src/HOL/Deriv.thy
author haftmann
Fri, 02 Mar 2012 21:45:45 +0100
changeset 46767 807a5d219c23
parent 45791 d985ec974815
child 47108 2a1953f0d20d
permissions -rw-r--r--
more fundamental pred-to-set conversions for range and domain by means of inductive_set
Ignore whitespace changes - Everywhere: Within whitespace: At end of lines:
21164
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
     1
(*  Title       : Deriv.thy
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
     2
    Author      : Jacques D. Fleuriot
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
     3
    Copyright   : 1998  University of Cambridge
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
     4
    Conversion to Isar and new proofs by Lawrence C Paulson, 2004
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
     5
    GMVT by Benjamin Porter, 2005
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
     6
*)
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
     7
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
     8
header{* Differentiation *}
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
     9
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
    10
theory Deriv
29987
391dcbd7e4dd move Polynomial.thy to Library
huffman
parents: 29985
diff changeset
    11
imports Lim
21164
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
    12
begin
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
    13
22984
67d434ad9ef8 section labels
huffman
parents: 22653
diff changeset
    14
text{*Standard Definitions*}
21164
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
    15
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
    16
definition
21784
e76faa6e65fd changed (ns)deriv to take functions of type 'a::real_normed_field => 'a
huffman
parents: 21404
diff changeset
    17
  deriv :: "['a::real_normed_field \<Rightarrow> 'a, 'a, 'a] \<Rightarrow> bool"
21164
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
    18
    --{*Differentiation: D is derivative of function f at x*}
21404
eb85850d3eb7 more robust syntax for definition/abbreviation/notation;
wenzelm
parents: 21239
diff changeset
    19
          ("(DERIV (_)/ (_)/ :> (_))" [1000, 1000, 60] 60) where
21784
e76faa6e65fd changed (ns)deriv to take functions of type 'a::real_normed_field => 'a
huffman
parents: 21404
diff changeset
    20
  "DERIV f x :> D = ((%h. (f(x + h) - f x) / h) -- 0 --> D)"
21164
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
    21
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
    22
primrec
34941
156925dd67af dropped some old primrecs and some constdefs
haftmann
parents: 33690
diff changeset
    23
  Bolzano_bisect :: "(real \<times> real \<Rightarrow> bool) \<Rightarrow> real \<Rightarrow> real \<Rightarrow> nat \<Rightarrow> real \<times> real" where
156925dd67af dropped some old primrecs and some constdefs
haftmann
parents: 33690
diff changeset
    24
  "Bolzano_bisect P a b 0 = (a, b)"
156925dd67af dropped some old primrecs and some constdefs
haftmann
parents: 33690
diff changeset
    25
  | "Bolzano_bisect P a b (Suc n) =
156925dd67af dropped some old primrecs and some constdefs
haftmann
parents: 33690
diff changeset
    26
      (let (x, y) = Bolzano_bisect P a b n
156925dd67af dropped some old primrecs and some constdefs
haftmann
parents: 33690
diff changeset
    27
       in if P (x, (x+y) / 2) then ((x+y)/2, y)
156925dd67af dropped some old primrecs and some constdefs
haftmann
parents: 33690
diff changeset
    28
                              else (x, (x+y)/2))"
21164
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
    29
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
    30
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
    31
subsection {* Derivatives *}
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
    32
21784
e76faa6e65fd changed (ns)deriv to take functions of type 'a::real_normed_field => 'a
huffman
parents: 21404
diff changeset
    33
lemma DERIV_iff: "(DERIV f x :> D) = ((%h. (f(x + h) - f(x))/h) -- 0 --> D)"
21164
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
    34
by (simp add: deriv_def)
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
    35
21784
e76faa6e65fd changed (ns)deriv to take functions of type 'a::real_normed_field => 'a
huffman
parents: 21404
diff changeset
    36
lemma DERIV_D: "DERIV f x :> D ==> (%h. (f(x + h) - f(x))/h) -- 0 --> D"
21164
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
    37
by (simp add: deriv_def)
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
    38
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
    39
lemma DERIV_const [simp]: "DERIV (\<lambda>x. k) x :> 0"
44568
e6f291cb5810 discontinue many legacy theorems about LIM and LIMSEQ, in favor of tendsto theorems
huffman
parents: 44317
diff changeset
    40
  by (simp add: deriv_def tendsto_const)
21164
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
    41
23069
cdfff0241c12 rename lemmas LIM_ident, isCont_ident, DERIV_ident
huffman
parents: 23044
diff changeset
    42
lemma DERIV_ident [simp]: "DERIV (\<lambda>x. x) x :> 1"
44568
e6f291cb5810 discontinue many legacy theorems about LIM and LIMSEQ, in favor of tendsto theorems
huffman
parents: 44317
diff changeset
    43
  by (simp add: deriv_def tendsto_const cong: LIM_cong)
21164
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
    44
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
    45
lemma DERIV_add:
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
    46
  "\<lbrakk>DERIV f x :> D; DERIV g x :> E\<rbrakk> \<Longrightarrow> DERIV (\<lambda>x. f x + g x) x :> D + E"
44568
e6f291cb5810 discontinue many legacy theorems about LIM and LIMSEQ, in favor of tendsto theorems
huffman
parents: 44317
diff changeset
    47
  by (simp only: deriv_def add_diff_add add_divide_distrib tendsto_add)
21164
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
    48
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
    49
lemma DERIV_minus:
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
    50
  "DERIV f x :> D \<Longrightarrow> DERIV (\<lambda>x. - f x) x :> - D"
44568
e6f291cb5810 discontinue many legacy theorems about LIM and LIMSEQ, in favor of tendsto theorems
huffman
parents: 44317
diff changeset
    51
  by (simp only: deriv_def minus_diff_minus divide_minus_left tendsto_minus)
21164
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
    52
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
    53
lemma DERIV_diff:
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
    54
  "\<lbrakk>DERIV f x :> D; DERIV g x :> E\<rbrakk> \<Longrightarrow> DERIV (\<lambda>x. f x - g x) x :> D - E"
37887
2ae085b07f2f diff_minus subsumes diff_def
haftmann
parents: 36777
diff changeset
    55
by (simp only: diff_minus DERIV_add DERIV_minus)
21164
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
    56
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
    57
lemma DERIV_add_minus:
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
    58
  "\<lbrakk>DERIV f x :> D; DERIV g x :> E\<rbrakk> \<Longrightarrow> DERIV (\<lambda>x. f x + - g x) x :> D + - E"
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
    59
by (simp only: DERIV_add DERIV_minus)
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
    60
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
    61
lemma DERIV_isCont: "DERIV f x :> D \<Longrightarrow> isCont f x"
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
    62
proof (unfold isCont_iff)
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
    63
  assume "DERIV f x :> D"
21784
e76faa6e65fd changed (ns)deriv to take functions of type 'a::real_normed_field => 'a
huffman
parents: 21404
diff changeset
    64
  hence "(\<lambda>h. (f(x+h) - f(x)) / h) -- 0 --> D"
21164
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
    65
    by (rule DERIV_D)
21784
e76faa6e65fd changed (ns)deriv to take functions of type 'a::real_normed_field => 'a
huffman
parents: 21404
diff changeset
    66
  hence "(\<lambda>h. (f(x+h) - f(x)) / h * h) -- 0 --> D * 0"
44568
e6f291cb5810 discontinue many legacy theorems about LIM and LIMSEQ, in favor of tendsto theorems
huffman
parents: 44317
diff changeset
    67
    by (intro tendsto_mult tendsto_ident_at)
21784
e76faa6e65fd changed (ns)deriv to take functions of type 'a::real_normed_field => 'a
huffman
parents: 21404
diff changeset
    68
  hence "(\<lambda>h. (f(x+h) - f(x)) * (h / h)) -- 0 --> 0"
e76faa6e65fd changed (ns)deriv to take functions of type 'a::real_normed_field => 'a
huffman
parents: 21404
diff changeset
    69
    by simp
e76faa6e65fd changed (ns)deriv to take functions of type 'a::real_normed_field => 'a
huffman
parents: 21404
diff changeset
    70
  hence "(\<lambda>h. f(x+h) - f(x)) -- 0 --> 0"
23398
0b5a400c7595 made divide_self a simp rule
nipkow
parents: 23255
diff changeset
    71
    by (simp cong: LIM_cong)
21164
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
    72
  thus "(\<lambda>h. f(x+h)) -- 0 --> f(x)"
31338
d41a8ba25b67 generalize constants from Lim.thy to class metric_space
huffman
parents: 31336
diff changeset
    73
    by (simp add: LIM_def dist_norm)
21164
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
    74
qed
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
    75
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
    76
lemma DERIV_mult_lemma:
21784
e76faa6e65fd changed (ns)deriv to take functions of type 'a::real_normed_field => 'a
huffman
parents: 21404
diff changeset
    77
  fixes a b c d :: "'a::real_field"
e76faa6e65fd changed (ns)deriv to take functions of type 'a::real_normed_field => 'a
huffman
parents: 21404
diff changeset
    78
  shows "(a * b - c * d) / h = a * ((b - d) / h) + ((a - c) / h) * d"
23477
f4b83f03cac9 tuned and renamed group_eq_simps and ring_eq_simps
nipkow
parents: 23441
diff changeset
    79
by (simp add: diff_minus add_divide_distrib [symmetric] ring_distribs)
21164
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
    80
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
    81
lemma DERIV_mult':
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
    82
  assumes f: "DERIV f x :> D"
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
    83
  assumes g: "DERIV g x :> E"
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
    84
  shows "DERIV (\<lambda>x. f x * g x) x :> f x * E + D * g x"
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
    85
proof (unfold deriv_def)
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
    86
  from f have "isCont f x"
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
    87
    by (rule DERIV_isCont)
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
    88
  hence "(\<lambda>h. f(x+h)) -- 0 --> f x"
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
    89
    by (simp only: isCont_iff)
21784
e76faa6e65fd changed (ns)deriv to take functions of type 'a::real_normed_field => 'a
huffman
parents: 21404
diff changeset
    90
  hence "(\<lambda>h. f(x+h) * ((g(x+h) - g x) / h) +
e76faa6e65fd changed (ns)deriv to take functions of type 'a::real_normed_field => 'a
huffman
parents: 21404
diff changeset
    91
              ((f(x+h) - f x) / h) * g x)
21164
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
    92
          -- 0 --> f x * E + D * g x"
44568
e6f291cb5810 discontinue many legacy theorems about LIM and LIMSEQ, in favor of tendsto theorems
huffman
parents: 44317
diff changeset
    93
    by (intro tendsto_intros DERIV_D f g)
21784
e76faa6e65fd changed (ns)deriv to take functions of type 'a::real_normed_field => 'a
huffman
parents: 21404
diff changeset
    94
  thus "(\<lambda>h. (f(x+h) * g(x+h) - f x * g x) / h)
21164
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
    95
         -- 0 --> f x * E + D * g x"
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
    96
    by (simp only: DERIV_mult_lemma)
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
    97
qed
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
    98
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
    99
lemma DERIV_mult:
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   100
     "[| DERIV f x :> Da; DERIV g x :> Db |]
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   101
      ==> DERIV (%x. f x * g x) x :> (Da * g(x)) + (Db * f(x))"
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   102
by (drule (1) DERIV_mult', simp only: mult_commute add_commute)
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   103
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   104
lemma DERIV_unique:
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   105
      "[| DERIV f x :> D; DERIV f x :> E |] ==> D = E"
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   106
apply (simp add: deriv_def)
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   107
apply (blast intro: LIM_unique)
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   108
done
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   109
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   110
text{*Differentiation of finite sum*}
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   111
31880
6fb86c61747c Added DERIV_intros
hoelzl
parents: 31404
diff changeset
   112
lemma DERIV_setsum:
6fb86c61747c Added DERIV_intros
hoelzl
parents: 31404
diff changeset
   113
  assumes "finite S"
6fb86c61747c Added DERIV_intros
hoelzl
parents: 31404
diff changeset
   114
  and "\<And> n. n \<in> S \<Longrightarrow> DERIV (%x. f x n) x :> (f' x n)"
6fb86c61747c Added DERIV_intros
hoelzl
parents: 31404
diff changeset
   115
  shows "DERIV (%x. setsum (f x) S) x :> setsum (f' x) S"
6fb86c61747c Added DERIV_intros
hoelzl
parents: 31404
diff changeset
   116
  using assms by induct (auto intro!: DERIV_add)
6fb86c61747c Added DERIV_intros
hoelzl
parents: 31404
diff changeset
   117
21164
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   118
lemma DERIV_sumr [rule_format (no_asm)]:
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   119
     "(\<forall>r. m \<le> r & r < (m + n) --> DERIV (%x. f r x) x :> (f' r x))
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   120
      --> DERIV (%x. \<Sum>n=m..<n::nat. f n x :: real) x :> (\<Sum>r=m..<n. f' r x)"
31880
6fb86c61747c Added DERIV_intros
hoelzl
parents: 31404
diff changeset
   121
  by (auto intro: DERIV_setsum)
21164
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   122
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   123
text{*Alternative definition for differentiability*}
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   124
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   125
lemma DERIV_LIM_iff:
31338
d41a8ba25b67 generalize constants from Lim.thy to class metric_space
huffman
parents: 31336
diff changeset
   126
  fixes f :: "'a::{real_normed_vector,inverse} \<Rightarrow> 'a" shows
21784
e76faa6e65fd changed (ns)deriv to take functions of type 'a::real_normed_field => 'a
huffman
parents: 21404
diff changeset
   127
     "((%h. (f(a + h) - f(a)) / h) -- 0 --> D) =
21164
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   128
      ((%x. (f(x)-f(a)) / (x-a)) -- a --> D)"
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   129
apply (rule iffI)
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   130
apply (drule_tac k="- a" in LIM_offset)
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   131
apply (simp add: diff_minus)
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   132
apply (drule_tac k="a" in LIM_offset)
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   133
apply (simp add: add_commute)
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   134
done
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   135
21784
e76faa6e65fd changed (ns)deriv to take functions of type 'a::real_normed_field => 'a
huffman
parents: 21404
diff changeset
   136
lemma DERIV_iff2: "(DERIV f x :> D) = ((%z. (f(z) - f(x)) / (z-x)) -- x --> D)"
e76faa6e65fd changed (ns)deriv to take functions of type 'a::real_normed_field => 'a
huffman
parents: 21404
diff changeset
   137
by (simp add: deriv_def diff_minus [symmetric] DERIV_LIM_iff)
21164
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   138
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   139
lemma DERIV_inverse_lemma:
21784
e76faa6e65fd changed (ns)deriv to take functions of type 'a::real_normed_field => 'a
huffman
parents: 21404
diff changeset
   140
  "\<lbrakk>a \<noteq> 0; b \<noteq> (0::'a::real_normed_field)\<rbrakk>
e76faa6e65fd changed (ns)deriv to take functions of type 'a::real_normed_field => 'a
huffman
parents: 21404
diff changeset
   141
   \<Longrightarrow> (inverse a - inverse b) / h
e76faa6e65fd changed (ns)deriv to take functions of type 'a::real_normed_field => 'a
huffman
parents: 21404
diff changeset
   142
     = - (inverse a * ((a - b) / h) * inverse b)"
21164
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   143
by (simp add: inverse_diff_inverse)
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   144
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   145
lemma DERIV_inverse':
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   146
  assumes der: "DERIV f x :> D"
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   147
  assumes neq: "f x \<noteq> 0"
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   148
  shows "DERIV (\<lambda>x. inverse (f x)) x :> - (inverse (f x) * D * inverse (f x))"
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   149
    (is "DERIV _ _ :> ?E")
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   150
proof (unfold DERIV_iff2)
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   151
  from der have lim_f: "f -- x --> f x"
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   152
    by (rule DERIV_isCont [unfolded isCont_def])
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   153
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   154
  from neq have "0 < norm (f x)" by simp
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   155
  with LIM_D [OF lim_f] obtain s
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   156
    where s: "0 < s"
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   157
    and less_fx: "\<And>z. \<lbrakk>z \<noteq> x; norm (z - x) < s\<rbrakk>
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   158
                  \<Longrightarrow> norm (f z - f x) < norm (f x)"
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   159
    by fast
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   160
21784
e76faa6e65fd changed (ns)deriv to take functions of type 'a::real_normed_field => 'a
huffman
parents: 21404
diff changeset
   161
  show "(\<lambda>z. (inverse (f z) - inverse (f x)) / (z - x)) -- x --> ?E"
21164
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   162
  proof (rule LIM_equal2 [OF s])
21784
e76faa6e65fd changed (ns)deriv to take functions of type 'a::real_normed_field => 'a
huffman
parents: 21404
diff changeset
   163
    fix z
21164
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   164
    assume "z \<noteq> x" "norm (z - x) < s"
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   165
    hence "norm (f z - f x) < norm (f x)" by (rule less_fx)
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   166
    hence "f z \<noteq> 0" by auto
21784
e76faa6e65fd changed (ns)deriv to take functions of type 'a::real_normed_field => 'a
huffman
parents: 21404
diff changeset
   167
    thus "(inverse (f z) - inverse (f x)) / (z - x) =
e76faa6e65fd changed (ns)deriv to take functions of type 'a::real_normed_field => 'a
huffman
parents: 21404
diff changeset
   168
          - (inverse (f z) * ((f z - f x) / (z - x)) * inverse (f x))"
21164
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   169
      using neq by (rule DERIV_inverse_lemma)
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   170
  next
21784
e76faa6e65fd changed (ns)deriv to take functions of type 'a::real_normed_field => 'a
huffman
parents: 21404
diff changeset
   171
    from der have "(\<lambda>z. (f z - f x) / (z - x)) -- x --> D"
21164
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   172
      by (unfold DERIV_iff2)
21784
e76faa6e65fd changed (ns)deriv to take functions of type 'a::real_normed_field => 'a
huffman
parents: 21404
diff changeset
   173
    thus "(\<lambda>z. - (inverse (f z) * ((f z - f x) / (z - x)) * inverse (f x)))
21164
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   174
          -- x --> ?E"
44568
e6f291cb5810 discontinue many legacy theorems about LIM and LIMSEQ, in favor of tendsto theorems
huffman
parents: 44317
diff changeset
   175
      by (intro tendsto_intros lim_f neq)
21164
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   176
  qed
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   177
qed
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   178
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   179
lemma DERIV_divide:
21784
e76faa6e65fd changed (ns)deriv to take functions of type 'a::real_normed_field => 'a
huffman
parents: 21404
diff changeset
   180
  "\<lbrakk>DERIV f x :> D; DERIV g x :> E; g x \<noteq> 0\<rbrakk>
e76faa6e65fd changed (ns)deriv to take functions of type 'a::real_normed_field => 'a
huffman
parents: 21404
diff changeset
   181
   \<Longrightarrow> DERIV (\<lambda>x. f x / g x) x :> (D * g x - f x * E) / (g x * g x)"
21164
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   182
apply (subgoal_tac "f x * - (inverse (g x) * E * inverse (g x)) +
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   183
          D * inverse (g x) = (D * g x - f x * E) / (g x * g x)")
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   184
apply (erule subst)
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   185
apply (unfold divide_inverse)
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   186
apply (erule DERIV_mult')
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   187
apply (erule (1) DERIV_inverse')
23477
f4b83f03cac9 tuned and renamed group_eq_simps and ring_eq_simps
nipkow
parents: 23441
diff changeset
   188
apply (simp add: ring_distribs nonzero_inverse_mult_distrib)
21164
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   189
apply (simp add: mult_ac)
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   190
done
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   191
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   192
lemma DERIV_power_Suc:
31017
2c227493ea56 stripped class recpower further
haftmann
parents: 30273
diff changeset
   193
  fixes f :: "'a \<Rightarrow> 'a::{real_normed_field}"
21164
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   194
  assumes f: "DERIV f x :> D"
23431
25ca91279a9b change simp rules for of_nat to work like int did previously (reorient of_nat_Suc, remove of_nat_mult [simp]); preserve original variable names in legacy int theorems
huffman
parents: 23413
diff changeset
   195
  shows "DERIV (\<lambda>x. f x ^ Suc n) x :> (1 + of_nat n) * (D * f x ^ n)"
21164
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   196
proof (induct n)
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   197
case 0
30273
ecd6f0ca62ea declare power_Suc [simp]; remove redundant type-specific versions of power_Suc
huffman
parents: 30242
diff changeset
   198
  show ?case by (simp add: f)
21164
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   199
case (Suc k)
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   200
  from DERIV_mult' [OF f Suc] show ?case
23477
f4b83f03cac9 tuned and renamed group_eq_simps and ring_eq_simps
nipkow
parents: 23441
diff changeset
   201
    apply (simp only: of_nat_Suc ring_distribs mult_1_left)
29667
53103fc8ffa3 Replaced group_ and ring_simps by algebra_simps;
nipkow
parents: 29472
diff changeset
   202
    apply (simp only: power_Suc algebra_simps)
21164
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   203
    done
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   204
qed
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   205
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   206
lemma DERIV_power:
31017
2c227493ea56 stripped class recpower further
haftmann
parents: 30273
diff changeset
   207
  fixes f :: "'a \<Rightarrow> 'a::{real_normed_field}"
21164
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   208
  assumes f: "DERIV f x :> D"
21784
e76faa6e65fd changed (ns)deriv to take functions of type 'a::real_normed_field => 'a
huffman
parents: 21404
diff changeset
   209
  shows "DERIV (\<lambda>x. f x ^ n) x :> of_nat n * (D * f x ^ (n - Suc 0))"
30273
ecd6f0ca62ea declare power_Suc [simp]; remove redundant type-specific versions of power_Suc
huffman
parents: 30242
diff changeset
   210
by (cases "n", simp, simp add: DERIV_power_Suc f del: power_Suc)
21164
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   211
29975
28c5322f0df3 more subsection headings
huffman
parents: 29803
diff changeset
   212
text {* Caratheodory formulation of derivative at a point *}
21164
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   213
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   214
lemma CARAT_DERIV:
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   215
     "(DERIV f x :> l) =
21784
e76faa6e65fd changed (ns)deriv to take functions of type 'a::real_normed_field => 'a
huffman
parents: 21404
diff changeset
   216
      (\<exists>g. (\<forall>z. f z - f x = g z * (z-x)) & isCont g x & g x = l)"
21164
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   217
      (is "?lhs = ?rhs")
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   218
proof
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   219
  assume der: "DERIV f x :> l"
21784
e76faa6e65fd changed (ns)deriv to take functions of type 'a::real_normed_field => 'a
huffman
parents: 21404
diff changeset
   220
  show "\<exists>g. (\<forall>z. f z - f x = g z * (z-x)) \<and> isCont g x \<and> g x = l"
21164
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   221
  proof (intro exI conjI)
21784
e76faa6e65fd changed (ns)deriv to take functions of type 'a::real_normed_field => 'a
huffman
parents: 21404
diff changeset
   222
    let ?g = "(%z. if z = x then l else (f z - f x) / (z-x))"
23413
5caa2710dd5b tuned laws for cancellation in divisions for fields.
nipkow
parents: 23412
diff changeset
   223
    show "\<forall>z. f z - f x = ?g z * (z-x)" by simp
21164
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   224
    show "isCont ?g x" using der
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   225
      by (simp add: isCont_iff DERIV_iff diff_minus
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   226
               cong: LIM_equal [rule_format])
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   227
    show "?g x = l" by simp
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   228
  qed
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   229
next
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   230
  assume "?rhs"
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   231
  then obtain g where
21784
e76faa6e65fd changed (ns)deriv to take functions of type 'a::real_normed_field => 'a
huffman
parents: 21404
diff changeset
   232
    "(\<forall>z. f z - f x = g z * (z-x))" and "isCont g x" and "g x = l" by blast
21164
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   233
  thus "(DERIV f x :> l)"
23413
5caa2710dd5b tuned laws for cancellation in divisions for fields.
nipkow
parents: 23412
diff changeset
   234
     by (auto simp add: isCont_iff DERIV_iff cong: LIM_cong)
21164
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   235
qed
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   236
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   237
lemma DERIV_chain':
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   238
  assumes f: "DERIV f x :> D"
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   239
  assumes g: "DERIV g (f x) :> E"
21784
e76faa6e65fd changed (ns)deriv to take functions of type 'a::real_normed_field => 'a
huffman
parents: 21404
diff changeset
   240
  shows "DERIV (\<lambda>x. g (f x)) x :> E * D"
21164
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   241
proof (unfold DERIV_iff2)
21784
e76faa6e65fd changed (ns)deriv to take functions of type 'a::real_normed_field => 'a
huffman
parents: 21404
diff changeset
   242
  obtain d where d: "\<forall>y. g y - g (f x) = d y * (y - f x)"
21164
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   243
    and cont_d: "isCont d (f x)" and dfx: "d (f x) = E"
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   244
    using CARAT_DERIV [THEN iffD1, OF g] by fast
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   245
  from f have "f -- x --> f x"
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   246
    by (rule DERIV_isCont [unfolded isCont_def])
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   247
  with cont_d have "(\<lambda>z. d (f z)) -- x --> d (f x)"
44568
e6f291cb5810 discontinue many legacy theorems about LIM and LIMSEQ, in favor of tendsto theorems
huffman
parents: 44317
diff changeset
   248
    by (rule isCont_tendsto_compose)
21784
e76faa6e65fd changed (ns)deriv to take functions of type 'a::real_normed_field => 'a
huffman
parents: 21404
diff changeset
   249
  hence "(\<lambda>z. d (f z) * ((f z - f x) / (z - x)))
e76faa6e65fd changed (ns)deriv to take functions of type 'a::real_normed_field => 'a
huffman
parents: 21404
diff changeset
   250
          -- x --> d (f x) * D"
44568
e6f291cb5810 discontinue many legacy theorems about LIM and LIMSEQ, in favor of tendsto theorems
huffman
parents: 44317
diff changeset
   251
    by (rule tendsto_mult [OF _ f [unfolded DERIV_iff2]])
21784
e76faa6e65fd changed (ns)deriv to take functions of type 'a::real_normed_field => 'a
huffman
parents: 21404
diff changeset
   252
  thus "(\<lambda>z. (g (f z) - g (f x)) / (z - x)) -- x --> E * D"
35216
7641e8d831d2 get rid of many duplicate simp rule warnings
huffman
parents: 34941
diff changeset
   253
    by (simp add: d dfx)
21164
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   254
qed
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   255
31899
1a7ade46061b fixed document (DERIV_intros);
wenzelm
parents: 31880
diff changeset
   256
text {*
1a7ade46061b fixed document (DERIV_intros);
wenzelm
parents: 31880
diff changeset
   257
 Let's do the standard proof, though theorem
1a7ade46061b fixed document (DERIV_intros);
wenzelm
parents: 31880
diff changeset
   258
 @{text "LIM_mult2"} follows from a NS proof
1a7ade46061b fixed document (DERIV_intros);
wenzelm
parents: 31880
diff changeset
   259
*}
21164
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   260
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   261
lemma DERIV_cmult:
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   262
      "DERIV f x :> D ==> DERIV (%x. c * f x) x :> c*D"
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   263
by (drule DERIV_mult' [OF DERIV_const], simp)
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   264
33654
abf780db30ea A number of theorems contributed by Jeremy Avigad
paulson
parents: 31902
diff changeset
   265
lemma DERIV_cdivide: "DERIV f x :> D ==> DERIV (%x. f x / c) x :> D / c"
abf780db30ea A number of theorems contributed by Jeremy Avigad
paulson
parents: 31902
diff changeset
   266
  apply (subgoal_tac "DERIV (%x. (1 / c) * f x) x :> (1 / c) * D", force)
abf780db30ea A number of theorems contributed by Jeremy Avigad
paulson
parents: 31902
diff changeset
   267
  apply (erule DERIV_cmult)
abf780db30ea A number of theorems contributed by Jeremy Avigad
paulson
parents: 31902
diff changeset
   268
  done
abf780db30ea A number of theorems contributed by Jeremy Avigad
paulson
parents: 31902
diff changeset
   269
31899
1a7ade46061b fixed document (DERIV_intros);
wenzelm
parents: 31880
diff changeset
   270
text {* Standard version *}
21164
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   271
lemma DERIV_chain: "[| DERIV f (g x) :> Da; DERIV g x :> Db |] ==> DERIV (f o g) x :> Da * Db"
35216
7641e8d831d2 get rid of many duplicate simp rule warnings
huffman
parents: 34941
diff changeset
   272
by (drule (1) DERIV_chain', simp add: o_def mult_commute)
21164
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   273
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   274
lemma DERIV_chain2: "[| DERIV f (g x) :> Da; DERIV g x :> Db |] ==> DERIV (%x. f (g x)) x :> Da * Db"
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   275
by (auto dest: DERIV_chain simp add: o_def)
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   276
31899
1a7ade46061b fixed document (DERIV_intros);
wenzelm
parents: 31880
diff changeset
   277
text {* Derivative of linear multiplication *}
21164
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   278
lemma DERIV_cmult_Id [simp]: "DERIV (op * c) x :> c"
23069
cdfff0241c12 rename lemmas LIM_ident, isCont_ident, DERIV_ident
huffman
parents: 23044
diff changeset
   279
by (cut_tac c = c and x = x in DERIV_ident [THEN DERIV_cmult], simp)
21164
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   280
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   281
lemma DERIV_pow: "DERIV (%x. x ^ n) x :> real n * (x ^ (n - Suc 0))"
23069
cdfff0241c12 rename lemmas LIM_ident, isCont_ident, DERIV_ident
huffman
parents: 23044
diff changeset
   282
apply (cut_tac DERIV_power [OF DERIV_ident])
35216
7641e8d831d2 get rid of many duplicate simp rule warnings
huffman
parents: 34941
diff changeset
   283
apply (simp add: real_of_nat_def)
21164
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   284
done
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   285
31899
1a7ade46061b fixed document (DERIV_intros);
wenzelm
parents: 31880
diff changeset
   286
text {* Power of @{text "-1"} *}
21164
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   287
21784
e76faa6e65fd changed (ns)deriv to take functions of type 'a::real_normed_field => 'a
huffman
parents: 21404
diff changeset
   288
lemma DERIV_inverse:
31017
2c227493ea56 stripped class recpower further
haftmann
parents: 30273
diff changeset
   289
  fixes x :: "'a::{real_normed_field}"
21784
e76faa6e65fd changed (ns)deriv to take functions of type 'a::real_normed_field => 'a
huffman
parents: 21404
diff changeset
   290
  shows "x \<noteq> 0 ==> DERIV (%x. inverse(x)) x :> (-(inverse x ^ Suc (Suc 0)))"
30273
ecd6f0ca62ea declare power_Suc [simp]; remove redundant type-specific versions of power_Suc
huffman
parents: 30242
diff changeset
   291
by (drule DERIV_inverse' [OF DERIV_ident]) simp
21164
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   292
31899
1a7ade46061b fixed document (DERIV_intros);
wenzelm
parents: 31880
diff changeset
   293
text {* Derivative of inverse *}
21784
e76faa6e65fd changed (ns)deriv to take functions of type 'a::real_normed_field => 'a
huffman
parents: 21404
diff changeset
   294
lemma DERIV_inverse_fun:
31017
2c227493ea56 stripped class recpower further
haftmann
parents: 30273
diff changeset
   295
  fixes x :: "'a::{real_normed_field}"
21784
e76faa6e65fd changed (ns)deriv to take functions of type 'a::real_normed_field => 'a
huffman
parents: 21404
diff changeset
   296
  shows "[| DERIV f x :> d; f(x) \<noteq> 0 |]
e76faa6e65fd changed (ns)deriv to take functions of type 'a::real_normed_field => 'a
huffman
parents: 21404
diff changeset
   297
      ==> DERIV (%x. inverse(f x)) x :> (- (d * inverse(f(x) ^ Suc (Suc 0))))"
30273
ecd6f0ca62ea declare power_Suc [simp]; remove redundant type-specific versions of power_Suc
huffman
parents: 30242
diff changeset
   298
by (drule (1) DERIV_inverse') (simp add: mult_ac nonzero_inverse_mult_distrib)
21164
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   299
31899
1a7ade46061b fixed document (DERIV_intros);
wenzelm
parents: 31880
diff changeset
   300
text {* Derivative of quotient *}
21784
e76faa6e65fd changed (ns)deriv to take functions of type 'a::real_normed_field => 'a
huffman
parents: 21404
diff changeset
   301
lemma DERIV_quotient:
31017
2c227493ea56 stripped class recpower further
haftmann
parents: 30273
diff changeset
   302
  fixes x :: "'a::{real_normed_field}"
21784
e76faa6e65fd changed (ns)deriv to take functions of type 'a::real_normed_field => 'a
huffman
parents: 21404
diff changeset
   303
  shows "[| DERIV f x :> d; DERIV g x :> e; g(x) \<noteq> 0 |]
e76faa6e65fd changed (ns)deriv to take functions of type 'a::real_normed_field => 'a
huffman
parents: 21404
diff changeset
   304
       ==> DERIV (%y. f(y) / (g y)) x :> (d*g(x) - (e*f(x))) / (g(x) ^ Suc (Suc 0))"
30273
ecd6f0ca62ea declare power_Suc [simp]; remove redundant type-specific versions of power_Suc
huffman
parents: 30242
diff changeset
   305
by (drule (2) DERIV_divide) (simp add: mult_commute)
21164
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   306
31899
1a7ade46061b fixed document (DERIV_intros);
wenzelm
parents: 31880
diff changeset
   307
text {* @{text "DERIV_intros"} *}
1a7ade46061b fixed document (DERIV_intros);
wenzelm
parents: 31880
diff changeset
   308
ML {*
31902
862ae16a799d renamed NamedThmsFun to Named_Thms;
wenzelm
parents: 31899
diff changeset
   309
structure Deriv_Intros = Named_Thms
31899
1a7ade46061b fixed document (DERIV_intros);
wenzelm
parents: 31880
diff changeset
   310
(
45294
3c5d3d286055 tuned Named_Thms: proper binding;
wenzelm
parents: 45051
diff changeset
   311
  val name = @{binding DERIV_intros}
31899
1a7ade46061b fixed document (DERIV_intros);
wenzelm
parents: 31880
diff changeset
   312
  val description = "DERIV introduction rules"
1a7ade46061b fixed document (DERIV_intros);
wenzelm
parents: 31880
diff changeset
   313
)
1a7ade46061b fixed document (DERIV_intros);
wenzelm
parents: 31880
diff changeset
   314
*}
31880
6fb86c61747c Added DERIV_intros
hoelzl
parents: 31404
diff changeset
   315
31902
862ae16a799d renamed NamedThmsFun to Named_Thms;
wenzelm
parents: 31899
diff changeset
   316
setup Deriv_Intros.setup
31880
6fb86c61747c Added DERIV_intros
hoelzl
parents: 31404
diff changeset
   317
6fb86c61747c Added DERIV_intros
hoelzl
parents: 31404
diff changeset
   318
lemma DERIV_cong: "\<lbrakk> DERIV f x :> X ; X = Y \<rbrakk> \<Longrightarrow> DERIV f x :> Y"
6fb86c61747c Added DERIV_intros
hoelzl
parents: 31404
diff changeset
   319
  by simp
6fb86c61747c Added DERIV_intros
hoelzl
parents: 31404
diff changeset
   320
6fb86c61747c Added DERIV_intros
hoelzl
parents: 31404
diff changeset
   321
declare
6fb86c61747c Added DERIV_intros
hoelzl
parents: 31404
diff changeset
   322
  DERIV_const[THEN DERIV_cong, DERIV_intros]
6fb86c61747c Added DERIV_intros
hoelzl
parents: 31404
diff changeset
   323
  DERIV_ident[THEN DERIV_cong, DERIV_intros]
6fb86c61747c Added DERIV_intros
hoelzl
parents: 31404
diff changeset
   324
  DERIV_add[THEN DERIV_cong, DERIV_intros]
6fb86c61747c Added DERIV_intros
hoelzl
parents: 31404
diff changeset
   325
  DERIV_minus[THEN DERIV_cong, DERIV_intros]
6fb86c61747c Added DERIV_intros
hoelzl
parents: 31404
diff changeset
   326
  DERIV_mult[THEN DERIV_cong, DERIV_intros]
6fb86c61747c Added DERIV_intros
hoelzl
parents: 31404
diff changeset
   327
  DERIV_diff[THEN DERIV_cong, DERIV_intros]
6fb86c61747c Added DERIV_intros
hoelzl
parents: 31404
diff changeset
   328
  DERIV_inverse'[THEN DERIV_cong, DERIV_intros]
6fb86c61747c Added DERIV_intros
hoelzl
parents: 31404
diff changeset
   329
  DERIV_divide[THEN DERIV_cong, DERIV_intros]
6fb86c61747c Added DERIV_intros
hoelzl
parents: 31404
diff changeset
   330
  DERIV_power[where 'a=real, THEN DERIV_cong,
6fb86c61747c Added DERIV_intros
hoelzl
parents: 31404
diff changeset
   331
              unfolded real_of_nat_def[symmetric], DERIV_intros]
6fb86c61747c Added DERIV_intros
hoelzl
parents: 31404
diff changeset
   332
  DERIV_setsum[THEN DERIV_cong, DERIV_intros]
22984
67d434ad9ef8 section labels
huffman
parents: 22653
diff changeset
   333
31899
1a7ade46061b fixed document (DERIV_intros);
wenzelm
parents: 31880
diff changeset
   334
22984
67d434ad9ef8 section labels
huffman
parents: 22653
diff changeset
   335
subsection {* Differentiability predicate *}
21164
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   336
29169
6a5f1d8d7344 more proofs about differentiable
huffman
parents: 29166
diff changeset
   337
definition
6a5f1d8d7344 more proofs about differentiable
huffman
parents: 29166
diff changeset
   338
  differentiable :: "['a::real_normed_field \<Rightarrow> 'a, 'a] \<Rightarrow> bool"
6a5f1d8d7344 more proofs about differentiable
huffman
parents: 29166
diff changeset
   339
    (infixl "differentiable" 60) where
6a5f1d8d7344 more proofs about differentiable
huffman
parents: 29166
diff changeset
   340
  "f differentiable x = (\<exists>D. DERIV f x :> D)"
6a5f1d8d7344 more proofs about differentiable
huffman
parents: 29166
diff changeset
   341
6a5f1d8d7344 more proofs about differentiable
huffman
parents: 29166
diff changeset
   342
lemma differentiableE [elim?]:
6a5f1d8d7344 more proofs about differentiable
huffman
parents: 29166
diff changeset
   343
  assumes "f differentiable x"
6a5f1d8d7344 more proofs about differentiable
huffman
parents: 29166
diff changeset
   344
  obtains df where "DERIV f x :> df"
41550
efa734d9b221 eliminated global prems;
wenzelm
parents: 41368
diff changeset
   345
  using assms unfolding differentiable_def ..
29169
6a5f1d8d7344 more proofs about differentiable
huffman
parents: 29166
diff changeset
   346
21164
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   347
lemma differentiableD: "f differentiable x ==> \<exists>D. DERIV f x :> D"
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   348
by (simp add: differentiable_def)
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   349
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   350
lemma differentiableI: "DERIV f x :> D ==> f differentiable x"
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   351
by (force simp add: differentiable_def)
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   352
29169
6a5f1d8d7344 more proofs about differentiable
huffman
parents: 29166
diff changeset
   353
lemma differentiable_ident [simp]: "(\<lambda>x. x) differentiable x"
6a5f1d8d7344 more proofs about differentiable
huffman
parents: 29166
diff changeset
   354
  by (rule DERIV_ident [THEN differentiableI])
6a5f1d8d7344 more proofs about differentiable
huffman
parents: 29166
diff changeset
   355
6a5f1d8d7344 more proofs about differentiable
huffman
parents: 29166
diff changeset
   356
lemma differentiable_const [simp]: "(\<lambda>z. a) differentiable x"
6a5f1d8d7344 more proofs about differentiable
huffman
parents: 29166
diff changeset
   357
  by (rule DERIV_const [THEN differentiableI])
21164
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   358
29169
6a5f1d8d7344 more proofs about differentiable
huffman
parents: 29166
diff changeset
   359
lemma differentiable_compose:
6a5f1d8d7344 more proofs about differentiable
huffman
parents: 29166
diff changeset
   360
  assumes f: "f differentiable (g x)"
6a5f1d8d7344 more proofs about differentiable
huffman
parents: 29166
diff changeset
   361
  assumes g: "g differentiable x"
6a5f1d8d7344 more proofs about differentiable
huffman
parents: 29166
diff changeset
   362
  shows "(\<lambda>x. f (g x)) differentiable x"
6a5f1d8d7344 more proofs about differentiable
huffman
parents: 29166
diff changeset
   363
proof -
6a5f1d8d7344 more proofs about differentiable
huffman
parents: 29166
diff changeset
   364
  from `f differentiable (g x)` obtain df where "DERIV f (g x) :> df" ..
6a5f1d8d7344 more proofs about differentiable
huffman
parents: 29166
diff changeset
   365
  moreover
6a5f1d8d7344 more proofs about differentiable
huffman
parents: 29166
diff changeset
   366
  from `g differentiable x` obtain dg where "DERIV g x :> dg" ..
6a5f1d8d7344 more proofs about differentiable
huffman
parents: 29166
diff changeset
   367
  ultimately
6a5f1d8d7344 more proofs about differentiable
huffman
parents: 29166
diff changeset
   368
  have "DERIV (\<lambda>x. f (g x)) x :> df * dg" by (rule DERIV_chain2)
6a5f1d8d7344 more proofs about differentiable
huffman
parents: 29166
diff changeset
   369
  thus ?thesis by (rule differentiableI)
6a5f1d8d7344 more proofs about differentiable
huffman
parents: 29166
diff changeset
   370
qed
6a5f1d8d7344 more proofs about differentiable
huffman
parents: 29166
diff changeset
   371
6a5f1d8d7344 more proofs about differentiable
huffman
parents: 29166
diff changeset
   372
lemma differentiable_sum [simp]:
21164
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   373
  assumes "f differentiable x"
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   374
  and "g differentiable x"
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   375
  shows "(\<lambda>x. f x + g x) differentiable x"
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   376
proof -
29169
6a5f1d8d7344 more proofs about differentiable
huffman
parents: 29166
diff changeset
   377
  from `f differentiable x` obtain df where "DERIV f x :> df" ..
6a5f1d8d7344 more proofs about differentiable
huffman
parents: 29166
diff changeset
   378
  moreover
6a5f1d8d7344 more proofs about differentiable
huffman
parents: 29166
diff changeset
   379
  from `g differentiable x` obtain dg where "DERIV g x :> dg" ..
6a5f1d8d7344 more proofs about differentiable
huffman
parents: 29166
diff changeset
   380
  ultimately
6a5f1d8d7344 more proofs about differentiable
huffman
parents: 29166
diff changeset
   381
  have "DERIV (\<lambda>x. f x + g x) x :> df + dg" by (rule DERIV_add)
6a5f1d8d7344 more proofs about differentiable
huffman
parents: 29166
diff changeset
   382
  thus ?thesis by (rule differentiableI)
6a5f1d8d7344 more proofs about differentiable
huffman
parents: 29166
diff changeset
   383
qed
6a5f1d8d7344 more proofs about differentiable
huffman
parents: 29166
diff changeset
   384
6a5f1d8d7344 more proofs about differentiable
huffman
parents: 29166
diff changeset
   385
lemma differentiable_minus [simp]:
6a5f1d8d7344 more proofs about differentiable
huffman
parents: 29166
diff changeset
   386
  assumes "f differentiable x"
6a5f1d8d7344 more proofs about differentiable
huffman
parents: 29166
diff changeset
   387
  shows "(\<lambda>x. - f x) differentiable x"
6a5f1d8d7344 more proofs about differentiable
huffman
parents: 29166
diff changeset
   388
proof -
6a5f1d8d7344 more proofs about differentiable
huffman
parents: 29166
diff changeset
   389
  from `f differentiable x` obtain df where "DERIV f x :> df" ..
6a5f1d8d7344 more proofs about differentiable
huffman
parents: 29166
diff changeset
   390
  hence "DERIV (\<lambda>x. - f x) x :> - df" by (rule DERIV_minus)
6a5f1d8d7344 more proofs about differentiable
huffman
parents: 29166
diff changeset
   391
  thus ?thesis by (rule differentiableI)
21164
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   392
qed
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   393
29169
6a5f1d8d7344 more proofs about differentiable
huffman
parents: 29166
diff changeset
   394
lemma differentiable_diff [simp]:
21164
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   395
  assumes "f differentiable x"
29169
6a5f1d8d7344 more proofs about differentiable
huffman
parents: 29166
diff changeset
   396
  assumes "g differentiable x"
21164
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   397
  shows "(\<lambda>x. f x - g x) differentiable x"
41550
efa734d9b221 eliminated global prems;
wenzelm
parents: 41368
diff changeset
   398
  unfolding diff_minus using assms by simp
29169
6a5f1d8d7344 more proofs about differentiable
huffman
parents: 29166
diff changeset
   399
6a5f1d8d7344 more proofs about differentiable
huffman
parents: 29166
diff changeset
   400
lemma differentiable_mult [simp]:
6a5f1d8d7344 more proofs about differentiable
huffman
parents: 29166
diff changeset
   401
  assumes "f differentiable x"
6a5f1d8d7344 more proofs about differentiable
huffman
parents: 29166
diff changeset
   402
  assumes "g differentiable x"
6a5f1d8d7344 more proofs about differentiable
huffman
parents: 29166
diff changeset
   403
  shows "(\<lambda>x. f x * g x) differentiable x"
21164
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   404
proof -
29169
6a5f1d8d7344 more proofs about differentiable
huffman
parents: 29166
diff changeset
   405
  from `f differentiable x` obtain df where "DERIV f x :> df" ..
21164
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   406
  moreover
29169
6a5f1d8d7344 more proofs about differentiable
huffman
parents: 29166
diff changeset
   407
  from `g differentiable x` obtain dg where "DERIV g x :> dg" ..
6a5f1d8d7344 more proofs about differentiable
huffman
parents: 29166
diff changeset
   408
  ultimately
6a5f1d8d7344 more proofs about differentiable
huffman
parents: 29166
diff changeset
   409
  have "DERIV (\<lambda>x. f x * g x) x :> df * g x + dg * f x" by (rule DERIV_mult)
6a5f1d8d7344 more proofs about differentiable
huffman
parents: 29166
diff changeset
   410
  thus ?thesis by (rule differentiableI)
21164
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   411
qed
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   412
29169
6a5f1d8d7344 more proofs about differentiable
huffman
parents: 29166
diff changeset
   413
lemma differentiable_inverse [simp]:
6a5f1d8d7344 more proofs about differentiable
huffman
parents: 29166
diff changeset
   414
  assumes "f differentiable x" and "f x \<noteq> 0"
6a5f1d8d7344 more proofs about differentiable
huffman
parents: 29166
diff changeset
   415
  shows "(\<lambda>x. inverse (f x)) differentiable x"
21164
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   416
proof -
29169
6a5f1d8d7344 more proofs about differentiable
huffman
parents: 29166
diff changeset
   417
  from `f differentiable x` obtain df where "DERIV f x :> df" ..
6a5f1d8d7344 more proofs about differentiable
huffman
parents: 29166
diff changeset
   418
  hence "DERIV (\<lambda>x. inverse (f x)) x :> - (inverse (f x) * df * inverse (f x))"
6a5f1d8d7344 more proofs about differentiable
huffman
parents: 29166
diff changeset
   419
    using `f x \<noteq> 0` by (rule DERIV_inverse')
6a5f1d8d7344 more proofs about differentiable
huffman
parents: 29166
diff changeset
   420
  thus ?thesis by (rule differentiableI)
21164
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   421
qed
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   422
29169
6a5f1d8d7344 more proofs about differentiable
huffman
parents: 29166
diff changeset
   423
lemma differentiable_divide [simp]:
6a5f1d8d7344 more proofs about differentiable
huffman
parents: 29166
diff changeset
   424
  assumes "f differentiable x"
6a5f1d8d7344 more proofs about differentiable
huffman
parents: 29166
diff changeset
   425
  assumes "g differentiable x" and "g x \<noteq> 0"
6a5f1d8d7344 more proofs about differentiable
huffman
parents: 29166
diff changeset
   426
  shows "(\<lambda>x. f x / g x) differentiable x"
41550
efa734d9b221 eliminated global prems;
wenzelm
parents: 41368
diff changeset
   427
  unfolding divide_inverse using assms by simp
29169
6a5f1d8d7344 more proofs about differentiable
huffman
parents: 29166
diff changeset
   428
6a5f1d8d7344 more proofs about differentiable
huffman
parents: 29166
diff changeset
   429
lemma differentiable_power [simp]:
31017
2c227493ea56 stripped class recpower further
haftmann
parents: 30273
diff changeset
   430
  fixes f :: "'a::{real_normed_field} \<Rightarrow> 'a"
29169
6a5f1d8d7344 more proofs about differentiable
huffman
parents: 29166
diff changeset
   431
  assumes "f differentiable x"
6a5f1d8d7344 more proofs about differentiable
huffman
parents: 29166
diff changeset
   432
  shows "(\<lambda>x. f x ^ n) differentiable x"
41550
efa734d9b221 eliminated global prems;
wenzelm
parents: 41368
diff changeset
   433
  apply (induct n)
efa734d9b221 eliminated global prems;
wenzelm
parents: 41368
diff changeset
   434
  apply simp
efa734d9b221 eliminated global prems;
wenzelm
parents: 41368
diff changeset
   435
  apply (simp add: assms)
efa734d9b221 eliminated global prems;
wenzelm
parents: 41368
diff changeset
   436
  done
29169
6a5f1d8d7344 more proofs about differentiable
huffman
parents: 29166
diff changeset
   437
22984
67d434ad9ef8 section labels
huffman
parents: 22653
diff changeset
   438
21164
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   439
subsection {* Nested Intervals and Bisection *}
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   440
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   441
text{*Lemmas about nested intervals and proof by bisection (cf.Harrison).
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   442
     All considerably tidied by lcp.*}
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   443
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   444
lemma lemma_f_mono_add [rule_format (no_asm)]: "(\<forall>n. (f::nat=>real) n \<le> f (Suc n)) --> f m \<le> f(m + no)"
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   445
apply (induct "no")
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   446
apply (auto intro: order_trans)
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   447
done
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   448
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   449
lemma f_inc_g_dec_Beq_f: "[| \<forall>n. f(n) \<le> f(Suc n);
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   450
         \<forall>n. g(Suc n) \<le> g(n);
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   451
         \<forall>n. f(n) \<le> g(n) |]
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   452
      ==> Bseq (f :: nat \<Rightarrow> real)"
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   453
apply (rule_tac k = "f 0" and K = "g 0" in BseqI2, rule allI)
44921
58eef4843641 tuned proofs
huffman
parents: 44890
diff changeset
   454
apply (rule conjI)
21164
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   455
apply (induct_tac "n")
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   456
apply (auto intro: order_trans)
44921
58eef4843641 tuned proofs
huffman
parents: 44890
diff changeset
   457
apply (rule_tac y = "g n" in order_trans)
58eef4843641 tuned proofs
huffman
parents: 44890
diff changeset
   458
apply (induct_tac [2] "n")
21164
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   459
apply (auto intro: order_trans)
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   460
done
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   461
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   462
lemma f_inc_g_dec_Beq_g: "[| \<forall>n. f(n) \<le> f(Suc n);
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   463
         \<forall>n. g(Suc n) \<le> g(n);
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   464
         \<forall>n. f(n) \<le> g(n) |]
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   465
      ==> Bseq (g :: nat \<Rightarrow> real)"
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   466
apply (subst Bseq_minus_iff [symmetric])
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   467
apply (rule_tac g = "%x. - (f x)" in f_inc_g_dec_Beq_f)
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   468
apply auto
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   469
done
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   470
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   471
lemma f_inc_imp_le_lim:
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   472
  fixes f :: "nat \<Rightarrow> real"
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   473
  shows "\<lbrakk>\<forall>n. f n \<le> f (Suc n); convergent f\<rbrakk> \<Longrightarrow> f n \<le> lim f"
44921
58eef4843641 tuned proofs
huffman
parents: 44890
diff changeset
   474
  by (rule incseq_le, simp add: incseq_SucI, simp add: convergent_LIMSEQ_iff)
21164
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   475
31404
05d2eddc5d41 generalize type of constant lim
huffman
parents: 31338
diff changeset
   476
lemma lim_uminus:
05d2eddc5d41 generalize type of constant lim
huffman
parents: 31338
diff changeset
   477
  fixes g :: "nat \<Rightarrow> 'a::real_normed_vector"
05d2eddc5d41 generalize type of constant lim
huffman
parents: 31338
diff changeset
   478
  shows "convergent g ==> lim (%x. - g x) = - (lim g)"
44568
e6f291cb5810 discontinue many legacy theorems about LIM and LIMSEQ, in favor of tendsto theorems
huffman
parents: 44317
diff changeset
   479
apply (rule tendsto_minus [THEN limI])
21164
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   480
apply (simp add: convergent_LIMSEQ_iff)
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   481
done
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   482
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   483
lemma g_dec_imp_lim_le:
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   484
  fixes g :: "nat \<Rightarrow> real"
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   485
  shows "\<lbrakk>\<forall>n. g (Suc n) \<le> g(n); convergent g\<rbrakk> \<Longrightarrow> lim g \<le> g n"
44921
58eef4843641 tuned proofs
huffman
parents: 44890
diff changeset
   486
  by (rule decseq_le, simp add: decseq_SucI, simp add: convergent_LIMSEQ_iff)
21164
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   487
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   488
lemma lemma_nest: "[| \<forall>n. f(n) \<le> f(Suc n);
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   489
         \<forall>n. g(Suc n) \<le> g(n);
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   490
         \<forall>n. f(n) \<le> g(n) |]
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   491
      ==> \<exists>l m :: real. l \<le> m &  ((\<forall>n. f(n) \<le> l) & f ----> l) &
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   492
                            ((\<forall>n. m \<le> g(n)) & g ----> m)"
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   493
apply (subgoal_tac "monoseq f & monoseq g")
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   494
prefer 2 apply (force simp add: LIMSEQ_iff monoseq_Suc)
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   495
apply (subgoal_tac "Bseq f & Bseq g")
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   496
prefer 2 apply (blast intro: f_inc_g_dec_Beq_f f_inc_g_dec_Beq_g)
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   497
apply (auto dest!: Bseq_monoseq_convergent simp add: convergent_LIMSEQ_iff)
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   498
apply (rule_tac x = "lim f" in exI)
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   499
apply (rule_tac x = "lim g" in exI)
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   500
apply (auto intro: LIMSEQ_le)
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   501
apply (auto simp add: f_inc_imp_le_lim g_dec_imp_lim_le convergent_LIMSEQ_iff)
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   502
done
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   503
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   504
lemma lemma_nest_unique: "[| \<forall>n. f(n) \<le> f(Suc n);
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   505
         \<forall>n. g(Suc n) \<le> g(n);
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   506
         \<forall>n. f(n) \<le> g(n);
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   507
         (%n. f(n) - g(n)) ----> 0 |]
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   508
      ==> \<exists>l::real. ((\<forall>n. f(n) \<le> l) & f ----> l) &
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   509
                ((\<forall>n. l \<le> g(n)) & g ----> l)"
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   510
apply (drule lemma_nest, auto)
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   511
apply (subgoal_tac "l = m")
44568
e6f291cb5810 discontinue many legacy theorems about LIM and LIMSEQ, in favor of tendsto theorems
huffman
parents: 44317
diff changeset
   512
apply (drule_tac [2] f = f in tendsto_diff)
21164
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   513
apply (auto intro: LIMSEQ_unique)
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   514
done
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   515
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   516
text{*The universal quantifiers below are required for the declaration
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   517
  of @{text Bolzano_nest_unique} below.*}
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   518
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   519
lemma Bolzano_bisect_le:
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   520
 "a \<le> b ==> \<forall>n. fst (Bolzano_bisect P a b n) \<le> snd (Bolzano_bisect P a b n)"
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   521
apply (rule allI)
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   522
apply (induct_tac "n")
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   523
apply (auto simp add: Let_def split_def)
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   524
done
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   525
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   526
lemma Bolzano_bisect_fst_le_Suc: "a \<le> b ==>
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   527
   \<forall>n. fst(Bolzano_bisect P a b n) \<le> fst (Bolzano_bisect P a b (Suc n))"
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   528
apply (rule allI)
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   529
apply (induct_tac "n")
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   530
apply (auto simp add: Bolzano_bisect_le Let_def split_def)
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   531
done
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   532
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   533
lemma Bolzano_bisect_Suc_le_snd: "a \<le> b ==>
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   534
   \<forall>n. snd(Bolzano_bisect P a b (Suc n)) \<le> snd (Bolzano_bisect P a b n)"
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   535
apply (rule allI)
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   536
apply (induct_tac "n")
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   537
apply (auto simp add: Bolzano_bisect_le Let_def split_def)
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   538
done
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   539
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   540
lemma eq_divide_2_times_iff: "((x::real) = y / (2 * z)) = (2 * x = y/z)"
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   541
apply (auto)
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   542
apply (drule_tac f = "%u. (1/2) *u" in arg_cong)
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   543
apply (simp)
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   544
done
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   545
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   546
lemma Bolzano_bisect_diff:
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   547
     "a \<le> b ==>
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   548
      snd(Bolzano_bisect P a b n) - fst(Bolzano_bisect P a b n) =
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   549
      (b-a) / (2 ^ n)"
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   550
apply (induct "n")
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   551
apply (auto simp add: eq_divide_2_times_iff add_divide_distrib Let_def split_def)
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   552
done
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   553
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   554
lemmas Bolzano_nest_unique =
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   555
    lemma_nest_unique
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   556
    [OF Bolzano_bisect_fst_le_Suc Bolzano_bisect_Suc_le_snd Bolzano_bisect_le]
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   557
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   558
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   559
lemma not_P_Bolzano_bisect:
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   560
  assumes P:    "!!a b c. [| P(a,b); P(b,c); a \<le> b; b \<le> c|] ==> P(a,c)"
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   561
      and notP: "~ P(a,b)"
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   562
      and le:   "a \<le> b"
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   563
  shows "~ P(fst(Bolzano_bisect P a b n), snd(Bolzano_bisect P a b n))"
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   564
proof (induct n)
23441
ee218296d635 avoid using implicit prems in assumption
huffman
parents: 23431
diff changeset
   565
  case 0 show ?case using notP by simp
21164
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   566
 next
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   567
  case (Suc n)
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   568
  thus ?case
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   569
 by (auto simp del: surjective_pairing [symmetric]
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   570
             simp add: Let_def split_def Bolzano_bisect_le [OF le]
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   571
     P [of "fst (Bolzano_bisect P a b n)" _ "snd (Bolzano_bisect P a b n)"])
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   572
qed
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   573
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   574
(*Now we re-package P_prem as a formula*)
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   575
lemma not_P_Bolzano_bisect':
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   576
     "[| \<forall>a b c. P(a,b) & P(b,c) & a \<le> b & b \<le> c --> P(a,c);
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   577
         ~ P(a,b);  a \<le> b |] ==>
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   578
      \<forall>n. ~ P(fst(Bolzano_bisect P a b n), snd(Bolzano_bisect P a b n))"
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   579
by (blast elim!: not_P_Bolzano_bisect [THEN [2] rev_notE])
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   580
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   581
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   582
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   583
lemma lemma_BOLZANO:
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   584
     "[| \<forall>a b c. P(a,b) & P(b,c) & a \<le> b & b \<le> c --> P(a,c);
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   585
         \<forall>x. \<exists>d::real. 0 < d &
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   586
                (\<forall>a b. a \<le> x & x \<le> b & (b-a) < d --> P(a,b));
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   587
         a \<le> b |]
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   588
      ==> P(a,b)"
45600
1bbbac9a0cb0 'lemmas' / 'theorems' commands allow 'for' fixes and standardize the result before storing;
wenzelm
parents: 45294
diff changeset
   589
apply (rule Bolzano_nest_unique [where P=P, THEN exE], assumption+)
44568
e6f291cb5810 discontinue many legacy theorems about LIM and LIMSEQ, in favor of tendsto theorems
huffman
parents: 44317
diff changeset
   590
apply (rule tendsto_minus_cancel)
21164
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   591
apply (simp (no_asm_simp) add: Bolzano_bisect_diff LIMSEQ_divide_realpow_zero)
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   592
apply (rule ccontr)
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   593
apply (drule not_P_Bolzano_bisect', assumption+)
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   594
apply (rename_tac "l")
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   595
apply (drule_tac x = l in spec, clarify)
31336
e17f13cd1280 generalize constants in SEQ.thy to class metric_space
huffman
parents: 31017
diff changeset
   596
apply (simp add: LIMSEQ_iff)
21164
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   597
apply (drule_tac P = "%r. 0<r --> ?Q r" and x = "d/2" in spec)
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   598
apply (drule_tac P = "%r. 0<r --> ?Q r" and x = "d/2" in spec)
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   599
apply (drule real_less_half_sum, auto)
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   600
apply (drule_tac x = "fst (Bolzano_bisect P a b (no + noa))" in spec)
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   601
apply (drule_tac x = "snd (Bolzano_bisect P a b (no + noa))" in spec)
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   602
apply safe
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   603
apply (simp_all (no_asm_simp))
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   604
apply (rule_tac y = "abs (fst (Bolzano_bisect P a b (no + noa)) - l) + abs (snd (Bolzano_bisect P a b (no + noa)) - l)" in order_le_less_trans)
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   605
apply (simp (no_asm_simp) add: abs_if)
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   606
apply (rule real_sum_of_halves [THEN subst])
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   607
apply (rule add_strict_mono)
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   608
apply (simp_all add: diff_minus [symmetric])
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   609
done
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   610
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   611
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   612
lemma lemma_BOLZANO2: "((\<forall>a b c. (a \<le> b & b \<le> c & P(a,b) & P(b,c)) --> P(a,c)) &
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   613
       (\<forall>x. \<exists>d::real. 0 < d &
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   614
                (\<forall>a b. a \<le> x & x \<le> b & (b-a) < d --> P(a,b))))
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   615
      --> (\<forall>a b. a \<le> b --> P(a,b))"
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   616
apply clarify
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   617
apply (blast intro: lemma_BOLZANO)
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   618
done
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   619
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   620
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   621
subsection {* Intermediate Value Theorem *}
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   622
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   623
text {*Prove Contrapositive by Bisection*}
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   624
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   625
lemma IVT: "[| f(a::real) \<le> (y::real); y \<le> f(b);
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   626
         a \<le> b;
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   627
         (\<forall>x. a \<le> x & x \<le> b --> isCont f x) |]
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   628
      ==> \<exists>x. a \<le> x & x \<le> b & f(x) = y"
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   629
apply (rule contrapos_pp, assumption)
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   630
apply (cut_tac P = "% (u,v) . a \<le> u & u \<le> v & v \<le> b --> ~ (f (u) \<le> y & y \<le> f (v))" in lemma_BOLZANO2)
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   631
apply safe
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   632
apply simp_all
31338
d41a8ba25b67 generalize constants from Lim.thy to class metric_space
huffman
parents: 31336
diff changeset
   633
apply (simp add: isCont_iff LIM_eq)
21164
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   634
apply (rule ccontr)
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   635
apply (subgoal_tac "a \<le> x & x \<le> b")
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   636
 prefer 2
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   637
 apply simp
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   638
 apply (drule_tac P = "%d. 0<d --> ?P d" and x = 1 in spec, arith)
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   639
apply (drule_tac x = x in spec)+
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   640
apply simp
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   641
apply (drule_tac P = "%r. ?P r --> (\<exists>s>0. ?Q r s) " and x = "\<bar>y - f x\<bar>" in spec)
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   642
apply safe
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   643
apply simp
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   644
apply (drule_tac x = s in spec, clarify)
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   645
apply (cut_tac x = "f x" and y = y in linorder_less_linear, safe)
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   646
apply (drule_tac x = "ba-x" in spec)
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   647
apply (simp_all add: abs_if)
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   648
apply (drule_tac x = "aa-x" in spec)
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   649
apply (case_tac "x \<le> aa", simp_all)
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   650
done
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   651
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   652
lemma IVT2: "[| f(b::real) \<le> (y::real); y \<le> f(a);
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   653
         a \<le> b;
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   654
         (\<forall>x. a \<le> x & x \<le> b --> isCont f x)
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   655
      |] ==> \<exists>x. a \<le> x & x \<le> b & f(x) = y"
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   656
apply (subgoal_tac "- f a \<le> -y & -y \<le> - f b", clarify)
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   657
apply (drule IVT [where f = "%x. - f x"], assumption)
44233
aa74ce315bae add simp rules for isCont
huffman
parents: 44209
diff changeset
   658
apply simp_all
21164
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   659
done
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   660
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   661
(*HOL style here: object-level formulations*)
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   662
lemma IVT_objl: "(f(a::real) \<le> (y::real) & y \<le> f(b) & a \<le> b &
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   663
      (\<forall>x. a \<le> x & x \<le> b --> isCont f x))
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   664
      --> (\<exists>x. a \<le> x & x \<le> b & f(x) = y)"
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   665
apply (blast intro: IVT)
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   666
done
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   667
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   668
lemma IVT2_objl: "(f(b::real) \<le> (y::real) & y \<le> f(a) & a \<le> b &
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   669
      (\<forall>x. a \<le> x & x \<le> b --> isCont f x))
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   670
      --> (\<exists>x. a \<le> x & x \<le> b & f(x) = y)"
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   671
apply (blast intro: IVT2)
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   672
done
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   673
29975
28c5322f0df3 more subsection headings
huffman
parents: 29803
diff changeset
   674
28c5322f0df3 more subsection headings
huffman
parents: 29803
diff changeset
   675
subsection {* Boundedness of continuous functions *}
28c5322f0df3 more subsection headings
huffman
parents: 29803
diff changeset
   676
21164
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   677
text{*By bisection, function continuous on closed interval is bounded above*}
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   678
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   679
lemma isCont_bounded:
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   680
     "[| a \<le> b; \<forall>x. a \<le> x & x \<le> b --> isCont f x |]
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   681
      ==> \<exists>M::real. \<forall>x::real. a \<le> x & x \<le> b --> f(x) \<le> M"
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   682
apply (cut_tac P = "% (u,v) . a \<le> u & u \<le> v & v \<le> b --> (\<exists>M. \<forall>x. u \<le> x & x \<le> v --> f x \<le> M)" in lemma_BOLZANO2)
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   683
apply safe
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   684
apply simp_all
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   685
apply (rename_tac x xa ya M Ma)
36777
be5461582d0f avoid using real-specific versions of generic lemmas
huffman
parents: 35216
diff changeset
   686
apply (metis linorder_not_less order_le_less order_trans)
21164
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   687
apply (case_tac "a \<le> x & x \<le> b")
33654
abf780db30ea A number of theorems contributed by Jeremy Avigad
paulson
parents: 31902
diff changeset
   688
 prefer 2
abf780db30ea A number of theorems contributed by Jeremy Avigad
paulson
parents: 31902
diff changeset
   689
 apply (rule_tac x = 1 in exI, force)
31338
d41a8ba25b67 generalize constants from Lim.thy to class metric_space
huffman
parents: 31336
diff changeset
   690
apply (simp add: LIM_eq isCont_iff)
21164
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   691
apply (drule_tac x = x in spec, auto)
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   692
apply (erule_tac V = "\<forall>M. \<exists>x. a \<le> x & x \<le> b & ~ f x \<le> M" in thin_rl)
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   693
apply (drule_tac x = 1 in spec, auto)
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   694
apply (rule_tac x = s in exI, clarify)
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   695
apply (rule_tac x = "\<bar>f x\<bar> + 1" in exI, clarify)
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   696
apply (drule_tac x = "xa-x" in spec)
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   697
apply (auto simp add: abs_ge_self)
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   698
done
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   699
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   700
text{*Refine the above to existence of least upper bound*}
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   701
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   702
lemma lemma_reals_complete: "((\<exists>x. x \<in> S) & (\<exists>y. isUb UNIV S (y::real))) -->
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   703
      (\<exists>t. isLub UNIV S t)"
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   704
by (blast intro: reals_complete)
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   705
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   706
lemma isCont_has_Ub: "[| a \<le> b; \<forall>x. a \<le> x & x \<le> b --> isCont f x |]
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   707
         ==> \<exists>M::real. (\<forall>x::real. a \<le> x & x \<le> b --> f(x) \<le> M) &
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   708
                   (\<forall>N. N < M --> (\<exists>x. a \<le> x & x \<le> b & N < f(x)))"
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   709
apply (cut_tac S = "Collect (%y. \<exists>x. a \<le> x & x \<le> b & y = f x)"
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   710
        in lemma_reals_complete)
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   711
apply auto
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   712
apply (drule isCont_bounded, assumption)
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   713
apply (auto simp add: isUb_def leastP_def isLub_def setge_def setle_def)
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   714
apply (rule exI, auto)
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   715
apply (auto dest!: spec simp add: linorder_not_less)
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   716
done
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   717
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   718
text{*Now show that it attains its upper bound*}
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   719
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   720
lemma isCont_eq_Ub:
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   721
  assumes le: "a \<le> b"
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   722
      and con: "\<forall>x::real. a \<le> x & x \<le> b --> isCont f x"
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   723
  shows "\<exists>M::real. (\<forall>x. a \<le> x & x \<le> b --> f(x) \<le> M) &
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   724
             (\<exists>x. a \<le> x & x \<le> b & f(x) = M)"
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   725
proof -
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   726
  from isCont_has_Ub [OF le con]
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   727
  obtain M where M1: "\<forall>x. a \<le> x \<and> x \<le> b \<longrightarrow> f x \<le> M"
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   728
             and M2: "!!N. N<M ==> \<exists>x. a \<le> x \<and> x \<le> b \<and> N < f x"  by blast
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   729
  show ?thesis
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   730
  proof (intro exI, intro conjI)
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   731
    show " \<forall>x. a \<le> x \<and> x \<le> b \<longrightarrow> f x \<le> M" by (rule M1)
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   732
    show "\<exists>x. a \<le> x \<and> x \<le> b \<and> f x = M"
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   733
    proof (rule ccontr)
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   734
      assume "\<not> (\<exists>x. a \<le> x \<and> x \<le> b \<and> f x = M)"
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   735
      with M1 have M3: "\<forall>x. a \<le> x & x \<le> b --> f x < M"
44890
22f665a2e91c new fastforce replacing fastsimp - less confusing name
nipkow
parents: 44568
diff changeset
   736
        by (fastforce simp add: linorder_not_le [symmetric])
21164
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   737
      hence "\<forall>x. a \<le> x & x \<le> b --> isCont (%x. inverse (M - f x)) x"
44233
aa74ce315bae add simp rules for isCont
huffman
parents: 44209
diff changeset
   738
        by (auto simp add: con)
21164
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   739
      from isCont_bounded [OF le this]
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   740
      obtain k where k: "!!x. a \<le> x & x \<le> b --> inverse (M - f x) \<le> k" by auto
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   741
      have Minv: "!!x. a \<le> x & x \<le> b --> 0 < inverse (M - f (x))"
29667
53103fc8ffa3 Replaced group_ and ring_simps by algebra_simps;
nipkow
parents: 29472
diff changeset
   742
        by (simp add: M3 algebra_simps)
21164
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   743
      have "!!x. a \<le> x & x \<le> b --> inverse (M - f x) < k+1" using k
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   744
        by (auto intro: order_le_less_trans [of _ k])
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   745
      with Minv
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   746
      have "!!x. a \<le> x & x \<le> b --> inverse(k+1) < inverse(inverse(M - f x))"
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   747
        by (intro strip less_imp_inverse_less, simp_all)
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   748
      hence invlt: "!!x. a \<le> x & x \<le> b --> inverse(k+1) < M - f x"
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   749
        by simp
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   750
      have "M - inverse (k+1) < M" using k [of a] Minv [of a] le
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   751
        by (simp, arith)
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   752
      from M2 [OF this]
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   753
      obtain x where ax: "a \<le> x & x \<le> b & M - inverse(k+1) < f x" ..
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   754
      thus False using invlt [of x] by force
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   755
    qed
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   756
  qed
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   757
qed
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   758
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   759
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   760
text{*Same theorem for lower bound*}
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   761
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   762
lemma isCont_eq_Lb: "[| a \<le> b; \<forall>x. a \<le> x & x \<le> b --> isCont f x |]
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   763
         ==> \<exists>M::real. (\<forall>x::real. a \<le> x & x \<le> b --> M \<le> f(x)) &
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   764
                   (\<exists>x. a \<le> x & x \<le> b & f(x) = M)"
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   765
apply (subgoal_tac "\<forall>x. a \<le> x & x \<le> b --> isCont (%x. - (f x)) x")
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   766
prefer 2 apply (blast intro: isCont_minus)
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   767
apply (drule_tac f = "(%x. - (f x))" in isCont_eq_Ub)
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   768
apply safe
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   769
apply auto
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   770
done
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   771
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   772
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   773
text{*Another version.*}
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   774
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   775
lemma isCont_Lb_Ub: "[|a \<le> b; \<forall>x. a \<le> x & x \<le> b --> isCont f x |]
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   776
      ==> \<exists>L M::real. (\<forall>x::real. a \<le> x & x \<le> b --> L \<le> f(x) & f(x) \<le> M) &
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   777
          (\<forall>y. L \<le> y & y \<le> M --> (\<exists>x. a \<le> x & x \<le> b & (f(x) = y)))"
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   778
apply (frule isCont_eq_Lb)
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   779
apply (frule_tac [2] isCont_eq_Ub)
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   780
apply (assumption+, safe)
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   781
apply (rule_tac x = "f x" in exI)
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   782
apply (rule_tac x = "f xa" in exI, simp, safe)
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   783
apply (cut_tac x = x and y = xa in linorder_linear, safe)
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   784
apply (cut_tac f = f and a = x and b = xa and y = y in IVT_objl)
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   785
apply (cut_tac [2] f = f and a = xa and b = x and y = y in IVT2_objl, safe)
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   786
apply (rule_tac [2] x = xb in exI)
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   787
apply (rule_tac [4] x = xb in exI, simp_all)
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   788
done
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   789
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   790
29975
28c5322f0df3 more subsection headings
huffman
parents: 29803
diff changeset
   791
subsection {* Local extrema *}
28c5322f0df3 more subsection headings
huffman
parents: 29803
diff changeset
   792
21164
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   793
text{*If @{term "0 < f'(x)"} then @{term x} is Locally Strictly Increasing At The Right*}
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   794
33654
abf780db30ea A number of theorems contributed by Jeremy Avigad
paulson
parents: 31902
diff changeset
   795
lemma DERIV_pos_inc_right:
21164
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   796
  fixes f :: "real => real"
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   797
  assumes der: "DERIV f x :> l"
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   798
      and l:   "0 < l"
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   799
  shows "\<exists>d > 0. \<forall>h > 0. h < d --> f(x) < f(x + h)"
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   800
proof -
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   801
  from l der [THEN DERIV_D, THEN LIM_D [where r = "l"]]
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   802
  have "\<exists>s > 0. (\<forall>z. z \<noteq> 0 \<and> \<bar>z\<bar> < s \<longrightarrow> \<bar>(f(x+z) - f x) / z - l\<bar> < l)"
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   803
    by (simp add: diff_minus)
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   804
  then obtain s
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   805
        where s:   "0 < s"
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   806
          and all: "!!z. z \<noteq> 0 \<and> \<bar>z\<bar> < s \<longrightarrow> \<bar>(f(x+z) - f x) / z - l\<bar> < l"
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   807
    by auto
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   808
  thus ?thesis
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   809
  proof (intro exI conjI strip)
23441
ee218296d635 avoid using implicit prems in assumption
huffman
parents: 23431
diff changeset
   810
    show "0<s" using s .
21164
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   811
    fix h::real
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   812
    assume "0 < h" "h < s"
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   813
    with all [of h] show "f x < f (x+h)"
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   814
    proof (simp add: abs_if pos_less_divide_eq diff_minus [symmetric]
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   815
    split add: split_if_asm)
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   816
      assume "~ (f (x+h) - f x) / h < l" and h: "0 < h"
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   817
      with l
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   818
      have "0 < (f (x+h) - f x) / h" by arith
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   819
      thus "f x < f (x+h)"
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   820
  by (simp add: pos_less_divide_eq h)
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   821
    qed
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   822
  qed
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   823
qed
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   824
33654
abf780db30ea A number of theorems contributed by Jeremy Avigad
paulson
parents: 31902
diff changeset
   825
lemma DERIV_neg_dec_left:
21164
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   826
  fixes f :: "real => real"
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   827
  assumes der: "DERIV f x :> l"
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   828
      and l:   "l < 0"
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   829
  shows "\<exists>d > 0. \<forall>h > 0. h < d --> f(x) < f(x-h)"
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   830
proof -
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   831
  from l der [THEN DERIV_D, THEN LIM_D [where r = "-l"]]
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   832
  have "\<exists>s > 0. (\<forall>z. z \<noteq> 0 \<and> \<bar>z\<bar> < s \<longrightarrow> \<bar>(f(x+z) - f x) / z - l\<bar> < -l)"
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   833
    by (simp add: diff_minus)
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   834
  then obtain s
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   835
        where s:   "0 < s"
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   836
          and all: "!!z. z \<noteq> 0 \<and> \<bar>z\<bar> < s \<longrightarrow> \<bar>(f(x+z) - f x) / z - l\<bar> < -l"
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   837
    by auto
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   838
  thus ?thesis
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   839
  proof (intro exI conjI strip)
23441
ee218296d635 avoid using implicit prems in assumption
huffman
parents: 23431
diff changeset
   840
    show "0<s" using s .
21164
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   841
    fix h::real
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   842
    assume "0 < h" "h < s"
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   843
    with all [of "-h"] show "f x < f (x-h)"
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   844
    proof (simp add: abs_if pos_less_divide_eq diff_minus [symmetric]
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   845
    split add: split_if_asm)
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   846
      assume " - ((f (x-h) - f x) / h) < l" and h: "0 < h"
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   847
      with l
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   848
      have "0 < (f (x-h) - f x) / h" by arith
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   849
      thus "f x < f (x-h)"
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   850
  by (simp add: pos_less_divide_eq h)
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   851
    qed
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   852
  qed
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   853
qed
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   854
33654
abf780db30ea A number of theorems contributed by Jeremy Avigad
paulson
parents: 31902
diff changeset
   855
abf780db30ea A number of theorems contributed by Jeremy Avigad
paulson
parents: 31902
diff changeset
   856
lemma DERIV_pos_inc_left:
abf780db30ea A number of theorems contributed by Jeremy Avigad
paulson
parents: 31902
diff changeset
   857
  fixes f :: "real => real"
abf780db30ea A number of theorems contributed by Jeremy Avigad
paulson
parents: 31902
diff changeset
   858
  shows "DERIV f x :> l \<Longrightarrow> 0 < l \<Longrightarrow> \<exists>d > 0. \<forall>h > 0. h < d --> f(x - h) < f(x)"
abf780db30ea A number of theorems contributed by Jeremy Avigad
paulson
parents: 31902
diff changeset
   859
  apply (rule DERIV_neg_dec_left [of "%x. - f x" x "-l", simplified])
41368
8afa26855137 use DERIV_intros
hoelzl
parents: 37891
diff changeset
   860
  apply (auto simp add: DERIV_minus)
33654
abf780db30ea A number of theorems contributed by Jeremy Avigad
paulson
parents: 31902
diff changeset
   861
  done
abf780db30ea A number of theorems contributed by Jeremy Avigad
paulson
parents: 31902
diff changeset
   862
abf780db30ea A number of theorems contributed by Jeremy Avigad
paulson
parents: 31902
diff changeset
   863
lemma DERIV_neg_dec_right:
abf780db30ea A number of theorems contributed by Jeremy Avigad
paulson
parents: 31902
diff changeset
   864
  fixes f :: "real => real"
abf780db30ea A number of theorems contributed by Jeremy Avigad
paulson
parents: 31902
diff changeset
   865
  shows "DERIV f x :> l \<Longrightarrow> l < 0 \<Longrightarrow> \<exists>d > 0. \<forall>h > 0. h < d --> f(x) > f(x + h)"
abf780db30ea A number of theorems contributed by Jeremy Avigad
paulson
parents: 31902
diff changeset
   866
  apply (rule DERIV_pos_inc_right [of "%x. - f x" x "-l", simplified])
41368
8afa26855137 use DERIV_intros
hoelzl
parents: 37891
diff changeset
   867
  apply (auto simp add: DERIV_minus)
33654
abf780db30ea A number of theorems contributed by Jeremy Avigad
paulson
parents: 31902
diff changeset
   868
  done
abf780db30ea A number of theorems contributed by Jeremy Avigad
paulson
parents: 31902
diff changeset
   869
21164
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   870
lemma DERIV_local_max:
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   871
  fixes f :: "real => real"
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   872
  assumes der: "DERIV f x :> l"
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   873
      and d:   "0 < d"
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   874
      and le:  "\<forall>y. \<bar>x-y\<bar> < d --> f(y) \<le> f(x)"
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   875
  shows "l = 0"
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   876
proof (cases rule: linorder_cases [of l 0])
23441
ee218296d635 avoid using implicit prems in assumption
huffman
parents: 23431
diff changeset
   877
  case equal thus ?thesis .
21164
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   878
next
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   879
  case less
33654
abf780db30ea A number of theorems contributed by Jeremy Avigad
paulson
parents: 31902
diff changeset
   880
  from DERIV_neg_dec_left [OF der less]
21164
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   881
  obtain d' where d': "0 < d'"
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   882
             and lt: "\<forall>h > 0. h < d' \<longrightarrow> f x < f (x-h)" by blast
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   883
  from real_lbound_gt_zero [OF d d']
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   884
  obtain e where "0 < e \<and> e < d \<and> e < d'" ..
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   885
  with lt le [THEN spec [where x="x-e"]]
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   886
  show ?thesis by (auto simp add: abs_if)
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   887
next
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   888
  case greater
33654
abf780db30ea A number of theorems contributed by Jeremy Avigad
paulson
parents: 31902
diff changeset
   889
  from DERIV_pos_inc_right [OF der greater]
21164
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   890
  obtain d' where d': "0 < d'"
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   891
             and lt: "\<forall>h > 0. h < d' \<longrightarrow> f x < f (x + h)" by blast
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   892
  from real_lbound_gt_zero [OF d d']
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   893
  obtain e where "0 < e \<and> e < d \<and> e < d'" ..
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   894
  with lt le [THEN spec [where x="x+e"]]
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   895
  show ?thesis by (auto simp add: abs_if)
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   896
qed
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   897
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   898
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   899
text{*Similar theorem for a local minimum*}
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   900
lemma DERIV_local_min:
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   901
  fixes f :: "real => real"
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   902
  shows "[| DERIV f x :> l; 0 < d; \<forall>y. \<bar>x-y\<bar> < d --> f(x) \<le> f(y) |] ==> l = 0"
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   903
by (drule DERIV_minus [THEN DERIV_local_max], auto)
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   904
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   905
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   906
text{*In particular, if a function is locally flat*}
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   907
lemma DERIV_local_const:
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   908
  fixes f :: "real => real"
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   909
  shows "[| DERIV f x :> l; 0 < d; \<forall>y. \<bar>x-y\<bar> < d --> f(x) = f(y) |] ==> l = 0"
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   910
by (auto dest!: DERIV_local_max)
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   911
29975
28c5322f0df3 more subsection headings
huffman
parents: 29803
diff changeset
   912
28c5322f0df3 more subsection headings
huffman
parents: 29803
diff changeset
   913
subsection {* Rolle's Theorem *}
28c5322f0df3 more subsection headings
huffman
parents: 29803
diff changeset
   914
21164
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   915
text{*Lemma about introducing open ball in open interval*}
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   916
lemma lemma_interval_lt:
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   917
     "[| a < x;  x < b |]
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   918
      ==> \<exists>d::real. 0 < d & (\<forall>y. \<bar>x-y\<bar> < d --> a < y & y < b)"
27668
6eb20b2cecf8 Tuned and simplified proofs
chaieb
parents: 26120
diff changeset
   919
22998
97e1f9c2cc46 avoid using redundant lemmas from RealDef.thy
huffman
parents: 22984
diff changeset
   920
apply (simp add: abs_less_iff)
21164
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   921
apply (insert linorder_linear [of "x-a" "b-x"], safe)
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   922
apply (rule_tac x = "x-a" in exI)
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   923
apply (rule_tac [2] x = "b-x" in exI, auto)
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   924
done
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   925
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   926
lemma lemma_interval: "[| a < x;  x < b |] ==>
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   927
        \<exists>d::real. 0 < d &  (\<forall>y. \<bar>x-y\<bar> < d --> a \<le> y & y \<le> b)"
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   928
apply (drule lemma_interval_lt, auto)
44921
58eef4843641 tuned proofs
huffman
parents: 44890
diff changeset
   929
apply force
21164
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   930
done
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   931
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   932
text{*Rolle's Theorem.
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   933
   If @{term f} is defined and continuous on the closed interval
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   934
   @{text "[a,b]"} and differentiable on the open interval @{text "(a,b)"},
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   935
   and @{term "f(a) = f(b)"},
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   936
   then there exists @{text "x0 \<in> (a,b)"} such that @{term "f'(x0) = 0"}*}
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   937
theorem Rolle:
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   938
  assumes lt: "a < b"
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   939
      and eq: "f(a) = f(b)"
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   940
      and con: "\<forall>x. a \<le> x & x \<le> b --> isCont f x"
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   941
      and dif [rule_format]: "\<forall>x. a < x & x < b --> f differentiable x"
21784
e76faa6e65fd changed (ns)deriv to take functions of type 'a::real_normed_field => 'a
huffman
parents: 21404
diff changeset
   942
  shows "\<exists>z::real. a < z & z < b & DERIV f z :> 0"
21164
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   943
proof -
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   944
  have le: "a \<le> b" using lt by simp
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   945
  from isCont_eq_Ub [OF le con]
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   946
  obtain x where x_max: "\<forall>z. a \<le> z \<and> z \<le> b \<longrightarrow> f z \<le> f x"
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   947
             and alex: "a \<le> x" and xleb: "x \<le> b"
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   948
    by blast
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   949
  from isCont_eq_Lb [OF le con]
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   950
  obtain x' where x'_min: "\<forall>z. a \<le> z \<and> z \<le> b \<longrightarrow> f x' \<le> f z"
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   951
              and alex': "a \<le> x'" and x'leb: "x' \<le> b"
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   952
    by blast
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   953
  show ?thesis
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   954
  proof cases
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   955
    assume axb: "a < x & x < b"
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   956
        --{*@{term f} attains its maximum within the interval*}
27668
6eb20b2cecf8 Tuned and simplified proofs
chaieb
parents: 26120
diff changeset
   957
    hence ax: "a<x" and xb: "x<b" by arith + 
21164
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   958
    from lemma_interval [OF ax xb]
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   959
    obtain d where d: "0<d" and bound: "\<forall>y. \<bar>x-y\<bar> < d \<longrightarrow> a \<le> y \<and> y \<le> b"
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   960
      by blast
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   961
    hence bound': "\<forall>y. \<bar>x-y\<bar> < d \<longrightarrow> f y \<le> f x" using x_max
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   962
      by blast
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   963
    from differentiableD [OF dif [OF axb]]
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   964
    obtain l where der: "DERIV f x :> l" ..
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   965
    have "l=0" by (rule DERIV_local_max [OF der d bound'])
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   966
        --{*the derivative at a local maximum is zero*}
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   967
    thus ?thesis using ax xb der by auto
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   968
  next
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   969
    assume notaxb: "~ (a < x & x < b)"
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   970
    hence xeqab: "x=a | x=b" using alex xleb by arith
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   971
    hence fb_eq_fx: "f b = f x" by (auto simp add: eq)
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   972
    show ?thesis
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   973
    proof cases
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   974
      assume ax'b: "a < x' & x' < b"
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   975
        --{*@{term f} attains its minimum within the interval*}
27668
6eb20b2cecf8 Tuned and simplified proofs
chaieb
parents: 26120
diff changeset
   976
      hence ax': "a<x'" and x'b: "x'<b" by arith+ 
21164
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   977
      from lemma_interval [OF ax' x'b]
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   978
      obtain d where d: "0<d" and bound: "\<forall>y. \<bar>x'-y\<bar> < d \<longrightarrow> a \<le> y \<and> y \<le> b"
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   979
  by blast
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   980
      hence bound': "\<forall>y. \<bar>x'-y\<bar> < d \<longrightarrow> f x' \<le> f y" using x'_min
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   981
  by blast
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   982
      from differentiableD [OF dif [OF ax'b]]
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   983
      obtain l where der: "DERIV f x' :> l" ..
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   984
      have "l=0" by (rule DERIV_local_min [OF der d bound'])
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   985
        --{*the derivative at a local minimum is zero*}
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   986
      thus ?thesis using ax' x'b der by auto
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   987
    next
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   988
      assume notax'b: "~ (a < x' & x' < b)"
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   989
        --{*@{term f} is constant througout the interval*}
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   990
      hence x'eqab: "x'=a | x'=b" using alex' x'leb by arith
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   991
      hence fb_eq_fx': "f b = f x'" by (auto simp add: eq)
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   992
      from dense [OF lt]
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   993
      obtain r where ar: "a < r" and rb: "r < b" by blast
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   994
      from lemma_interval [OF ar rb]
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   995
      obtain d where d: "0<d" and bound: "\<forall>y. \<bar>r-y\<bar> < d \<longrightarrow> a \<le> y \<and> y \<le> b"
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   996
  by blast
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   997
      have eq_fb: "\<forall>z. a \<le> z --> z \<le> b --> f z = f b"
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   998
      proof (clarify)
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
   999
        fix z::real
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
  1000
        assume az: "a \<le> z" and zb: "z \<le> b"
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
  1001
        show "f z = f b"
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
  1002
        proof (rule order_antisym)
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
  1003
          show "f z \<le> f b" by (simp add: fb_eq_fx x_max az zb)
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
  1004
          show "f b \<le> f z" by (simp add: fb_eq_fx' x'_min az zb)
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
  1005
        qed
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
  1006
      qed
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
  1007
      have bound': "\<forall>y. \<bar>r-y\<bar> < d \<longrightarrow> f r = f y"
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
  1008
      proof (intro strip)
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
  1009
        fix y::real
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
  1010
        assume lt: "\<bar>r-y\<bar> < d"
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
  1011
        hence "f y = f b" by (simp add: eq_fb bound)
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
  1012
        thus "f r = f y" by (simp add: eq_fb ar rb order_less_imp_le)
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
  1013
      qed
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
  1014
      from differentiableD [OF dif [OF conjI [OF ar rb]]]
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
  1015
      obtain l where der: "DERIV f r :> l" ..
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
  1016
      have "l=0" by (rule DERIV_local_const [OF der d bound'])
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
  1017
        --{*the derivative of a constant function is zero*}
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
  1018
      thus ?thesis using ar rb der by auto
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
  1019
    qed
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
  1020
  qed
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
  1021
qed
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
  1022
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
  1023
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
  1024
subsection{*Mean Value Theorem*}
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
  1025
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
  1026
lemma lemma_MVT:
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
  1027
     "f a - (f b - f a)/(b-a) * a = f b - (f b - f a)/(b-a) * (b::real)"
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
  1028
proof cases
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
  1029
  assume "a=b" thus ?thesis by simp
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
  1030
next
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
  1031
  assume "a\<noteq>b"
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
  1032
  hence ba: "b-a \<noteq> 0" by arith
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
  1033
  show ?thesis
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
  1034
    by (rule real_mult_left_cancel [OF ba, THEN iffD1],
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
  1035
        simp add: right_diff_distrib,
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
  1036
        simp add: left_diff_distrib)
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
  1037
qed
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
  1038
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
  1039
theorem MVT:
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
  1040
  assumes lt:  "a < b"
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
  1041
      and con: "\<forall>x. a \<le> x & x \<le> b --> isCont f x"
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
  1042
      and dif [rule_format]: "\<forall>x. a < x & x < b --> f differentiable x"
21784
e76faa6e65fd changed (ns)deriv to take functions of type 'a::real_normed_field => 'a
huffman
parents: 21404
diff changeset
  1043
  shows "\<exists>l z::real. a < z & z < b & DERIV f z :> l &
21164
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
  1044
                   (f(b) - f(a) = (b-a) * l)"
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
  1045
proof -
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
  1046
  let ?F = "%x. f x - ((f b - f a) / (b-a)) * x"
44233
aa74ce315bae add simp rules for isCont
huffman
parents: 44209
diff changeset
  1047
  have contF: "\<forall>x. a \<le> x \<and> x \<le> b \<longrightarrow> isCont ?F x"
aa74ce315bae add simp rules for isCont
huffman
parents: 44209
diff changeset
  1048
    using con by (fast intro: isCont_intros)
21164
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
  1049
  have difF: "\<forall>x. a < x \<and> x < b \<longrightarrow> ?F differentiable x"
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
  1050
  proof (clarify)
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
  1051
    fix x::real
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
  1052
    assume ax: "a < x" and xb: "x < b"
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
  1053
    from differentiableD [OF dif [OF conjI [OF ax xb]]]
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
  1054
    obtain l where der: "DERIV f x :> l" ..
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
  1055
    show "?F differentiable x"
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
  1056
      by (rule differentiableI [where D = "l - (f b - f a)/(b-a)"],
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
  1057
          blast intro: DERIV_diff DERIV_cmult_Id der)
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
  1058
  qed
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
  1059
  from Rolle [where f = ?F, OF lt lemma_MVT contF difF]
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
  1060
  obtain z where az: "a < z" and zb: "z < b" and der: "DERIV ?F z :> 0"
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
  1061
    by blast
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
  1062
  have "DERIV (%x. ((f b - f a)/(b-a)) * x) z :> (f b - f a)/(b-a)"
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
  1063
    by (rule DERIV_cmult_Id)
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
  1064
  hence derF: "DERIV (\<lambda>x. ?F x + (f b - f a) / (b - a) * x) z
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
  1065
                   :> 0 + (f b - f a) / (b - a)"
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
  1066
    by (rule DERIV_add [OF der])
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
  1067
  show ?thesis
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
  1068
  proof (intro exI conjI)
23441
ee218296d635 avoid using implicit prems in assumption
huffman
parents: 23431
diff changeset
  1069
    show "a < z" using az .
ee218296d635 avoid using implicit prems in assumption
huffman
parents: 23431
diff changeset
  1070
    show "z < b" using zb .
21164
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
  1071
    show "f b - f a = (b - a) * ((f b - f a)/(b-a))" by (simp)
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
  1072
    show "DERIV f z :> ((f b - f a)/(b-a))"  using derF by simp
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
  1073
  qed
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
  1074
qed
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
  1075
29803
c56a5571f60a Added derivation lemmas for power series and theorems for the pi, arcus tangens and logarithm series
hoelzl
parents: 29667
diff changeset
  1076
lemma MVT2:
c56a5571f60a Added derivation lemmas for power series and theorems for the pi, arcus tangens and logarithm series
hoelzl
parents: 29667
diff changeset
  1077
     "[| a < b; \<forall>x. a \<le> x & x \<le> b --> DERIV f x :> f'(x) |]
c56a5571f60a Added derivation lemmas for power series and theorems for the pi, arcus tangens and logarithm series
hoelzl
parents: 29667
diff changeset
  1078
      ==> \<exists>z::real. a < z & z < b & (f b - f a = (b - a) * f'(z))"
c56a5571f60a Added derivation lemmas for power series and theorems for the pi, arcus tangens and logarithm series
hoelzl
parents: 29667
diff changeset
  1079
apply (drule MVT)
c56a5571f60a Added derivation lemmas for power series and theorems for the pi, arcus tangens and logarithm series
hoelzl
parents: 29667
diff changeset
  1080
apply (blast intro: DERIV_isCont)
c56a5571f60a Added derivation lemmas for power series and theorems for the pi, arcus tangens and logarithm series
hoelzl
parents: 29667
diff changeset
  1081
apply (force dest: order_less_imp_le simp add: differentiable_def)
c56a5571f60a Added derivation lemmas for power series and theorems for the pi, arcus tangens and logarithm series
hoelzl
parents: 29667
diff changeset
  1082
apply (blast dest: DERIV_unique order_less_imp_le)
c56a5571f60a Added derivation lemmas for power series and theorems for the pi, arcus tangens and logarithm series
hoelzl
parents: 29667
diff changeset
  1083
done
c56a5571f60a Added derivation lemmas for power series and theorems for the pi, arcus tangens and logarithm series
hoelzl
parents: 29667
diff changeset
  1084
21164
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
  1085
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
  1086
text{*A function is constant if its derivative is 0 over an interval.*}
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
  1087
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
  1088
lemma DERIV_isconst_end:
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
  1089
  fixes f :: "real => real"
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
  1090
  shows "[| a < b;
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
  1091
         \<forall>x. a \<le> x & x \<le> b --> isCont f x;
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
  1092
         \<forall>x. a < x & x < b --> DERIV f x :> 0 |]
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
  1093
        ==> f b = f a"
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
  1094
apply (drule MVT, assumption)
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
  1095
apply (blast intro: differentiableI)
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
  1096
apply (auto dest!: DERIV_unique simp add: diff_eq_eq)
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
  1097
done
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
  1098
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
  1099
lemma DERIV_isconst1:
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
  1100
  fixes f :: "real => real"
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
  1101
  shows "[| a < b;
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
  1102
         \<forall>x. a \<le> x & x \<le> b --> isCont f x;
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
  1103
         \<forall>x. a < x & x < b --> DERIV f x :> 0 |]
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
  1104
        ==> \<forall>x. a \<le> x & x \<le> b --> f x = f a"
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
  1105
apply safe
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
  1106
apply (drule_tac x = a in order_le_imp_less_or_eq, safe)
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
  1107
apply (drule_tac b = x in DERIV_isconst_end, auto)
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
  1108
done
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
  1109
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
  1110
lemma DERIV_isconst2:
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
  1111
  fixes f :: "real => real"
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
  1112
  shows "[| a < b;
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
  1113
         \<forall>x. a \<le> x & x \<le> b --> isCont f x;
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
  1114
         \<forall>x. a < x & x < b --> DERIV f x :> 0;
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
  1115
         a \<le> x; x \<le> b |]
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
  1116
        ==> f x = f a"
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
  1117
apply (blast dest: DERIV_isconst1)
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
  1118
done
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
  1119
29803
c56a5571f60a Added derivation lemmas for power series and theorems for the pi, arcus tangens and logarithm series
hoelzl
parents: 29667
diff changeset
  1120
lemma DERIV_isconst3: fixes a b x y :: real
c56a5571f60a Added derivation lemmas for power series and theorems for the pi, arcus tangens and logarithm series
hoelzl
parents: 29667
diff changeset
  1121
  assumes "a < b" and "x \<in> {a <..< b}" and "y \<in> {a <..< b}"
c56a5571f60a Added derivation lemmas for power series and theorems for the pi, arcus tangens and logarithm series
hoelzl
parents: 29667
diff changeset
  1122
  assumes derivable: "\<And>x. x \<in> {a <..< b} \<Longrightarrow> DERIV f x :> 0"
c56a5571f60a Added derivation lemmas for power series and theorems for the pi, arcus tangens and logarithm series
hoelzl
parents: 29667
diff changeset
  1123
  shows "f x = f y"
c56a5571f60a Added derivation lemmas for power series and theorems for the pi, arcus tangens and logarithm series
hoelzl
parents: 29667
diff changeset
  1124
proof (cases "x = y")
c56a5571f60a Added derivation lemmas for power series and theorems for the pi, arcus tangens and logarithm series
hoelzl
parents: 29667
diff changeset
  1125
  case False
c56a5571f60a Added derivation lemmas for power series and theorems for the pi, arcus tangens and logarithm series
hoelzl
parents: 29667
diff changeset
  1126
  let ?a = "min x y"
c56a5571f60a Added derivation lemmas for power series and theorems for the pi, arcus tangens and logarithm series
hoelzl
parents: 29667
diff changeset
  1127
  let ?b = "max x y"
c56a5571f60a Added derivation lemmas for power series and theorems for the pi, arcus tangens and logarithm series
hoelzl
parents: 29667
diff changeset
  1128
  
c56a5571f60a Added derivation lemmas for power series and theorems for the pi, arcus tangens and logarithm series
hoelzl
parents: 29667
diff changeset
  1129
  have "\<forall>z. ?a \<le> z \<and> z \<le> ?b \<longrightarrow> DERIV f z :> 0"
c56a5571f60a Added derivation lemmas for power series and theorems for the pi, arcus tangens and logarithm series
hoelzl
parents: 29667
diff changeset
  1130
  proof (rule allI, rule impI)
c56a5571f60a Added derivation lemmas for power series and theorems for the pi, arcus tangens and logarithm series
hoelzl
parents: 29667
diff changeset
  1131
    fix z :: real assume "?a \<le> z \<and> z \<le> ?b"
c56a5571f60a Added derivation lemmas for power series and theorems for the pi, arcus tangens and logarithm series
hoelzl
parents: 29667
diff changeset
  1132
    hence "a < z" and "z < b" using `x \<in> {a <..< b}` and `y \<in> {a <..< b}` by auto
c56a5571f60a Added derivation lemmas for power series and theorems for the pi, arcus tangens and logarithm series
hoelzl
parents: 29667
diff changeset
  1133
    hence "z \<in> {a<..<b}" by auto
c56a5571f60a Added derivation lemmas for power series and theorems for the pi, arcus tangens and logarithm series
hoelzl
parents: 29667
diff changeset
  1134
    thus "DERIV f z :> 0" by (rule derivable)
c56a5571f60a Added derivation lemmas for power series and theorems for the pi, arcus tangens and logarithm series
hoelzl
parents: 29667
diff changeset
  1135
  qed
c56a5571f60a Added derivation lemmas for power series and theorems for the pi, arcus tangens and logarithm series
hoelzl
parents: 29667
diff changeset
  1136
  hence isCont: "\<forall>z. ?a \<le> z \<and> z \<le> ?b \<longrightarrow> isCont f z"
c56a5571f60a Added derivation lemmas for power series and theorems for the pi, arcus tangens and logarithm series
hoelzl
parents: 29667
diff changeset
  1137
    and DERIV: "\<forall>z. ?a < z \<and> z < ?b \<longrightarrow> DERIV f z :> 0" using DERIV_isCont by auto
c56a5571f60a Added derivation lemmas for power series and theorems for the pi, arcus tangens and logarithm series
hoelzl
parents: 29667
diff changeset
  1138
c56a5571f60a Added derivation lemmas for power series and theorems for the pi, arcus tangens and logarithm series
hoelzl
parents: 29667
diff changeset
  1139
  have "?a < ?b" using `x \<noteq> y` by auto
c56a5571f60a Added derivation lemmas for power series and theorems for the pi, arcus tangens and logarithm series
hoelzl
parents: 29667
diff changeset
  1140
  from DERIV_isconst2[OF this isCont DERIV, of x] and DERIV_isconst2[OF this isCont DERIV, of y]
c56a5571f60a Added derivation lemmas for power series and theorems for the pi, arcus tangens and logarithm series
hoelzl
parents: 29667
diff changeset
  1141
  show ?thesis by auto
c56a5571f60a Added derivation lemmas for power series and theorems for the pi, arcus tangens and logarithm series
hoelzl
parents: 29667
diff changeset
  1142
qed auto
c56a5571f60a Added derivation lemmas for power series and theorems for the pi, arcus tangens and logarithm series
hoelzl
parents: 29667
diff changeset
  1143
21164
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
  1144
lemma DERIV_isconst_all:
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
  1145
  fixes f :: "real => real"
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
  1146
  shows "\<forall>x. DERIV f x :> 0 ==> f(x) = f(y)"
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
  1147
apply (rule linorder_cases [of x y])
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
  1148
apply (blast intro: sym DERIV_isCont DERIV_isconst_end)+
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
  1149
done
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
  1150
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
  1151
lemma DERIV_const_ratio_const:
21784
e76faa6e65fd changed (ns)deriv to take functions of type 'a::real_normed_field => 'a
huffman
parents: 21404
diff changeset
  1152
  fixes f :: "real => real"
e76faa6e65fd changed (ns)deriv to take functions of type 'a::real_normed_field => 'a
huffman
parents: 21404
diff changeset
  1153
  shows "[|a \<noteq> b; \<forall>x. DERIV f x :> k |] ==> (f(b) - f(a)) = (b-a) * k"
21164
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
  1154
apply (rule linorder_cases [of a b], auto)
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
  1155
apply (drule_tac [!] f = f in MVT)
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
  1156
apply (auto dest: DERIV_isCont DERIV_unique simp add: differentiable_def)
23477
f4b83f03cac9 tuned and renamed group_eq_simps and ring_eq_simps
nipkow
parents: 23441
diff changeset
  1157
apply (auto dest: DERIV_unique simp add: ring_distribs diff_minus)
21164
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
  1158
done
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
  1159
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
  1160
lemma DERIV_const_ratio_const2:
21784
e76faa6e65fd changed (ns)deriv to take functions of type 'a::real_normed_field => 'a
huffman
parents: 21404
diff changeset
  1161
  fixes f :: "real => real"
e76faa6e65fd changed (ns)deriv to take functions of type 'a::real_normed_field => 'a
huffman
parents: 21404
diff changeset
  1162
  shows "[|a \<noteq> b; \<forall>x. DERIV f x :> k |] ==> (f(b) - f(a))/(b-a) = k"
21164
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
  1163
apply (rule_tac c1 = "b-a" in real_mult_right_cancel [THEN iffD1])
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
  1164
apply (auto dest!: DERIV_const_ratio_const simp add: mult_assoc)
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
  1165
done
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
  1166
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
  1167
lemma real_average_minus_first [simp]: "((a + b) /2 - a) = (b-a)/(2::real)"
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
  1168
by (simp)
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
  1169
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
  1170
lemma real_average_minus_second [simp]: "((b + a)/2 - a) = (b-a)/(2::real)"
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
  1171
by (simp)
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
  1172
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
  1173
text{*Gallileo's "trick": average velocity = av. of end velocities*}
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
  1174
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
  1175
lemma DERIV_const_average:
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
  1176
  fixes v :: "real => real"
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
  1177
  assumes neq: "a \<noteq> (b::real)"
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
  1178
      and der: "\<forall>x. DERIV v x :> k"
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
  1179
  shows "v ((a + b)/2) = (v a + v b)/2"
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
  1180
proof (cases rule: linorder_cases [of a b])
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
  1181
  case equal with neq show ?thesis by simp
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
  1182
next
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
  1183
  case less
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
  1184
  have "(v b - v a) / (b - a) = k"
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
  1185
    by (rule DERIV_const_ratio_const2 [OF neq der])
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
  1186
  hence "(b-a) * ((v b - v a) / (b-a)) = (b-a) * k" by simp
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
  1187
  moreover have "(v ((a + b) / 2) - v a) / ((a + b) / 2 - a) = k"
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
  1188
    by (rule DERIV_const_ratio_const2 [OF _ der], simp add: neq)
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
  1189
  ultimately show ?thesis using neq by force
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
  1190
next
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
  1191
  case greater
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
  1192
  have "(v b - v a) / (b - a) = k"
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
  1193
    by (rule DERIV_const_ratio_const2 [OF neq der])
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
  1194
  hence "(b-a) * ((v b - v a) / (b-a)) = (b-a) * k" by simp
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
  1195
  moreover have " (v ((b + a) / 2) - v a) / ((b + a) / 2 - a) = k"
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
  1196
    by (rule DERIV_const_ratio_const2 [OF _ der], simp add: neq)
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
  1197
  ultimately show ?thesis using neq by (force simp add: add_commute)
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
  1198
qed
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
  1199
33654
abf780db30ea A number of theorems contributed by Jeremy Avigad
paulson
parents: 31902
diff changeset
  1200
(* A function with positive derivative is increasing. 
abf780db30ea A number of theorems contributed by Jeremy Avigad
paulson
parents: 31902
diff changeset
  1201
   A simple proof using the MVT, by Jeremy Avigad. And variants.
abf780db30ea A number of theorems contributed by Jeremy Avigad
paulson
parents: 31902
diff changeset
  1202
*)
abf780db30ea A number of theorems contributed by Jeremy Avigad
paulson
parents: 31902
diff changeset
  1203
lemma DERIV_pos_imp_increasing:
abf780db30ea A number of theorems contributed by Jeremy Avigad
paulson
parents: 31902
diff changeset
  1204
  fixes a::real and b::real and f::"real => real"
abf780db30ea A number of theorems contributed by Jeremy Avigad
paulson
parents: 31902
diff changeset
  1205
  assumes "a < b" and "\<forall>x. a \<le> x & x \<le> b --> (EX y. DERIV f x :> y & y > 0)"
abf780db30ea A number of theorems contributed by Jeremy Avigad
paulson
parents: 31902
diff changeset
  1206
  shows "f a < f b"
abf780db30ea A number of theorems contributed by Jeremy Avigad
paulson
parents: 31902
diff changeset
  1207
proof (rule ccontr)
41550
efa734d9b221 eliminated global prems;
wenzelm
parents: 41368
diff changeset
  1208
  assume f: "~ f a < f b"
33690
889d06128608 simplified bulky metis proofs;
wenzelm
parents: 33659
diff changeset
  1209
  have "EX l z. a < z & z < b & DERIV f z :> l
33654
abf780db30ea A number of theorems contributed by Jeremy Avigad
paulson
parents: 31902
diff changeset
  1210
      & f b - f a = (b - a) * l"
33690
889d06128608 simplified bulky metis proofs;
wenzelm
parents: 33659
diff changeset
  1211
    apply (rule MVT)
889d06128608 simplified bulky metis proofs;
wenzelm
parents: 33659
diff changeset
  1212
      using assms
889d06128608 simplified bulky metis proofs;
wenzelm
parents: 33659
diff changeset
  1213
      apply auto
889d06128608 simplified bulky metis proofs;
wenzelm
parents: 33659
diff changeset
  1214
      apply (metis DERIV_isCont)
36777
be5461582d0f avoid using real-specific versions of generic lemmas
huffman
parents: 35216
diff changeset
  1215
     apply (metis differentiableI less_le)
33690
889d06128608 simplified bulky metis proofs;
wenzelm
parents: 33659
diff changeset
  1216
    done
41550
efa734d9b221 eliminated global prems;
wenzelm
parents: 41368
diff changeset
  1217
  then obtain l z where z: "a < z" "z < b" "DERIV f z :> l"
33654
abf780db30ea A number of theorems contributed by Jeremy Avigad
paulson
parents: 31902
diff changeset
  1218
      and "f b - f a = (b - a) * l"
abf780db30ea A number of theorems contributed by Jeremy Avigad
paulson
parents: 31902
diff changeset
  1219
    by auto
41550
efa734d9b221 eliminated global prems;
wenzelm
parents: 41368
diff changeset
  1220
  with assms f have "~(l > 0)"
36777
be5461582d0f avoid using real-specific versions of generic lemmas
huffman
parents: 35216
diff changeset
  1221
    by (metis linorder_not_le mult_le_0_iff diff_le_0_iff_le)
41550
efa734d9b221 eliminated global prems;
wenzelm
parents: 41368
diff changeset
  1222
  with assms z show False
36777
be5461582d0f avoid using real-specific versions of generic lemmas
huffman
parents: 35216
diff changeset
  1223
    by (metis DERIV_unique less_le)
33654
abf780db30ea A number of theorems contributed by Jeremy Avigad
paulson
parents: 31902
diff changeset
  1224
qed
abf780db30ea A number of theorems contributed by Jeremy Avigad
paulson
parents: 31902
diff changeset
  1225
45791
d985ec974815 more systematic lemma name
noschinl
parents: 45600
diff changeset
  1226
lemma DERIV_nonneg_imp_nondecreasing:
33654
abf780db30ea A number of theorems contributed by Jeremy Avigad
paulson
parents: 31902
diff changeset
  1227
  fixes a::real and b::real and f::"real => real"
abf780db30ea A number of theorems contributed by Jeremy Avigad
paulson
parents: 31902
diff changeset
  1228
  assumes "a \<le> b" and
abf780db30ea A number of theorems contributed by Jeremy Avigad
paulson
parents: 31902
diff changeset
  1229
    "\<forall>x. a \<le> x & x \<le> b --> (\<exists>y. DERIV f x :> y & y \<ge> 0)"
abf780db30ea A number of theorems contributed by Jeremy Avigad
paulson
parents: 31902
diff changeset
  1230
  shows "f a \<le> f b"
abf780db30ea A number of theorems contributed by Jeremy Avigad
paulson
parents: 31902
diff changeset
  1231
proof (rule ccontr, cases "a = b")
41550
efa734d9b221 eliminated global prems;
wenzelm
parents: 41368
diff changeset
  1232
  assume "~ f a \<le> f b" and "a = b"
efa734d9b221 eliminated global prems;
wenzelm
parents: 41368
diff changeset
  1233
  then show False by auto
37891
c26f9d06e82c robustified metis proof
haftmann
parents: 37888
diff changeset
  1234
next
c26f9d06e82c robustified metis proof
haftmann
parents: 37888
diff changeset
  1235
  assume A: "~ f a \<le> f b"
c26f9d06e82c robustified metis proof
haftmann
parents: 37888
diff changeset
  1236
  assume B: "a ~= b"
33654
abf780db30ea A number of theorems contributed by Jeremy Avigad
paulson
parents: 31902
diff changeset
  1237
  with assms have "EX l z. a < z & z < b & DERIV f z :> l
abf780db30ea A number of theorems contributed by Jeremy Avigad
paulson
parents: 31902
diff changeset
  1238
      & f b - f a = (b - a) * l"
33690
889d06128608 simplified bulky metis proofs;
wenzelm
parents: 33659
diff changeset
  1239
    apply -
889d06128608 simplified bulky metis proofs;
wenzelm
parents: 33659
diff changeset
  1240
    apply (rule MVT)
889d06128608 simplified bulky metis proofs;
wenzelm
parents: 33659
diff changeset
  1241
      apply auto
889d06128608 simplified bulky metis proofs;
wenzelm
parents: 33659
diff changeset
  1242
      apply (metis DERIV_isCont)
36777
be5461582d0f avoid using real-specific versions of generic lemmas
huffman
parents: 35216
diff changeset
  1243
     apply (metis differentiableI less_le)
33654
abf780db30ea A number of theorems contributed by Jeremy Avigad
paulson
parents: 31902
diff changeset
  1244
    done
41550
efa734d9b221 eliminated global prems;
wenzelm
parents: 41368
diff changeset
  1245
  then obtain l z where z: "a < z" "z < b" "DERIV f z :> l"
37891
c26f9d06e82c robustified metis proof
haftmann
parents: 37888
diff changeset
  1246
      and C: "f b - f a = (b - a) * l"
33654
abf780db30ea A number of theorems contributed by Jeremy Avigad
paulson
parents: 31902
diff changeset
  1247
    by auto
37891
c26f9d06e82c robustified metis proof
haftmann
parents: 37888
diff changeset
  1248
  with A have "a < b" "f b < f a" by auto
c26f9d06e82c robustified metis proof
haftmann
parents: 37888
diff changeset
  1249
  with C have "\<not> l \<ge> 0" by (auto simp add: not_le algebra_simps)
45051
c478d1876371 discontinued legacy theorem names from RealDef.thy
huffman
parents: 44921
diff changeset
  1250
    (metis A add_le_cancel_right assms(1) less_eq_real_def mult_right_mono add_left_mono linear order_refl)
41550
efa734d9b221 eliminated global prems;
wenzelm
parents: 41368
diff changeset
  1251
  with assms z show False
33654
abf780db30ea A number of theorems contributed by Jeremy Avigad
paulson
parents: 31902
diff changeset
  1252
    by (metis DERIV_unique order_less_imp_le)
abf780db30ea A number of theorems contributed by Jeremy Avigad
paulson
parents: 31902
diff changeset
  1253
qed
abf780db30ea A number of theorems contributed by Jeremy Avigad
paulson
parents: 31902
diff changeset
  1254
abf780db30ea A number of theorems contributed by Jeremy Avigad
paulson
parents: 31902
diff changeset
  1255
lemma DERIV_neg_imp_decreasing:
abf780db30ea A number of theorems contributed by Jeremy Avigad
paulson
parents: 31902
diff changeset
  1256
  fixes a::real and b::real and f::"real => real"
abf780db30ea A number of theorems contributed by Jeremy Avigad
paulson
parents: 31902
diff changeset
  1257
  assumes "a < b" and
abf780db30ea A number of theorems contributed by Jeremy Avigad
paulson
parents: 31902
diff changeset
  1258
    "\<forall>x. a \<le> x & x \<le> b --> (\<exists>y. DERIV f x :> y & y < 0)"
abf780db30ea A number of theorems contributed by Jeremy Avigad
paulson
parents: 31902
diff changeset
  1259
  shows "f a > f b"
abf780db30ea A number of theorems contributed by Jeremy Avigad
paulson
parents: 31902
diff changeset
  1260
proof -
abf780db30ea A number of theorems contributed by Jeremy Avigad
paulson
parents: 31902
diff changeset
  1261
  have "(%x. -f x) a < (%x. -f x) b"
abf780db30ea A number of theorems contributed by Jeremy Avigad
paulson
parents: 31902
diff changeset
  1262
    apply (rule DERIV_pos_imp_increasing [of a b "%x. -f x"])
33690
889d06128608 simplified bulky metis proofs;
wenzelm
parents: 33659
diff changeset
  1263
    using assms
889d06128608 simplified bulky metis proofs;
wenzelm
parents: 33659
diff changeset
  1264
    apply auto
33654
abf780db30ea A number of theorems contributed by Jeremy Avigad
paulson
parents: 31902
diff changeset
  1265
    apply (metis DERIV_minus neg_0_less_iff_less)
abf780db30ea A number of theorems contributed by Jeremy Avigad
paulson
parents: 31902
diff changeset
  1266
    done
abf780db30ea A number of theorems contributed by Jeremy Avigad
paulson
parents: 31902
diff changeset
  1267
  thus ?thesis
abf780db30ea A number of theorems contributed by Jeremy Avigad
paulson
parents: 31902
diff changeset
  1268
    by simp
abf780db30ea A number of theorems contributed by Jeremy Avigad
paulson
parents: 31902
diff changeset
  1269
qed
abf780db30ea A number of theorems contributed by Jeremy Avigad
paulson
parents: 31902
diff changeset
  1270
abf780db30ea A number of theorems contributed by Jeremy Avigad
paulson
parents: 31902
diff changeset
  1271
lemma DERIV_nonpos_imp_nonincreasing:
abf780db30ea A number of theorems contributed by Jeremy Avigad
paulson
parents: 31902
diff changeset
  1272
  fixes a::real and b::real and f::"real => real"
abf780db30ea A number of theorems contributed by Jeremy Avigad
paulson
parents: 31902
diff changeset
  1273
  assumes "a \<le> b" and
abf780db30ea A number of theorems contributed by Jeremy Avigad
paulson
parents: 31902
diff changeset
  1274
    "\<forall>x. a \<le> x & x \<le> b --> (\<exists>y. DERIV f x :> y & y \<le> 0)"
abf780db30ea A number of theorems contributed by Jeremy Avigad
paulson
parents: 31902
diff changeset
  1275
  shows "f a \<ge> f b"
abf780db30ea A number of theorems contributed by Jeremy Avigad
paulson
parents: 31902
diff changeset
  1276
proof -
abf780db30ea A number of theorems contributed by Jeremy Avigad
paulson
parents: 31902
diff changeset
  1277
  have "(%x. -f x) a \<le> (%x. -f x) b"
45791
d985ec974815 more systematic lemma name
noschinl
parents: 45600
diff changeset
  1278
    apply (rule DERIV_nonneg_imp_nondecreasing [of a b "%x. -f x"])
33690
889d06128608 simplified bulky metis proofs;
wenzelm
parents: 33659
diff changeset
  1279
    using assms
889d06128608 simplified bulky metis proofs;
wenzelm
parents: 33659
diff changeset
  1280
    apply auto
33654
abf780db30ea A number of theorems contributed by Jeremy Avigad
paulson
parents: 31902
diff changeset
  1281
    apply (metis DERIV_minus neg_0_le_iff_le)
abf780db30ea A number of theorems contributed by Jeremy Avigad
paulson
parents: 31902
diff changeset
  1282
    done
abf780db30ea A number of theorems contributed by Jeremy Avigad
paulson
parents: 31902
diff changeset
  1283
  thus ?thesis
abf780db30ea A number of theorems contributed by Jeremy Avigad
paulson
parents: 31902
diff changeset
  1284
    by simp
abf780db30ea A number of theorems contributed by Jeremy Avigad
paulson
parents: 31902
diff changeset
  1285
qed
21164
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
  1286
29975
28c5322f0df3 more subsection headings
huffman
parents: 29803
diff changeset
  1287
subsection {* Continuous injective functions *}
28c5322f0df3 more subsection headings
huffman
parents: 29803
diff changeset
  1288
21164
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
  1289
text{*Dull lemma: an continuous injection on an interval must have a
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
  1290
strict maximum at an end point, not in the middle.*}
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
  1291
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
  1292
lemma lemma_isCont_inj:
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
  1293
  fixes f :: "real \<Rightarrow> real"
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
  1294
  assumes d: "0 < d"
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
  1295
      and inj [rule_format]: "\<forall>z. \<bar>z-x\<bar> \<le> d --> g(f z) = z"
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
  1296
      and cont: "\<forall>z. \<bar>z-x\<bar> \<le> d --> isCont f z"
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
  1297
  shows "\<exists>z. \<bar>z-x\<bar> \<le> d & f x < f z"
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
  1298
proof (rule ccontr)
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
  1299
  assume  "~ (\<exists>z. \<bar>z-x\<bar> \<le> d & f x < f z)"
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
  1300
  hence all [rule_format]: "\<forall>z. \<bar>z - x\<bar> \<le> d --> f z \<le> f x" by auto
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
  1301
  show False
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
  1302
  proof (cases rule: linorder_le_cases [of "f(x-d)" "f(x+d)"])
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
  1303
    case le
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
  1304
    from d cont all [of "x+d"]
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
  1305
    have flef: "f(x+d) \<le> f x"
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
  1306
     and xlex: "x - d \<le> x"
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
  1307
     and cont': "\<forall>z. x - d \<le> z \<and> z \<le> x \<longrightarrow> isCont f z"
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
  1308
       by (auto simp add: abs_if)
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
  1309
    from IVT [OF le flef xlex cont']
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
  1310
    obtain x' where "x-d \<le> x'" "x' \<le> x" "f x' = f(x+d)" by blast
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
  1311
    moreover
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
  1312
    hence "g(f x') = g (f(x+d))" by simp
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
  1313
    ultimately show False using d inj [of x'] inj [of "x+d"]
22998
97e1f9c2cc46 avoid using redundant lemmas from RealDef.thy
huffman
parents: 22984
diff changeset
  1314
      by (simp add: abs_le_iff)
21164
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
  1315
  next
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
  1316
    case ge
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
  1317
    from d cont all [of "x-d"]
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
  1318
    have flef: "f(x-d) \<le> f x"
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
  1319
     and xlex: "x \<le> x+d"
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
  1320
     and cont': "\<forall>z. x \<le> z \<and> z \<le> x+d \<longrightarrow> isCont f z"
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
  1321
       by (auto simp add: abs_if)
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
  1322
    from IVT2 [OF ge flef xlex cont']
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
  1323
    obtain x' where "x \<le> x'" "x' \<le> x+d" "f x' = f(x-d)" by blast
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
  1324
    moreover
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
  1325
    hence "g(f x') = g (f(x-d))" by simp
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
  1326
    ultimately show False using d inj [of x'] inj [of "x-d"]
22998
97e1f9c2cc46 avoid using redundant lemmas from RealDef.thy
huffman
parents: 22984
diff changeset
  1327
      by (simp add: abs_le_iff)
21164
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
  1328
  qed
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
  1329
qed
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
  1330
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
  1331
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
  1332
text{*Similar version for lower bound.*}
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
  1333
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
  1334
lemma lemma_isCont_inj2:
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
  1335
  fixes f g :: "real \<Rightarrow> real"
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
  1336
  shows "[|0 < d; \<forall>z. \<bar>z-x\<bar> \<le> d --> g(f z) = z;
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
  1337
        \<forall>z. \<bar>z-x\<bar> \<le> d --> isCont f z |]
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
  1338
      ==> \<exists>z. \<bar>z-x\<bar> \<le> d & f z < f x"
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
  1339
apply (insert lemma_isCont_inj
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
  1340
          [where f = "%x. - f x" and g = "%y. g(-y)" and x = x and d = d])
44233
aa74ce315bae add simp rules for isCont
huffman
parents: 44209
diff changeset
  1341
apply (simp add: linorder_not_le)
21164
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
  1342
done
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
  1343
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
  1344
text{*Show there's an interval surrounding @{term "f(x)"} in
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
  1345
@{text "f[[x - d, x + d]]"} .*}
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
  1346
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
  1347
lemma isCont_inj_range:
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
  1348
  fixes f :: "real \<Rightarrow> real"
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
  1349
  assumes d: "0 < d"
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
  1350
      and inj: "\<forall>z. \<bar>z-x\<bar> \<le> d --> g(f z) = z"
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
  1351
      and cont: "\<forall>z. \<bar>z-x\<bar> \<le> d --> isCont f z"
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
  1352
  shows "\<exists>e>0. \<forall>y. \<bar>y - f x\<bar> \<le> e --> (\<exists>z. \<bar>z-x\<bar> \<le> d & f z = y)"
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
  1353
proof -
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
  1354
  have "x-d \<le> x+d" "\<forall>z. x-d \<le> z \<and> z \<le> x+d \<longrightarrow> isCont f z" using cont d
22998
97e1f9c2cc46 avoid using redundant lemmas from RealDef.thy
huffman
parents: 22984
diff changeset
  1355
    by (auto simp add: abs_le_iff)
21164
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
  1356
  from isCont_Lb_Ub [OF this]
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
  1357
  obtain L M
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
  1358
  where all1 [rule_format]: "\<forall>z. x-d \<le> z \<and> z \<le> x+d \<longrightarrow> L \<le> f z \<and> f z \<le> M"
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
  1359
    and all2 [rule_format]:
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
  1360
           "\<forall>y. L \<le> y \<and> y \<le> M \<longrightarrow> (\<exists>z. x-d \<le> z \<and> z \<le> x+d \<and> f z = y)"
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
  1361
    by auto
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
  1362
  with d have "L \<le> f x & f x \<le> M" by simp
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
  1363
  moreover have "L \<noteq> f x"
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
  1364
  proof -
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
  1365
    from lemma_isCont_inj2 [OF d inj cont]
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
  1366
    obtain u where "\<bar>u - x\<bar> \<le> d" "f u < f x"  by auto
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
  1367
    thus ?thesis using all1 [of u] by arith
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
  1368
  qed
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
  1369
  moreover have "f x \<noteq> M"
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
  1370
  proof -
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
  1371
    from lemma_isCont_inj [OF d inj cont]
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
  1372
    obtain u where "\<bar>u - x\<bar> \<le> d" "f x < f u"  by auto
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
  1373
    thus ?thesis using all1 [of u] by arith
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
  1374
  qed
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
  1375
  ultimately have "L < f x & f x < M" by arith
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
  1376
  hence "0 < f x - L" "0 < M - f x" by arith+
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
  1377
  from real_lbound_gt_zero [OF this]
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
  1378
  obtain e where e: "0 < e" "e < f x - L" "e < M - f x" by auto
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
  1379
  thus ?thesis
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
  1380
  proof (intro exI conjI)
23441
ee218296d635 avoid using implicit prems in assumption
huffman
parents: 23431
diff changeset
  1381
    show "0<e" using e(1) .
21164
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
  1382
    show "\<forall>y. \<bar>y - f x\<bar> \<le> e \<longrightarrow> (\<exists>z. \<bar>z - x\<bar> \<le> d \<and> f z = y)"
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
  1383
    proof (intro strip)
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
  1384
      fix y::real
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
  1385
      assume "\<bar>y - f x\<bar> \<le> e"
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
  1386
      with e have "L \<le> y \<and> y \<le> M" by arith
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
  1387
      from all2 [OF this]
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
  1388
      obtain z where "x - d \<le> z" "z \<le> x + d" "f z = y" by blast
27668
6eb20b2cecf8 Tuned and simplified proofs
chaieb
parents: 26120
diff changeset
  1389
      thus "\<exists>z. \<bar>z - x\<bar> \<le> d \<and> f z = y" 
22998
97e1f9c2cc46 avoid using redundant lemmas from RealDef.thy
huffman
parents: 22984
diff changeset
  1390
        by (force simp add: abs_le_iff)
21164
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
  1391
    qed
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
  1392
  qed
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
  1393
qed
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
  1394
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
  1395
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
  1396
text{*Continuity of inverse function*}
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
  1397
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
  1398
lemma isCont_inverse_function:
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
  1399
  fixes f g :: "real \<Rightarrow> real"
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
  1400
  assumes d: "0 < d"
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
  1401
      and inj: "\<forall>z. \<bar>z-x\<bar> \<le> d --> g(f z) = z"
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
  1402
      and cont: "\<forall>z. \<bar>z-x\<bar> \<le> d --> isCont f z"
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
  1403
  shows "isCont g (f x)"
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
  1404
proof (simp add: isCont_iff LIM_eq)
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
  1405
  show "\<forall>r. 0 < r \<longrightarrow>
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
  1406
         (\<exists>s>0. \<forall>z. z\<noteq>0 \<and> \<bar>z\<bar> < s \<longrightarrow> \<bar>g(f x + z) - g(f x)\<bar> < r)"
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
  1407
  proof (intro strip)
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
  1408
    fix r::real
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
  1409
    assume r: "0<r"
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
  1410
    from real_lbound_gt_zero [OF r d]
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
  1411
    obtain e where e: "0 < e" and e_lt: "e < r \<and> e < d" by blast
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
  1412
    with inj cont
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
  1413
    have e_simps: "\<forall>z. \<bar>z-x\<bar> \<le> e --> g (f z) = z"
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
  1414
                  "\<forall>z. \<bar>z-x\<bar> \<le> e --> isCont f z"   by auto
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
  1415
    from isCont_inj_range [OF e this]
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
  1416
    obtain e' where e': "0 < e'"
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
  1417
        and all: "\<forall>y. \<bar>y - f x\<bar> \<le> e' \<longrightarrow> (\<exists>z. \<bar>z - x\<bar> \<le> e \<and> f z = y)"
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
  1418
          by blast
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
  1419
    show "\<exists>s>0. \<forall>z. z\<noteq>0 \<and> \<bar>z\<bar> < s \<longrightarrow> \<bar>g(f x + z) - g(f x)\<bar> < r"
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
  1420
    proof (intro exI conjI)
23441
ee218296d635 avoid using implicit prems in assumption
huffman
parents: 23431
diff changeset
  1421
      show "0<e'" using e' .
21164
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
  1422
      show "\<forall>z. z \<noteq> 0 \<and> \<bar>z\<bar> < e' \<longrightarrow> \<bar>g (f x + z) - g (f x)\<bar> < r"
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
  1423
      proof (intro strip)
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
  1424
        fix z::real
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
  1425
        assume z: "z \<noteq> 0 \<and> \<bar>z\<bar> < e'"
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
  1426
        with e e_lt e_simps all [rule_format, of "f x + z"]
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
  1427
        show "\<bar>g (f x + z) - g (f x)\<bar> < r" by force
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
  1428
      qed
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
  1429
    qed
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
  1430
  qed
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
  1431
qed
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
  1432
23041
a0f26d47369b add lemma DERIV_inverse_function
huffman
parents: 22998
diff changeset
  1433
text {* Derivative of inverse function *}
a0f26d47369b add lemma DERIV_inverse_function
huffman
parents: 22998
diff changeset
  1434
a0f26d47369b add lemma DERIV_inverse_function
huffman
parents: 22998
diff changeset
  1435
lemma DERIV_inverse_function:
a0f26d47369b add lemma DERIV_inverse_function
huffman
parents: 22998
diff changeset
  1436
  fixes f g :: "real \<Rightarrow> real"
a0f26d47369b add lemma DERIV_inverse_function
huffman
parents: 22998
diff changeset
  1437
  assumes der: "DERIV f (g x) :> D"
a0f26d47369b add lemma DERIV_inverse_function
huffman
parents: 22998
diff changeset
  1438
  assumes neq: "D \<noteq> 0"
23044
2ad82c359175 change premises of DERIV_inverse_function lemma
huffman
parents: 23041
diff changeset
  1439
  assumes a: "a < x" and b: "x < b"
2ad82c359175 change premises of DERIV_inverse_function lemma
huffman
parents: 23041
diff changeset
  1440
  assumes inj: "\<forall>y. a < y \<and> y < b \<longrightarrow> f (g y) = y"
23041
a0f26d47369b add lemma DERIV_inverse_function
huffman
parents: 22998
diff changeset
  1441
  assumes cont: "isCont g x"
a0f26d47369b add lemma DERIV_inverse_function
huffman
parents: 22998
diff changeset
  1442
  shows "DERIV g x :> inverse D"
a0f26d47369b add lemma DERIV_inverse_function
huffman
parents: 22998
diff changeset
  1443
unfolding DERIV_iff2
23044
2ad82c359175 change premises of DERIV_inverse_function lemma
huffman
parents: 23041
diff changeset
  1444
proof (rule LIM_equal2)
2ad82c359175 change premises of DERIV_inverse_function lemma
huffman
parents: 23041
diff changeset
  1445
  show "0 < min (x - a) (b - x)"
27668
6eb20b2cecf8 Tuned and simplified proofs
chaieb
parents: 26120
diff changeset
  1446
    using a b by arith 
23044
2ad82c359175 change premises of DERIV_inverse_function lemma
huffman
parents: 23041
diff changeset
  1447
next
23041
a0f26d47369b add lemma DERIV_inverse_function
huffman
parents: 22998
diff changeset
  1448
  fix y
23044
2ad82c359175 change premises of DERIV_inverse_function lemma
huffman
parents: 23041
diff changeset
  1449
  assume "norm (y - x) < min (x - a) (b - x)"
27668
6eb20b2cecf8 Tuned and simplified proofs
chaieb
parents: 26120
diff changeset
  1450
  hence "a < y" and "y < b" 
23044
2ad82c359175 change premises of DERIV_inverse_function lemma
huffman
parents: 23041
diff changeset
  1451
    by (simp_all add: abs_less_iff)
23041
a0f26d47369b add lemma DERIV_inverse_function
huffman
parents: 22998
diff changeset
  1452
  thus "(g y - g x) / (y - x) =
a0f26d47369b add lemma DERIV_inverse_function
huffman
parents: 22998
diff changeset
  1453
        inverse ((f (g y) - x) / (g y - g x))"
a0f26d47369b add lemma DERIV_inverse_function
huffman
parents: 22998
diff changeset
  1454
    by (simp add: inj)
a0f26d47369b add lemma DERIV_inverse_function
huffman
parents: 22998
diff changeset
  1455
next
a0f26d47369b add lemma DERIV_inverse_function
huffman
parents: 22998
diff changeset
  1456
  have "(\<lambda>z. (f z - f (g x)) / (z - g x)) -- g x --> D"
a0f26d47369b add lemma DERIV_inverse_function
huffman
parents: 22998
diff changeset
  1457
    by (rule der [unfolded DERIV_iff2])
a0f26d47369b add lemma DERIV_inverse_function
huffman
parents: 22998
diff changeset
  1458
  hence 1: "(\<lambda>z. (f z - x) / (z - g x)) -- g x --> D"
23044
2ad82c359175 change premises of DERIV_inverse_function lemma
huffman
parents: 23041
diff changeset
  1459
    using inj a b by simp
23041
a0f26d47369b add lemma DERIV_inverse_function
huffman
parents: 22998
diff changeset
  1460
  have 2: "\<exists>d>0. \<forall>y. y \<noteq> x \<and> norm (y - x) < d \<longrightarrow> g y \<noteq> g x"
a0f26d47369b add lemma DERIV_inverse_function
huffman
parents: 22998
diff changeset
  1461
  proof (safe intro!: exI)
23044
2ad82c359175 change premises of DERIV_inverse_function lemma
huffman
parents: 23041
diff changeset
  1462
    show "0 < min (x - a) (b - x)"
2ad82c359175 change premises of DERIV_inverse_function lemma
huffman
parents: 23041
diff changeset
  1463
      using a b by simp
23041
a0f26d47369b add lemma DERIV_inverse_function
huffman
parents: 22998
diff changeset
  1464
  next
a0f26d47369b add lemma DERIV_inverse_function
huffman
parents: 22998
diff changeset
  1465
    fix y
23044
2ad82c359175 change premises of DERIV_inverse_function lemma
huffman
parents: 23041
diff changeset
  1466
    assume "norm (y - x) < min (x - a) (b - x)"
2ad82c359175 change premises of DERIV_inverse_function lemma
huffman
parents: 23041
diff changeset
  1467
    hence y: "a < y" "y < b"
2ad82c359175 change premises of DERIV_inverse_function lemma
huffman
parents: 23041
diff changeset
  1468
      by (simp_all add: abs_less_iff)
23041
a0f26d47369b add lemma DERIV_inverse_function
huffman
parents: 22998
diff changeset
  1469
    assume "g y = g x"
a0f26d47369b add lemma DERIV_inverse_function
huffman
parents: 22998
diff changeset
  1470
    hence "f (g y) = f (g x)" by simp
23044
2ad82c359175 change premises of DERIV_inverse_function lemma
huffman
parents: 23041
diff changeset
  1471
    hence "y = x" using inj y a b by simp
23041
a0f26d47369b add lemma DERIV_inverse_function
huffman
parents: 22998
diff changeset
  1472
    also assume "y \<noteq> x"
a0f26d47369b add lemma DERIV_inverse_function
huffman
parents: 22998
diff changeset
  1473
    finally show False by simp
a0f26d47369b add lemma DERIV_inverse_function
huffman
parents: 22998
diff changeset
  1474
  qed
a0f26d47369b add lemma DERIV_inverse_function
huffman
parents: 22998
diff changeset
  1475
  have "(\<lambda>y. (f (g y) - x) / (g y - g x)) -- x --> D"
a0f26d47369b add lemma DERIV_inverse_function
huffman
parents: 22998
diff changeset
  1476
    using cont 1 2 by (rule isCont_LIM_compose2)
a0f26d47369b add lemma DERIV_inverse_function
huffman
parents: 22998
diff changeset
  1477
  thus "(\<lambda>y. inverse ((f (g y) - x) / (g y - g x)))
a0f26d47369b add lemma DERIV_inverse_function
huffman
parents: 22998
diff changeset
  1478
        -- x --> inverse D"
44568
e6f291cb5810 discontinue many legacy theorems about LIM and LIMSEQ, in favor of tendsto theorems
huffman
parents: 44317
diff changeset
  1479
    using neq by (rule tendsto_inverse)
23041
a0f26d47369b add lemma DERIV_inverse_function
huffman
parents: 22998
diff changeset
  1480
qed
a0f26d47369b add lemma DERIV_inverse_function
huffman
parents: 22998
diff changeset
  1481
29975
28c5322f0df3 more subsection headings
huffman
parents: 29803
diff changeset
  1482
28c5322f0df3 more subsection headings
huffman
parents: 29803
diff changeset
  1483
subsection {* Generalized Mean Value Theorem *}
28c5322f0df3 more subsection headings
huffman
parents: 29803
diff changeset
  1484
21164
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
  1485
theorem GMVT:
21784
e76faa6e65fd changed (ns)deriv to take functions of type 'a::real_normed_field => 'a
huffman
parents: 21404
diff changeset
  1486
  fixes a b :: real
21164
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
  1487
  assumes alb: "a < b"
41550
efa734d9b221 eliminated global prems;
wenzelm
parents: 41368
diff changeset
  1488
    and fc: "\<forall>x. a \<le> x \<and> x \<le> b \<longrightarrow> isCont f x"
efa734d9b221 eliminated global prems;
wenzelm
parents: 41368
diff changeset
  1489
    and fd: "\<forall>x. a < x \<and> x < b \<longrightarrow> f differentiable x"
efa734d9b221 eliminated global prems;
wenzelm
parents: 41368
diff changeset
  1490
    and gc: "\<forall>x. a \<le> x \<and> x \<le> b \<longrightarrow> isCont g x"
efa734d9b221 eliminated global prems;
wenzelm
parents: 41368
diff changeset
  1491
    and gd: "\<forall>x. a < x \<and> x < b \<longrightarrow> g differentiable x"
21164
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
  1492
  shows "\<exists>g'c f'c c. DERIV g c :> g'c \<and> DERIV f c :> f'c \<and> a < c \<and> c < b \<and> ((f b - f a) * g'c) = ((g b - g a) * f'c)"
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
  1493
proof -
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
  1494
  let ?h = "\<lambda>x. (f b - f a)*(g x) - (g b - g a)*(f x)"
41550
efa734d9b221 eliminated global prems;
wenzelm
parents: 41368
diff changeset
  1495
  from assms have "a < b" by simp
21164
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
  1496
  moreover have "\<forall>x. a \<le> x \<and> x \<le> b \<longrightarrow> isCont ?h x"
44233
aa74ce315bae add simp rules for isCont
huffman
parents: 44209
diff changeset
  1497
    using fc gc by simp
aa74ce315bae add simp rules for isCont
huffman
parents: 44209
diff changeset
  1498
  moreover have "\<forall>x. a < x \<and> x < b \<longrightarrow> ?h differentiable x"
aa74ce315bae add simp rules for isCont
huffman
parents: 44209
diff changeset
  1499
    using fd gd by simp
21164
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
  1500
  ultimately have "\<exists>l z. a < z \<and> z < b \<and> DERIV ?h z :> l \<and> ?h b - ?h a = (b - a) * l" by (rule MVT)
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
  1501
  then obtain l where ldef: "\<exists>z. a < z \<and> z < b \<and> DERIV ?h z :> l \<and> ?h b - ?h a = (b - a) * l" ..
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
  1502
  then obtain c where cdef: "a < c \<and> c < b \<and> DERIV ?h c :> l \<and> ?h b - ?h a = (b - a) * l" ..
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
  1503
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
  1504
  from cdef have cint: "a < c \<and> c < b" by auto
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
  1505
  with gd have "g differentiable c" by simp
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
  1506
  hence "\<exists>D. DERIV g c :> D" by (rule differentiableD)
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
  1507
  then obtain g'c where g'cdef: "DERIV g c :> g'c" ..
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
  1508
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
  1509
  from cdef have "a < c \<and> c < b" by auto
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
  1510
  with fd have "f differentiable c" by simp
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
  1511
  hence "\<exists>D. DERIV f c :> D" by (rule differentiableD)
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
  1512
  then obtain f'c where f'cdef: "DERIV f c :> f'c" ..
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
  1513
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
  1514
  from cdef have "DERIV ?h c :> l" by auto
41368
8afa26855137 use DERIV_intros
hoelzl
parents: 37891
diff changeset
  1515
  moreover have "DERIV ?h c :>  g'c * (f b - f a) - f'c * (g b - g a)"
8afa26855137 use DERIV_intros
hoelzl
parents: 37891
diff changeset
  1516
    using g'cdef f'cdef by (auto intro!: DERIV_intros)
21164
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
  1517
  ultimately have leq: "l =  g'c * (f b - f a) - f'c * (g b - g a)" by (rule DERIV_unique)
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
  1518
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
  1519
  {
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
  1520
    from cdef have "?h b - ?h a = (b - a) * l" by auto
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
  1521
    also with leq have "\<dots> = (b - a) * (g'c * (f b - f a) - f'c * (g b - g a))" by simp
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
  1522
    finally have "?h b - ?h a = (b - a) * (g'c * (f b - f a) - f'c * (g b - g a))" by simp
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
  1523
  }
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
  1524
  moreover
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
  1525
  {
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
  1526
    have "?h b - ?h a =
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
  1527
         ((f b)*(g b) - (f a)*(g b) - (g b)*(f b) + (g a)*(f b)) -
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
  1528
          ((f b)*(g a) - (f a)*(g a) - (g b)*(f a) + (g a)*(f a))"
29667
53103fc8ffa3 Replaced group_ and ring_simps by algebra_simps;
nipkow
parents: 29472
diff changeset
  1529
      by (simp add: algebra_simps)
21164
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
  1530
    hence "?h b - ?h a = 0" by auto
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
  1531
  }
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
  1532
  ultimately have "(b - a) * (g'c * (f b - f a) - f'c * (g b - g a)) = 0" by auto
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
  1533
  with alb have "g'c * (f b - f a) - f'c * (g b - g a) = 0" by simp
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
  1534
  hence "g'c * (f b - f a) = f'c * (g b - g a)" by simp
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
  1535
  hence "(f b - f a) * g'c = (g b - g a) * f'c" by (simp add: mult_ac)
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
  1536
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
  1537
  with g'cdef f'cdef cint show ?thesis by auto
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
  1538
qed
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
  1539
29470
1851088a1f87 convert Deriv.thy to use new Polynomial library (incomplete)
huffman
parents: 29169
diff changeset
  1540
29166
c23b2d108612 move theorems about limits from Transcendental.thy to Deriv.thy
huffman
parents: 28952
diff changeset
  1541
subsection {* Theorems about Limits *}
c23b2d108612 move theorems about limits from Transcendental.thy to Deriv.thy
huffman
parents: 28952
diff changeset
  1542
c23b2d108612 move theorems about limits from Transcendental.thy to Deriv.thy
huffman
parents: 28952
diff changeset
  1543
(* need to rename second isCont_inverse *)
c23b2d108612 move theorems about limits from Transcendental.thy to Deriv.thy
huffman
parents: 28952
diff changeset
  1544
c23b2d108612 move theorems about limits from Transcendental.thy to Deriv.thy
huffman
parents: 28952
diff changeset
  1545
lemma isCont_inv_fun:
c23b2d108612 move theorems about limits from Transcendental.thy to Deriv.thy
huffman
parents: 28952
diff changeset
  1546
  fixes f g :: "real \<Rightarrow> real"
c23b2d108612 move theorems about limits from Transcendental.thy to Deriv.thy
huffman
parents: 28952
diff changeset
  1547
  shows "[| 0 < d; \<forall>z. \<bar>z - x\<bar> \<le> d --> g(f(z)) = z;  
c23b2d108612 move theorems about limits from Transcendental.thy to Deriv.thy
huffman
parents: 28952
diff changeset
  1548
         \<forall>z. \<bar>z - x\<bar> \<le> d --> isCont f z |]  
c23b2d108612 move theorems about limits from Transcendental.thy to Deriv.thy
huffman
parents: 28952
diff changeset
  1549
      ==> isCont g (f x)"
c23b2d108612 move theorems about limits from Transcendental.thy to Deriv.thy
huffman
parents: 28952
diff changeset
  1550
by (rule isCont_inverse_function)
c23b2d108612 move theorems about limits from Transcendental.thy to Deriv.thy
huffman
parents: 28952
diff changeset
  1551
c23b2d108612 move theorems about limits from Transcendental.thy to Deriv.thy
huffman
parents: 28952
diff changeset
  1552
lemma isCont_inv_fun_inv:
c23b2d108612 move theorems about limits from Transcendental.thy to Deriv.thy
huffman
parents: 28952
diff changeset
  1553
  fixes f g :: "real \<Rightarrow> real"
c23b2d108612 move theorems about limits from Transcendental.thy to Deriv.thy
huffman
parents: 28952
diff changeset
  1554
  shows "[| 0 < d;  
c23b2d108612 move theorems about limits from Transcendental.thy to Deriv.thy
huffman
parents: 28952
diff changeset
  1555
         \<forall>z. \<bar>z - x\<bar> \<le> d --> g(f(z)) = z;  
c23b2d108612 move theorems about limits from Transcendental.thy to Deriv.thy
huffman
parents: 28952
diff changeset
  1556
         \<forall>z. \<bar>z - x\<bar> \<le> d --> isCont f z |]  
c23b2d108612 move theorems about limits from Transcendental.thy to Deriv.thy
huffman
parents: 28952
diff changeset
  1557
       ==> \<exists>e. 0 < e &  
c23b2d108612 move theorems about limits from Transcendental.thy to Deriv.thy
huffman
parents: 28952
diff changeset
  1558
             (\<forall>y. 0 < \<bar>y - f(x)\<bar> & \<bar>y - f(x)\<bar> < e --> f(g(y)) = y)"
c23b2d108612 move theorems about limits from Transcendental.thy to Deriv.thy
huffman
parents: 28952
diff changeset
  1559
apply (drule isCont_inj_range)
c23b2d108612 move theorems about limits from Transcendental.thy to Deriv.thy
huffman
parents: 28952
diff changeset
  1560
prefer 2 apply (assumption, assumption, auto)
c23b2d108612 move theorems about limits from Transcendental.thy to Deriv.thy
huffman
parents: 28952
diff changeset
  1561
apply (rule_tac x = e in exI, auto)
c23b2d108612 move theorems about limits from Transcendental.thy to Deriv.thy
huffman
parents: 28952
diff changeset
  1562
apply (rotate_tac 2)
c23b2d108612 move theorems about limits from Transcendental.thy to Deriv.thy
huffman
parents: 28952
diff changeset
  1563
apply (drule_tac x = y in spec, auto)
c23b2d108612 move theorems about limits from Transcendental.thy to Deriv.thy
huffman
parents: 28952
diff changeset
  1564
done
c23b2d108612 move theorems about limits from Transcendental.thy to Deriv.thy
huffman
parents: 28952
diff changeset
  1565
c23b2d108612 move theorems about limits from Transcendental.thy to Deriv.thy
huffman
parents: 28952
diff changeset
  1566
c23b2d108612 move theorems about limits from Transcendental.thy to Deriv.thy
huffman
parents: 28952
diff changeset
  1567
text{*Bartle/Sherbert: Introduction to Real Analysis, Theorem 4.2.9, p. 110*}
c23b2d108612 move theorems about limits from Transcendental.thy to Deriv.thy
huffman
parents: 28952
diff changeset
  1568
lemma LIM_fun_gt_zero:
c23b2d108612 move theorems about limits from Transcendental.thy to Deriv.thy
huffman
parents: 28952
diff changeset
  1569
     "[| f -- c --> (l::real); 0 < l |]  
c23b2d108612 move theorems about limits from Transcendental.thy to Deriv.thy
huffman
parents: 28952
diff changeset
  1570
         ==> \<exists>r. 0 < r & (\<forall>x::real. x \<noteq> c & \<bar>c - x\<bar> < r --> 0 < f x)"
44209
00d3147dd639 simplify some proofs
huffman
parents: 44079
diff changeset
  1571
apply (drule (1) LIM_D, clarify)
29166
c23b2d108612 move theorems about limits from Transcendental.thy to Deriv.thy
huffman
parents: 28952
diff changeset
  1572
apply (rule_tac x = s in exI)
44209
00d3147dd639 simplify some proofs
huffman
parents: 44079
diff changeset
  1573
apply (simp add: abs_less_iff)
29166
c23b2d108612 move theorems about limits from Transcendental.thy to Deriv.thy
huffman
parents: 28952
diff changeset
  1574
done
c23b2d108612 move theorems about limits from Transcendental.thy to Deriv.thy
huffman
parents: 28952
diff changeset
  1575
c23b2d108612 move theorems about limits from Transcendental.thy to Deriv.thy
huffman
parents: 28952
diff changeset
  1576
lemma LIM_fun_less_zero:
c23b2d108612 move theorems about limits from Transcendental.thy to Deriv.thy
huffman
parents: 28952
diff changeset
  1577
     "[| f -- c --> (l::real); l < 0 |]  
c23b2d108612 move theorems about limits from Transcendental.thy to Deriv.thy
huffman
parents: 28952
diff changeset
  1578
      ==> \<exists>r. 0 < r & (\<forall>x::real. x \<noteq> c & \<bar>c - x\<bar> < r --> f x < 0)"
44209
00d3147dd639 simplify some proofs
huffman
parents: 44079
diff changeset
  1579
apply (drule LIM_D [where r="-l"], simp, clarify)
29166
c23b2d108612 move theorems about limits from Transcendental.thy to Deriv.thy
huffman
parents: 28952
diff changeset
  1580
apply (rule_tac x = s in exI)
44209
00d3147dd639 simplify some proofs
huffman
parents: 44079
diff changeset
  1581
apply (simp add: abs_less_iff)
29166
c23b2d108612 move theorems about limits from Transcendental.thy to Deriv.thy
huffman
parents: 28952
diff changeset
  1582
done
c23b2d108612 move theorems about limits from Transcendental.thy to Deriv.thy
huffman
parents: 28952
diff changeset
  1583
c23b2d108612 move theorems about limits from Transcendental.thy to Deriv.thy
huffman
parents: 28952
diff changeset
  1584
lemma LIM_fun_not_zero:
c23b2d108612 move theorems about limits from Transcendental.thy to Deriv.thy
huffman
parents: 28952
diff changeset
  1585
     "[| f -- c --> (l::real); l \<noteq> 0 |] 
c23b2d108612 move theorems about limits from Transcendental.thy to Deriv.thy
huffman
parents: 28952
diff changeset
  1586
      ==> \<exists>r. 0 < r & (\<forall>x::real. x \<noteq> c & \<bar>c - x\<bar> < r --> f x \<noteq> 0)"
44209
00d3147dd639 simplify some proofs
huffman
parents: 44079
diff changeset
  1587
apply (rule linorder_cases [of l 0])
00d3147dd639 simplify some proofs
huffman
parents: 44079
diff changeset
  1588
apply (drule (1) LIM_fun_less_zero, force)
00d3147dd639 simplify some proofs
huffman
parents: 44079
diff changeset
  1589
apply simp
00d3147dd639 simplify some proofs
huffman
parents: 44079
diff changeset
  1590
apply (drule (1) LIM_fun_gt_zero, force)
29166
c23b2d108612 move theorems about limits from Transcendental.thy to Deriv.thy
huffman
parents: 28952
diff changeset
  1591
done
c23b2d108612 move theorems about limits from Transcendental.thy to Deriv.thy
huffman
parents: 28952
diff changeset
  1592
21164
0742fc979c67 new Deriv.thy contains stuff from Lim.thy
huffman
parents:
diff changeset
  1593
end