute)
63050
ca4cce24c75d Linear_Algebra: move abstract concepts to front
hoelzl
parents: 63007
diff changeset
   469
  qed
ca4cce24c75d Linear_Algebra: move abstract concepts to front
hoelzl
parents: 63007
diff changeset
   470
  then show ?thesis
ca4cce24c75d Linear_Algebra: move abstract concepts to front
hoelzl
parents: 63007
diff changeset
   471
    unfolding adjoint_def choice_iff
ca4cce24c75d Linear_Algebra: move abstract concepts to front
hoelzl
parents: 63007
diff changeset
   472
    by (intro someI2_ex[where Q="\<lambda>f'. x \<bullet> f' y = f x \<bullet> y"]) auto
ca4cce24c75d Linear_Algebra: move abstract concepts to front
hoelzl
parents: 63007
diff changeset
   473
qed
ca4cce24c75d Linear_Algebra: move abstract concepts to front
hoelzl
parents: 63007
diff changeset
   474
ca4cce24c75d Linear_Algebra: move abstract concepts to front
hoelzl
parents: 63007
diff changeset
   475
lemma adjoint_clauses:
ca4cce24c75d Linear_Algebra: move abstract concepts to front
hoelzl
parents: 63007
diff changeset
   476
  fixes f :: "'n::euclidean_space \<Rightarrow> 'm::euclidean_space"
ca4cce24c75d Linear_Algebra: move abstract concepts to front
hoelzl
parents: 63007
diff changeset
   477
  assumes lf: "linear f"
ca4cce24c75d Linear_Algebra: move abstract concepts to front
hoelzl
parents: 63007
diff changeset
   478
  shows "x \<bullet> adjoint f y = f x \<bullet> y"
ca4cce24c75d Linear_Algebra: move abstract concepts to front
hoelzl
parents: 63007
diff changeset
   479
    and "adjoint f y \<bullet> x = y \<bullet> f x"
ca4cce24c75d Linear_Algebra: move abstract concepts to front
hoelzl
parents: 63007
diff changeset
   480
  by (simp_all add: adjoint_works[OF lf] inner_commute)
ca4cce24c75d Linear_Algebra: move abstract concepts to front
hoelzl
parents: 63007
diff changeset
   481
ca4cce24c75d Linear_Algebra: move abstract concepts to front
hoelzl
parents: 63007
diff changeset
   482
lemma adjoint_linear:
ca4cce24c75d Linear_Algebra: move abstract concepts to front
hoelzl
parents: 63007
diff changeset
   483
  fixes f :: "'n::euclidean_space \<Rightarrow> 'm::euclidean_space"
ca4cce24c75d Linear_Algebra: move abstract concepts to front
hoelzl
parents: 63007
diff changeset
   484
  assumes lf: "linear f"
ca4cce24c75d Linear_Algebra: move abstract concepts to front
hoelzl
parents: 63007
diff changeset
   485
  shows "linear (adjoint f)"
ca4cce24c75d Linear_Algebra: move abstract concepts to front
hoelzl
parents: 63007
diff changeset
   486
  by (simp add: lf linear_iff euclidean_eq_iff[where 'a='n] euclidean_eq_iff[where 'a='m]
ca4cce24c75d Linear_Algebra: move abstract concepts to front
hoelzl
parents: 63007
diff changeset
   487
    adjoint_clauses[OF lf] inner_distrib)
ca4cce24c75d Linear_Algebra: move abstract concepts to front
hoelzl
parents: 63007
diff changeset
   488
ca4cce24c75d Linear_Algebra: move abstract concepts to front
hoelzl
parents: 63007
diff changeset
   489
lemma adjoint_adjoint:
ca4cce24c75d Linear_Algebra: move abstract concepts to front
hoelzl
parents: 63007
diff changeset
   490
  fixes f :: "'n::euclidean_space \<Rightarrow> 'm::euclidean_space"
ca4cce24c75d Linear_Algebra: move abstract concepts to front
hoelzl
parents: 63007
diff changeset
   491
  assumes lf: "linear f"
ca4cce24c75d Linear_Algebra: move abstract concepts to front
hoelzl
parents: 63007
diff changeset
   492
  shows "adjoint (adjoint f) = f"
ca4cce24c75d Linear_Algebra: move abstract concepts to front
hoelzl
parents: 63007
diff changeset
   493
  by (rule adjoint_unique, simp add: adjoint_clauses [OF lf])
ca4cce24c75d Linear_Algebra: move abstract concepts to front
hoelzl
parents: 63007
diff changeset
   494
ca4cce24c75d Linear_Algebra: move abstract concepts to front
hoelzl
parents: 63007
diff changeset
   495
ca4cce24c75d Linear_Algebra: move abstract concepts to front
hoelzl
parents: 63007
diff changeset
   496
subsection \<open>Archimedean properties and useful consequences\<close>
ca4cce24c75d Linear_Algebra: move abstract concepts to front
hoelzl
parents: 63007
diff changeset
   497
ca4cce24c75d Linear_Algebra: move abstract concepts to front
hoelzl
parents: 63007
diff changeset
   498
text\<open>Bernoulli's inequality\<close>
68607
67bb59e49834 make theorem, corollary, and proposition %important for HOL-Analysis manual
immler
parents: 68224
diff changeset
   499
proposition Bernoulli_inequality:
63050
ca4cce24c75d Linear_Algebra: move abstract concepts to front
hoelzl
parents: 63007
diff changeset
   500
  fixes x :: real
ca4cce24c75d Linear_Algebra: move abstract concepts to front
hoelzl
parents: 63007
diff changeset
   501
  assumes "-1 \<le> x"
ca4cce24c75d Linear_Algebra: move abstract concepts to front
hoelzl
parents: 63007
diff changeset
   502
    shows "1 + n * x \<le> (1 + x) ^ n"
68607
67bb59e49834 make theorem, corollary, and proposition %important for HOL-Analysis manual
immler
parents: 68224
diff changeset
   503
proof (induct n)
63050
ca4cce24c75d Linear_Algebra: move abstract concepts to front
hoelzl
parents: 63007
diff changeset
   504
  case 0
ca4cce24c75d Linear_Algebra: move abstract concepts to front
hoelzl
parents: 63007
diff changeset
   505
  then show ?case by simp
ca4cce24c75d Linear_Algebra: move abstract concepts to front
hoelzl
parents: 63007
diff changeset
   506
next
ca4cce24c75d Linear_Algebra: move abstract concepts to front
hoelzl
parents: 63007
diff changeset
   507
  case (Suc n)
ca4cce24c75d Linear_Algebra: move abstract concepts to front
hoelzl
parents: 63007
diff changeset
   508
  have "1 + Suc n * x \<le> 1 + (Suc n)*x + n * x^2"
ca4cce24c75d Linear_Algebra: move abstract concepts to front
hoelzl
parents: 63007
diff changeset
   509
    by (simp add: algebra_simps)
ca4cce24c75d Linear_Algebra: move abstract concepts to front
hoelzl
parents: 63007
diff changeset
   510
  also have "... = (1 + x) * (1 + n*x)"
ca4cce24c75d Linear_Algebra: move abstract concepts to front
hoelzl
parents: 63007
diff changeset
   511
    by (auto simp: power2_eq_square algebra_simps  of_nat_Suc)
ca4cce24c75d Linear_Algebra: move abstract concepts to front
hoelzl
parents: 63007
diff changeset
   512
  also have "... \<le> (1 + x) ^ Suc n"
ca4cce24c75d Linear_Algebra: move abstract concepts to front
hoelzl
parents: 63007
diff changeset
   513
    using Suc.hyps assms mult_left_mono by fastforce
ca4cce24c75d Linear_Algebra: move abstract concepts to front
hoelzl
parents: 63007
diff changeset
   514
  finally show ?case .
ca4cce24c75d Linear_Algebra: move abstract concepts to front
hoelzl
parents: 63007
diff changeset
   515
qed
ca4cce24c75d Linear_Algebra: move abstract concepts to front
hoelzl
parents: 63007
diff changeset
   516
ca4cce24c75d Linear_Algebra: move abstract concepts to front
hoelzl
parents: 63007
diff changeset
   517
corollary Bernoulli_inequality_even:
ca4cce24c75d Linear_Algebra: move abstract concepts to front
hoelzl
parents: 63007
diff changeset
   518
  fixes x :: real
ca4cce24c75d Linear_Algebra: move abstract concepts to front
hoelzl
parents: 63007
diff changeset
   519
  assumes "even n"
ca4cce24c75d Linear_Algebra: move abstract concepts to front
hoelzl
parents: 63007
diff changeset
   520
    shows "1 + n * x \<le> (1 + x) ^ n"
ca4cce24c75d Linear_Algebra: move abstract concepts to front
hoelzl
parents: 63007
diff changeset
   521
proof (cases "-1 \<le> x \<or> n=0")
ca4cce24c75d Linear_Algebra: move abstract concepts to front
hoelzl
parents: 63007
diff changeset
   522
  case True
ca4cce24c75d Linear_Algebra: move abstract concepts to front
hoelzl
parents: 63007
diff changeset
   523
  then show ?thesis
ca4cce24c75d Linear_Algebra: move abstract concepts to front
hoelzl
parents: 63007
diff changeset
   524
    by (auto simp: Bernoulli_inequality)
ca4cce24c75d Linear_Algebra: move abstract concepts to front
hoelzl
parents: 63007
diff changeset
   525
next
ca4cce24c75d Linear_Algebra: move abstract concepts to front
hoelzl
parents: 63007
diff changeset
   526
  case False
ca4cce24c75d Linear_Algebra: move abstract concepts to front
hoelzl
parents: 63007
diff changeset
   527
  then have "real n \<ge> 1"
ca4cce24c75d Linear_Algebra: move abstract concepts to front
hoelzl
parents: 63007
diff changeset
   528
    by simp
ca4cce24c75d Linear_Algebra: move abstract concepts to front
hoelzl
parents: 63007
diff changeset
   529
  with False have "n * x \<le> -1"
ca4cce24c75d Linear_Algebra: move abstract concepts to front
hoelzl
parents: 63007
diff changeset
   530
    by (metis linear minus_zero mult.commute mult.left_neutral mult_left_mono_neg neg_le_iff_le order_trans zero_le_one)
ca4cce24c75d Linear_Algebra: move abstract concepts to front
hoelzl
parents: 63007
diff changeset
   531
  then have "1 + n * x \<le> 0"
ca4cce24c75d Linear_Algebra: move abstract concepts to front
hoelzl
parents: 63007
diff changeset
   532
    by auto
ca4cce24c75d Linear_Algebra: move abstract concepts to front
hoelzl
parents: 63007
diff changeset
   533
  also have "... \<le> (1 + x) ^ n"
ca4cce24c75d Linear_Algebra: move abstract concepts to front
hoelzl
parents: 63007
diff changeset
   534
    using assms
ca4cce24c75d Linear_Algebra: move abstract concepts to front
hoelzl
parents: 63007
diff changeset
   535
    using zero_le_even_power by blast
ca4cce24c75d Linear_Algebra: move abstract concepts to front
hoelzl
parents: 63007
diff changeset
   536
  finally show ?thesis .
ca4cce24c75d Linear_Algebra: move abstract concepts to front
hoelzl
parents: 63007
diff changeset
   537
qed
ca4cce24c75d Linear_Algebra: move abstract concepts to front
hoelzl
parents: 63007
diff changeset
   538
ca4cce24c75d Linear_Algebra: move abstract concepts to front
hoelzl
parents: 63007
diff changeset
   539
corollary real_arch_pow:
ca4cce24c75d Linear_Algebra: move abstract concepts to front
hoelzl
parents: 63007
diff changeset
   540
  fixes x :: real
ca4cce24c75d Linear_Algebra: move abstract concepts to front
hoelzl
parents: 63007
diff changeset
   541
  assumes x: "1 < x"
ca4cce24c75d Linear_Algebra: move abstract concepts to front
hoelzl
parents: 63007
diff changeset
   542
  shows "\<exists>n. y < x^n"
ca4cce24c75d Linear_Algebra: move abstract concepts to front
hoelzl
parents: 63007
diff changeset
   543
proof -
ca4cce24c75d Linear_Algebra: move abstract concepts to front
hoelzl
parents: 63007
diff changeset
   544
  from x have x0: "x - 1 > 0"
ca4cce24c75d Linear_Algebra: move abstract concepts to front
hoelzl
parents: 63007
diff changeset
   545
    by arith
ca4cce24c75d Linear_Algebra: move abstract concepts to front
hoelzl
parents: 63007
diff changeset
   546
  from reals_Archimedean3[OF x0, rule_format, of y]
ca4cce24c75d Linear_Algebra: move abstract concepts to front
hoelzl
parents: 63007
diff changeset
   547
  obtain n :: nat where n: "y < real n * (x - 1)" by metis
ca4cce24c75d Linear_Algebra: move abstract concepts to front
hoelzl
parents: 63007
diff changeset
   548
  from x0 have x00: "x- 1 \<ge> -1" by arith
ca4cce24c75d Linear_Algebra: move abstract concepts to front
hoelzl
parents: 63007
diff changeset
   549
  from Bernoulli_inequality[OF x00, of n] n
ca4cce24c75d Linear_Algebra: move abstract concepts to front
hoelzl
parents: 63007
diff changeset
   550
  have "y < x^n" by auto
ca4cce24c75d Linear_Algebra: move abstract concepts to front
hoelzl
parents: 63007
diff changeset
   551
  then show ?thesis by metis
ca4cce24c75d Linear_Algebra: move abstract concepts to front
hoelzl
parents: 63007
diff changeset
   552
qed
ca4cce24c75d Linear_Algebra: move abstract concepts to front
hoelzl
parents: 63007
diff changeset
   553
ca4cce24c75d Linear_Algebra: move abstract concepts to front
hoelzl
parents: 63007
diff changeset
   554
corollary real_arch_pow_inv:
ca4cce24c75d Linear_Algebra: move abstract concepts to front
hoelzl
parents: 63007
diff changeset
   555
  fixes x y :: real
ca4cce24c75d Linear_Algebra: move abstract concepts to front
hoelzl
parents: 63007
diff changeset
   556
  assumes y: "y > 0"
ca4cce24c75d Linear_Algebra: move abstract concepts to front
hoelzl
parents: 63007
diff changeset
   557
    and x1: "x < 1"
ca4cce24c75d Linear_Algebra: move abstract concepts to front
hoelzl
parents: 63007
diff changeset
   558
  shows "\<exists>n. x^n < y"
ca4cce24c75d Linear_Algebra: move abstract concepts to front
hoelzl
parents: 63007
diff changeset
   559
proof (cases "x > 0")
ca4cce24c75d Linear_Algebra: move abstract concepts to front
hoelzl
parents: 63007
diff changeset
   560
  case True
ca4cce24c75d Linear_Algebra: move abstract concepts to front
hoelzl
parents: 63007
diff changeset
   561
  with x1 have ix: "1 < 1/x" by (simp add: field_simps)
ca4cce24c75d Linear_Algebra: move abstract concepts to front
hoelzl
parents: 63007
diff changeset
   562
  from real_arch_pow[OF ix, of "1/y"]
ca4cce24c75d Linear_Algebra: move abstract concepts to front
hoelzl
parents: 63007
diff changeset
   563
  obtain n where n: "1/y < (1/x)^n" by blast
ca4cce24c75d Linear_Algebra: move abstract concepts to front
hoelzl
parents: 63007
diff changeset
   564
  then show ?thesis using y \<open>x > 0\<close>
ca4cce24c75d Linear_Algebra: move abstract concepts to front
hoelzl
parents: 63007
diff changeset
   565
    by (auto simp add: field_simps)
ca4cce24c75d Linear_Algebra: move abstract concepts to front
hoelzl
parents: 63007
diff changeset
   566
next
ca4cce24c75d Linear_Algebra: move abstract concepts to front
hoelzl
parents: 63007
diff changeset
   567
  case False
ca4cce24c75d Linear_Algebra: move abstract concepts to front
hoelzl
parents: 63007
diff changeset
   568
  with y x1 show ?thesis
68069
36209dfb981e tidying up and using real induction methods
paulson <lp15@cam.ac.uk>
parents: 68062
diff changeset
   569
    by (metis less_le_trans not_less power_one_right)
63050
ca4cce24c75d Linear_Algebra: move abstract concepts to front
hoelzl
parents: 63007
diff changeset
   570
qed
ca4cce24c75d Linear_Algebra: move abstract concepts to front
hoelzl
parents: 63007
diff changeset
   571
ca4cce24c75d Linear_Algebra: move abstract concepts to front
hoelzl
parents: 63007
diff changeset
   572
lemma forall_pos_mono:
ca4cce24c75d Linear_Algebra: move abstract concepts to front
hoelzl
parents: 63007
diff changeset
   573
  "(\<And>d e::real. d < e \<Longrightarrow> P d \<Longrightarrow> P e) \<Longrightarrow>
ca4cce24c75d Linear_Algebra: move abstract concepts to front
hoelzl
parents: 63007
diff changeset
   574
    (\<And>n::nat. n \<noteq> 0 \<Longrightarrow> P (inverse (real n))) \<Longrightarrow> (\<And>e. 0 < e \<Longrightarrow> P e)"
ca4cce24c75d Linear_Algebra: move abstract concepts to front
hoelzl
parents: 63007
diff changeset
   575
  by (metis real_arch_inverse)
ca4cce24c75d Linear_Algebra: move abstract concepts to front
hoelzl
parents: 63007
diff changeset
   576
ca4cce24c75d Linear_Algebra: move abstract concepts to front
hoelzl
parents: 63007
diff changeset
   577
lemma forall_pos_mono_1:
ca4cce24c75d Linear_Algebra: move abstract concepts to front
hoelzl
parents: 63007
diff changeset
   578
  "(\<And>d e::real. d < e \<Longrightarrow> P d \<Longrightarrow> P e) \<Longrightarrow>
ca4cce24c75d Linear_Algebra: move abstract concepts to front
hoelzl
parents: 63007
diff changeset
   579
    (\<And>n. P (inverse (real (Suc n)))) \<Longrightarrow> 0 < e \<Longrightarrow> P e"
ca4cce24c75d Linear_Algebra: move abstract concepts to front
hoelzl
parents: 63007
diff changeset
   580
  apply (rule forall_pos_mono)
ca4cce24c75d Linear_Algebra: move abstract concepts to front
hoelzl
parents: 63007
diff changeset
   581
  apply auto
ca4cce24c75d Linear_Algebra: move abstract concepts to front
hoelzl
parents: 63007
diff changeset
   582
  apply (metis Suc_pred of_nat_Suc)
ca4cce24c75d Linear_Algebra: move abstract concepts to front
hoelzl
parents: 63007
diff changeset
   583
  done
ca4cce24c75d Linear_Algebra: move abstract concepts to front
hoelzl
parents: 63007
diff changeset
   584
ca4cce24c75d Linear_Algebra: move abstract concepts to front
hoelzl
parents: 63007
diff changeset
   585
70136
f03a01a18c6e modernized tags: default scope excludes proof;
wenzelm
parents: 69683
diff changeset
   586
subsection\<^marker>\<open>tag unimportant\<close> \<open>Euclidean Spaces as Typeclass\<close>
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
   587
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
   588
lemma independent_Basis: "independent Basis"
68072
493b818e8e10 added Johannes' generalizations Modules.thy and Vector_Spaces.thy; adapted HOL and HOL-Analysis accordingly
immler
parents: 67982
diff changeset
   589
  by (rule independent_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
   590
53939
eb25bddf6a22 tuned proofs
huffman
parents: 53938
diff changeset
   591
lemma span_Basis [simp]: "span Basis = UNIV"
68072
493b818e8e10 added Johannes' generalizations Modules.thy and Vector_Spaces.thy; adapted HOL and HOL-Analysis accordingly
immler
parents: 67982
diff changeset
   592
  by (rule span_Basis)
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
   593
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
   594
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
   595
  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
   596
53406
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
   597
70136
f03a01a18c6e modernized tags: default scope excludes proof;
wenzelm
parents: 69683
diff changeset
   598
subsection\<^marker>\<open>tag unimportant\<close> \<open>Linearity and Bilinearity continued\<close>
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
   599
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
   600
lemma linear_bounded:
56444
f944ae8c80a3 tuned proofs;
wenzelm
parents: 56409
diff changeset
   601
  fixes f :: "'a::euclidean_space \<Rightarrow> 'b::real_normed_vector"
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
   602
  assumes lf: "linear f"
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
   603
  shows "\<exists>B. \<forall>x. norm (f x) \<le> B * norm x"
53939
eb25bddf6a22 tuned proofs
huffman
parents: 53938
diff changeset
   604
proof
68072
493b818e8e10 added Johannes' generalizations Modules.thy and Vector_Spaces.thy; adapted HOL and HOL-Analysis accordingly
immler
parents: 67982
diff changeset
   605
  interpret linear f by fact
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
   606
  let ?B = "\<Sum>b\<in>Basis. norm (f b)"
53939
eb25bddf6a22 tuned proofs
huffman
parents: 53938
diff changeset
   607
  show "\<forall>x. norm (f x) \<le> ?B * norm x"
eb25bddf6a22 tuned proofs
huffman
parents: 53938
diff changeset
   608
  proof
53406
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
   609
    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
   610
    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
   611
    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
   612
      unfolding euclidean_representation ..
64267
b9a1486e79be setsum -> sum
nipkow
parents: 64122
diff changeset
   613
    also have "\<dots> = norm (sum ?g Basis)"
68072
493b818e8e10 added Johannes' generalizations Modules.thy and Vector_Spaces.thy; adapted HOL and HOL-Analysis accordingly
immler
parents: 67982
diff changeset
   614
      by (simp add: sum scale)
64267
b9a1486e79be setsum -> sum
nipkow
parents: 64122
diff changeset
   615
    finally have th0: "norm (f x) = norm (sum ?g Basis)" .
64773
223b2ebdda79 Many new theorems, and more tidying
paulson <lp15@cam.ac.uk>
parents: 64267
diff changeset
   616
    have th: "norm (?g i) \<le> norm (f i) * norm x" if "i \<in> Basis" for i
223b2ebdda79 Many new theorems, and more tidying
paulson <lp15@cam.ac.uk>
parents: 64267
diff changeset
   617
    proof -
223b2ebdda79 Many new theorems, and more tidying
paulson <lp15@cam.ac.uk>
parents: 64267
diff changeset
   618
      from Basis_le_norm[OF that, of x]
53939
eb25bddf6a22 tuned proofs
huffman
parents: 53938
diff changeset
   619
      show "norm (?g i) \<le> norm (f i) * norm x"
68069
36209dfb981e tidying up and using real induction methods
paulson <lp15@cam.ac.uk>
parents: 68062
diff changeset
   620
        unfolding norm_scaleR  by (metis mult.commute mult_left_mono norm_ge_zero)
53939
eb25bddf6a22 tuned proofs
huffman
parents: 53938
diff changeset
   621
    qed
64267
b9a1486e79be setsum -> sum
nipkow
parents: 64122
diff changeset
   622
    from sum_norm_le[of _ ?g, OF th]
53939
eb25bddf6a22 tuned proofs
huffman
parents: 53938
diff changeset
   623
    show "norm (f x) \<le> ?B * norm x"
64267
b9a1486e79be setsum -> sum
nipkow
parents: 64122
diff changeset
   624
      unfolding th0 sum_distrib_right by metis
53939
eb25bddf6a22 tuned proofs
huffman
parents: 53938
diff changeset
   625
  qed
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
   626
qed
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
   627
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
   628
lemma linear_conv_bounded_linear:
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
   629
  fixes f :: "'a::euclidean_space \<Rightarrow> 'b::real_normed_vector"
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
   630
  shows "linear f \<longleftrightarrow> bounded_linear f"
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
   631
proof
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
   632
  assume "linear f"
53939
eb25bddf6a22 tuned proofs
huffman
parents: 53938
diff changeset
   633
  then interpret f: linear f .
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
   634
  show "bounded_linear f"
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
   635
  proof
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
   636
    have "\<exists>B. \<forall>x. norm (f x) \<le> B * norm x"
60420
884f54e01427 isabelle update_cartouches;
wenzelm
parents: 60307
diff changeset
   637
      using \<open>linear f\<close> by (rule linear_bounded)
49522
355f3d076924 tuned proofs;
wenzelm
parents: 44890
diff changeset
   638
    then show "\<exists>K. \<forall>x. norm (f x) \<le> norm x * K"
57512
cc97b347b301 reduced name variants for assoc and commute on plus and mult
haftmann
parents: 57418
diff changeset
   639
      by (simp add: mult.commute)
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
   640
  qed
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
   641
next
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
   642
  assume "bounded_linear f"
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
   643
  then interpret f: bounded_linear f .
53939
eb25bddf6a22 tuned proofs
huffman
parents: 53938
diff changeset
   644
  show "linear f" ..
eb25bddf6a22 tuned proofs
huffman
parents: 53938
diff changeset
   645
qed
eb25bddf6a22 tuned proofs
huffman
parents: 53938
diff changeset
   646
61518
ff12606337e9 new lemmas about topology, etc., for Cauchy integral formula
paulson
parents: 61306
diff changeset
   647
lemmas linear_linear = linear_conv_bounded_linear[symmetric]
ff12606337e9 new lemmas about topology, etc., for Cauchy integral formula
paulson
parents: 61306
diff changeset
   648
53939
eb25bddf6a22 tuned proofs
huffman
parents: 53938
diff changeset
   649
lemma linear_bounded_pos:
56444
f944ae8c80a3 tuned proofs;
wenzelm
parents: 56409
diff changeset
   650
  fixes f :: "'a::euclidean_space \<Rightarrow> 'b::real_normed_vector"
53939
eb25bddf6a22 tuned proofs
huffman
parents: 53938
diff changeset
   651
  assumes lf: "linear f"
67982
7643b005b29a various new results on measures, integrals, etc., and some simplified proofs
paulson <lp15@cam.ac.uk>
parents: 67962
diff changeset
   652
 obtains B where "B > 0" "\<And>x. norm (f x) \<le> B * norm x"
53939
eb25bddf6a22 tuned proofs
huffman
parents: 53938
diff changeset
   653
proof -
eb25bddf6a22 tuned proofs
huffman
parents: 53938
diff changeset
   654
  have "\<exists>B > 0. \<forall>x. norm (f x) \<le> norm x * B"
eb25bddf6a22 tuned proofs
huffman
parents: 53938
diff changeset
   655
    using lf unfolding linear_conv_bounded_linear
eb25bddf6a22 tuned proofs
huffman
parents: 53938
diff changeset
   656
    by (rule bounded_linear.pos_bounded)
67982
7643b005b29a various new results on measures, integrals, etc., and some simplified proofs
paulson <lp15@cam.ac.uk>
parents: 67962
diff changeset
   657
  with that show ?thesis
7643b005b29a various new results on measures, integrals, etc., and some simplified proofs
paulson <lp15@cam.ac.uk>
parents: 67962
diff changeset
   658
    by (auto simp: mult.commute)
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
   659
qed
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
   660
67982
7643b005b29a various new results on measures, integrals, etc., and some simplified proofs
paulson <lp15@cam.ac.uk>
parents: 67962
diff changeset
   661
lemma linear_invertible_bounded_below_pos:
7643b005b29a various new results on measures, integrals, etc., and some simplified proofs
paulson <lp15@cam.ac.uk>
parents: 67962
diff changeset
   662
  fixes f :: "'a::real_normed_vector \<Rightarrow> 'b::euclidean_space"
7643b005b29a various new results on measures, integrals, etc., and some simplified proofs
paulson <lp15@cam.ac.uk>
parents: 67962
diff changeset
   663
  assumes "linear f" "linear g" "g \<circ> f = id"
7643b005b29a various new results on measures, integrals, etc., and some simplified proofs
paulson <lp15@cam.ac.uk>
parents: 67962
diff changeset
   664
  obtains B where "B > 0" "\<And>x. B * norm x \<le> norm(f x)"
7643b005b29a various new results on measures, integrals, etc., and some simplified proofs
paulson <lp15@cam.ac.uk>
parents: 67962
diff changeset
   665
proof -
7643b005b29a various new results on measures, integrals, etc., and some simplified proofs
paulson <lp15@cam.ac.uk>
parents: 67962
diff changeset
   666
  obtain B where "B > 0" and B: "\<And>x. norm (g x) \<le> B * norm x"
7643b005b29a various new results on measures, integrals, etc., and some simplified proofs
paulson <lp15@cam.ac.uk>
parents: 67962
diff changeset
   667
    using linear_bounded_pos [OF \<open>linear g\<close>] by blast
7643b005b29a various new results on measures, integrals, etc., and some simplified proofs
paulson <lp15@cam.ac.uk>
parents: 67962
diff changeset
   668
  show thesis
7643b005b29a various new results on measures, integrals, etc., and some simplified proofs
paulson <lp15@cam.ac.uk>
parents: 67962
diff changeset
   669
  proof
7643b005b29a various new results on measures, integrals, etc., and some simplified proofs
paulson <lp15@cam.ac.uk>
parents: 67962
diff changeset
   670
    show "0 < 1/B"
7643b005b29a various new results on measures, integrals, etc., and some simplified proofs
paulson <lp15@cam.ac.uk>
parents: 67962
diff changeset
   671
      by (simp add: \<open>B > 0\<close>)
7643b005b29a various new results on measures, integrals, etc., and some simplified proofs
paulson <lp15@cam.ac.uk>
parents: 67962
diff changeset
   672
    show "1/B * norm x \<le> norm (f x)" for x
7643b005b29a various new results on measures, integrals, etc., and some simplified proofs
paulson <lp15@cam.ac.uk>
parents: 67962
diff changeset
   673
    proof -
7643b005b29a various new results on measures, integrals, etc., and some simplified proofs
paulson <lp15@cam.ac.uk>
parents: 67962
diff changeset
   674
      have "1/B * norm x = 1/B * norm (g (f x))"
7643b005b29a various new results on measures, integrals, etc., and some simplified proofs
paulson <lp15@cam.ac.uk>
parents: 67962
diff changeset
   675
        using assms by (simp add: pointfree_idE)
7643b005b29a various new results on measures, integrals, etc., and some simplified proofs
paulson <lp15@cam.ac.uk>
parents: 67962
diff changeset
   676
      also have "\<dots> \<le> norm (f x)"
7643b005b29a various new results on measures, integrals, etc., and some simplified proofs
paulson <lp15@cam.ac.uk>
parents: 67962
diff changeset
   677
        using B [of "f x"] by (simp add: \<open>B > 0\<close> mult.commute pos_divide_le_eq)
7643b005b29a various new results on measures, integrals, etc., and some simplified proofs
paulson <lp15@cam.ac.uk>
parents: 67962
diff changeset
   678
      finally show ?thesis .
7643b005b29a various new results on measures, integrals, etc., and some simplified proofs
paulson <lp15@cam.ac.uk>
parents: 67962
diff changeset
   679
    qed
7643b005b29a various new results on measures, integrals, etc., and some simplified proofs
paulson <lp15@cam.ac.uk>
parents: 67962
diff changeset
   680
  qed
7643b005b29a various new results on measures, integrals, etc., and some simplified proofs
paulson <lp15@cam.ac.uk>
parents: 67962
diff changeset
   681
qed
7643b005b29a various new results on measures, integrals, etc., and some simplified proofs
paulson <lp15@cam.ac.uk>
parents: 67962
diff changeset
   682
7643b005b29a various new results on measures, integrals, etc., and some simplified proofs
paulson <lp15@cam.ac.uk>
parents: 67962
diff changeset
   683
lemma linear_inj_bounded_below_pos:
7643b005b29a various new results on measures, integrals, etc., and some simplified proofs
paulson <lp15@cam.ac.uk>
parents: 67962
diff changeset
   684
  fixes f :: "'a::real_normed_vector \<Rightarrow> 'b::euclidean_space"
7643b005b29a various new results on measures, integrals, etc., and some simplified proofs
paulson <lp15@cam.ac.uk>
parents: 67962
diff changeset
   685
  assumes "linear f" "inj f"
7643b005b29a various new results on measures, integrals, etc., and some simplified proofs
paulson <lp15@cam.ac.uk>
parents: 67962
diff changeset
   686
  obtains B where "B > 0" "\<And>x. B * norm x \<le> norm(f x)"
68072
493b818e8e10 added Johannes' generalizations Modules.thy and Vector_Spaces.thy; adapted HOL and HOL-Analysis accordingly
immler
parents: 67982
diff changeset
   687
  using linear_injective_left_inverse [OF assms]
493b818e8e10 added Johannes' generalizations Modules.thy and Vector_Spaces.thy; adapted HOL and HOL-Analysis accordingly
immler
parents: 67982
diff changeset
   688
    linear_invertible_bounded_below_pos assms by blast
67982
7643b005b29a various new results on measures, integrals, etc., and some simplified proofs
paulson <lp15@cam.ac.uk>
parents: 67962
diff changeset
   689
49522
355f3d076924 tuned proofs;
wenzelm
parents: 44890
diff changeset
   690
lemma bounded_linearI':
56444
f944ae8c80a3 tuned proofs;
wenzelm
parents: 56409
diff changeset
   691
  fixes f ::"'a::euclidean_space \<Rightarrow> 'b::real_normed_vector"
53406
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
   692
  assumes "\<And>x y. f (x + y) = f x + f y"
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
   693
    and "\<And>c x. f (c *\<^sub>R x) = c *\<^sub>R f x"
49522
355f3d076924 tuned proofs;
wenzelm
parents: 44890
diff changeset
   694
  shows "bounded_linear f"
68072
493b818e8e10 added Johannes' generalizations Modules.thy and Vector_Spaces.thy; adapted HOL and HOL-Analysis accordingly
immler
parents: 67982
diff changeset
   695
  using assms linearI linear_conv_bounded_linear by blast
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
   696
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
   697
lemma bilinear_bounded:
56444
f944ae8c80a3 tuned proofs;
wenzelm
parents: 56409
diff changeset
   698
  fixes h :: "'m::euclidean_space \<Rightarrow> 'n::euclidean_space \<Rightarrow> 'k::real_normed_vector"
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
   699
  assumes bh: "bilinear h"
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
   700
  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
   701
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
   702
  fix x :: 'm
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
   703
  fix y :: 'n
64267
b9a1486e79be setsum -> sum
nipkow
parents: 64122
diff changeset
   704
  have "norm (h x y) = norm (h (sum (\<lambda>i. (x \<bullet> i) *\<^sub>R i) Basis) (sum (\<lambda>i. (y \<bullet> i) *\<^sub>R i) Basis))"
68069
36209dfb981e tidying up and using real induction methods
paulson <lp15@cam.ac.uk>
parents: 68062
diff changeset
   705
    by (simp add: euclidean_representation)
64267
b9a1486e79be setsum -> sum
nipkow
parents: 64122
diff changeset
   706
  also have "\<dots> = norm (sum (\<lambda> (i,j). h ((x \<bullet> i) *\<^sub>R i) ((y \<bullet> j) *\<^sub>R j)) (Basis \<times> Basis))"
68072
493b818e8e10 added Johannes' generalizations Modules.thy and Vector_Spaces.thy; adapted HOL and HOL-Analysis accordingly
immler
parents: 67982
diff changeset
   707
    unfolding bilinear_sum[OF bh] ..
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
   708
  finally have th: "norm (h x y) = \<dots>" .
68069
36209dfb981e tidying up and using real induction methods
paulson <lp15@cam.ac.uk>
parents: 68062
diff changeset
   709
  have "\<And>i j. \<lbrakk>i \<in> Basis; j \<in> Basis\<rbrakk>
36209dfb981e tidying up and using real induction methods
paulson <lp15@cam.ac.uk>
parents: 68062
diff changeset
   710
           \<Longrightarrow> \<bar>x \<bullet> i\<bar> * (\<bar>y \<bullet> j\<bar> * norm (h i j)) \<le> norm x * (norm y * norm (h i j))"
36209dfb981e tidying up and using real induction methods
paulson <lp15@cam.ac.uk>
parents: 68062
diff changeset
   711
    by (auto simp add: zero_le_mult_iff Basis_le_norm mult_mono)
36209dfb981e tidying up and using real induction methods
paulson <lp15@cam.ac.uk>
parents: 68062
diff changeset
   712
  then show "norm (h x y) \<le> (\<Sum>i\<in>Basis. \<Sum>j\<in>Basis. norm (h i j)) * norm x * norm y"
36209dfb981e tidying up and using real induction methods
paulson <lp15@cam.ac.uk>
parents: 68062
diff changeset
   713
    unfolding sum_distrib_right th sum.cartesian_product
36209dfb981e tidying up and using real induction methods
paulson <lp15@cam.ac.uk>
parents: 68062
diff changeset
   714
    by (clarsimp simp add: bilinear_rmul[OF bh] bilinear_lmul[OF bh]
36209dfb981e tidying up and using real induction methods
paulson <lp15@cam.ac.uk>
parents: 68062
diff changeset
   715
      field_simps simp del: scaleR_scaleR intro!: sum_norm_le)
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
   716
qed
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
   717
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
   718
lemma bilinear_conv_bounded_bilinear:
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
   719
  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
   720
  shows "bilinear h \<longleftrightarrow> bounded_bilinear h"
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
   721
proof
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
   722
  assume "bilinear h"
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
   723
  show "bounded_bilinear h"
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
   724
  proof
53406
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
   725
    fix x y z
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
   726
    show "h (x + y) z = h x z + h y z"
60420
884f54e01427 isabelle update_cartouches;
wenzelm
parents: 60307
diff changeset
   727
      using \<open>bilinear h\<close> unfolding bilinear_def linear_iff by simp
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
   728
  next
53406
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
   729
    fix x y z
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
   730
    show "h x (y + z) = h x y + h x z"
60420
884f54e01427 isabelle update_cartouches;
wenzelm
parents: 60307
diff changeset
   731
      using \<open>bilinear h\<close> unfolding bilinear_def linear_iff by simp
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
   732
  next
68069
36209dfb981e tidying up and using real induction methods
paulson <lp15@cam.ac.uk>
parents: 68062
diff changeset
   733
    show "h (scaleR r x) y = scaleR r (h x y)" "h x (scaleR r y) = scaleR r (h x y)" for r x y
60420
884f54e01427 isabelle update_cartouches;
wenzelm
parents: 60307
diff changeset
   734
      using \<open>bilinear h\<close> unfolding bilinear_def linear_iff
68069
36209dfb981e tidying up and using real induction methods
paulson <lp15@cam.ac.uk>
parents: 68062
diff changeset
   735
      by simp_all
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
   736
  next
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
   737
    have "\<exists>B. \<forall>x y. norm (h x y) \<le> B * norm x * norm y"
60420
884f54e01427 isabelle update_cartouches;
wenzelm
parents: 60307
diff changeset
   738
      using \<open>bilinear h\<close> by (rule bilinear_bounded)
49522
355f3d076924 tuned proofs;
wenzelm
parents: 44890
diff changeset
   739
    then show "\<exists>K. \<forall>x y. norm (h x y) \<le> norm x * norm y * K"
57514
bdc2c6b40bf2 prefer ac_simps collections over separate name bindings for add and mult
haftmann
parents: 57512
diff changeset
   740
      by (simp add: ac_simps)
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
   741
  qed
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
   742
next
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
   743
  assume "bounded_bilinear h"
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
   744
  then interpret h: bounded_bilinear h .
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
   745
  show "bilinear h"
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
   746
    unfolding bilinear_def linear_conv_bounded_linear
49522
355f3d076924 tuned proofs;
wenzelm
parents: 44890
diff changeset
   747
    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
   748
qed
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
   749
53939
eb25bddf6a22 tuned proofs
huffman
parents: 53938
diff changeset
   750
lemma bilinear_bounded_pos:
56444
f944ae8c80a3 tuned proofs;
wenzelm
parents: 56409
diff changeset
   751
  fixes h :: "'a::euclidean_space \<Rightarrow> 'b::euclidean_space \<Rightarrow> 'c::real_normed_vector"
53939
eb25bddf6a22 tuned proofs
huffman
parents: 53938
diff changeset
   752
  assumes bh: "bilinear h"
eb25bddf6a22 tuned proofs
huffman
parents: 53938
diff changeset
   753
  shows "\<exists>B > 0. \<forall>x y. norm (h x y) \<le> B * norm x * norm y"
eb25bddf6a22 tuned proofs
huffman
parents: 53938
diff changeset
   754
proof -
eb25bddf6a22 tuned proofs
huffman
parents: 53938
diff changeset
   755
  have "\<exists>B > 0. \<forall>x y. norm (h x y) \<le> norm x * norm y * B"
eb25bddf6a22 tuned proofs
huffman
parents: 53938
diff changeset
   756
    using bh [unfolded bilinear_conv_bounded_bilinear]
eb25bddf6a22 tuned proofs
huffman
parents: 53938
diff changeset
   757
    by (rule bounded_bilinear.pos_bounded)
eb25bddf6a22 tuned proofs
huffman
parents: 53938
diff changeset
   758
  then show ?thesis
57514
bdc2c6b40bf2 prefer ac_simps collections over separate name bindings for add and mult
haftmann
parents: 57512
diff changeset
   759
    by (simp only: ac_simps)
53939
eb25bddf6a22 tuned proofs
huffman
parents: 53938
diff changeset
   760
qed
eb25bddf6a22 tuned proofs
huffman
parents: 53938
diff changeset
   761
68072
493b818e8e10 added Johannes' generalizations Modules.thy and Vector_Spaces.thy; adapted HOL and HOL-Analysis accordingly
immler
parents: 67982
diff changeset
   762
lemma bounded_linear_imp_has_derivative: "bounded_linear f \<Longrightarrow> (f has_derivative f) net"
493b818e8e10 added Johannes' generalizations Modules.thy and Vector_Spaces.thy; adapted HOL and HOL-Analysis accordingly
immler
parents: 67982
diff changeset
   763
  by (auto simp add: has_derivative_def linear_diff linear_linear linear_def
493b818e8e10 added Johannes' generalizations Modules.thy and Vector_Spaces.thy; adapted HOL and HOL-Analysis accordingly
immler
parents: 67982
diff changeset
   764
      dest: bounded_linear.linear)
63469
b6900858dcb9 lots of new theorems about differentiable_on, retracts, ANRs, etc.
paulson <lp15@cam.ac.uk>
parents: 63170
diff changeset
   765
b6900858dcb9 lots of new theorems about differentiable_on, retracts, ANRs, etc.
paulson <lp15@cam.ac.uk>
parents: 63170
diff changeset
   766
lemma linear_imp_has_derivative:
b6900858dcb9 lots of new theorems about differentiable_on, retracts, ANRs, etc.
paulson <lp15@cam.ac.uk>
parents: 63170
diff changeset
   767
  fixes f :: "'a::euclidean_space \<Rightarrow> 'b::real_normed_vector"
b6900858dcb9 lots of new theorems about differentiable_on, retracts, ANRs, etc.
paulson <lp15@cam.ac.uk>
parents: 63170
diff changeset
   768
  shows "linear f \<Longrightarrow> (f has_derivative f) net"
68072
493b818e8e10 added Johannes' generalizations Modules.thy and Vector_Spaces.thy; adapted HOL and HOL-Analysis accordingly
immler
parents: 67982
diff changeset
   769
  by (simp add: bounded_linear_imp_has_derivative linear_conv_bounded_linear)
63469
b6900858dcb9 lots of new theorems about differentiable_on, retracts, ANRs, etc.
paulson <lp15@cam.ac.uk>
parents: 63170
diff changeset
   770
b6900858dcb9 lots of new theorems about differentiable_on, retracts, ANRs, etc.
paulson <lp15@cam.ac.uk>
parents: 63170
diff changeset
   771
lemma bounded_linear_imp_differentiable: "bounded_linear f \<Longrightarrow> f differentiable net"
b6900858dcb9 lots of new theorems about differentiable_on, retracts, ANRs, etc.
paulson <lp15@cam.ac.uk>
parents: 63170
diff changeset
   772
  using bounded_linear_imp_has_derivative differentiable_def by blast
b6900858dcb9 lots of new theorems about differentiable_on, retracts, ANRs, etc.
paulson <lp15@cam.ac.uk>
parents: 63170
diff changeset
   773
b6900858dcb9 lots of new theorems about differentiable_on, retracts, ANRs, etc.
paulson <lp15@cam.ac.uk>
parents: 63170
diff changeset
   774
lemma linear_imp_differentiable:
b6900858dcb9 lots of new theorems about differentiable_on, retracts, ANRs, etc.
paulson <lp15@cam.ac.uk>
parents: 63170
diff changeset
   775
  fixes f :: "'a::euclidean_space \<Rightarrow> 'b::real_normed_vector"
b6900858dcb9 lots of new theorems about differentiable_on, retracts, ANRs, etc.
paulson <lp15@cam.ac.uk>
parents: 63170
diff changeset
   776
  shows "linear f \<Longrightarrow> f differentiable net"
68072
493b818e8e10 added Johannes' generalizations Modules.thy and Vector_Spaces.thy; adapted HOL and HOL-Analysis accordingly
immler
parents: 67982
diff changeset
   777
  by (metis linear_imp_has_derivative differentiable_def)
63469
b6900858dcb9 lots of new theorems about differentiable_on, retracts, ANRs, etc.
paulson <lp15@cam.ac.uk>
parents: 63170
diff changeset
   778
49522
355f3d076924 tuned proofs;
wenzelm
parents: 44890
diff changeset
   779
70136
f03a01a18c6e modernized tags: default scope excludes proof;
wenzelm
parents: 69683
diff changeset
   780
subsection\<^marker>\<open>tag unimportant\<close> \<open>We continue\<close>
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
   781
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
   782
lemma independent_bound:
53716
b42d9a71fc1a tuned proofs;
wenzelm
parents: 53600
diff changeset
   783
  fixes S :: "'a::euclidean_space set"
b42d9a71fc1a tuned proofs;
wenzelm
parents: 53600
diff changeset
   784
  shows "independent S \<Longrightarrow> finite S \<and> card S \<le> DIM('a)"
68072
493b818e8e10 added Johannes' generalizations Modules.thy and Vector_Spaces.thy; adapted HOL and HOL-Analysis accordingly
immler
parents: 67982
diff changeset
   785
  by (metis dim_subset_UNIV finiteI_independent dim_span_eq_card_independent)
493b818e8e10 added Johannes' generalizations Modules.thy and Vector_Spaces.thy; adapted HOL and HOL-Analysis accordingly
immler
parents: 67982
diff changeset
   786
493b818e8e10 added Johannes' generalizations Modules.thy and Vector_Spaces.thy; adapted HOL and HOL-Analysis accordingly
immler
parents: 67982
diff changeset
   787
lemmas independent_imp_finite = finiteI_independent
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
   788
61609
77b453bd616f Coercion "real" now has type nat => real only and is no longer overloaded. Type class "real_of" is gone. Many duplicate theorems removed.
paulson <lp15@cam.ac.uk>
parents: 61520
diff changeset
   789
corollary
60303
00c06f1315d0 New material about paths, and some lemmas
paulson
parents: 60162
diff changeset
   790
  fixes S :: "'a::euclidean_space set"
00c06f1315d0 New material about paths, and some lemmas
paulson
parents: 60162
diff changeset
   791
  assumes "independent S"
68072
493b818e8e10 added Johannes' generalizations Modules.thy and Vector_Spaces.thy; adapted HOL and HOL-Analysis accordingly
immler
parents: 67982
diff changeset
   792
  shows independent_card_le:"card S \<le> DIM('a)"
493b818e8e10 added Johannes' generalizations Modules.thy and Vector_Spaces.thy; adapted HOL and HOL-Analysis accordingly
immler
parents: 67982
diff changeset
   793
  using assms independent_bound by auto
63075
60a42a4166af lemmas about dimension, hyperplanes, span, etc.
paulson <lp15@cam.ac.uk>
parents: 63072
diff changeset
   794
49663
b84fafaea4bb tuned proofs;
wenzelm
parents: 49652
diff changeset
   795
lemma dependent_biggerset:
56444
f944ae8c80a3 tuned proofs;
wenzelm
parents: 56409
diff changeset
   796
  fixes S :: "'a::euclidean_space set"
f944ae8c80a3 tuned proofs;
wenzelm
parents: 56409
diff changeset
   797
  shows "(finite S \<Longrightarrow> card S > DIM('a)) \<Longrightarrow> dependent S"
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
   798
  by (metis independent_bound not_less)
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
   799
60420
884f54e01427 isabelle update_cartouches;
wenzelm
parents: 60307
diff changeset
   800
text \<open>Picking an orthogonal replacement for a spanning set.\<close>
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
   801
53406
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
   802
lemma vector_sub_project_orthogonal:
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
   803
  fixes b x :: "'a::euclidean_space"
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
   804
  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
   805
  unfolding inner_simps by auto
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
   806
44528
0b8e0dbb2bdd generalize and shorten proof of basis_orthogonal
huffman
parents: 44527
diff changeset
   807
lemma pairwise_orthogonal_insert:
0b8e0dbb2bdd generalize and shorten proof of basis_orthogonal
huffman
parents: 44527
diff changeset
   808
  assumes "pairwise orthogonal S"
49522
355f3d076924 tuned proofs;
wenzelm
parents: 44890
diff changeset
   809
    and "\<And>y. y \<in> S \<Longrightarrow> orthogonal x y"
44528
0b8e0dbb2bdd generalize and shorten proof of basis_orthogonal
huffman
parents: 44527
diff changeset
   810
  shows "pairwise orthogonal (insert x S)"
0b8e0dbb2bdd generalize and shorten proof of basis_orthogonal
huffman
parents: 44527
diff changeset
   811
  using assms unfolding pairwise_def
0b8e0dbb2bdd generalize and shorten proof of basis_orthogonal
huffman
parents: 44527
diff changeset
   812
  by (auto simp add: orthogonal_commute)
0b8e0dbb2bdd generalize and shorten proof of basis_orthogonal
huffman
parents: 44527
diff changeset
   813
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
   814
lemma basis_orthogonal:
53406
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
   815
  fixes B :: "'a::real_inner set"
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
   816
  assumes fB: "finite B"
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
   817
  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
   818
  (is " \<exists>C. ?P B C")
49522
355f3d076924 tuned proofs;
wenzelm
parents: 44890
diff changeset
   819
  using fB
355f3d076924 tuned proofs;
wenzelm
parents: 44890
diff changeset
   820
proof (induct rule: finite_induct)
355f3d076924 tuned proofs;
wenzelm
parents: 44890
diff changeset
   821
  case empty
53406
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
   822
  then show ?case
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
   823
    apply (rule exI[where x="{}"])
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
   824
    apply (auto simp add: pairwise_def)
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
   825
    done
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
   826
next
49522
355f3d076924 tuned proofs;
wenzelm
parents: 44890
diff changeset
   827
  case (insert a B)
60420
884f54e01427 isabelle update_cartouches;
wenzelm
parents: 60307
diff changeset
   828
  note fB = \<open>finite B\<close> and aB = \<open>a \<notin> B\<close>
884f54e01427 isabelle update_cartouches;
wenzelm
parents: 60307
diff changeset
   829
  from \<open>\<exists>C. finite C \<and> card C \<le> card B \<and> span C = span B \<and> pairwise orthogonal C\<close>
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
   830
  obtain C where C: "finite C" "card C \<le> card B"
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
   831
    "span C = span B" "pairwise orthogonal C" by blast
64267
b9a1486e79be setsum -> sum
nipkow
parents: 64122
diff changeset
   832
  let ?a = "a - sum (\<lambda>x. (x \<bullet> a / (x \<bullet> x)) *\<^sub>R x) C"
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
   833
  let ?C = "insert ?a C"
53406
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
   834
  from C(1) have fC: "finite ?C"
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
   835
    by simp
49522
355f3d076924 tuned proofs;
wenzelm
parents: 44890
diff changeset
   836
  from fB aB C(1,2) have cC: "card ?C \<le> card (insert a B)"
355f3d076924 tuned proofs;
wenzelm
parents: 44890
diff changeset
   837
    by (simp add: card_insert_if)
53406
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
   838
  {
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
   839
    fix x k
49522
355f3d076924 tuned proofs;
wenzelm
parents: 44890
diff changeset
   840
    have th0: "\<And>(a::'a) b c. a - (b - c) = c + (a - b)"
355f3d076924 tuned proofs;
wenzelm
parents: 44890
diff changeset
   841
      by (simp add: field_simps)
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
   842
    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
   843
      apply (simp only: scaleR_right_diff_distrib th0)
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
   844
      apply (rule span_add_eq)
68072
493b818e8e10 added Johannes' generalizations Modules.thy and Vector_Spaces.thy; adapted HOL and HOL-Analysis accordingly
immler
parents: 67982
diff changeset
   845
      apply (rule span_scale)
64267
b9a1486e79be setsum -> sum
nipkow
parents: 64122
diff changeset
   846
      apply (rule span_sum)
68072
493b818e8e10 added Johannes' generalizations Modules.thy and Vector_Spaces.thy; adapted HOL and HOL-Analysis accordingly
immler
parents: 67982
diff changeset
   847
      apply (rule span_scale)
493b818e8e10 added Johannes' generalizations Modules.thy and Vector_Spaces.thy; adapted HOL and HOL-Analysis accordingly
immler
parents: 67982
diff changeset
   848
      apply (rule span_base)
49522
355f3d076924 tuned proofs;
wenzelm
parents: 44890
diff changeset
   849
      apply assumption
53406
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
   850
      done
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
   851
  }
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
   852
  then have SC: "span ?C = span (insert a B)"
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
   853
    unfolding set_eq_iff span_breakdown_eq C(3)[symmetric] by auto
53406
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
   854
  {
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
   855
    fix y
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
   856
    assume yC: "y \<in> C"
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
   857
    then have Cy: "C = insert y (C - {y})"
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
   858
      by blast
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
   859
    have fth: "finite (C - {y})"
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
   860
      using C by simp
44528
0b8e0dbb2bdd generalize and shorten proof of basis_orthogonal
huffman
parents: 44527
diff changeset
   861
    have "orthogonal ?a y"
0b8e0dbb2bdd generalize and shorten proof of basis_orthogonal
huffman
parents: 44527
diff changeset
   862
      unfolding orthogonal_def
64267
b9a1486e79be setsum -> sum
nipkow
parents: 64122
diff changeset
   863
      unfolding inner_diff inner_sum_left right_minus_eq
b9a1486e79be setsum -> sum
nipkow
parents: 64122
diff changeset
   864
      unfolding sum.remove [OF \<open>finite C\<close> \<open>y \<in> C\<close>]
44528
0b8e0dbb2bdd generalize and shorten proof of basis_orthogonal
huffman
parents: 44527
diff changeset
   865
      apply (clarsimp simp add: inner_commute[of y a])
64267
b9a1486e79be setsum -> sum
nipkow
parents: 64122
diff changeset
   866
      apply (rule sum.neutral)
44528
0b8e0dbb2bdd generalize and shorten proof of basis_orthogonal
huffman
parents: 44527
diff changeset
   867
      apply clarsimp
0b8e0dbb2bdd generalize and shorten proof of basis_orthogonal
huffman
parents: 44527
diff changeset
   868
      apply (rule C(4)[unfolded pairwise_def orthogonal_def, rule_format])
60420
884f54e01427 isabelle update_cartouches;
wenzelm
parents: 60307
diff changeset
   869
      using \<open>y \<in> C\<close> by auto
53406
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
   870
  }
60420
884f54e01427 isabelle update_cartouches;
wenzelm
parents: 60307
diff changeset
   871
  with \<open>pairwise orthogonal C\<close> have CPO: "pairwise orthogonal ?C"
44528
0b8e0dbb2bdd generalize and shorten proof of basis_orthogonal
huffman
parents: 44527
diff changeset
   872
    by (rule pairwise_orthogonal_insert)
53406
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
   873
  from fC cC SC CPO have "?P (insert a B) ?C"
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
   874
    by blast
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
   875
  then show ?case by blast
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
   876
qed
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
   877
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
   878
lemma orthogonal_basis_exists:
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
   879
  fixes V :: "('a::euclidean_space) set"
68072
493b818e8e10 added Johannes' generalizations Modules.thy and Vector_Spaces.thy; adapted HOL and HOL-Analysis accordingly
immler
parents: 67982
diff changeset
   880
  shows "\<exists>B. independent B \<and> B \<subseteq> span V \<and> V \<subseteq> span B \<and>
493b818e8e10 added Johannes' generalizations Modules.thy and Vector_Spaces.thy; adapted HOL and HOL-Analysis accordingly
immler
parents: 67982
diff changeset
   881
  (card B = dim V) \<and> pairwise orthogonal B"
49663
b84fafaea4bb tuned proofs;
wenzelm
parents: 49652
diff changeset
   882
proof -
49522
355f3d076924 tuned proofs;
wenzelm
parents: 44890
diff changeset
   883
  from basis_exists[of V] obtain B where
53406
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
   884
    B: "B \<subseteq> V" "independent B" "V \<subseteq> span B" "card B = dim V"
68073
fad29d2a17a5 merged; resolved conflicts manually (esp. lemmas that have been moved from Linear_Algebra and Cartesian_Euclidean_Space)
immler
parents: 68072 68069
diff changeset
   885
    by force
53406
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
   886
  from B have fB: "finite B" "card B = dim V"
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
   887
    using independent_bound by auto
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
   888
  from basis_orthogonal[OF fB(1)] obtain C where
53406
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
   889
    C: "finite C" "card C \<le> card B" "span C = span B" "pairwise orthogonal C"
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
   890
    by blast
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
   891
  from C B have CSV: "C \<subseteq> span V"
68072
493b818e8e10 added Johannes' generalizations Modules.thy and Vector_Spaces.thy; adapted HOL and HOL-Analysis accordingly
immler
parents: 67982
diff changeset
   892
    by (metis span_superset span_mono subset_trans)
53406
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
   893
  from span_mono[OF B(3)] C have SVC: "span V \<subseteq> span C"
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
   894
    by (simp add: span_span)
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
   895
  from card_le_dim_spanning[OF CSV SVC C(1)] C(2,3) fB
53406
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
   896
  have iC: "independent C"
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
   897
    by (simp add: dim_span)
53406
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
   898
  from C fB have "card C \<le> dim V"
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
   899
    by simp
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
   900
  moreover have "dim V \<le> card C"
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
   901
    using span_card_ge_dim[OF CSV SVC C(1)]
68072
493b818e8e10 added Johannes' generalizations Modules.thy and Vector_Spaces.thy; adapted HOL and HOL-Analysis accordingly
immler
parents: 67982
diff changeset
   902
    by simp
53406
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
   903
  ultimately have CdV: "card C = dim V"
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
   904
    using C(1) by simp
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
   905
  from C B CSV CdV iC show ?thesis
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
   906
    by auto
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
   907
qed
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
   908
60420
884f54e01427 isabelle update_cartouches;
wenzelm
parents: 60307
diff changeset
   909
text \<open>Low-dimensional subset is in a hyperplane (weak orthogonal complement).\<close>
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
   910
49522
355f3d076924 tuned proofs;
wenzelm
parents: 44890
diff changeset
   911
lemma span_not_univ_orthogonal:
53406
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
   912
  fixes S :: "'a::euclidean_space set"
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
   913
  assumes sU: "span S \<noteq> UNIV"
56444
f944ae8c80a3 tuned proofs;
wenzelm
parents: 56409
diff changeset
   914
  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
   915
proof -
53406
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
   916
  from sU obtain a where a: "a \<notin> span S"
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
   917
    by blast
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
   918
  from orthogonal_basis_exists obtain B where
68072
493b818e8e10 added Johannes' generalizations Modules.thy and Vector_Spaces.thy; adapted HOL and HOL-Analysis accordingly
immler
parents: 67982
diff changeset
   919
    B: "independent B" "B \<subseteq> span S" "S \<subseteq> span B"
493b818e8e10 added Johannes' generalizations Modules.thy and Vector_Spaces.thy; adapted HOL and HOL-Analysis accordingly
immler
parents: 67982
diff changeset
   920
    "card B = dim S" "pairwise orthogonal B"
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
   921
    by blast
53406
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
   922
  from B have fB: "finite B" "card B = dim S"
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
   923
    using independent_bound by auto
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
   924
  from span_mono[OF B(2)] span_mono[OF B(3)]
53406
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
   925
  have sSB: "span S = span B"
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
   926
    by (simp add: span_span)
64267
b9a1486e79be setsum -> sum
nipkow
parents: 64122
diff changeset
   927
  let ?a = "a - sum (\<lambda>b. (a \<bullet> b / (b \<bullet> b)) *\<^sub>R b) B"
b9a1486e79be setsum -> sum
nipkow
parents: 64122
diff changeset
   928
  have "sum (\<lambda>b. (a \<bullet> b / (b \<bullet> b)) *\<^sub>R b) B \<in> span S"
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
   929
    unfolding sSB
64267
b9a1486e79be setsum -> sum
nipkow
parents: 64122
diff changeset
   930
    apply (rule span_sum)
68072
493b818e8e10 added Johannes' generalizations Modules.thy and Vector_Spaces.thy; adapted HOL and HOL-Analysis accordingly
immler
parents: 67982
diff changeset
   931
    apply (rule span_scale)
493b818e8e10 added Johannes' generalizations Modules.thy and Vector_Spaces.thy; adapted HOL and HOL-Analysis accordingly
immler
parents: 67982
diff changeset
   932
    apply (rule span_base)
49522
355f3d076924 tuned proofs;
wenzelm
parents: 44890
diff changeset
   933
    apply assumption
355f3d076924 tuned proofs;
wenzelm
parents: 44890
diff changeset
   934
    done
53406
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
   935
  with a have a0:"?a  \<noteq> 0"
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
   936
    by auto
68058
69715dfdc286 more general tidying up
paulson <lp15@cam.ac.uk>
parents: 67982
diff changeset
   937
  have "?a \<bullet> x = 0" if "x\<in>span B" for x
69715dfdc286 more general tidying up
paulson <lp15@cam.ac.uk>
parents: 67982
diff changeset
   938
  proof (rule span_induct [OF that])
49522
355f3d076924 tuned proofs;
wenzelm
parents: 44890
diff changeset
   939
    show "subspace {x. ?a \<bullet> x = 0}"
355f3d076924 tuned proofs;
wenzelm
parents: 44890
diff changeset
   940
      by (auto simp add: subspace_def inner_add)
355f3d076924 tuned proofs;
wenzelm
parents: 44890
diff changeset
   941
  next
53406
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
   942
    {
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
   943
      fix x
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
   944
      assume x: "x \<in> B"
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
   945
      from x have B': "B = insert x (B - {x})"
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
   946
        by blast
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
   947
      have fth: "finite (B - {x})"
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
   948
        using fB by simp
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
   949
      have "?a \<bullet> x = 0"
53406
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
   950
        apply (subst B')
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
   951
        using fB fth
64267
b9a1486e79be setsum -> sum
nipkow
parents: 64122
diff changeset
   952
        unfolding sum_clauses(2)[OF fth]
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
   953
        apply simp unfolding inner_simps
64267
b9a1486e79be setsum -> sum
nipkow
parents: 64122
diff changeset
   954
        apply (clarsimp simp add: inner_add inner_sum_left)
b9a1486e79be setsum -> sum
nipkow
parents: 64122
diff changeset
   955
        apply (rule sum.neutral, rule ballI)
63170
eae6549dbea2 tuned proofs, to allow unfold_abs_def;
wenzelm
parents: 63148
diff changeset
   956
        apply (simp only: inner_commute)
49711
e5aaae7eadc9 tuned proofs;
wenzelm
parents: 49663
diff changeset
   957
        apply (auto simp add: x field_simps
e5aaae7eadc9 tuned proofs;
wenzelm
parents: 49663
diff changeset
   958
          intro: B(5)[unfolded pairwise_def orthogonal_def, rule_format])
53406
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
   959
        done
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
   960
    }
68058
69715dfdc286 more general tidying up
paulson <lp15@cam.ac.uk>
parents: 67982
diff changeset
   961
    then show "?a \<bullet> x = 0" if "x \<in> B" for x
69715dfdc286 more general tidying up
paulson <lp15@cam.ac.uk>
parents: 67982
diff changeset
   962
      using that by blast
69715dfdc286 more general tidying up
paulson <lp15@cam.ac.uk>
parents: 67982
diff changeset
   963
    qed
53406
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
   964
  with a0 show ?thesis
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
   965
    unfolding sSB by (auto intro: exI[where x="?a"])
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
   966
qed
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
   967
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
   968
lemma span_not_univ_subset_hyperplane:
53406
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
   969
  fixes S :: "'a::euclidean_space set"
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
   970
  assumes SU: "span S \<noteq> UNIV"
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
   971
  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
   972
  using span_not_univ_orthogonal[OF SU] by auto
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
   973
49663
b84fafaea4bb tuned proofs;
wenzelm
parents: 49652
diff changeset
   974
lemma lowdim_subset_hyperplane:
53406
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
   975
  fixes S :: "'a::euclidean_space set"
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
   976
  assumes d: "dim S < DIM('a)"
56444
f944ae8c80a3 tuned proofs;
wenzelm
parents: 56409
diff changeset
   977
  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
   978
proof -
53406
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
   979
  {
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
   980
    assume "span S = UNIV"
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
   981
    then have "dim (span S) = dim (UNIV :: ('a) set)"
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
   982
      by simp
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
   983
    then have "dim S = DIM('a)"
68072
493b818e8e10 added Johannes' generalizations Modules.thy and Vector_Spaces.thy; adapted HOL and HOL-Analysis accordingly
immler
parents: 67982
diff changeset
   984
      by (metis Euclidean_Space.dim_UNIV dim_span)
53406
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
   985
    with d have False by arith
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
   986
  }
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
   987
  then have th: "span S \<noteq> UNIV"
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
   988
    by blast
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
   989
  from span_not_univ_subset_hyperplane[OF th] show ?thesis .
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
   990
qed
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
   991
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
   992
lemma linear_eq_stdbasis:
56444
f944ae8c80a3 tuned proofs;
wenzelm
parents: 56409
diff changeset
   993
  fixes f :: "'a::euclidean_space \<Rightarrow> _"
f944ae8c80a3 tuned proofs;
wenzelm
parents: 56409
diff changeset
   994
  assumes lf: "linear f"
49663
b84fafaea4bb tuned proofs;
wenzelm
parents: 49652
diff changeset
   995
    and lg: "linear g"
68058
69715dfdc286 more general tidying up
paulson <lp15@cam.ac.uk>
parents: 67982
diff changeset
   996
    and fg: "\<And>b. b \<in> Basis \<Longrightarrow> f b = g b"
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
   997
  shows "f = g"
68072
493b818e8e10 added Johannes' generalizations Modules.thy and Vector_Spaces.thy; adapted HOL and HOL-Analysis accordingly
immler
parents: 67982
diff changeset
   998
  using linear_eq_on_span[OF lf lg, of Basis] fg
493b818e8e10 added Johannes' generalizations Modules.thy and Vector_Spaces.thy; adapted HOL and HOL-Analysis accordingly
immler
parents: 67982
diff changeset
   999
  by auto
493b818e8e10 added Johannes' generalizations Modules.thy and Vector_Spaces.thy; adapted HOL and HOL-Analysis accordingly
immler
parents: 67982
diff changeset
  1000
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1001
60420
884f54e01427 isabelle update_cartouches;
wenzelm
parents: 60307
diff changeset
  1002
text \<open>Similar results for bilinear functions.\<close>
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1003
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1004
lemma bilinear_eq:
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1005
  assumes bf: "bilinear f"
49522
355f3d076924 tuned proofs;
wenzelm
parents: 44890
diff changeset
  1006
    and bg: "bilinear g"
53406
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1007
    and SB: "S \<subseteq> span B"
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1008
    and TC: "T \<subseteq> span C"
68058
69715dfdc286 more general tidying up
paulson <lp15@cam.ac.uk>
parents: 67982
diff changeset
  1009
    and "x\<in>S" "y\<in>T"
69715dfdc286 more general tidying up
paulson <lp15@cam.ac.uk>
parents: 67982
diff changeset
  1010
    and fg: "\<And>x y. \<lbrakk>x \<in> B; y\<in> C\<rbrakk> \<Longrightarrow> f x y = g x y"
69715dfdc286 more general tidying up
paulson <lp15@cam.ac.uk>
parents: 67982
diff changeset
  1011
  shows "f x y = g x y"
49663
b84fafaea4bb tuned proofs;
wenzelm
parents: 49652
diff changeset
  1012
proof -
44170
510ac30f44c0 make Multivariate_Analysis work with separate set type
huffman
parents: 44166
diff changeset
  1013
  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
  1014
  from bf bg have sp: "subspace ?P"
53600
8fda7ad57466 make 'linear' into a sublocale of 'bounded_linear';
huffman
parents: 53596
diff changeset
  1015
    unfolding bilinear_def linear_iff subspace_def bf bg
68072
493b818e8e10 added Johannes' generalizations Modules.thy and Vector_Spaces.thy; adapted HOL and HOL-Analysis accordingly
immler
parents: 67982
diff changeset
  1016
    by (auto simp add: span_zero bilinear_lzero[OF bf] bilinear_lzero[OF bg]
493b818e8e10 added Johannes' generalizations Modules.thy and Vector_Spaces.thy; adapted HOL and HOL-Analysis accordingly
immler
parents: 67982
diff changeset
  1017
        span_add Ball_def
49663
b84fafaea4bb tuned proofs;
wenzelm
parents: 49652
diff changeset
  1018
      intro: bilinear_ladd[OF bf])
68058
69715dfdc286 more general tidying up
paulson <lp15@cam.ac.uk>
parents: 67982
diff changeset
  1019
  have sfg: "\<And>x. x \<in> B \<Longrightarrow> subspace {a. f x a = g x a}"
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1020
    apply (auto simp add: subspace_def)
53600
8fda7ad57466 make 'linear' into a sublocale of 'bounded_linear';
huffman
parents: 53596
diff changeset
  1021
    using bf bg unfolding bilinear_def linear_iff
68072
493b818e8e10 added Johannes' generalizations Modules.thy and Vector_Spaces.thy; adapted HOL and HOL-Analysis accordingly
immler
parents: 67982
diff changeset
  1022
      apply (auto simp add: span_zero bilinear_rzero[OF bf] bilinear_rzero[OF bg]
493b818e8e10 added Johannes' generalizations Modules.thy and Vector_Spaces.thy; adapted HOL and HOL-Analysis accordingly
immler
parents: 67982
diff changeset
  1023
        span_add Ball_def
49663
b84fafaea4bb tuned proofs;
wenzelm
parents: 49652
diff changeset
  1024
      intro: bilinear_ladd[OF bf])
49522
355f3d076924 tuned proofs;
wenzelm
parents: 44890
diff changeset
  1025
    done
68058
69715dfdc286 more general tidying up
paulson <lp15@cam.ac.uk>
parents: 67982
diff changeset
  1026
  have "\<forall>y\<in> span C. f x y = g x y" if "x \<in> span B" for x
69715dfdc286 more general tidying up
paulson <lp15@cam.ac.uk>
parents: 67982
diff changeset
  1027
    apply (rule span_induct [OF that sp])
68062
ee88c0fccbae simplified some messy proofs
paulson <lp15@cam.ac.uk>
parents: 68058
diff changeset
  1028
    using fg sfg span_induct by blast
53406
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1029
  then show ?thesis
68058
69715dfdc286 more general tidying up
paulson <lp15@cam.ac.uk>
parents: 67982
diff changeset
  1030
    using SB TC assms by auto
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1031
qed
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1032
49522
355f3d076924 tuned proofs;
wenzelm
parents: 44890
diff changeset
  1033
lemma bilinear_eq_stdbasis:
53406
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1034
  fixes f :: "'a::euclidean_space \<Rightarrow> 'b::euclidean_space \<Rightarrow> _"
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1035
  assumes bf: "bilinear f"
49522
355f3d076924 tuned proofs;
wenzelm
parents: 44890
diff changeset
  1036
    and bg: "bilinear g"
68058
69715dfdc286 more general tidying up
paulson <lp15@cam.ac.uk>
parents: 67982
diff changeset
  1037
    and fg: "\<And>i j. i \<in> Basis \<Longrightarrow> j \<in> Basis \<Longrightarrow> f i j = g i j"
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1038
  shows "f = g"
68074
8d50467f7555 fixed HOL-Analysis
immler
parents: 68073
diff changeset
  1039
  using bilinear_eq[OF bf bg equalityD2[OF span_Basis] equalityD2[OF span_Basis]] fg by blast
49522
355f3d076924 tuned proofs;
wenzelm
parents: 44890
diff changeset
  1040
69619
3f7d8e05e0f2 split off Convex.thy: material that does not require Topology_Euclidean_Space
immler
parents: 69600
diff changeset
  1041
60420
884f54e01427 isabelle update_cartouches;
wenzelm
parents: 60307
diff changeset
  1042
subsection \<open>Infinity norm\<close>
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1043
70136
f03a01a18c6e modernized tags: default scope excludes proof;
wenzelm
parents: 69683
diff changeset
  1044
definition\<^marker>\<open>tag important\<close> "infnorm (x::'a::euclidean_space) = Sup {\<bar>x \<bullet> b\<bar> |b. b \<in> Basis}"
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1045
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1046
lemma infnorm_set_image:
53716
b42d9a71fc1a tuned proofs;
wenzelm
parents: 53600
diff changeset
  1047
  fixes x :: "'a::euclidean_space"
56444
f944ae8c80a3 tuned proofs;
wenzelm
parents: 56409
diff changeset
  1048
  shows "{\<bar>x \<bullet> i\<bar> |i. i \<in> Basis} = (\<lambda>i. \<bar>x \<bullet> i\<bar>) ` 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
  1049
  by blast
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1050
53716
b42d9a71fc1a tuned proofs;
wenzelm
parents: 53600
diff changeset
  1051
lemma infnorm_Max:
b42d9a71fc1a tuned proofs;
wenzelm
parents: 53600
diff changeset
  1052
  fixes x :: "'a::euclidean_space"
56444
f944ae8c80a3 tuned proofs;
wenzelm
parents: 56409
diff changeset
  1053
  shows "infnorm x = Max ((\<lambda>i. \<bar>x \<bullet> i\<bar>) ` Basis)"
62343
24106dc44def prefer abbreviations for compound operators INFIMUM and SUPREMUM
haftmann
parents: 61973
diff changeset
  1054
  by (simp add: infnorm_def infnorm_set_image cSup_eq_Max)
51475
ebf9d4fd00ba introduct the conditional_complete_lattice type class; generalize theorems about real Sup and Inf to it
hoelzl
parents: 50526
diff changeset
  1055
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1056
lemma infnorm_set_lemma:
53716
b42d9a71fc1a tuned proofs;
wenzelm
parents: 53600
diff changeset
  1057
  fixes x :: "'a::euclidean_space"
56444
f944ae8c80a3 tuned proofs;
wenzelm
parents: 56409
diff changeset
  1058
  shows "finite {\<bar>x \<bullet> i\<bar> |i. i \<in> Basis}"
f944ae8c80a3 tuned proofs;
wenzelm
parents: 56409
diff changeset
  1059
    and "{\<bar>x \<bullet> i\<bar> |i. i \<in> Basis} \<noteq> {}"
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1060
  unfolding infnorm_set_image
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1061
  by auto
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1062
53406
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1063
lemma infnorm_pos_le:
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1064
  fixes x :: "'a::euclidean_space"
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1065
  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
  1066
  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
  1067
53406
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1068
lemma infnorm_triangle:
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1069
  fixes x :: "'a::euclidean_space"
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1070
  shows "infnorm (x + y) \<le> infnorm x + infnorm y"
49522
355f3d076924 tuned proofs;
wenzelm
parents: 44890
diff changeset
  1071
proof -
51475
ebf9d4fd00ba introduct the conditional_complete_lattice type class; generalize theorems about real Sup and Inf to it
hoelzl
parents: 50526
diff changeset
  1072
  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
  1073
    by simp
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1074
  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
  1075
    by (auto simp: infnorm_Max inner_add_left intro!: *)
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1076
qed
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1077
53406
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1078
lemma infnorm_eq_0:
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1079
  fixes x :: "'a::euclidean_space"
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1080
  shows "infnorm x = 0 \<longleftrightarrow> x = 0"
49522
355f3d076924 tuned proofs;
wenzelm
parents: 44890
diff changeset
  1081
proof -
51475
ebf9d4fd00ba introduct the conditional_complete_lattice type class; generalize theorems about real Sup and Inf to it
hoelzl
parents: 50526
diff changeset
  1082
  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
  1083
    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
  1084
  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
  1085
    using infnorm_pos_le[of x] by simp
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1086
qed
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1087
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1088
lemma infnorm_0: "infnorm 0 = 0"
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1089
  by (simp add: infnorm_eq_0)
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1090
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1091
lemma infnorm_neg: "infnorm (- x) = infnorm x"
68062
ee88c0fccbae simplified some messy proofs
paulson <lp15@cam.ac.uk>
parents: 68058
diff changeset
  1092
  unfolding infnorm_def by simp
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1093
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1094
lemma infnorm_sub: "infnorm (x - y) = infnorm (y - x)"
68062
ee88c0fccbae simplified some messy proofs
paulson <lp15@cam.ac.uk>
parents: 68058
diff changeset
  1095
  by (metis infnorm_neg minus_diff_eq)
ee88c0fccbae simplified some messy proofs
paulson <lp15@cam.ac.uk>
parents: 68058
diff changeset
  1096
ee88c0fccbae simplified some messy proofs
paulson <lp15@cam.ac.uk>
parents: 68058
diff changeset
  1097
lemma absdiff_infnorm: "\<bar>infnorm x - infnorm y\<bar> \<le> infnorm (x - y)"
49522
355f3d076924 tuned proofs;
wenzelm
parents: 44890
diff changeset
  1098
proof -
68062
ee88c0fccbae simplified some messy proofs
paulson <lp15@cam.ac.uk>
parents: 68058
diff changeset
  1099
  have *: "\<And>(nx::real) n ny. nx \<le> n + ny \<Longrightarrow> ny \<le> n + nx \<Longrightarrow> \<bar>nx - ny\<bar> \<le> n"
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1100
    by arith
68062
ee88c0fccbae simplified some messy proofs
paulson <lp15@cam.ac.uk>
parents: 68058
diff changeset
  1101
  show ?thesis
ee88c0fccbae simplified some messy proofs
paulson <lp15@cam.ac.uk>
parents: 68058
diff changeset
  1102
  proof (rule *)
ee88c0fccbae simplified some messy proofs
paulson <lp15@cam.ac.uk>
parents: 68058
diff changeset
  1103
    from infnorm_triangle[of "x - y" " y"] infnorm_triangle[of "x - y" "-x"]
ee88c0fccbae simplified some messy proofs
paulson <lp15@cam.ac.uk>
parents: 68058
diff changeset
  1104
    show "infnorm x \<le> infnorm (x - y) + infnorm y" "infnorm y \<le> infnorm (x - y) + infnorm x"
ee88c0fccbae simplified some messy proofs
paulson <lp15@cam.ac.uk>
parents: 68058
diff changeset
  1105
      by (simp_all add: field_simps infnorm_neg)
ee88c0fccbae simplified some messy proofs
paulson <lp15@cam.ac.uk>
parents: 68058
diff changeset
  1106
  qed
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1107
qed
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1108
53406
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1109
lemma real_abs_infnorm: "\<bar>infnorm x\<bar> = infnorm x"
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1110
  using infnorm_pos_le[of x] by arith
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1111
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
  1112
lemma Basis_le_infnorm:
53406
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1113
  fixes x :: "'a::euclidean_space"
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1114
  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
  1115
  by (simp add: infnorm_Max)
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1116
56444
f944ae8c80a3 tuned proofs;
wenzelm
parents: 56409
diff changeset
  1117
lemma infnorm_mul: "infnorm (a *\<^sub>R x) = \<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
  1118
  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
  1119
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
  1120
  let ?B = "(\<lambda>i. \<bar>x \<bullet> i\<bar>) ` Basis"
68062
ee88c0fccbae simplified some messy proofs
paulson <lp15@cam.ac.uk>
parents: 68058
diff changeset
  1121
  { fix b :: 'a
53406
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1122
    assume "b \<in> Basis"
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1123
    then show "\<bar>a *\<^sub>R x \<bullet> b\<bar> \<le> \<bar>a\<bar> * Max ?B"
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1124
      by (simp add: abs_mult mult_left_mono)
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1125
  next
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1126
    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
  1127
      by (auto simp del: Max_in)
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1128
    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
  1129
      by (intro image_eqI[where x=b]) (auto simp: abs_mult)
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1130
  }
51475
ebf9d4fd00ba introduct the conditional_complete_lattice type class; generalize theorems about real Sup and Inf to it
hoelzl
parents: 50526
diff changeset
  1131
qed simp
ebf9d4fd00ba introduct the conditional_complete_lattice type class; generalize theorems about real Sup and Inf to it
hoelzl
parents: 50526
diff changeset
  1132
53406
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1133
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
  1134
  unfolding infnorm_mul ..
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1135
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1136
lemma infnorm_pos_lt: "infnorm x > 0 \<longleftrightarrow> x \<noteq> 0"
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1137
  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
  1138
60420
884f54e01427 isabelle update_cartouches;
wenzelm
parents: 60307
diff changeset
  1139
text \<open>Prove that it differs only up to a bound from Euclidean norm.\<close>
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1140
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1141
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
  1142
  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
  1143
53716
b42d9a71fc1a tuned proofs;
wenzelm
parents: 53600
diff changeset
  1144
lemma norm_le_infnorm:
b42d9a71fc1a tuned proofs;
wenzelm
parents: 53600
diff changeset
  1145
  fixes x :: "'a::euclidean_space"
b42d9a71fc1a tuned proofs;
wenzelm
parents: 53600
diff changeset
  1146
  shows "norm x \<le> sqrt DIM('a) * infnorm x"
68062
ee88c0fccbae simplified some messy proofs
paulson <lp15@cam.ac.uk>
parents: 68058
diff changeset
  1147
  unfolding norm_eq_sqrt_inner id_def 
ee88c0fccbae simplified some messy proofs
paulson <lp15@cam.ac.uk>
parents: 68058
diff changeset
  1148
proof (rule real_le_lsqrt[OF inner_ge_zero])
ee88c0fccbae simplified some messy proofs
paulson <lp15@cam.ac.uk>
parents: 68058
diff changeset
  1149
  show "sqrt DIM('a) * infnorm x \<ge> 0"
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1150
    by (simp add: zero_le_mult_iff infnorm_pos_le)
68062
ee88c0fccbae simplified some messy proofs
paulson <lp15@cam.ac.uk>
parents: 68058
diff changeset
  1151
  have "x \<bullet> x \<le> (\<Sum>b\<in>Basis. x \<bullet> b * (x \<bullet> b))"
ee88c0fccbae simplified some messy proofs
paulson <lp15@cam.ac.uk>
parents: 68058
diff changeset
  1152
    by (metis euclidean_inner order_refl)
ee88c0fccbae simplified some messy proofs
paulson <lp15@cam.ac.uk>
parents: 68058
diff changeset
  1153
  also have "... \<le> DIM('a) * \<bar>infnorm x\<bar>\<^sup>2"
ee88c0fccbae simplified some messy proofs
paulson <lp15@cam.ac.uk>
parents: 68058
diff changeset
  1154
    by (rule sum_bounded_above) (metis Basis_le_infnorm abs_le_square_iff power2_eq_square real_abs_infnorm)
ee88c0fccbae simplified some messy proofs
paulson <lp15@cam.ac.uk>
parents: 68058
diff changeset
  1155
  also have "... \<le> (sqrt DIM('a) * infnorm x)\<^sup>2"
ee88c0fccbae simplified some messy proofs
paulson <lp15@cam.ac.uk>
parents: 68058
diff changeset
  1156
    by (simp add: power_mult_distrib)
ee88c0fccbae simplified some messy proofs
paulson <lp15@cam.ac.uk>
parents: 68058
diff changeset
  1157
  finally show "x \<bullet> x \<le> (sqrt DIM('a) * infnorm x)\<^sup>2" .
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1158
qed
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1159
44646
a6047ddd9377 add lemma tendsto_infnorm
huffman
parents: 44629
diff changeset
  1160
lemma tendsto_infnorm [tendsto_intros]:
61973
0c7e865fa7cb more symbols;
wenzelm
parents: 61915
diff changeset
  1161
  assumes "(f \<longlongrightarrow> a) F"
0c7e865fa7cb more symbols;
wenzelm
parents: 61915
diff changeset
  1162
  shows "((\<lambda>x. infnorm (f x)) \<longlongrightarrow> infnorm a) F"
44646
a6047ddd9377 add lemma tendsto_infnorm
huffman
parents: 44629
diff changeset
  1163
proof (rule tendsto_compose [OF LIM_I assms])
53406
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1164
  fix r :: real
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1165
  assume "r > 0"
49522
355f3d076924 tuned proofs;
wenzelm
parents: 44890
diff changeset
  1166
  then show "\<exists>s>0. \<forall>x. x \<noteq> a \<and> norm (x - a) < s \<longrightarrow> norm (infnorm x - infnorm a) < r"
68062
ee88c0fccbae simplified some messy proofs
paulson <lp15@cam.ac.uk>
parents: 68058
diff changeset
  1167
    by (metis real_norm_def le_less_trans absdiff_infnorm infnorm_le_norm)
44646
a6047ddd9377 add lemma tendsto_infnorm
huffman
parents: 44629
diff changeset
  1168
qed
a6047ddd9377 add lemma tendsto_infnorm
huffman
parents: 44629
diff changeset
  1169
60420
884f54e01427 isabelle update_cartouches;
wenzelm
parents: 60307
diff changeset
  1170
text \<open>Equality in Cauchy-Schwarz and triangle inequalities.\<close>
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1171
53406
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1172
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
  1173
  (is "?lhs \<longleftrightarrow> ?rhs")
68062
ee88c0fccbae simplified some messy proofs
paulson <lp15@cam.ac.uk>
parents: 68058
diff changeset
  1174
proof (cases "x=0")
ee88c0fccbae simplified some messy proofs
paulson <lp15@cam.ac.uk>
parents: 68058
diff changeset
  1175
  case True
ee88c0fccbae simplified some messy proofs
paulson <lp15@cam.ac.uk>
parents: 68058
diff changeset
  1176
  then show ?thesis 
ee88c0fccbae simplified some messy proofs
paulson <lp15@cam.ac.uk>
parents: 68058
diff changeset
  1177
    by auto
ee88c0fccbae simplified some messy proofs
paulson <lp15@cam.ac.uk>
parents: 68058
diff changeset
  1178
next
ee88c0fccbae simplified some messy proofs
paulson <lp15@cam.ac.uk>
parents: 68058
diff changeset
  1179
  case False
ee88c0fccbae simplified some messy proofs
paulson <lp15@cam.ac.uk>
parents: 68058
diff changeset
  1180
  from inner_eq_zero_iff[of "norm y *\<^sub>R x - norm x *\<^sub>R y"]
ee88c0fccbae simplified some messy proofs
paulson <lp15@cam.ac.uk>
parents: 68058
diff changeset
  1181
  have "?rhs \<longleftrightarrow>
49522
355f3d076924 tuned proofs;
wenzelm
parents: 44890
diff changeset
  1182
      (norm y * (norm y * norm x * norm x - norm x * (x \<bullet> y)) -
355f3d076924 tuned proofs;
wenzelm
parents: 44890
diff changeset
  1183
        norm x * (norm y * (y \<bullet> x) - norm x * norm y * norm y) =  0)"
68062
ee88c0fccbae simplified some messy proofs
paulson <lp15@cam.ac.uk>
parents: 68058
diff changeset
  1184
    using False unfolding inner_simps
ee88c0fccbae simplified some messy proofs
paulson <lp15@cam.ac.uk>
parents: 68058
diff changeset
  1185
    by (auto simp add: power2_norm_eq_inner[symmetric] power2_eq_square inner_commute field_simps)
ee88c0fccbae simplified some messy proofs
paulson <lp15@cam.ac.uk>
parents: 68058
diff changeset
  1186
  also have "\<dots> \<longleftrightarrow> (2 * norm x * norm y * (norm x * norm y - x \<bullet> y) = 0)" 
ee88c0fccbae simplified some messy proofs
paulson <lp15@cam.ac.uk>
parents: 68058
diff changeset
  1187
    using False  by (simp add: field_simps inner_commute)
ee88c0fccbae simplified some messy proofs
paulson <lp15@cam.ac.uk>
parents: 68058
diff changeset
  1188
  also have "\<dots> \<longleftrightarrow> ?lhs" 
ee88c0fccbae simplified some messy proofs
paulson <lp15@cam.ac.uk>
parents: 68058
diff changeset
  1189
    using False by auto
ee88c0fccbae simplified some messy proofs
paulson <lp15@cam.ac.uk>
parents: 68058
diff changeset
  1190
  finally show ?thesis by metis
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1191
qed
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1192
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1193
lemma norm_cauchy_schwarz_abs_eq:
56444
f944ae8c80a3 tuned proofs;
wenzelm
parents: 56409
diff changeset
  1194
  "\<bar>x \<bullet> y\<bar> = norm x * norm y \<longleftrightarrow>
53716
b42d9a71fc1a tuned proofs;
wenzelm
parents: 53600
diff changeset
  1195
    norm x *\<^sub>R y = norm y *\<^sub>R x \<or> norm x *\<^sub>R y = - norm y *\<^sub>R x"
53406
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1196
  (is "?lhs \<longleftrightarrow> ?rhs")
49522
355f3d076924 tuned proofs;
wenzelm
parents: 44890
diff changeset
  1197
proof -
56444
f944ae8c80a3 tuned proofs;
wenzelm
parents: 56409
diff changeset
  1198
  have th: "\<And>(x::real) a. a \<ge> 0 \<Longrightarrow> \<bar>x\<bar> = a \<longleftrightarrow> x = a \<or> x = - a"
53406
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1199
    by arith
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1200
  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
  1201
    by simp
68062
ee88c0fccbae simplified some messy proofs
paulson <lp15@cam.ac.uk>
parents: 68058
diff changeset
  1202
  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
  1203
    unfolding norm_cauchy_schwarz_eq[symmetric]
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1204
    unfolding norm_minus_cancel norm_scaleR ..
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1205
  also have "\<dots> \<longleftrightarrow> ?lhs"
53406
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1206
    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
  1207
    by auto
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1208
  finally show ?thesis ..
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1209
qed
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1210
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1211
lemma norm_triangle_eq:
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1212
  fixes x y :: "'a::real_inner"
53406
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1213
  shows "norm (x + y) = norm x + norm y \<longleftrightarrow> norm x *\<^sub>R y = norm y *\<^sub>R x"
68062
ee88c0fccbae simplified some messy proofs
paulson <lp15@cam.ac.uk>
parents: 68058
diff changeset
  1214
proof (cases "x = 0 \<or> y = 0")
ee88c0fccbae simplified some messy proofs
paulson <lp15@cam.ac.uk>
parents: 68058
diff changeset
  1215
  case True
ee88c0fccbae simplified some messy proofs
paulson <lp15@cam.ac.uk>
parents: 68058
diff changeset
  1216
  then show ?thesis 
ee88c0fccbae simplified some messy proofs
paulson <lp15@cam.ac.uk>
parents: 68058
diff changeset
  1217
    by force
ee88c0fccbae simplified some messy proofs
paulson <lp15@cam.ac.uk>
parents: 68058
diff changeset
  1218
next
ee88c0fccbae simplified some messy proofs
paulson <lp15@cam.ac.uk>
parents: 68058
diff changeset
  1219
  case False
ee88c0fccbae simplified some messy proofs
paulson <lp15@cam.ac.uk>
parents: 68058
diff changeset
  1220
  then have n: "norm x > 0" "norm y > 0"
ee88c0fccbae simplified some messy proofs
paulson <lp15@cam.ac.uk>
parents: 68058
diff changeset
  1221
    by auto
ee88c0fccbae simplified some messy proofs
paulson <lp15@cam.ac.uk>
parents: 68058
diff changeset
  1222
  have "norm (x + y) = norm x + norm y \<longleftrightarrow> (norm (x + y))\<^sup>2 = (norm x + norm y)\<^sup>2"
ee88c0fccbae simplified some messy proofs
paulson <lp15@cam.ac.uk>
parents: 68058
diff changeset
  1223
    by simp
ee88c0fccbae simplified some messy proofs
paulson <lp15@cam.ac.uk>
parents: 68058
diff changeset
  1224
  also have "\<dots> \<longleftrightarrow> norm x *\<^sub>R y = norm y *\<^sub>R x"
ee88c0fccbae simplified some messy proofs
paulson <lp15@cam.ac.uk>
parents: 68058
diff changeset
  1225
    unfolding norm_cauchy_schwarz_eq[symmetric]
ee88c0fccbae simplified some messy proofs
paulson <lp15@cam.ac.uk>
parents: 68058
diff changeset
  1226
    unfolding power2_norm_eq_inner inner_simps
ee88c0fccbae simplified some messy proofs
paulson <lp15@cam.ac.uk>
parents: 68058
diff changeset
  1227
    by (simp add: power2_norm_eq_inner[symmetric] power2_eq_square inner_commute field_simps)
ee88c0fccbae simplified some messy proofs
paulson <lp15@cam.ac.uk>
parents: 68058
diff changeset
  1228
  finally show ?thesis .
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1229
qed
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1230
49522
355f3d076924 tuned proofs;
wenzelm
parents: 44890
diff changeset
  1231
60420
884f54e01427 isabelle update_cartouches;
wenzelm
parents: 60307
diff changeset
  1232
subsection \<open>Collinearity\<close>
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1233
70136
f03a01a18c6e modernized tags: default scope excludes proof;
wenzelm
parents: 69683
diff changeset
  1234
definition\<^marker>\<open>tag important\<close> collinear :: "'a::real_vector set \<Rightarrow> bool"
49522
355f3d076924 tuned proofs;
wenzelm
parents: 44890
diff changeset
  1235
  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
  1236
66287
005a30862ed0 new material: Colinearity, convex sets, polytopes
paulson <lp15@cam.ac.uk>
parents: 65680
diff changeset
  1237
lemma collinear_alt:
005a30862ed0 new material: Colinearity, convex sets, polytopes
paulson <lp15@cam.ac.uk>
parents: 65680
diff changeset
  1238
     "collinear S \<longleftrightarrow> (\<exists>u v. \<forall>x \<in> S. \<exists>c. x = u + c *\<^sub>R v)" (is "?lhs = ?rhs")
005a30862ed0 new material: Colinearity, convex sets, polytopes
paulson <lp15@cam.ac.uk>
parents: 65680
diff changeset
  1239
proof
005a30862ed0 new material: Colinearity, convex sets, polytopes
paulson <lp15@cam.ac.uk>
parents: 65680
diff changeset
  1240
  assume ?lhs
005a30862ed0 new material: Colinearity, convex sets, polytopes
paulson <lp15@cam.ac.uk>
parents: 65680
diff changeset
  1241
  then show ?rhs
005a30862ed0 new material: Colinearity, convex sets, polytopes
paulson <lp15@cam.ac.uk>
parents: 65680
diff changeset
  1242
    unfolding collinear_def by (metis Groups.add_ac(2) diff_add_cancel)
005a30862ed0 new material: Colinearity, convex sets, polytopes
paulson <lp15@cam.ac.uk>
parents: 65680
diff changeset
  1243
next
005a30862ed0 new material: Colinearity, convex sets, polytopes
paulson <lp15@cam.ac.uk>
parents: 65680
diff changeset
  1244
  assume ?rhs
005a30862ed0 new material: Colinearity, convex sets, polytopes
paulson <lp15@cam.ac.uk>
parents: 65680
diff changeset
  1245
  then obtain u v where *: "\<And>x. x \<in> S \<Longrightarrow> \<exists>c. x = u + c *\<^sub>R v"
005a30862ed0 new material: Colinearity, convex sets, polytopes
paulson <lp15@cam.ac.uk>
parents: 65680
diff changeset
  1246
    by (auto simp: )
005a30862ed0 new material: Colinearity, convex sets, polytopes
paulson <lp15@cam.ac.uk>
parents: 65680
diff changeset
  1247
  have "\<exists>c. x - y = c *\<^sub>R v" if "x \<in> S" "y \<in> S" for x y
005a30862ed0 new material: Colinearity, convex sets, polytopes
paulson <lp15@cam.ac.uk>
parents: 65680
diff changeset
  1248
        by (metis *[OF \<open>x \<in> S\<close>] *[OF \<open>y \<in> S\<close>] scaleR_left.diff add_diff_cancel_left)
005a30862ed0 new material: Colinearity, convex sets, polytopes
paulson <lp15@cam.ac.uk>
parents: 65680
diff changeset
  1249
  then show ?lhs
005a30862ed0 new material: Colinearity, convex sets, polytopes
paulson <lp15@cam.ac.uk>
parents: 65680
diff changeset
  1250
    using collinear_def by blast
005a30862ed0 new material: Colinearity, convex sets, polytopes
paulson <lp15@cam.ac.uk>
parents: 65680
diff changeset
  1251
qed
005a30862ed0 new material: Colinearity, convex sets, polytopes
paulson <lp15@cam.ac.uk>
parents: 65680
diff changeset
  1252
005a30862ed0 new material: Colinearity, convex sets, polytopes
paulson <lp15@cam.ac.uk>
parents: 65680
diff changeset
  1253
lemma collinear:
005a30862ed0 new material: Colinearity, convex sets, polytopes
paulson <lp15@cam.ac.uk>
parents: 65680
diff changeset
  1254
  fixes S :: "'a::{perfect_space,real_vector} set"
005a30862ed0 new material: Colinearity, convex sets, polytopes
paulson <lp15@cam.ac.uk>
parents: 65680
diff changeset
  1255
  shows "collinear S \<longleftrightarrow> (\<exists>u. u \<noteq> 0 \<and> (\<forall>x \<in> S. \<forall> y \<in> S. \<exists>c. x - y = c *\<^sub>R u))"
005a30862ed0 new material: Colinearity, convex sets, polytopes
paulson <lp15@cam.ac.uk>
parents: 65680
diff changeset
  1256
proof -
005a30862ed0 new material: Colinearity, convex sets, polytopes
paulson <lp15@cam.ac.uk>
parents: 65680
diff changeset
  1257
  have "\<exists>v. v \<noteq> 0 \<and> (\<forall>x\<in>S. \<forall>y\<in>S. \<exists>c. x - y = c *\<^sub>R v)"
005a30862ed0 new material: Colinearity, convex sets, polytopes
paulson <lp15@cam.ac.uk>
parents: 65680
diff changeset
  1258
    if "\<forall>x\<in>S. \<forall>y\<in>S. \<exists>c. x - y = c *\<^sub>R u" "u=0" for u
005a30862ed0 new material: Colinearity, convex sets, polytopes
paulson <lp15@cam.ac.uk>
parents: 65680
diff changeset
  1259
  proof -
005a30862ed0 new material: Colinearity, convex sets, polytopes
paulson <lp15@cam.ac.uk>
parents: 65680
diff changeset
  1260
    have "\<forall>x\<in>S. \<forall>y\<in>S. x = y"
005a30862ed0 new material: Colinearity, convex sets, polytopes
paulson <lp15@cam.ac.uk>
parents: 65680
diff changeset
  1261
      using that by auto
005a30862ed0 new material: Colinearity, convex sets, polytopes
paulson <lp15@cam.ac.uk>
parents: 65680
diff changeset
  1262
    moreover
005a30862ed0 new material: Colinearity, convex sets, polytopes
paulson <lp15@cam.ac.uk>
parents: 65680
diff changeset
  1263
    obtain v::'a where "v \<noteq> 0"
005a30862ed0 new material: Colinearity, convex sets, polytopes
paulson <lp15@cam.ac.uk>
parents: 65680
diff changeset
  1264
      using UNIV_not_singleton [of 0] by auto
005a30862ed0 new material: Colinearity, convex sets, polytopes
paulson <lp15@cam.ac.uk>
parents: 65680
diff changeset
  1265
    ultimately have "\<forall>x\<in>S. \<forall>y\<in>S. \<exists>c. x - y = c *\<^sub>R v"
005a30862ed0 new material: Colinearity, convex sets, polytopes
paulson <lp15@cam.ac.uk>
parents: 65680
diff changeset
  1266
      by auto
005a30862ed0 new material: Colinearity, convex sets, polytopes
paulson <lp15@cam.ac.uk>
parents: 65680
diff changeset
  1267
    then show ?thesis
005a30862ed0 new material: Colinearity, convex sets, polytopes
paulson <lp15@cam.ac.uk>
parents: 65680
diff changeset
  1268
      using \<open>v \<noteq> 0\<close> by blast
005a30862ed0 new material: Colinearity, convex sets, polytopes
paulson <lp15@cam.ac.uk>
parents: 65680
diff changeset
  1269
  qed
005a30862ed0 new material: Colinearity, convex sets, polytopes
paulson <lp15@cam.ac.uk>
parents: 65680
diff changeset
  1270
  then show ?thesis
005a30862ed0 new material: Colinearity, convex sets, polytopes
paulson <lp15@cam.ac.uk>
parents: 65680
diff changeset
  1271
    apply (clarsimp simp: collinear_def)
68072
493b818e8e10 added Johannes' generalizations Modules.thy and Vector_Spaces.thy; adapted HOL and HOL-Analysis accordingly
immler
parents: 67982
diff changeset
  1272
    by (metis scaleR_zero_right vector_fraction_eq_iff)
66287
005a30862ed0 new material: Colinearity, convex sets, polytopes
paulson <lp15@cam.ac.uk>
parents: 65680
diff changeset
  1273
qed
005a30862ed0 new material: Colinearity, convex sets, polytopes
paulson <lp15@cam.ac.uk>
parents: 65680
diff changeset
  1274
63881
b746b19197bd lots of new results about topology, affine dimension etc
paulson <lp15@cam.ac.uk>
parents: 63680
diff changeset
  1275
lemma collinear_subset: "\<lbrakk>collinear T; S \<subseteq> T\<rbrakk> \<Longrightarrow> collinear S"
b746b19197bd lots of new results about topology, affine dimension etc
paulson <lp15@cam.ac.uk>
parents: 63680
diff changeset
  1276
  by (meson collinear_def subsetCE)
b746b19197bd lots of new results about topology, affine dimension etc
paulson <lp15@cam.ac.uk>
parents: 63680
diff changeset
  1277
60762
bf0c76ccee8d new material for multivariate analysis, etc.
paulson
parents: 60420
diff changeset
  1278
lemma collinear_empty [iff]: "collinear {}"
53406
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1279
  by (simp add: collinear_def)
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1280
60762
bf0c76ccee8d new material for multivariate analysis, etc.
paulson
parents: 60420
diff changeset
  1281
lemma collinear_sing [iff]: "collinear {x}"
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1282
  by (simp add: collinear_def)
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1283
60762
bf0c76ccee8d new material for multivariate analysis, etc.
paulson
parents: 60420
diff changeset
  1284
lemma collinear_2 [iff]: "collinear {x, y}"
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1285
  apply (simp add: collinear_def)
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1286
  apply (rule exI[where x="x - y"])
68062
ee88c0fccbae simplified some messy proofs
paulson <lp15@cam.ac.uk>
parents: 68058
diff changeset
  1287
  by (metis minus_diff_eq scaleR_left.minus scaleR_one)
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1288
56444
f944ae8c80a3 tuned proofs;
wenzelm
parents: 56409
diff changeset
  1289
lemma collinear_lemma: "collinear {0, x, y} \<longleftrightarrow> x = 0 \<or> y = 0 \<or> (\<exists>c. y = c *\<^sub>R x)"
53406
d4374a69ddff tuned proofs;
wenzelm
parents: 53077
diff changeset
  1290
  (is "?lhs \<longleftrightarrow> ?rhs")
68062
ee88c0fccbae simplified some messy proofs
paulson <lp15@cam.ac.uk>
parents: 68058
diff changeset
  1291
proof (cases "x = 0 \<or> y = 0")
ee88c0fccbae simplified some messy proofs
paulson <lp15@cam.ac.uk>
parents: 68058
diff changeset
  1292
  case True
ee88c0fccbae simplified some messy proofs
paulson <lp15@cam.ac.uk>
parents: 68058
diff changeset
  1293
  then show ?thesis
ee88c0fccbae simplified some messy proofs
paulson <lp15@cam.ac.uk>
parents: 68058
diff changeset
  1294
    by (auto simp: insert_commute)
ee88c0fccbae simplified some messy proofs
paulson <lp15@cam.ac.uk>
parents: 68058
diff changeset
  1295
next
ee88c0fccbae simplified some messy proofs
paulson <lp15@cam.ac.uk>
parents: 68058
diff changeset
  1296
  case False
ee88c0fccbae simplified some messy proofs
paulson <lp15@cam.ac.uk>
parents: 68058
diff changeset
  1297
  show ?thesis 
ee88c0fccbae simplified some messy proofs
paulson <lp15@cam.ac.uk>
parents: 68058
diff changeset
  1298
  proof
ee88c0fccbae simplified some messy proofs
paulson <lp15@cam.ac.uk>
parents: 68058
diff changeset
  1299
    assume h: "?lhs"
ee88c0fccbae simplified some messy proofs
paulson <lp15@cam.ac.uk>
parents: 68058
diff changeset
  1300
    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"
ee88c0fccbae simplified some messy proofs
paulson <lp15@cam.ac.uk>
parents: 68058
diff changeset
  1301
      unfolding collinear_def by blast
ee88c0fccbae simplified some messy proofs
paulson <lp15@cam.ac.uk>
parents: 68058
diff changeset
  1302
    from u[rule_format, of x 0] u[rule_format, of y 0]
ee88c0fccbae simplified some messy proofs
paulson <lp15@cam.ac.uk>
parents: 68058
diff changeset
  1303
    obtain cx and cy where
ee88c0fccbae simplified some messy proofs
paulson <lp15@cam.ac.uk>
parents: 68058
diff changeset
  1304
      cx: "x = cx *\<^sub>R u" and cy: "y = cy *\<^sub>R u"
ee88c0fccbae simplified some messy proofs
paulson <lp15@cam.ac.uk>
parents: 68058
diff changeset
  1305
      by auto
ee88c0fccbae simplified some messy proofs
paulson <lp15@cam.ac.uk>
parents: 68058
diff changeset
  1306
    from cx cy False have cx0: "cx \<noteq> 0" and cy0: "cy \<noteq> 0" by auto
ee88c0fccbae simplified some messy proofs
paulson <lp15@cam.ac.uk>
parents: 68058
diff changeset
  1307
    let ?d = "cy / cx"
ee88c0fccbae simplified some messy proofs
paulson <lp15@cam.ac.uk>
parents: 68058
diff changeset
  1308
    from cx cy cx0 have "y = ?d *\<^sub>R x"
ee88c0fccbae simplified some messy proofs
paulson <lp15@cam.ac.uk>
parents: 68058
diff changeset
  1309
      by simp
ee88c0fccbae simplified some messy proofs
paulson <lp15@cam.ac.uk>
parents: 68058
diff changeset
  1310
    then show ?rhs using False by blast
ee88c0fccbae simplified some messy proofs
paulson <lp15@cam.ac.uk>
parents: 68058
diff changeset
  1311
  next
ee88c0fccbae simplified some messy proofs
paulson <lp15@cam.ac.uk>
parents: 68058
diff changeset
  1312
    assume h: "?rhs"
ee88c0fccbae simplified some messy proofs
paulson <lp15@cam.ac.uk>
parents: 68058
diff changeset
  1313
    then obtain c where c: "y = c *\<^sub>R x"
ee88c0fccbae simplified some messy proofs
paulson <lp15@cam.ac.uk>
parents: 68058
diff changeset
  1314
      using False by blast
ee88c0fccbae simplified some messy proofs
paulson <lp15@cam.ac.uk>
parents: 68058
diff changeset
  1315
    show ?lhs
ee88c0fccbae simplified some messy proofs
paulson <lp15@cam.ac.uk>
parents: 68058
diff changeset
  1316
      unfolding collinear_def c
ee88c0fccbae simplified some messy proofs
paulson <lp15@cam.ac.uk>
parents: 68058
diff changeset
  1317
      apply (rule exI[where x=x])
ee88c0fccbae simplified some messy proofs
paulson <lp15@cam.ac.uk>
parents: 68058
diff changeset
  1318
      apply auto
ee88c0fccbae simplified some messy proofs
paulson <lp15@cam.ac.uk>
parents: 68058
diff changeset
  1319
          apply (rule exI[where x="- 1"], simp)
ee88c0fccbae simplified some messy proofs
paulson <lp15@cam.ac.uk>
parents: 68058
diff changeset
  1320
         apply (rule exI[where x= "-c"], simp)
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1321
        apply (rule exI[where x=1], simp)
68062
ee88c0fccbae simplified some messy proofs
paulson <lp15@cam.ac.uk>
parents: 68058
diff changeset
  1322
       apply (rule exI[where x="1 - c"], simp add: scaleR_left_diff_distrib)
ee88c0fccbae simplified some messy proofs
paulson <lp15@cam.ac.uk>
parents: 68058
diff changeset
  1323
      apply (rule exI[where x="c - 1"], simp add: scaleR_left_diff_distrib)
ee88c0fccbae simplified some messy proofs
paulson <lp15@cam.ac.uk>
parents: 68058
diff changeset
  1324
      done
ee88c0fccbae simplified some messy proofs
paulson <lp15@cam.ac.uk>
parents: 68058
diff changeset
  1325
  qed
44133
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1326
qed
691c52e900ca split Linear_Algebra.thy from Euclidean_Space.thy
huffman
parents:
diff changeset
  1327
56444
f944ae8c80a3 tuned proofs;
wenzelm
parents: 56409
diff changeset
  1328
lemma norm_cauchy_schwarz_equal: "\<bar>x \<bullet> y\<bar> = norm x * norm y \<longleftrightarrow> collinear {0, x, y}"
68062
ee88c0fccbae simplified some messy proofs
paulson <lp15@cam.ac.uk>
parents: 68058
diff changeset
  1329
proof (cases "x=0")
ee88c0fccbae simplified some messy proofs
paulson <lp15@cam.ac.uk>
parents: 68058
diff changeset
  1330
  case True
ee88c0fccbae simplified some messy proofs
paulson <lp15@cam.ac.uk>
parents: 68058
diff changeset
  1331
  then show ?thesis
ee88c0fccbae simplified some messy proofs
paulson <lp15@cam.ac.uk>
parents: 68058
diff changeset
  1332
    by (auto simp: insert_commute)
ee88c0fccbae simplified some messy proofs
paulson <lp15@cam.ac.uk>
parents: 68058
diff changeset
  1333
next
ee88c0fccbae simplified some messy proofs
paulson <lp15@cam.ac.uk>
parents: 68058
diff changeset
  1334
  case False
ee88c0fccbae simplified some messy proofs
paulson <lp15@cam.ac.uk>
parents: 68058
diff changeset
  1335
  then have nnz: "norm x \<noteq> 0"
ee88c0fccbae simplified some messy proofs
paulson <lp15@cam.ac.uk>
parents: 68058
diff changeset
  1336
    by auto
ee88c0fccbae simplified some messy proofs
paulson <lp15@cam.ac.uk>
parents: 68058
diff changeset
  1337
  show ?thesis
ee88c0fccbae simplified some messy proofs
paulson <lp15@cam.ac.uk>
parents: 68058
diff changeset
  1338
  proof
ee88c0fccbae simplified some messy proofs
paulson <lp15@cam.ac.uk>
parents: 68058
diff changeset
  1339
    assume "\<bar>x \<bullet> y\<bar> = norm x * norm y"
ee88c0fccbae simplified some messy proofs
paulson <lp15@cam.ac.uk>
parents: 68058
diff changeset
  1340
    then show "collinear {0, x, y}"
ee88c0fccbae simplified some messy proofs
paulson <lp15@cam.ac.uk>
parents: 68058
diff changeset
  1341
      unfolding norm_cauchy_schwarz_abs_eq collinear_lemma 
ee88c0fccbae simplified some messy proofs
paulson <lp15@cam.ac.uk>
parents: 68058
diff changeset
  1342
      by (meson eq_vector_fraction_iff nnz)
ee88c0fccbae simplified some messy proofs
paulson <lp15@cam.ac.uk>
parents: 68058
diff changeset
  1343
  next
ee88c0fccbae simplified some messy proofs
paulson <lp15@cam.ac.uk>
parents: 68058
diff changeset
  1344
    assume "collinear {0, x, y}"
ee88c0fccbae simplified some messy proofs
paulson <lp15@cam.ac.uk>
parents: 68058
diff changeset
  1345
    with False show "\<bar>x \<bullet> y\<bar> = norm x * norm y"
ee88c0fccbae simplified some messy proofs
paulson <lp15@cam.ac.uk>
parents: 68058
diff changeset
  1346
      unfolding norm_cauchy_schwarz_abs_eq collinear_lemma  by (auto simp: abs_if)
ee88c0fccbae simplified some messy proofs
paulson <lp15@cam.ac.uk>
parents: 68058
diff changeset
  1347
  qed
ee88c0fccbae simplified some messy proofs
paulson <lp15@cam.ac.uk>
parents: 68058
diff changeset
  1348
qed
49522
355f3d076924 tuned proofs;
wenzelm
parents: 44890
diff changeset
  1349
69675
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1350
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1351
subsection\<open>Properties of special hyperplanes\<close>
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1352
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1353
lemma subspace_hyperplane: "subspace {x. a \<bullet> x = 0}"
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1354
  by (simp add: subspace_def inner_right_distrib)
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1355
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1356
lemma subspace_hyperplane2: "subspace {x. x \<bullet> a = 0}"
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1357
  by (simp add: inner_commute inner_right_distrib subspace_def)
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1358
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1359
lemma special_hyperplane_span:
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1360
  fixes S :: "'n::euclidean_space set"
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1361
  assumes "k \<in> Basis"
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1362
  shows "{x. k \<bullet> x = 0} = span (Basis - {k})"
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1363
proof -
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1364
  have *: "x \<in> span (Basis - {k})" if "k \<bullet> x = 0" for x
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1365
  proof -
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1366
    have "x = (\<Sum>b\<in>Basis. (x \<bullet> b) *\<^sub>R b)"
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1367
      by (simp add: euclidean_representation)
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1368
    also have "... = (\<Sum>b \<in> Basis - {k}. (x \<bullet> b) *\<^sub>R b)"
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1369
      by (auto simp: sum.remove [of _ k] inner_commute assms that)
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1370
    finally have "x = (\<Sum>b\<in>Basis - {k}. (x \<bullet> b) *\<^sub>R b)" .
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1371
    then show ?thesis
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1372
      by (simp add: span_finite)
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1373
  qed
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1374
  show ?thesis
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1375
    apply (rule span_subspace [symmetric])
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1376
    using assms
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1377
    apply (auto simp: inner_not_same_Basis intro: * subspace_hyperplane)
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1378
    done
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1379
qed
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1380
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1381
lemma dim_special_hyperplane:
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1382
  fixes k :: "'n::euclidean_space"
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1383
  shows "k \<in> Basis \<Longrightarrow> dim {x. k \<bullet> x = 0} = DIM('n) - 1"
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1384
apply (simp add: special_hyperplane_span)
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1385
apply (rule dim_unique [OF subset_refl])
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1386
apply (auto simp: independent_substdbasis)
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1387
apply (metis member_remove remove_def span_base)
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1388
done
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1389
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1390
proposition dim_hyperplane:
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1391
  fixes a :: "'a::euclidean_space"
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1392
  assumes "a \<noteq> 0"
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1393
    shows "dim {x. a \<bullet> x = 0} = DIM('a) - 1"
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1394
proof -
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1395
  have span0: "span {x. a \<bullet> x = 0} = {x. a \<bullet> x = 0}"
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1396
    by (rule span_unique) (auto simp: subspace_hyperplane)
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1397
  then obtain B where "independent B"
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1398
              and Bsub: "B \<subseteq> {x. a \<bullet> x = 0}"
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1399
              and subspB: "{x. a \<bullet> x = 0} \<subseteq> span B"
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1400
              and card0: "(card B = dim {x. a \<bullet> x = 0})"
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1401
              and ortho: "pairwise orthogonal B"
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1402
    using orthogonal_basis_exists by metis
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1403
  with assms have "a \<notin> span B"
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1404
    by (metis (mono_tags, lifting) span_eq inner_eq_zero_iff mem_Collect_eq span0)
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1405
  then have ind: "independent (insert a B)"
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1406
    by (simp add: \<open>independent B\<close> independent_insert)
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1407
  have "finite B"
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1408
    using \<open>independent B\<close> independent_bound by blast
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1409
  have "UNIV \<subseteq> span (insert a B)"
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1410
  proof fix y::'a
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1411
    obtain r z where z: "y = r *\<^sub>R a + z" "a \<bullet> z = 0"
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1412
      apply (rule_tac r="(a \<bullet> y) / (a \<bullet> a)" and z = "y - ((a \<bullet> y) / (a \<bullet> a)) *\<^sub>R a" in that)
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1413
      using assms
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1414
      by (auto simp: algebra_simps)
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1415
    show "y \<in> span (insert a B)"
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1416
      by (metis (mono_tags, lifting) z Bsub span_eq_iff
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1417
         add_diff_cancel_left' mem_Collect_eq span0 span_breakdown_eq span_subspace subspB)
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1418
  qed
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1419
  then have dima: "DIM('a) = dim(insert a B)"
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1420
    by (metis independent_Basis span_Basis dim_eq_card top.extremum_uniqueI)
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1421
  then show ?thesis
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1422
    by (metis (mono_tags, lifting) Bsub Diff_insert_absorb \<open>a \<notin> span B\<close> ind card0
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1423
        card_Diff_singleton dim_span indep_card_eq_dim_span insertI1 subsetCE
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1424
        subspB)
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1425
qed
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1426
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1427
lemma lowdim_eq_hyperplane:
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1428
  fixes S :: "'a::euclidean_space set"
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1429
  assumes "dim S = DIM('a) - 1"
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1430
  obtains a where "a \<noteq> 0" and "span S = {x. a \<bullet> x = 0}"
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1431
proof -
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1432
  have dimS: "dim S < DIM('a)"
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1433
    by (simp add: assms)
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1434
  then obtain b where b: "b \<noteq> 0" "span S \<subseteq> {a. b \<bullet> a = 0}"
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1435
    using lowdim_subset_hyperplane [of S] by fastforce
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1436
  show ?thesis
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1437
    apply (rule that[OF b(1)])
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1438
    apply (rule subspace_dim_equal)
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1439
    by (auto simp: assms b dim_hyperplane dim_span subspace_hyperplane
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1440
        subspace_span)
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1441
qed
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1442
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1443
lemma dim_eq_hyperplane:
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1444
  fixes S :: "'n::euclidean_space set"
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1445
  shows "dim S = DIM('n) - 1 \<longleftrightarrow> (\<exists>a. a \<noteq> 0 \<and> span S = {x. a \<bullet> x = 0})"
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1446
by (metis One_nat_def dim_hyperplane dim_span lowdim_eq_hyperplane)
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1447
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1448
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1449
subsection\<open> Orthogonal bases, Gram-Schmidt process, and related theorems\<close>
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1450
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1451
lemma pairwise_orthogonal_independent:
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1452
  assumes "pairwise orthogonal S" and "0 \<notin> S"
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1453
    shows "independent S"
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1454
proof -
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1455
  have 0: "\<And>x y. \<lbrakk>x \<noteq> y; x \<in> S; y \<in> S\<rbrakk> \<Longrightarrow> x \<bullet> y = 0"
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1456
    using assms by (simp add: pairwise_def orthogonal_def)
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1457
  have "False" if "a \<in> S" and a: "a \<in> span (S - {a})" for a
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1458
  proof -
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1459
    obtain T U where "T \<subseteq> S - {a}" "a = (\<Sum>v\<in>T. U v *\<^sub>R v)"
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1460
      using a by (force simp: span_explicit)
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1461
    then have "a \<bullet> a = a \<bullet> (\<Sum>v\<in>T. U v *\<^sub>R v)"
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1462
      by simp
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1463
    also have "... = 0"
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1464
      apply (simp add: inner_sum_right)
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1465
      apply (rule comm_monoid_add_class.sum.neutral)
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1466
      by (metis "0" DiffE \<open>T \<subseteq> S - {a}\<close> mult_not_zero singletonI subsetCE \<open>a \<in> S\<close>)
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1467
    finally show ?thesis
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1468
      using \<open>0 \<notin> S\<close> \<open>a \<in> S\<close> by auto
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1469
  qed
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1470
  then show ?thesis
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1471
    by (force simp: dependent_def)
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1472
qed
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1473
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1474
lemma pairwise_orthogonal_imp_finite:
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1475
  fixes S :: "'a::euclidean_space set"
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1476
  assumes "pairwise orthogonal S"
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1477
    shows "finite S"
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1478
proof -
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1479
  have "independent (S - {0})"
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1480
    apply (rule pairwise_orthogonal_independent)
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1481
     apply (metis Diff_iff assms pairwise_def)
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1482
    by blast
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1483
  then show ?thesis
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1484
    by (meson independent_imp_finite infinite_remove)
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1485
qed
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1486
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1487
lemma subspace_orthogonal_to_vector: "subspace {y. orthogonal x y}"
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1488
  by (simp add: subspace_def orthogonal_clauses)
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1489
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1490
lemma subspace_orthogonal_to_vectors: "subspace {y. \<forall>x \<in> S. orthogonal x y}"
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1491
  by (simp add: subspace_def orthogonal_clauses)
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1492
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1493
lemma orthogonal_to_span:
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1494
  assumes a: "a \<in> span S" and x: "\<And>y. y \<in> S \<Longrightarrow> orthogonal x y"
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1495
    shows "orthogonal x a"
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1496
  by (metis a orthogonal_clauses(1,2,4)
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1497
      span_induct_alt x)
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1498
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1499
proposition Gram_Schmidt_step:
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1500
  fixes S :: "'a::euclidean_space set"
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1501
  assumes S: "pairwise orthogonal S" and x: "x \<in> span S"
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1502
    shows "orthogonal x (a - (\<Sum>b\<in>S. (b \<bullet> a / (b \<bullet> b)) *\<^sub>R b))"
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1503
proof -
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1504
  have "finite S"
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1505
    by (simp add: S pairwise_orthogonal_imp_finite)
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1506
  have "orthogonal (a - (\<Sum>b\<in>S. (b \<bullet> a / (b \<bullet> b)) *\<^sub>R b)) x"
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1507
       if "x \<in> S" for x
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1508
  proof -
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1509
    have "a \<bullet> x = (\<Sum>y\<in>S. if y = x then y \<bullet> a else 0)"
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1510
      by (simp add: \<open>finite S\<close> inner_commute sum.delta that)
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1511
    also have "... =  (\<Sum>b\<in>S. b \<bullet> a * (b \<bullet> x) / (b \<bullet> b))"
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1512
      apply (rule sum.cong [OF refl], simp)
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1513
      by (meson S orthogonal_def pairwise_def that)
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1514
   finally show ?thesis
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1515
     by (simp add: orthogonal_def algebra_simps inner_sum_left)
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1516
  qed
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1517
  then show ?thesis
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1518
    using orthogonal_to_span orthogonal_commute x by blast
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1519
qed
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1520
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1521
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1522
lemma orthogonal_extension_aux:
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1523
  fixes S :: "'a::euclidean_space set"
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1524
  assumes "finite T" "finite S" "pairwise orthogonal S"
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1525
    shows "\<exists>U. pairwise orthogonal (S \<union> U) \<and> span (S \<union> U) = span (S \<union> T)"
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1526
using assms
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1527
proof (induction arbitrary: S)
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1528
  case empty then show ?case
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1529
    by simp (metis sup_bot_right)
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1530
next
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1531
  case (insert a T)
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1532
  have 0: "\<And>x y. \<lbrakk>x \<noteq> y; x \<in> S; y \<in> S\<rbrakk> \<Longrightarrow> x \<bullet> y = 0"
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1533
    using insert by (simp add: pairwise_def orthogonal_def)
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1534
  define a' where "a' = a - (\<Sum>b\<in>S. (b \<bullet> a / (b \<bullet> b)) *\<^sub>R b)"
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1535
  obtain U where orthU: "pairwise orthogonal (S \<union> insert a' U)"
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1536
             and spanU: "span (insert a' S \<union> U) = span (insert a' S \<union> T)"
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1537
    by (rule exE [OF insert.IH [of "insert a' S"]])
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1538
      (auto simp: Gram_Schmidt_step a'_def insert.prems orthogonal_commute
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1539
        pairwise_orthogonal_insert span_clauses)
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1540
  have orthS: "\<And>x. x \<in> S \<Longrightarrow> a' \<bullet> x = 0"
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1541
    apply (simp add: a'_def)
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1542
    using Gram_Schmidt_step [OF \<open>pairwise orthogonal S\<close>]
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1543
    apply (force simp: orthogonal_def inner_commute span_superset [THEN subsetD])
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1544
    done
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1545
  have "span (S \<union> insert a' U) = span (insert a' (S \<union> T))"
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1546
    using spanU by simp
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1547
  also have "... = span (insert a (S \<union> T))"
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1548
    apply (rule eq_span_insert_eq)
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1549
    apply (simp add: a'_def span_neg span_sum span_base span_mul)
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1550
    done
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1551
  also have "... = span (S \<union> insert a T)"
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1552
    by simp
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1553
  finally show ?case
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1554
    by (rule_tac x="insert a' U" in exI) (use orthU in auto)
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1555
qed
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1556
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1557
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1558
proposition orthogonal_extension:
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1559
  fixes S :: "'a::euclidean_space set"
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1560
  assumes S: "pairwise orthogonal S"
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1561
  obtains U where "pairwise orthogonal (S \<union> U)" "span (S \<union> U) = span (S \<union> T)"
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1562
proof -
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1563
  obtain B where "finite B" "span B = span T"
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1564
    using basis_subspace_exists [of "span T"] subspace_span by metis
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1565
  with orthogonal_extension_aux [of B S]
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1566
  obtain U where "pairwise orthogonal (S \<union> U)" "span (S \<union> U) = span (S \<union> B)"
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1567
    using assms pairwise_orthogonal_imp_finite by auto
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1568
  with \<open>span B = span T\<close> show ?thesis
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1569
    by (rule_tac U=U in that) (auto simp: span_Un)
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1570
qed
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1571
70136
f03a01a18c6e modernized tags: default scope excludes proof;
wenzelm
parents: 69683
diff changeset
  1572
corollary\<^marker>\<open>tag unimportant\<close> orthogonal_extension_strong:
69675
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1573
  fixes S :: "'a::euclidean_space set"
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1574
  assumes S: "pairwise orthogonal S"
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1575
  obtains U where "U \<inter> (insert 0 S) = {}" "pairwise orthogonal (S \<union> U)"
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1576
                  "span (S \<union> U) = span (S \<union> T)"
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1577
proof -
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1578
  obtain U where "pairwise orthogonal (S \<union> U)" "span (S \<union> U) = span (S \<union> T)"
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1579
    using orthogonal_extension assms by blast
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1580
  then show ?thesis
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1581
    apply (rule_tac U = "U - (insert 0 S)" in that)
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1582
      apply blast
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1583
     apply (force simp: pairwise_def)
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1584
    apply (metis Un_Diff_cancel Un_insert_left span_redundant span_zero)
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1585
    done
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1586
qed
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1587
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1588
subsection\<open>Decomposing a vector into parts in orthogonal subspaces\<close>
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1589
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1590
text\<open>existence of orthonormal basis for a subspace.\<close>
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1591
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1592
lemma orthogonal_spanningset_subspace:
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1593
  fixes S :: "'a :: euclidean_space set"
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1594
  assumes "subspace S"
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1595
  obtains B where "B \<subseteq> S" "pairwise orthogonal B" "span B = S"
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1596
proof -
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1597
  obtain B where "B \<subseteq> S" "independent B" "S \<subseteq> span B" "card B = dim S"
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1598
    using basis_exists by blast
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1599
  with orthogonal_extension [of "{}" B]
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1600
  show ?thesis
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1601
    by (metis Un_empty_left assms pairwise_empty span_superset span_subspace that)
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1602
qed
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1603
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1604
lemma orthogonal_basis_subspace:
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1605
  fixes S :: "'a :: euclidean_space set"
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1606
  assumes "subspace S"
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1607
  obtains B where "0 \<notin> B" "B \<subseteq> S" "pairwise orthogonal B" "independent B"
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1608
                  "card B = dim S" "span B = S"
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1609
proof -
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1610
  obtain B where "B \<subseteq> S" "pairwise orthogonal B" "span B = S"
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1611
    using assms orthogonal_spanningset_subspace by blast
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1612
  then show ?thesis
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1613
    apply (rule_tac B = "B - {0}" in that)
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1614
    apply (auto simp: indep_card_eq_dim_span pairwise_subset pairwise_orthogonal_independent elim: pairwise_subset)
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1615
    done
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1616
qed
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1617
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1618
proposition orthonormal_basis_subspace:
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1619
  fixes S :: "'a :: euclidean_space set"
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1620
  assumes "subspace S"
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1621
  obtains B where "B \<subseteq> S" "pairwise orthogonal B"
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1622
              and "\<And>x. x \<in> B \<Longrightarrow> norm x = 1"
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1623
              and "independent B" "card B = dim S" "span B = S"
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1624
proof -
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1625
  obtain B where "0 \<notin> B" "B \<subseteq> S"
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1626
             and orth: "pairwise orthogonal B"
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1627
             and "independent B" "card B = dim S" "span B = S"
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1628
    by (blast intro: orthogonal_basis_subspace [OF assms])
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1629
  have 1: "(\<lambda>x. x /\<^sub>R norm x) ` B \<subseteq> S"
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1630
    using \<open>span B = S\<close> span_superset span_mul by fastforce
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1631
  have 2: "pairwise orthogonal ((\<lambda>x. x /\<^sub>R norm x) ` B)"
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1632
    using orth by (force simp: pairwise_def orthogonal_clauses)
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1633
  have 3: "\<And>x. x \<in> (\<lambda>x. x /\<^sub>R norm x) ` B \<Longrightarrow> norm x = 1"
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1634
    by (metis (no_types, lifting) \<open>0 \<notin> B\<close> image_iff norm_sgn sgn_div_norm)
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1635
  have 4: "independent ((\<lambda>x. x /\<^sub>R norm x) ` B)"
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1636
    by (metis "2" "3" norm_zero pairwise_orthogonal_independent zero_neq_one)
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1637
  have "inj_on (\<lambda>x. x /\<^sub>R norm x) B"
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1638
  proof
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1639
    fix x y
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1640
    assume "x \<in> B" "y \<in> B" "x /\<^sub>R norm x = y /\<^sub>R norm y"
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1641
    moreover have "\<And>i. i \<in> B \<Longrightarrow> norm (i /\<^sub>R norm i) = 1"
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1642
      using 3 by blast
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1643
    ultimately show "x = y"
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1644
      by (metis norm_eq_1 orth orthogonal_clauses(7) orthogonal_commute orthogonal_def pairwise_def zero_neq_one)
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1645
  qed
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1646
  then have 5: "card ((\<lambda>x. x /\<^sub>R norm x) ` B) = dim S"
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1647
    by (metis \<open>card B = dim S\<close> card_image)
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1648
  have 6: "span ((\<lambda>x. x /\<^sub>R norm x) ` B) = S"
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1649
    by (metis "1" "4" "5" assms card_eq_dim independent_imp_finite span_subspace)
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1650
  show ?thesis
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1651
    by (rule that [OF 1 2 3 4 5 6])
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1652
qed
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1653
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1654
70136
f03a01a18c6e modernized tags: default scope excludes proof;
wenzelm
parents: 69683
diff changeset
  1655
proposition\<^marker>\<open>tag unimportant\<close> orthogonal_to_subspace_exists_gen:
69675
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1656
  fixes S :: "'a :: euclidean_space set"
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1657
  assumes "span S \<subset> span T"
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1658
  obtains x where "x \<noteq> 0" "x \<in> span T" "\<And>y. y \<in> span S \<Longrightarrow> orthogonal x y"
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1659
proof -
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1660
  obtain B where "B \<subseteq> span S" and orthB: "pairwise orthogonal B"
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1661
             and "\<And>x. x \<in> B \<Longrightarrow> norm x = 1"
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1662
             and "independent B" "card B = dim S" "span B = span S"
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1663
    by (rule orthonormal_basis_subspace [of "span S", OF subspace_span])
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1664
      (auto simp: dim_span)
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1665
  with assms obtain u where spanBT: "span B \<subseteq> span T" and "u \<notin> span B" "u \<in> span T"
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1666
    by auto
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1667
  obtain C where orthBC: "pairwise orthogonal (B \<union> C)" and spanBC: "span (B \<union> C) = span (B \<union> {u})"
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1668
    by (blast intro: orthogonal_extension [OF orthB])
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1669
  show thesis
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1670
  proof (cases "C \<subseteq> insert 0 B")
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1671
    case True
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1672
    then have "C \<subseteq> span B"
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1673
      using span_eq
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1674
      by (metis span_insert_0 subset_trans)
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1675
    moreover have "u \<in> span (B \<union> C)"
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1676
      using \<open>span (B \<union> C) = span (B \<union> {u})\<close> span_superset by force
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1677
    ultimately show ?thesis
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1678
      using True \<open>u \<notin> span B\<close>
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1679
      by (metis Un_insert_left span_insert_0 sup.orderE)
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1680
  next
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1681
    case False
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1682
    then obtain x where "x \<in> C" "x \<noteq> 0" "x \<notin> B"
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1683
      by blast
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1684
    then have "x \<in> span T"
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1685
      by (metis (no_types, lifting) Un_insert_right Un_upper2 \<open>u \<in> span T\<close> spanBT spanBC
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1686
          \<open>u \<in> span T\<close> insert_subset span_superset span_mono
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1687
          span_span subsetCE subset_trans sup_bot.comm_neutral)
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1688
    moreover have "orthogonal x y" if "y \<in> span B" for y
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1689
      using that
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1690
    proof (rule span_induct)
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1691
      show "subspace {a. orthogonal x a}"
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1692
        by (simp add: subspace_orthogonal_to_vector)
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1693
      show "\<And>b. b \<in> B \<Longrightarrow> orthogonal x b"
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1694
        by (metis Un_iff \<open>x \<in> C\<close> \<open>x \<notin> B\<close> orthBC pairwise_def)
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1695
    qed
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1696
    ultimately show ?thesis
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1697
      using \<open>x \<noteq> 0\<close> that \<open>span B = span S\<close> by auto
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1698
  qed
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1699
qed
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1700
70136
f03a01a18c6e modernized tags: default scope excludes proof;
wenzelm
parents: 69683
diff changeset
  1701
corollary\<^marker>\<open>tag unimportant\<close> orthogonal_to_subspace_exists:
69675
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1702
  fixes S :: "'a :: euclidean_space set"
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1703
  assumes "dim S < DIM('a)"
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1704
  obtains x where "x \<noteq> 0" "\<And>y. y \<in> span S \<Longrightarrow> orthogonal x y"
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1705
proof -
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1706
have "span S \<subset> UNIV"
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1707
  by (metis (mono_tags) UNIV_I assms inner_eq_zero_iff less_le lowdim_subset_hyperplane
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1708
      mem_Collect_eq top.extremum_strict top.not_eq_extremum)
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1709
  with orthogonal_to_subspace_exists_gen [of S UNIV] that show ?thesis
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1710
    by (auto simp: span_UNIV)
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1711
qed
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1712
70136
f03a01a18c6e modernized tags: default scope excludes proof;
wenzelm
parents: 69683
diff changeset
  1713
corollary\<^marker>\<open>tag unimportant\<close> orthogonal_to_vector_exists:
69675
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1714
  fixes x :: "'a :: euclidean_space"
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1715
  assumes "2 \<le> DIM('a)"
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1716
  obtains y where "y \<noteq> 0" "orthogonal x y"
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1717
proof -
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1718
  have "dim {x} < DIM('a)"
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1719
    using assms by auto
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1720
  then show thesis
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1721
    by (rule orthogonal_to_subspace_exists) (simp add: orthogonal_commute span_base that)
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1722
qed
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1723
70136
f03a01a18c6e modernized tags: default scope excludes proof;
wenzelm
parents: 69683
diff changeset
  1724
proposition\<^marker>\<open>tag unimportant\<close> orthogonal_subspace_decomp_exists:
69675
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1725
  fixes S :: "'a :: euclidean_space set"
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1726
  obtains y z
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1727
  where "y \<in> span S"
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1728
    and "\<And>w. w \<in> span S \<Longrightarrow> orthogonal z w"
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1729
    and "x = y + z"
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1730
proof -
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1731
  obtain T where "0 \<notin> T" "T \<subseteq> span S" "pairwise orthogonal T" "independent T"
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1732
    "card T = dim (span S)" "span T = span S"
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1733
    using orthogonal_basis_subspace subspace_span by blast
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1734
  let ?a = "\<Sum>b\<in>T. (b \<bullet> x / (b \<bullet> b)) *\<^sub>R b"
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1735
  have orth: "orthogonal (x - ?a) w" if "w \<in> span S" for w
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1736
    by (simp add: Gram_Schmidt_step \<open>pairwise orthogonal T\<close> \<open>span T = span S\<close>
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1737
        orthogonal_commute that)
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1738
  show ?thesis
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1739
    apply (rule_tac y = "?a" and z = "x - ?a" in that)
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1740
      apply (meson \<open>T \<subseteq> span S\<close> span_scale span_sum subsetCE)
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1741
     apply (fact orth, simp)
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1742
    done
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1743
qed
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1744
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1745
lemma orthogonal_subspace_decomp_unique:
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1746
  fixes S :: "'a :: euclidean_space set"
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1747
  assumes "x + y = x' + y'"
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1748
      and ST: "x \<in> span S" "x' \<in> span S" "y \<in> span T" "y' \<in> span T"
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1749
      and orth: "\<And>a b. \<lbrakk>a \<in> S; b \<in> T\<rbrakk> \<Longrightarrow> orthogonal a b"
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1750
  shows "x = x' \<and> y = y'"
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1751
proof -
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1752
  have "x + y - y' = x'"
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1753
    by (simp add: assms)
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1754
  moreover have "\<And>a b. \<lbrakk>a \<in> span S; b \<in> span T\<rbrakk> \<Longrightarrow> orthogonal a b"
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1755
    by (meson orth orthogonal_commute orthogonal_to_span)
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1756
  ultimately have "0 = x' - x"
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1757
    by (metis (full_types) add_diff_cancel_left' ST diff_right_commute orthogonal_clauses(10) orthogonal_clauses(5) orthogonal_self)
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1758
  with assms show ?thesis by auto
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1759
qed
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1760
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1761
lemma vector_in_orthogonal_spanningset:
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1762
  fixes a :: "'a::euclidean_space"
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1763
  obtains S where "a \<in> S" "pairwise orthogonal S" "span S = UNIV"
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1764
  by (metis UNIV_I Un_iff empty_iff insert_subset orthogonal_extension pairwise_def
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1765
      pairwise_orthogonal_insert span_UNIV subsetI subset_antisym)
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1766
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1767
lemma vector_in_orthogonal_basis:
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1768
  fixes a :: "'a::euclidean_space"
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1769
  assumes "a \<noteq> 0"
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1770
  obtains S where "a \<in> S" "0 \<notin> S" "pairwise orthogonal S" "independent S" "finite S"
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1771
                  "span S = UNIV" "card S = DIM('a)"
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1772
proof -
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1773
  obtain S where S: "a \<in> S" "pairwise orthogonal S" "span S = UNIV"
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1774
    using vector_in_orthogonal_spanningset .
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1775
  show thesis
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1776
  proof
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1777
    show "pairwise orthogonal (S - {0})"
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1778
      using pairwise_mono S(2) by blast
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1779
    show "independent (S - {0})"
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1780
      by (simp add: \<open>pairwise orthogonal (S - {0})\<close> pairwise_orthogonal_independent)
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1781
    show "finite (S - {0})"
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1782
      using \<open>independent (S - {0})\<close> independent_imp_finite by blast
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1783
    show "card (S - {0}) = DIM('a)"
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1784
      using span_delete_0 [of S] S
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1785
      by (simp add: \<open>independent (S - {0})\<close> indep_card_eq_dim_span dim_UNIV)
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1786
  qed (use S \<open>a \<noteq> 0\<close> in auto)
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1787
qed
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1788
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1789
lemma vector_in_orthonormal_basis:
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1790
  fixes a :: "'a::euclidean_space"
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1791
  assumes "norm a = 1"
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1792
  obtains S where "a \<in> S" "pairwise orthogonal S" "\<And>x. x \<in> S \<Longrightarrow> norm x = 1"
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1793
    "independent S" "card S = DIM('a)" "span S = UNIV"
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1794
proof -
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1795
  have "a \<noteq> 0"
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1796
    using assms by auto
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1797
  then obtain S where "a \<in> S" "0 \<notin> S" "finite S"
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1798
          and S: "pairwise orthogonal S" "independent S" "span S = UNIV" "card S = DIM('a)"
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1799
    by (metis vector_in_orthogonal_basis)
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1800
  let ?S = "(\<lambda>x. x /\<^sub>R norm x) ` S"
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1801
  show thesis
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1802
  proof
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1803
    show "a \<in> ?S"
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1804
      using \<open>a \<in> S\<close> assms image_iff by fastforce
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1805
  next
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1806
    show "pairwise orthogonal ?S"
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1807
      using \<open>pairwise orthogonal S\<close> by (auto simp: pairwise_def orthogonal_def)
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1808
    show "\<And>x. x \<in> (\<lambda>x. x /\<^sub>R norm x) ` S \<Longrightarrow> norm x = 1"
70817
dd675800469d dedicated fact collections for algebraic simplification rules potentially splitting goals
haftmann
parents: 70707
diff changeset
  1809
      using \<open>0 \<notin> S\<close> by (auto simp: field_split_simps)
69675
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1810
    then show "independent ?S"
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1811
      by (metis \<open>pairwise orthogonal ((\<lambda>x. x /\<^sub>R norm x) ` S)\<close> norm_zero pairwise_orthogonal_independent zero_neq_one)
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1812
    have "inj_on (\<lambda>x. x /\<^sub>R norm x) S"
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1813
      unfolding inj_on_def
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1814
      by (metis (full_types) S(1) \<open>0 \<notin> S\<close> inverse_nonzero_iff_nonzero norm_eq_zero orthogonal_scaleR orthogonal_self pairwise_def)
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1815
    then show "card ?S = DIM('a)"
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1816
      by (simp add: card_image S)
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1817
    show "span ?S = UNIV"
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1818
      by (metis (no_types) \<open>0 \<notin> S\<close> \<open>finite S\<close> \<open>span S = UNIV\<close>
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1819
          field_class.field_inverse_zero inverse_inverse_eq less_irrefl span_image_scale
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1820
          zero_less_norm_iff)
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1821
  qed
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1822
qed
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1823
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1824
proposition dim_orthogonal_sum:
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1825
  fixes A :: "'a::euclidean_space set"
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1826
  assumes "\<And>x y. \<lbrakk>x \<in> A; y \<in> B\<rbrakk> \<Longrightarrow> x \<bullet> y = 0"
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1827
    shows "dim(A \<union> B) = dim A + dim B"
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1828
proof -
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1829
  have 1: "\<And>x y. \<lbrakk>x \<in> span A; y \<in> B\<rbrakk> \<Longrightarrow> x \<bullet> y = 0"
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1830
    by (erule span_induct [OF _ subspace_hyperplane2]; simp add: assms)
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1831
  have "\<And>x y. \<lbrakk>x \<in> span A; y \<in> span B\<rbrakk> \<Longrightarrow> x \<bullet> y = 0"
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1832
    using 1 by (simp add: span_induct [OF _ subspace_hyperplane])
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1833
  then have 0: "\<And>x y. \<lbrakk>x \<in> span A; y \<in> span B\<rbrakk> \<Longrightarrow> x \<bullet> y = 0"
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1834
    by simp
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1835
  have "dim(A \<union> B) = dim (span (A \<union> B))"
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1836
    by (simp add: dim_span)
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1837
  also have "span (A \<union> B) = ((\<lambda>(a, b). a + b) ` (span A \<times> span B))"
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1838
    by (auto simp add: span_Un image_def)
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1839
  also have "dim \<dots> = dim {x + y |x y. x \<in> span A \<and> y \<in> span B}"
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1840
    by (auto intro!: arg_cong [where f=dim])
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1841
  also have "... = dim {x + y |x y. x \<in> span A \<and> y \<in> span B} + dim(span A \<inter> span B)"
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1842
    by (auto simp: dest: 0)
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1843
  also have "... = dim (span A) + dim (span B)"
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1844
    by (rule dim_sums_Int) (auto simp: subspace_span)
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1845
  also have "... = dim A + dim B"
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1846
    by (simp add: dim_span)
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1847
  finally show ?thesis .
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1848
qed
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1849
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1850
lemma dim_subspace_orthogonal_to_vectors:
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1851
  fixes A :: "'a::euclidean_space set"
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1852
  assumes "subspace A" "subspace B" "A \<subseteq> B"
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1853
    shows "dim {y \<in> B. \<forall>x \<in> A. orthogonal x y} + dim A = dim B"
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1854
proof -
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1855
  have "dim (span ({y \<in> B. \<forall>x\<in>A. orthogonal x y} \<union> A)) = dim (span B)"
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1856
  proof (rule arg_cong [where f=dim, OF subset_antisym])
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1857
    show "span ({y \<in> B. \<forall>x\<in>A. orthogonal x y} \<union> A) \<subseteq> span B"
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1858
      by (simp add: \<open>A \<subseteq> B\<close> Collect_restrict span_mono)
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1859
  next
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1860
    have *: "x \<in> span ({y \<in> B. \<forall>x\<in>A. orthogonal x y} \<union> A)"
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1861
         if "x \<in> B" for x
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1862
    proof -
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1863
      obtain y z where "x = y + z" "y \<in> span A" and orth: "\<And>w. w \<in> span A \<Longrightarrow> orthogonal z w"
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1864
        using orthogonal_subspace_decomp_exists [of A x] that by auto
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1865
      have "y \<in> span B"
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1866
        using \<open>y \<in> span A\<close> assms(3) span_mono by blast
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1867
      then have "z \<in> {a \<in> B. \<forall>x. x \<in> A \<longrightarrow> orthogonal x a}"
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1868
        apply simp
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1869
        using \<open>x = y + z\<close> assms(1) assms(2) orth orthogonal_commute span_add_eq
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1870
          span_eq_iff that by blast
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1871
      then have z: "z \<in> span {y \<in> B. \<forall>x\<in>A. orthogonal x y}"
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1872
        by (meson span_superset subset_iff)
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1873
      then show ?thesis
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1874
        apply (auto simp: span_Un image_def  \<open>x = y + z\<close> \<open>y \<in> span A\<close>)
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1875
        using \<open>y \<in> span A\<close> add.commute by blast
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1876
    qed
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1877
    show "span B \<subseteq> span ({y \<in> B. \<forall>x\<in>A. orthogonal x y} \<union> A)"
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1878
      by (rule span_minimal)
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1879
        (auto intro: * span_minimal simp: subspace_span)
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1880
  qed
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1881
  then show ?thesis
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1882
    by (metis (no_types, lifting) dim_orthogonal_sum dim_span mem_Collect_eq
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1883
        orthogonal_commute orthogonal_def)
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1884
qed
880ab0f27ddf Reorg, in particular Determinants as well as some linear algebra from Starlike and Change_Of_Vars
immler
parents: 69674
diff changeset
  1885
70688
3d894e1cfc75 new material on Analysis, plus some rearrangements
paulson <lp15@cam.ac.uk>
parents: 70136
diff changeset
  1886
subsection\<open>Linear functions are (uniformly) continuous on any set\<close>
3d894e1cfc75 new material on Analysis, plus some rearrangements
paulson <lp15@cam.ac.uk>
parents: 70136
diff changeset
  1887
3d894e1cfc75 new material on Analysis, plus some rearrangements
paulson <lp15@cam.ac.uk>
parents: 70136
diff changeset
  1888
subsection\<^marker>\<open>tag unimportant\<close> \<open>Topological properties of linear functions\<close>
3d894e1cfc75 new material on Analysis, plus some rearrangements
paulson <lp15@cam.ac.uk>
parents: 70136
diff changeset
  1889
3d894e1cfc75 new material on Analysis, plus some rearrangements
paulson <lp15@cam.ac.uk>
parents: 70136
diff changeset
  1890
lemma linear_lim_0:
3d894e1cfc75 new material on Analysis, plus some rearrangements
paulson <lp15@cam.ac.uk>
parents: 70136
diff changeset
  1891
  assumes "bounded_linear f"
3d894e1cfc75 new material on Analysis, plus some rearrangements
paulson <lp15@cam.ac.uk>
parents: 70136
diff changeset
  1892
  shows "(f \<longlongrightarrow> 0) (at (0))"
3d894e1cfc75 new material on Analysis, plus some rearrangements
paulson <lp15@cam.ac.uk>
parents: 70136
diff changeset
  1893
proof -
3d894e1cfc75 new material on Analysis, plus some rearrangements
paulson <lp15@cam.ac.uk>
parents: 70136
diff changeset
  1894
  interpret f: bounded_linear f by fact
3d894e1cfc75 new material on Analysis, plus some rearrangements
paulson <lp15@cam.ac.uk>
parents: 70136
diff changeset
  1895
  have "(f \<longlongrightarrow> f 0) (at 0)"
3d894e1cfc75 new material on Analysis, plus some rearrangements
paulson <lp15@cam.ac.uk>
parents: 70136
diff changeset
  1896
    using tendsto_ident_at by (rule f.tendsto)
3d894e1cfc75 new material on Analysis, plus some rearrangements
paulson <lp15@cam.ac.uk>
parents: 70136
diff changeset
  1897
  then show ?thesis unfolding f.zero .
3d894e1cfc75 new material on Analysis, plus some rearrangements
paulson <lp15@cam.ac.uk>
parents: 70136
diff changeset
  1898
qed
3d894e1cfc75 new material on Analysis, plus some rearrangements
paulson <lp15@cam.ac.uk>
parents: 70136
diff changeset
  1899
3d894e1cfc75 new material on Analysis, plus some rearrangements
paulson <lp15@cam.ac.uk>
parents: 70136
diff changeset
  1900
lemma linear_continuous_at:
3d894e1cfc75 new material on Analysis, plus some rearrangements
paulson <lp15@cam.ac.uk>
parents: 70136
diff changeset
  1901
  assumes "bounded_linear f"
3d894e1cfc75 new material on Analysis, plus some rearrangements
paulson <lp15@cam.ac.uk>
parents: 70136
diff changeset
  1902
  shows "continuous (at a) f"
3d894e1cfc75 new material on Analysis, plus some rearrangements
paulson <lp15@cam.ac.uk>
parents: 70136
diff changeset
  1903
  unfolding continuous_at using assms
3d894e1cfc75 new material on Analysis, plus some rearrangements
paulson <lp15@cam.ac.uk>
parents: 70136
diff changeset
  1904
  apply (rule bounded_linear.tendsto)
3d894e1cfc75 new material on Analysis, plus some rearrangements
paulson <lp15@cam.ac.uk>
parents: 70136
diff changeset
  1905
  apply (rule tendsto_ident_at)
3d894e1cfc75 new material on Analysis, plus some rearrangements
paulson <lp15@cam.ac.uk>
parents: 70136
diff changeset
  1906
  done
3d894e1cfc75 new material on Analysis, plus some rearrangements
paulson <lp15@cam.ac.uk>
parents: 70136
diff changeset
  1907
3d894e1cfc75 new material on Analysis, plus some rearrangements
paulson <lp15@cam.ac.uk>
parents: 70136
diff changeset
  1908
lemma linear_continuous_within:
3d894e1cfc75 new material on Analysis, plus some rearrangements
paulson <lp15@cam.ac.uk>
parents: 70136
diff changeset
  1909
  "bounded_linear f \<Longrightarrow> continuous (at x within s) f"
3d894e1cfc75 new material on Analysis, plus some rearrangements
paulson <lp15@cam.ac.uk>
parents: 70136
diff changeset
  1910
  using continuous_at_imp_continuous_at_within linear_continuous_at by blast
3d894e1cfc75 new material on Analysis, plus some rearrangements
paulson <lp15@cam.ac.uk>
parents: 70136
diff changeset
  1911
3d894e1cfc75 new material on Analysis, plus some rearrangements
paulson <lp15@cam.ac.uk>
parents: 70136
diff changeset
  1912
lemma linear_continuous_on:
3d894e1cfc75 new material on Analysis, plus some rearrangements
paulson <lp15@cam.ac.uk>
parents: 70136
diff changeset
  1913
  "bounded_linear f \<Longrightarrow> continuous_on s f"
3d894e1cfc75 new material on Analysis, plus some rearrangements
paulson <lp15@cam.ac.uk>
parents: 70136
diff changeset
  1914
  using continuous_at_imp_continuous_on[of s f] using linear_continuous_at[of f] by auto
3d894e1cfc75 new material on Analysis, plus some rearrangements
paulson <lp15@cam.ac.uk>
parents: 70136
diff changeset
  1915
3d894e1cfc75 new material on Analysis, plus some rearrangements
paulson <lp15@cam.ac.uk>
parents: 70136
diff changeset
  1916
lemma Lim_linear:
3d894e1cfc75 new material on Analysis, plus some rearrangements
paulson <lp15@cam.ac.uk>
parents: 70136
diff changeset
  1917
  fixes f :: "'a::euclidean_space \<Rightarrow> 'b::euclidean_space" and h :: "'b \<Rightarrow> 'c::real_normed_vector"
3d894e1cfc75 new material on Analysis, plus some rearrangements
paulson <lp15@cam.ac.uk>
parents: 70136
diff changeset
  1918
  assumes "(f \<longlongrightarrow> l) F" "linear h"
3d894e1cfc75 new material on Analysis, plus some rearrangements
paulson <lp15@cam.ac.uk>
parents: 70136
diff changeset
  1919
  shows "((\<lambda>x. h(f x)) \<longlongrightarrow> h l) F"
3d894e1cfc75 new material on Analysis, plus some rearrangements
paulson <lp15@cam.ac.uk>
parents: 70136
diff changeset
  1920
proof -
3d894e1cfc75 new material on Analysis, plus some rearrangements
paulson <lp15@cam.ac.uk>
parents: 70136
diff changeset
  1921
  obtain B where B: "B > 0" "\<And>x. norm (h x) \<le> B * norm x"
3d894e1cfc75 new material on Analysis, plus some rearrangements
paulson <lp15@cam.ac.uk>
parents: 70136
diff changeset
  1922
    using linear_bounded_pos [OF \<open>linear h\<close>] by blast
3d894e1cfc75 new material on Analysis, plus some rearrangements
paulson <lp15@cam.ac.uk>
parents: 70136
diff changeset
  1923
  show ?thesis
3d894e1cfc75 new material on Analysis, plus some rearrangements
paulson <lp15@cam.ac.uk>
parents: 70136
diff changeset
  1924
    unfolding tendsto_iff
3d894e1cfc75 new material on Analysis, plus some rearrangements
paulson <lp15@cam.ac.uk>
parents: 70136
diff changeset
  1925
  proof (intro allI impI)
3d894e1cfc75 new material on Analysis, plus some rearrangements
paulson <lp15@cam.ac.uk>
parents: 70136
diff changeset
  1926
    show "\<forall>\<^sub>F x in F. dist (h (f x)) (h l) < e" if "e > 0" for e
3d894e1cfc75 new material on Analysis, plus some rearrangements
paulson <lp15@cam.ac.uk>
parents: 70136
diff changeset
  1927
    proof -
3d894e1cfc75 new material on Analysis, plus some rearrangements
paulson <lp15@cam.ac.uk>
parents: 70136
diff changeset
  1928
      have "\<forall>\<^sub>F x in F. dist (f x) l < e/B"
3d894e1cfc75 new material on Analysis, plus some rearrangements
paulson <lp15@cam.ac.uk>
parents: 70136
diff changeset
  1929
        by (simp add: \<open>0 < B\<close> assms(1) tendstoD that)
3d894e1cfc75 new material on Analysis, plus some rearrangements
paulson <lp15@cam.ac.uk>
parents: 70136
diff changeset
  1930
      then show ?thesis
3d894e1cfc75 new material on Analysis, plus some rearrangements
paulson <lp15@cam.ac.uk>
parents: 70136
diff changeset
  1931
        unfolding dist_norm
3d894e1cfc75 new material on Analysis, plus some rearrangements
paulson <lp15@cam.ac.uk>
parents: 70136
diff changeset
  1932
      proof (rule eventually_mono)
3d894e1cfc75 new material on Analysis, plus some rearrangements
paulson <lp15@cam.ac.uk>
parents: 70136
diff changeset
  1933
        show "norm (h (f x) - h l) < e" if "norm (f x - l) < e / B" for x
3d894e1cfc75 new material on Analysis, plus some rearrangements
paulson <lp15@cam.ac.uk>
parents: 70136
diff changeset
  1934
          using that B
70817
dd675800469d dedicated fact collections for algebraic simplification rules potentially splitting goals
haftmann
parents: 70707
diff changeset
  1935
          apply (simp add: field_split_simps)
70688
3d894e1cfc75 new material on Analysis, plus some rearrangements
paulson <lp15@cam.ac.uk>
parents: 70136
diff changeset
  1936
          by (metis \<open>linear h\<close> le_less_trans linear_diff mult.commute)
3d894e1cfc75 new material on Analysis, plus some rearrangements
paulson <lp15@cam.ac.uk>
parents: 70136
diff changeset
  1937
      qed
3d894e1cfc75 new material on Analysis, plus some rearrangements
paulson <lp15@cam.ac.uk>
parents: 70136
diff changeset
  1938
    qed
3d894e1cfc75 new material on Analysis, plus some rearrangements
paulson <lp15@cam.ac.uk>
parents: 70136
diff changeset
  1939
  qed
3d894e1cfc75 new material on Analysis, plus some rearrangements
paulson <lp15@cam.ac.uk>
parents: 70136
diff changeset
  1940
qed
3d894e1cfc75 new material on Analysis, plus some rearrangements
paulson <lp15@cam.ac.uk>
parents: 70136
diff changeset
  1941
3d894e1cfc75 new material on Analysis, plus some rearrangements
paulson <lp15@cam.ac.uk>
parents: 70136
diff changeset
  1942
lemma linear_continuous_compose:
3d894e1cfc75 new material on Analysis, plus some rearrangements
paulson <lp15@cam.ac.uk>
parents: 70136
diff changeset
  1943
  fixes f :: "'a::euclidean_space \<Rightarrow> 'b::euclidean_space" and g :: "'b \<Rightarrow> 'c::real_normed_vector"
3d894e1cfc75 new material on Analysis, plus some rearrangements
paulson <lp15@cam.ac.uk>
parents: 70136
diff changeset
  1944
  assumes "continuous F f" "linear g"
3d894e1cfc75 new material on Analysis, plus some rearrangements
paulson <lp15@cam.ac.uk>
parents: 70136
diff changeset
  1945
  shows "continuous F (\<lambda>x. g(f x))"
3d894e1cfc75 new material on Analysis, plus some rearrangements
paulson <lp15@cam.ac.uk>
parents: 70136
diff changeset
  1946
  using assms unfolding continuous_def by (rule Lim_linear)
3d894e1cfc75 new material on Analysis, plus some rearrangements
paulson <lp15@cam.ac.uk>
parents: 70136
diff changeset
  1947
3d894e1cfc75 new material on Analysis, plus some rearrangements
paulson <lp15@cam.ac.uk>
parents: 70136
diff changeset
  1948
lemma linear_continuous_on_compose:
3d894e1cfc75 new material on Analysis, plus some rearrangements
paulson <lp15@cam.ac.uk>
parents: 70136
diff changeset
  1949
  fixes f :: "'a::euclidean_space \<Rightarrow> 'b::euclidean_space" and g :: "'b \<Rightarrow> 'c::real_normed_vector"
3d894e1cfc75 new material on Analysis, plus some rearrangements
paulson <lp15@cam.ac.uk>
parents: 70136
diff changeset
  1950
  assumes "continuous_on S f" "linear g"
3d894e1cfc75 new material on Analysis, plus some rearrangements
paulson <lp15@cam.ac.uk>
parents: 70136
diff changeset
  1951
  shows "continuous_on S (\<lambda>x. g(f x))"
3d894e1cfc75 new material on Analysis, plus some rearrangements
paulson <lp15@cam.ac.uk>
parents: 70136
diff changeset
  1952
  using assms by (simp add: continuous_on_eq_continuous_within linear_continuous_compose)
3d894e1cfc75 new material on Analysis, plus some rearrangements
paulson <lp15@cam.ac.uk>
parents: 70136
diff changeset
  1953
3d894e1cfc75 new material on Analysis, plus some rearrangements
paulson <lp15@cam.ac.uk>
parents: 70136
diff changeset
  1954
text\<open>Also bilinear functions, in composition form\<close>
3d894e1cfc75 new material on Analysis, plus some rearrangements
paulson <lp15@cam.ac.uk>
parents: 70136
diff changeset
  1955
3d894e1cfc75 new material on Analysis, plus some rearrangements
paulson <lp15@cam.ac.uk>
parents: 70136
diff changeset
  1956
lemma bilinear_continuous_compose:
3d894e1cfc75 new material on Analysis, plus some rearrangements
paulson <lp15@cam.ac.uk>
parents: 70136
diff changeset
  1957
  fixes h :: "'a::euclidean_space \<Rightarrow> 'b::euclidean_space \<Rightarrow> 'c::real_normed_vector"
3d894e1cfc75 new material on Analysis, plus some rearrangements
paulson <lp15@cam.ac.uk>
parents: 70136
diff changeset
  1958
  assumes "continuous F f" "continuous F g" "bilinear h"
3d894e1cfc75 new material on Analysis, plus some rearrangements
paulson <lp15@cam.ac.uk>
parents: 70136
diff changeset
  1959
  shows "continuous F (\<lambda>x. h (f x) (g x))"
3d894e1cfc75 new material on Analysis, plus some rearrangements
paulson <lp15@cam.ac.uk>
parents: 70136
diff changeset
  1960
  using assms bilinear_conv_bounded_bilinear bounded_bilinear.continuous by blast
3d894e1cfc75 new material on Analysis, plus some rearrangements
paulson <lp15@cam.ac.uk>
parents: 70136
diff changeset
  1961
3d894e1cfc75 new material on Analysis, plus some rearrangements
paulson <lp15@cam.ac.uk>
parents: 70136
diff changeset
  1962
lemma bilinear_continuous_on_compose:
3d894e1cfc75 new material on Analysis, plus some rearrangements
paulson <lp15@cam.ac.uk>
parents: 70136
diff changeset
  1963
  fixes h :: "'a::euclidean_space \<Rightarrow> 'b::euclidean_space \<Rightarrow> 'c::real_normed_vector"
3d894e1cfc75 new material on Analysis, plus some rearrangements
paulson <lp15@cam.ac.uk>
parents: 70136
diff changeset
  1964
    and f :: "'d::t2_space \<Rightarrow> 'a"
3d894e1cfc75 new material on Analysis, plus some rearrangements
paulson <lp15@cam.ac.uk>
parents: 70136
diff changeset
  1965
  assumes "continuous_on S f" "continuous_on S g" "bilinear h"
3d894e1cfc75 new material on Analysis, plus some rearrangements
paulson <lp15@cam.ac.uk>
parents: 70136
diff changeset
  1966
  shows "continuous_on S (\<lambda>x. h (f x) (g x))"
3d894e1cfc75 new material on Analysis, plus some rearrangements
paulson <lp15@cam.ac.uk>
parents: 70136
diff changeset
  1967
  using assms by (simp add: continuous_on_eq_continuous_within bilinear_continuous_compose)
3d894e1cfc75 new material on Analysis, plus some rearrangements
paulson <lp15@cam.ac.uk>
parents: 70136
diff changeset
  1968
3d894e1cfc75 new material on Analysis, plus some rearrangements
paulson <lp15@cam.ac.uk>
parents: 70136
diff changeset
  1969
54776
db890d9fc5c2 ordered_euclidean_space compatible with more standard pointwise ordering on products; conditionally complete lattice with product order
immler
parents: 54703
diff changeset
  1970
end