| author | huffman |
| Sat, 20 Aug 2011 07:09:44 -0700 | |
| changeset 44344 | 49be3e7d4762 |
| parent 44278 | 1220ecb81e8f |
| child 44346 | 00dd3c4dabe0 |
| permissions | -rw-r--r-- |
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(* Title : HOL/RealDef.thy |
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Author : Jacques D. Fleuriot, 1998 |
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Polymorphic treatment of binary arithmetic using axclasses
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Conversion to Isar and new proofs by Lawrence C Paulson, 2003/4 |
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Additional contributions by Jeremy Avigad |
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Construction of Cauchy Reals by Brian Huffman, 2010 |
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*) |
7 |
||
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header {* Development of the Reals using Cauchy Sequences *}
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theory RealDef |
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imports Rat |
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begin |
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text {*
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This theory contains a formalization of the real numbers as |
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equivalence classes of Cauchy sequences of rationals. See |
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use new 'file' antiquotation for reference to Dedekind_Real.thy
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@{file "~~/src/HOL/ex/Dedekind_Real.thy"} for an alternative
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construction using Dedekind cuts. |
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*} |
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20 |
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subsection {* Preliminary lemmas *}
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22 |
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lemma add_diff_add: |
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24 |
fixes a b c d :: "'a::ab_group_add" |
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25 |
shows "(a + c) - (b + d) = (a - b) + (c - d)" |
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by simp |
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27 |
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lemma minus_diff_minus: |
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fixes a b :: "'a::ab_group_add" |
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30 |
shows "- a - - b = - (a - b)" |
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by simp |
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32 |
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lemma mult_diff_mult: |
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fixes x y a b :: "'a::ring" |
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shows "(x * y - a * b) = x * (y - b) + (x - a) * b" |
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by (simp add: algebra_simps) |
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37 |
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lemma inverse_diff_inverse: |
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fixes a b :: "'a::division_ring" |
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assumes "a \<noteq> 0" and "b \<noteq> 0" |
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41 |
shows "inverse a - inverse b = - (inverse a * (a - b) * inverse b)" |
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using assms by (simp add: algebra_simps) |
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43 |
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lemma obtain_pos_sum: |
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fixes r :: rat assumes r: "0 < r" |
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obtains s t where "0 < s" and "0 < t" and "r = s + t" |
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proof |
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from r show "0 < r/2" by simp |
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from r show "0 < r/2" by simp |
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show "r = r/2 + r/2" by simp |
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51 |
qed |
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52 |
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subsection {* Sequences that converge to zero *}
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54 |
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definition |
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vanishes :: "(nat \<Rightarrow> rat) \<Rightarrow> bool" |
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where |
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"vanishes X = (\<forall>r>0. \<exists>k. \<forall>n\<ge>k. \<bar>X n\<bar> < r)" |
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59 |
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lemma vanishesI: "(\<And>r. 0 < r \<Longrightarrow> \<exists>k. \<forall>n\<ge>k. \<bar>X n\<bar> < r) \<Longrightarrow> vanishes X" |
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unfolding vanishes_def by simp |
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62 |
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lemma vanishesD: "\<lbrakk>vanishes X; 0 < r\<rbrakk> \<Longrightarrow> \<exists>k. \<forall>n\<ge>k. \<bar>X n\<bar> < r" |
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unfolding vanishes_def by simp |
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65 |
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lemma vanishes_const [simp]: "vanishes (\<lambda>n. c) \<longleftrightarrow> c = 0" |
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unfolding vanishes_def |
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apply (cases "c = 0", auto) |
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apply (rule exI [where x="\<bar>c\<bar>"], auto) |
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done |
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71 |
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lemma vanishes_minus: "vanishes X \<Longrightarrow> vanishes (\<lambda>n. - X n)" |
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73 |
unfolding vanishes_def by simp |
| 14269 | 74 |
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lemma vanishes_add: |
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assumes X: "vanishes X" and Y: "vanishes Y" |
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shows "vanishes (\<lambda>n. X n + Y n)" |
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proof (rule vanishesI) |
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fix r :: rat assume "0 < r" |
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then obtain s t where s: "0 < s" and t: "0 < t" and r: "r = s + t" |
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by (rule obtain_pos_sum) |
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obtain i where i: "\<forall>n\<ge>i. \<bar>X n\<bar> < s" |
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using vanishesD [OF X s] .. |
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obtain j where j: "\<forall>n\<ge>j. \<bar>Y n\<bar> < t" |
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using vanishesD [OF Y t] .. |
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have "\<forall>n\<ge>max i j. \<bar>X n + Y n\<bar> < r" |
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proof (clarsimp) |
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fix n assume n: "i \<le> n" "j \<le> n" |
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have "\<bar>X n + Y n\<bar> \<le> \<bar>X n\<bar> + \<bar>Y n\<bar>" by (rule abs_triangle_ineq) |
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also have "\<dots> < s + t" by (simp add: add_strict_mono i j n) |
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finally show "\<bar>X n + Y n\<bar> < r" unfolding r . |
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qed |
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thus "\<exists>k. \<forall>n\<ge>k. \<bar>X n + Y n\<bar> < r" .. |
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qed |
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95 |
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lemma vanishes_diff: |
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assumes X: "vanishes X" and Y: "vanishes Y" |
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shows "vanishes (\<lambda>n. X n - Y n)" |
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unfolding diff_minus by (intro vanishes_add vanishes_minus X Y) |
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100 |
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lemma vanishes_mult_bounded: |
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assumes X: "\<exists>a>0. \<forall>n. \<bar>X n\<bar> < a" |
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assumes Y: "vanishes (\<lambda>n. Y n)" |
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shows "vanishes (\<lambda>n. X n * Y n)" |
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proof (rule vanishesI) |
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fix r :: rat assume r: "0 < r" |
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obtain a where a: "0 < a" "\<forall>n. \<bar>X n\<bar> < a" |
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using X by fast |
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109 |
obtain b where b: "0 < b" "r = a * b" |
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proof |
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111 |
show "0 < r / a" using r a by (simp add: divide_pos_pos) |
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112 |
show "r = a * (r / a)" using a by simp |
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113 |
qed |
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114 |
obtain k where k: "\<forall>n\<ge>k. \<bar>Y n\<bar> < b" |
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using vanishesD [OF Y b(1)] .. |
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116 |
have "\<forall>n\<ge>k. \<bar>X n * Y n\<bar> < r" |
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117 |
by (simp add: b(2) abs_mult mult_strict_mono' a k) |
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118 |
thus "\<exists>k. \<forall>n\<ge>k. \<bar>X n * Y n\<bar> < r" .. |
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119 |
qed |
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120 |
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121 |
subsection {* Cauchy sequences *}
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| 5588 | 122 |
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| 19765 | 123 |
definition |
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124 |
cauchy :: "(nat \<Rightarrow> rat) \<Rightarrow> bool" |
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where |
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126 |
"cauchy X \<longleftrightarrow> (\<forall>r>0. \<exists>k. \<forall>m\<ge>k. \<forall>n\<ge>k. \<bar>X m - X n\<bar> < r)" |
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127 |
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128 |
lemma cauchyI: |
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129 |
"(\<And>r. 0 < r \<Longrightarrow> \<exists>k. \<forall>m\<ge>k. \<forall>n\<ge>k. \<bar>X m - X n\<bar> < r) \<Longrightarrow> cauchy X" |
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130 |
unfolding cauchy_def by simp |
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131 |
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|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
132 |
lemma cauchyD: |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
133 |
"\<lbrakk>cauchy X; 0 < r\<rbrakk> \<Longrightarrow> \<exists>k. \<forall>m\<ge>k. \<forall>n\<ge>k. \<bar>X m - X n\<bar> < r" |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
134 |
unfolding cauchy_def by simp |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
135 |
|
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
136 |
lemma cauchy_const [simp]: "cauchy (\<lambda>n. x)" |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
137 |
unfolding cauchy_def by simp |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
138 |
|
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
139 |
lemma cauchy_add [simp]: |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
140 |
assumes X: "cauchy X" and Y: "cauchy Y" |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
141 |
shows "cauchy (\<lambda>n. X n + Y n)" |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
142 |
proof (rule cauchyI) |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
143 |
fix r :: rat assume "0 < r" |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
144 |
then obtain s t where s: "0 < s" and t: "0 < t" and r: "r = s + t" |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
145 |
by (rule obtain_pos_sum) |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
146 |
obtain i where i: "\<forall>m\<ge>i. \<forall>n\<ge>i. \<bar>X m - X n\<bar> < s" |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
147 |
using cauchyD [OF X s] .. |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
148 |
obtain j where j: "\<forall>m\<ge>j. \<forall>n\<ge>j. \<bar>Y m - Y n\<bar> < t" |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
149 |
using cauchyD [OF Y t] .. |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
150 |
have "\<forall>m\<ge>max i j. \<forall>n\<ge>max i j. \<bar>(X m + Y m) - (X n + Y n)\<bar> < r" |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
151 |
proof (clarsimp) |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
152 |
fix m n assume *: "i \<le> m" "j \<le> m" "i \<le> n" "j \<le> n" |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
153 |
have "\<bar>(X m + Y m) - (X n + Y n)\<bar> \<le> \<bar>X m - X n\<bar> + \<bar>Y m - Y n\<bar>" |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
154 |
unfolding add_diff_add by (rule abs_triangle_ineq) |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
155 |
also have "\<dots> < s + t" |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
156 |
by (rule add_strict_mono, simp_all add: i j *) |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
157 |
finally show "\<bar>(X m + Y m) - (X n + Y n)\<bar> < r" unfolding r . |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
158 |
qed |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
159 |
thus "\<exists>k. \<forall>m\<ge>k. \<forall>n\<ge>k. \<bar>(X m + Y m) - (X n + Y n)\<bar> < r" .. |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
160 |
qed |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
161 |
|
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
162 |
lemma cauchy_minus [simp]: |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
163 |
assumes X: "cauchy X" |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
164 |
shows "cauchy (\<lambda>n. - X n)" |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
165 |
using assms unfolding cauchy_def |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
166 |
unfolding minus_diff_minus abs_minus_cancel . |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
167 |
|
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
168 |
lemma cauchy_diff [simp]: |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
169 |
assumes X: "cauchy X" and Y: "cauchy Y" |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
170 |
shows "cauchy (\<lambda>n. X n - Y n)" |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
171 |
using assms unfolding diff_minus by simp |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
172 |
|
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
173 |
lemma cauchy_imp_bounded: |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
174 |
assumes "cauchy X" shows "\<exists>b>0. \<forall>n. \<bar>X n\<bar> < b" |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
175 |
proof - |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
176 |
obtain k where k: "\<forall>m\<ge>k. \<forall>n\<ge>k. \<bar>X m - X n\<bar> < 1" |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
177 |
using cauchyD [OF assms zero_less_one] .. |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
178 |
show "\<exists>b>0. \<forall>n. \<bar>X n\<bar> < b" |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
179 |
proof (intro exI conjI allI) |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
180 |
have "0 \<le> \<bar>X 0\<bar>" by simp |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
181 |
also have "\<bar>X 0\<bar> \<le> Max (abs ` X ` {..k})" by simp
|
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
182 |
finally have "0 \<le> Max (abs ` X ` {..k})" .
|
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
183 |
thus "0 < Max (abs ` X ` {..k}) + 1" by simp
|
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
184 |
next |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
185 |
fix n :: nat |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
186 |
show "\<bar>X n\<bar> < Max (abs ` X ` {..k}) + 1"
|
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
187 |
proof (rule linorder_le_cases) |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
188 |
assume "n \<le> k" |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
189 |
hence "\<bar>X n\<bar> \<le> Max (abs ` X ` {..k})" by simp
|
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
190 |
thus "\<bar>X n\<bar> < Max (abs ` X ` {..k}) + 1" by simp
|
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
191 |
next |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
192 |
assume "k \<le> n" |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
193 |
have "\<bar>X n\<bar> = \<bar>X k + (X n - X k)\<bar>" by simp |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
194 |
also have "\<bar>X k + (X n - X k)\<bar> \<le> \<bar>X k\<bar> + \<bar>X n - X k\<bar>" |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
195 |
by (rule abs_triangle_ineq) |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
196 |
also have "\<dots> < Max (abs ` X ` {..k}) + 1"
|
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
197 |
by (rule add_le_less_mono, simp, simp add: k `k \<le> n`) |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
198 |
finally show "\<bar>X n\<bar> < Max (abs ` X ` {..k}) + 1" .
|
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
199 |
qed |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
200 |
qed |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
201 |
qed |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
202 |
|
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
203 |
lemma cauchy_mult [simp]: |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
204 |
assumes X: "cauchy X" and Y: "cauchy Y" |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
205 |
shows "cauchy (\<lambda>n. X n * Y n)" |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
206 |
proof (rule cauchyI) |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
207 |
fix r :: rat assume "0 < r" |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
208 |
then obtain u v where u: "0 < u" and v: "0 < v" and "r = u + v" |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
209 |
by (rule obtain_pos_sum) |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
210 |
obtain a where a: "0 < a" "\<forall>n. \<bar>X n\<bar> < a" |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
211 |
using cauchy_imp_bounded [OF X] by fast |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
212 |
obtain b where b: "0 < b" "\<forall>n. \<bar>Y n\<bar> < b" |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
213 |
using cauchy_imp_bounded [OF Y] by fast |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
214 |
obtain s t where s: "0 < s" and t: "0 < t" and r: "r = a * t + s * b" |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
215 |
proof |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
216 |
show "0 < v/b" using v b(1) by (rule divide_pos_pos) |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
217 |
show "0 < u/a" using u a(1) by (rule divide_pos_pos) |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
218 |
show "r = a * (u/a) + (v/b) * b" |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
219 |
using a(1) b(1) `r = u + v` by simp |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
220 |
qed |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
221 |
obtain i where i: "\<forall>m\<ge>i. \<forall>n\<ge>i. \<bar>X m - X n\<bar> < s" |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
222 |
using cauchyD [OF X s] .. |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
223 |
obtain j where j: "\<forall>m\<ge>j. \<forall>n\<ge>j. \<bar>Y m - Y n\<bar> < t" |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
224 |
using cauchyD [OF Y t] .. |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
225 |
have "\<forall>m\<ge>max i j. \<forall>n\<ge>max i j. \<bar>X m * Y m - X n * Y n\<bar> < r" |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
226 |
proof (clarsimp) |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
227 |
fix m n assume *: "i \<le> m" "j \<le> m" "i \<le> n" "j \<le> n" |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
228 |
have "\<bar>X m * Y m - X n * Y n\<bar> = \<bar>X m * (Y m - Y n) + (X m - X n) * Y n\<bar>" |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
229 |
unfolding mult_diff_mult .. |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
230 |
also have "\<dots> \<le> \<bar>X m * (Y m - Y n)\<bar> + \<bar>(X m - X n) * Y n\<bar>" |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
231 |
by (rule abs_triangle_ineq) |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
232 |
also have "\<dots> = \<bar>X m\<bar> * \<bar>Y m - Y n\<bar> + \<bar>X m - X n\<bar> * \<bar>Y n\<bar>" |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
233 |
unfolding abs_mult .. |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
234 |
also have "\<dots> < a * t + s * b" |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
235 |
by (simp_all add: add_strict_mono mult_strict_mono' a b i j *) |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
236 |
finally show "\<bar>X m * Y m - X n * Y n\<bar> < r" unfolding r . |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
237 |
qed |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
238 |
thus "\<exists>k. \<forall>m\<ge>k. \<forall>n\<ge>k. \<bar>X m * Y m - X n * Y n\<bar> < r" .. |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
239 |
qed |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
240 |
|
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
241 |
lemma cauchy_not_vanishes_cases: |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
242 |
assumes X: "cauchy X" |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
243 |
assumes nz: "\<not> vanishes X" |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
244 |
shows "\<exists>b>0. \<exists>k. (\<forall>n\<ge>k. b < - X n) \<or> (\<forall>n\<ge>k. b < X n)" |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
245 |
proof - |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
246 |
obtain r where "0 < r" and r: "\<forall>k. \<exists>n\<ge>k. r \<le> \<bar>X n\<bar>" |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
247 |
using nz unfolding vanishes_def by (auto simp add: not_less) |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
248 |
obtain s t where s: "0 < s" and t: "0 < t" and "r = s + t" |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
249 |
using `0 < r` by (rule obtain_pos_sum) |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
250 |
obtain i where i: "\<forall>m\<ge>i. \<forall>n\<ge>i. \<bar>X m - X n\<bar> < s" |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
251 |
using cauchyD [OF X s] .. |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
252 |
obtain k where "i \<le> k" and "r \<le> \<bar>X k\<bar>" |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
253 |
using r by fast |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
254 |
have k: "\<forall>n\<ge>k. \<bar>X n - X k\<bar> < s" |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
255 |
using i `i \<le> k` by auto |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
256 |
have "X k \<le> - r \<or> r \<le> X k" |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
257 |
using `r \<le> \<bar>X k\<bar>` by auto |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
258 |
hence "(\<forall>n\<ge>k. t < - X n) \<or> (\<forall>n\<ge>k. t < X n)" |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
259 |
unfolding `r = s + t` using k by auto |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
260 |
hence "\<exists>k. (\<forall>n\<ge>k. t < - X n) \<or> (\<forall>n\<ge>k. t < X n)" .. |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
261 |
thus "\<exists>t>0. \<exists>k. (\<forall>n\<ge>k. t < - X n) \<or> (\<forall>n\<ge>k. t < X n)" |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
262 |
using t by auto |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
263 |
qed |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
264 |
|
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
265 |
lemma cauchy_not_vanishes: |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
266 |
assumes X: "cauchy X" |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
267 |
assumes nz: "\<not> vanishes X" |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
268 |
shows "\<exists>b>0. \<exists>k. \<forall>n\<ge>k. b < \<bar>X n\<bar>" |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
269 |
using cauchy_not_vanishes_cases [OF assms] |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
270 |
by clarify (rule exI, erule conjI, rule_tac x=k in exI, auto) |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
271 |
|
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
272 |
lemma cauchy_inverse [simp]: |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
273 |
assumes X: "cauchy X" |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
274 |
assumes nz: "\<not> vanishes X" |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
275 |
shows "cauchy (\<lambda>n. inverse (X n))" |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
276 |
proof (rule cauchyI) |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
277 |
fix r :: rat assume "0 < r" |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
278 |
obtain b i where b: "0 < b" and i: "\<forall>n\<ge>i. b < \<bar>X n\<bar>" |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
279 |
using cauchy_not_vanishes [OF X nz] by fast |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
280 |
from b i have nz: "\<forall>n\<ge>i. X n \<noteq> 0" by auto |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
281 |
obtain s where s: "0 < s" and r: "r = inverse b * s * inverse b" |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
282 |
proof |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
283 |
show "0 < b * r * b" |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
284 |
by (simp add: `0 < r` b mult_pos_pos) |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
285 |
show "r = inverse b * (b * r * b) * inverse b" |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
286 |
using b by simp |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
287 |
qed |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
288 |
obtain j where j: "\<forall>m\<ge>j. \<forall>n\<ge>j. \<bar>X m - X n\<bar> < s" |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
289 |
using cauchyD [OF X s] .. |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
290 |
have "\<forall>m\<ge>max i j. \<forall>n\<ge>max i j. \<bar>inverse (X m) - inverse (X n)\<bar> < r" |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
291 |
proof (clarsimp) |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
292 |
fix m n assume *: "i \<le> m" "j \<le> m" "i \<le> n" "j \<le> n" |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
293 |
have "\<bar>inverse (X m) - inverse (X n)\<bar> = |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
294 |
inverse \<bar>X m\<bar> * \<bar>X m - X n\<bar> * inverse \<bar>X n\<bar>" |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
295 |
by (simp add: inverse_diff_inverse nz * abs_mult) |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
296 |
also have "\<dots> < inverse b * s * inverse b" |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
297 |
by (simp add: mult_strict_mono less_imp_inverse_less |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
298 |
mult_pos_pos i j b * s) |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
299 |
finally show "\<bar>inverse (X m) - inverse (X n)\<bar> < r" unfolding r . |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
300 |
qed |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
301 |
thus "\<exists>k. \<forall>m\<ge>k. \<forall>n\<ge>k. \<bar>inverse (X m) - inverse (X n)\<bar> < r" .. |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
302 |
qed |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
303 |
|
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
304 |
subsection {* Equivalence relation on Cauchy sequences *}
|
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
305 |
|
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
306 |
definition |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
307 |
realrel :: "((nat \<Rightarrow> rat) \<times> (nat \<Rightarrow> rat)) set" |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
308 |
where |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
309 |
"realrel = {(X, Y). cauchy X \<and> cauchy Y \<and> vanishes (\<lambda>n. X n - Y n)}"
|
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
310 |
|
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
311 |
lemma refl_realrel: "refl_on {X. cauchy X} realrel"
|
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
312 |
unfolding realrel_def by (rule refl_onI, clarsimp, simp) |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
313 |
|
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
314 |
lemma sym_realrel: "sym realrel" |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
315 |
unfolding realrel_def |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
316 |
by (rule symI, clarify, drule vanishes_minus, simp) |
| 14484 | 317 |
|
|
36795
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
318 |
lemma trans_realrel: "trans realrel" |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
319 |
unfolding realrel_def |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
320 |
apply (rule transI, clarify) |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
321 |
apply (drule (1) vanishes_add) |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
322 |
apply (simp add: algebra_simps) |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
323 |
done |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
324 |
|
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
325 |
lemma equiv_realrel: "equiv {X. cauchy X} realrel"
|
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
326 |
using refl_realrel sym_realrel trans_realrel |
| 40815 | 327 |
by (rule equivI) |
|
36795
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
328 |
|
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
329 |
subsection {* The field of real numbers *}
|
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
330 |
|
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
331 |
typedef (open) real = "{X. cauchy X} // realrel"
|
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
332 |
by (fast intro: quotientI cauchy_const) |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
333 |
|
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
334 |
definition |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
335 |
Real :: "(nat \<Rightarrow> rat) \<Rightarrow> real" |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
336 |
where |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
337 |
"Real X = Abs_real (realrel `` {X})"
|
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
338 |
|
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
339 |
definition |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
340 |
real_case :: "((nat \<Rightarrow> rat) \<Rightarrow> 'a) \<Rightarrow> real \<Rightarrow> 'a" |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
341 |
where |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
342 |
"real_case f x = (THE y. \<forall>X\<in>Rep_real x. y = f X)" |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
343 |
|
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
344 |
lemma Real_induct [induct type: real]: |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
345 |
"(\<And>X. cauchy X \<Longrightarrow> P (Real X)) \<Longrightarrow> P x" |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
346 |
unfolding Real_def |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
347 |
apply (induct x) |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
348 |
apply (erule quotientE) |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
349 |
apply (simp) |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
350 |
done |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
351 |
|
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
352 |
lemma real_case_1: |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
353 |
assumes f: "congruent realrel f" |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
354 |
assumes X: "cauchy X" |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
355 |
shows "real_case f (Real X) = f X" |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
356 |
unfolding real_case_def Real_def |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
357 |
apply (subst Abs_real_inverse) |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
358 |
apply (simp add: quotientI X) |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
359 |
apply (rule the_equality) |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
360 |
apply clarsimp |
|
40816
19c492929756
replaced slightly odd locale congruent by plain definition
haftmann
parents:
40815
diff
changeset
|
361 |
apply (erule congruentD [OF f]) |
|
36795
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
362 |
apply (erule bspec) |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
363 |
apply simp |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
364 |
apply (rule refl_onD [OF refl_realrel]) |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
365 |
apply (simp add: X) |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
366 |
done |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
367 |
|
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
368 |
lemma real_case_2: |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
369 |
assumes f: "congruent2 realrel realrel f" |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
370 |
assumes X: "cauchy X" and Y: "cauchy Y" |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
371 |
shows "real_case (\<lambda>X. real_case (\<lambda>Y. f X Y) (Real Y)) (Real X) = f X Y" |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
372 |
apply (subst real_case_1 [OF _ X]) |
|
40816
19c492929756
replaced slightly odd locale congruent by plain definition
haftmann
parents:
40815
diff
changeset
|
373 |
apply (rule congruentI) |
|
36795
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
374 |
apply (subst real_case_1 [OF _ Y]) |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
375 |
apply (rule congruent2_implies_congruent [OF equiv_realrel f]) |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
376 |
apply (simp add: realrel_def) |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
377 |
apply (subst real_case_1 [OF _ Y]) |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
378 |
apply (rule congruent2_implies_congruent [OF equiv_realrel f]) |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
379 |
apply (simp add: realrel_def) |
|
40817
781da1e8808c
replaced slightly odd locale congruent2 by plain definition
haftmann
parents:
40816
diff
changeset
|
380 |
apply (erule congruent2D [OF f]) |
|
36795
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
381 |
apply (rule refl_onD [OF refl_realrel]) |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
382 |
apply (simp add: Y) |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
383 |
apply (rule real_case_1 [OF _ Y]) |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
384 |
apply (rule congruent2_implies_congruent [OF equiv_realrel f]) |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
385 |
apply (simp add: X) |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
386 |
done |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
387 |
|
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
388 |
lemma eq_Real: |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
389 |
"cauchy X \<Longrightarrow> cauchy Y \<Longrightarrow> Real X = Real Y \<longleftrightarrow> vanishes (\<lambda>n. X n - Y n)" |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
390 |
unfolding Real_def |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
391 |
apply (subst Abs_real_inject) |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
392 |
apply (simp add: quotientI) |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
393 |
apply (simp add: quotientI) |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
394 |
apply (simp add: eq_equiv_class_iff [OF equiv_realrel]) |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
395 |
apply (simp add: realrel_def) |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
396 |
done |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
397 |
|
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
398 |
lemma add_respects2_realrel: |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
399 |
"(\<lambda>X Y. Real (\<lambda>n. X n + Y n)) respects2 realrel" |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
400 |
proof (rule congruent2_commuteI [OF equiv_realrel, unfolded mem_Collect_eq]) |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
401 |
fix X Y show "Real (\<lambda>n. X n + Y n) = Real (\<lambda>n. Y n + X n)" |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
402 |
by (simp add: add_commute) |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
403 |
next |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
404 |
fix X assume X: "cauchy X" |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
405 |
fix Y Z assume "(Y, Z) \<in> realrel" |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
406 |
hence Y: "cauchy Y" and Z: "cauchy Z" and YZ: "vanishes (\<lambda>n. Y n - Z n)" |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
407 |
unfolding realrel_def by simp_all |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
408 |
show "Real (\<lambda>n. X n + Y n) = Real (\<lambda>n. X n + Z n)" |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
409 |
proof (rule eq_Real [THEN iffD2]) |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
410 |
show "cauchy (\<lambda>n. X n + Y n)" using X Y by (rule cauchy_add) |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
411 |
show "cauchy (\<lambda>n. X n + Z n)" using X Z by (rule cauchy_add) |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
412 |
show "vanishes (\<lambda>n. (X n + Y n) - (X n + Z n))" |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
413 |
unfolding add_diff_add using YZ by simp |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
414 |
qed |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
415 |
qed |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
416 |
|
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
417 |
lemma minus_respects_realrel: |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
418 |
"(\<lambda>X. Real (\<lambda>n. - X n)) respects realrel" |
|
40816
19c492929756
replaced slightly odd locale congruent by plain definition
haftmann
parents:
40815
diff
changeset
|
419 |
proof (rule congruentI) |
|
36795
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
420 |
fix X Y assume "(X, Y) \<in> realrel" |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
421 |
hence X: "cauchy X" and Y: "cauchy Y" and XY: "vanishes (\<lambda>n. X n - Y n)" |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
422 |
unfolding realrel_def by simp_all |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
423 |
show "Real (\<lambda>n. - X n) = Real (\<lambda>n. - Y n)" |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
424 |
proof (rule eq_Real [THEN iffD2]) |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
425 |
show "cauchy (\<lambda>n. - X n)" using X by (rule cauchy_minus) |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
426 |
show "cauchy (\<lambda>n. - Y n)" using Y by (rule cauchy_minus) |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
427 |
show "vanishes (\<lambda>n. (- X n) - (- Y n))" |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
428 |
unfolding minus_diff_minus using XY by (rule vanishes_minus) |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
429 |
qed |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
430 |
qed |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
431 |
|
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
432 |
lemma mult_respects2_realrel: |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
433 |
"(\<lambda>X Y. Real (\<lambda>n. X n * Y n)) respects2 realrel" |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
434 |
proof (rule congruent2_commuteI [OF equiv_realrel, unfolded mem_Collect_eq]) |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
435 |
fix X Y |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
436 |
show "Real (\<lambda>n. X n * Y n) = Real (\<lambda>n. Y n * X n)" |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
437 |
by (simp add: mult_commute) |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
438 |
next |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
439 |
fix X assume X: "cauchy X" |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
440 |
fix Y Z assume "(Y, Z) \<in> realrel" |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
441 |
hence Y: "cauchy Y" and Z: "cauchy Z" and YZ: "vanishes (\<lambda>n. Y n - Z n)" |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
442 |
unfolding realrel_def by simp_all |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
443 |
show "Real (\<lambda>n. X n * Y n) = Real (\<lambda>n. X n * Z n)" |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
444 |
proof (rule eq_Real [THEN iffD2]) |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
445 |
show "cauchy (\<lambda>n. X n * Y n)" using X Y by (rule cauchy_mult) |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
446 |
show "cauchy (\<lambda>n. X n * Z n)" using X Z by (rule cauchy_mult) |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
447 |
have "vanishes (\<lambda>n. X n * (Y n - Z n))" |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
448 |
by (intro vanishes_mult_bounded cauchy_imp_bounded X YZ) |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
449 |
thus "vanishes (\<lambda>n. X n * Y n - X n * Z n)" |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
450 |
by (simp add: right_diff_distrib) |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
451 |
qed |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
452 |
qed |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
453 |
|
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
454 |
lemma vanishes_diff_inverse: |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
455 |
assumes X: "cauchy X" "\<not> vanishes X" |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
456 |
assumes Y: "cauchy Y" "\<not> vanishes Y" |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
457 |
assumes XY: "vanishes (\<lambda>n. X n - Y n)" |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
458 |
shows "vanishes (\<lambda>n. inverse (X n) - inverse (Y n))" |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
459 |
proof (rule vanishesI) |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
460 |
fix r :: rat assume r: "0 < r" |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
461 |
obtain a i where a: "0 < a" and i: "\<forall>n\<ge>i. a < \<bar>X n\<bar>" |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
462 |
using cauchy_not_vanishes [OF X] by fast |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
463 |
obtain b j where b: "0 < b" and j: "\<forall>n\<ge>j. b < \<bar>Y n\<bar>" |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
464 |
using cauchy_not_vanishes [OF Y] by fast |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
465 |
obtain s where s: "0 < s" and "inverse a * s * inverse b = r" |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
466 |
proof |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
467 |
show "0 < a * r * b" |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
468 |
using a r b by (simp add: mult_pos_pos) |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
469 |
show "inverse a * (a * r * b) * inverse b = r" |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
470 |
using a r b by simp |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
471 |
qed |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
472 |
obtain k where k: "\<forall>n\<ge>k. \<bar>X n - Y n\<bar> < s" |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
473 |
using vanishesD [OF XY s] .. |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
474 |
have "\<forall>n\<ge>max (max i j) k. \<bar>inverse (X n) - inverse (Y n)\<bar> < r" |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
475 |
proof (clarsimp) |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
476 |
fix n assume n: "i \<le> n" "j \<le> n" "k \<le> n" |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
477 |
have "X n \<noteq> 0" and "Y n \<noteq> 0" |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
478 |
using i j a b n by auto |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
479 |
hence "\<bar>inverse (X n) - inverse (Y n)\<bar> = |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
480 |
inverse \<bar>X n\<bar> * \<bar>X n - Y n\<bar> * inverse \<bar>Y n\<bar>" |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
481 |
by (simp add: inverse_diff_inverse abs_mult) |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
482 |
also have "\<dots> < inverse a * s * inverse b" |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
483 |
apply (intro mult_strict_mono' less_imp_inverse_less) |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
484 |
apply (simp_all add: a b i j k n mult_nonneg_nonneg) |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
485 |
done |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
486 |
also note `inverse a * s * inverse b = r` |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
487 |
finally show "\<bar>inverse (X n) - inverse (Y n)\<bar> < r" . |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
488 |
qed |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
489 |
thus "\<exists>k. \<forall>n\<ge>k. \<bar>inverse (X n) - inverse (Y n)\<bar> < r" .. |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
490 |
qed |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
491 |
|
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
492 |
lemma inverse_respects_realrel: |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
493 |
"(\<lambda>X. if vanishes X then c else Real (\<lambda>n. inverse (X n))) respects realrel" |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
494 |
(is "?inv respects realrel") |
|
40816
19c492929756
replaced slightly odd locale congruent by plain definition
haftmann
parents:
40815
diff
changeset
|
495 |
proof (rule congruentI) |
|
36795
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
496 |
fix X Y assume "(X, Y) \<in> realrel" |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
497 |
hence X: "cauchy X" and Y: "cauchy Y" and XY: "vanishes (\<lambda>n. X n - Y n)" |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
498 |
unfolding realrel_def by simp_all |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
499 |
have "vanishes X \<longleftrightarrow> vanishes Y" |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
500 |
proof |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
501 |
assume "vanishes X" |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
502 |
from vanishes_diff [OF this XY] show "vanishes Y" by simp |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
503 |
next |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
504 |
assume "vanishes Y" |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
505 |
from vanishes_add [OF this XY] show "vanishes X" by simp |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
506 |
qed |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
507 |
thus "?inv X = ?inv Y" |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
508 |
by (simp add: vanishes_diff_inverse eq_Real X Y XY) |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
509 |
qed |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
510 |
|
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
511 |
instantiation real :: field_inverse_zero |
|
25571
c9e39eafc7a0
instantiation target rather than legacy instance
haftmann
parents:
25546
diff
changeset
|
512 |
begin |
| 5588 | 513 |
|
|
25571
c9e39eafc7a0
instantiation target rather than legacy instance
haftmann
parents:
25546
diff
changeset
|
514 |
definition |
|
36795
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
515 |
"0 = Real (\<lambda>n. 0)" |
|
25571
c9e39eafc7a0
instantiation target rather than legacy instance
haftmann
parents:
25546
diff
changeset
|
516 |
|
|
c9e39eafc7a0
instantiation target rather than legacy instance
haftmann
parents:
25546
diff
changeset
|
517 |
definition |
|
36795
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
518 |
"1 = Real (\<lambda>n. 1)" |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
519 |
|
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
520 |
definition |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
521 |
"x + y = real_case (\<lambda>X. real_case (\<lambda>Y. Real (\<lambda>n. X n + Y n)) y) x" |
| 5588 | 522 |
|
|
25571
c9e39eafc7a0
instantiation target rather than legacy instance
haftmann
parents:
25546
diff
changeset
|
523 |
definition |
|
36795
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
524 |
"- x = real_case (\<lambda>X. Real (\<lambda>n. - X n)) x" |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
525 |
|
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
526 |
definition |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
527 |
"x - y = (x::real) + - y" |
| 10606 | 528 |
|
|
25571
c9e39eafc7a0
instantiation target rather than legacy instance
haftmann
parents:
25546
diff
changeset
|
529 |
definition |
|
36795
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
530 |
"x * y = real_case (\<lambda>X. real_case (\<lambda>Y. Real (\<lambda>n. X n * Y n)) y) x" |
|
25571
c9e39eafc7a0
instantiation target rather than legacy instance
haftmann
parents:
25546
diff
changeset
|
531 |
|
|
c9e39eafc7a0
instantiation target rather than legacy instance
haftmann
parents:
25546
diff
changeset
|
532 |
definition |
|
36795
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
533 |
"inverse = |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
534 |
real_case (\<lambda>X. if vanishes X then 0 else Real (\<lambda>n. inverse (X n)))" |
| 14484 | 535 |
|
|
25571
c9e39eafc7a0
instantiation target rather than legacy instance
haftmann
parents:
25546
diff
changeset
|
536 |
definition |
|
36795
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
537 |
"x / y = (x::real) * inverse y" |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
538 |
|
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
539 |
lemma add_Real: |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
540 |
assumes X: "cauchy X" and Y: "cauchy Y" |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
541 |
shows "Real X + Real Y = Real (\<lambda>n. X n + Y n)" |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
542 |
unfolding plus_real_def |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
543 |
by (rule real_case_2 [OF add_respects2_realrel X Y]) |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
544 |
|
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
545 |
lemma minus_Real: |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
546 |
assumes X: "cauchy X" |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
547 |
shows "- Real X = Real (\<lambda>n. - X n)" |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
548 |
unfolding uminus_real_def |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
549 |
by (rule real_case_1 [OF minus_respects_realrel X]) |
| 5588 | 550 |
|
|
36795
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
551 |
lemma diff_Real: |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
552 |
assumes X: "cauchy X" and Y: "cauchy Y" |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
553 |
shows "Real X - Real Y = Real (\<lambda>n. X n - Y n)" |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
554 |
unfolding minus_real_def diff_minus |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
555 |
by (simp add: minus_Real add_Real X Y) |
|
25571
c9e39eafc7a0
instantiation target rather than legacy instance
haftmann
parents:
25546
diff
changeset
|
556 |
|
|
36795
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
557 |
lemma mult_Real: |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
558 |
assumes X: "cauchy X" and Y: "cauchy Y" |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
559 |
shows "Real X * Real Y = Real (\<lambda>n. X n * Y n)" |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
560 |
unfolding times_real_def |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
561 |
by (rule real_case_2 [OF mult_respects2_realrel X Y]) |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
562 |
|
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
563 |
lemma inverse_Real: |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
564 |
assumes X: "cauchy X" |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
565 |
shows "inverse (Real X) = |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
566 |
(if vanishes X then 0 else Real (\<lambda>n. inverse (X n)))" |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
567 |
unfolding inverse_real_def |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
568 |
by (rule real_case_1 [OF inverse_respects_realrel X]) |
| 14269 | 569 |
|
|
36795
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
570 |
instance proof |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
571 |
fix a b c :: real |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
572 |
show "a + b = b + a" |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
573 |
by (induct a, induct b) (simp add: add_Real add_ac) |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
574 |
show "(a + b) + c = a + (b + c)" |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
575 |
by (induct a, induct b, induct c) (simp add: add_Real add_ac) |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
576 |
show "0 + a = a" |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
577 |
unfolding zero_real_def |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
578 |
by (induct a) (simp add: add_Real) |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
579 |
show "- a + a = 0" |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
580 |
unfolding zero_real_def |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
581 |
by (induct a) (simp add: minus_Real add_Real) |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
582 |
show "a - b = a + - b" |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
583 |
by (rule minus_real_def) |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
584 |
show "(a * b) * c = a * (b * c)" |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
585 |
by (induct a, induct b, induct c) (simp add: mult_Real mult_ac) |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
586 |
show "a * b = b * a" |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
587 |
by (induct a, induct b) (simp add: mult_Real mult_ac) |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
588 |
show "1 * a = a" |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
589 |
unfolding one_real_def |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
590 |
by (induct a) (simp add: mult_Real) |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
591 |
show "(a + b) * c = a * c + b * c" |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
592 |
by (induct a, induct b, induct c) |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
593 |
(simp add: mult_Real add_Real algebra_simps) |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
594 |
show "(0\<Colon>real) \<noteq> (1\<Colon>real)" |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
595 |
unfolding zero_real_def one_real_def |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
596 |
by (simp add: eq_Real) |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
597 |
show "a \<noteq> 0 \<Longrightarrow> inverse a * a = 1" |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
598 |
unfolding zero_real_def one_real_def |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
599 |
apply (induct a) |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
600 |
apply (simp add: eq_Real inverse_Real mult_Real) |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
601 |
apply (rule vanishesI) |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
602 |
apply (frule (1) cauchy_not_vanishes, clarify) |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
603 |
apply (rule_tac x=k in exI, clarify) |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
604 |
apply (drule_tac x=n in spec, simp) |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
605 |
done |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
606 |
show "a / b = a * inverse b" |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
607 |
by (rule divide_real_def) |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
608 |
show "inverse (0::real) = 0" |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
609 |
by (simp add: zero_real_def inverse_Real) |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
610 |
qed |
|
25571
c9e39eafc7a0
instantiation target rather than legacy instance
haftmann
parents:
25546
diff
changeset
|
611 |
|
|
c9e39eafc7a0
instantiation target rather than legacy instance
haftmann
parents:
25546
diff
changeset
|
612 |
end |
| 14334 | 613 |
|
|
36795
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
614 |
subsection {* Positive reals *}
|
| 14269 | 615 |
|
|
36795
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
616 |
definition |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
617 |
positive :: "real \<Rightarrow> bool" |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
618 |
where |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
619 |
"positive = real_case (\<lambda>X. \<exists>r>0. \<exists>k. \<forall>n\<ge>k. r < X n)" |
| 14269 | 620 |
|
|
36795
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
621 |
lemma bool_congruentI: |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
622 |
assumes sym: "sym r" |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
623 |
assumes P: "\<And>x y. (x, y) \<in> r \<Longrightarrow> P x \<Longrightarrow> P y" |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
624 |
shows "P respects r" |
|
40816
19c492929756
replaced slightly odd locale congruent by plain definition
haftmann
parents:
40815
diff
changeset
|
625 |
apply (rule congruentI) |
|
36795
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
626 |
apply (rule iffI) |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
627 |
apply (erule (1) P) |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
628 |
apply (erule (1) P [OF symD [OF sym]]) |
| 14269 | 629 |
done |
630 |
||
|
36795
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
631 |
lemma positive_respects_realrel: |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
632 |
"(\<lambda>X. \<exists>r>0. \<exists>k. \<forall>n\<ge>k. r < X n) respects realrel" |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
633 |
proof (rule bool_congruentI) |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
634 |
show "sym realrel" by (rule sym_realrel) |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
635 |
next |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
636 |
fix X Y assume "(X, Y) \<in> realrel" |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
637 |
hence XY: "vanishes (\<lambda>n. X n - Y n)" |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
638 |
unfolding realrel_def by simp_all |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
639 |
assume "\<exists>r>0. \<exists>k. \<forall>n\<ge>k. r < X n" |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
640 |
then obtain r i where "0 < r" and i: "\<forall>n\<ge>i. r < X n" |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
641 |
by fast |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
642 |
obtain s t where s: "0 < s" and t: "0 < t" and r: "r = s + t" |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
643 |
using `0 < r` by (rule obtain_pos_sum) |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
644 |
obtain j where j: "\<forall>n\<ge>j. \<bar>X n - Y n\<bar> < s" |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
645 |
using vanishesD [OF XY s] .. |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
646 |
have "\<forall>n\<ge>max i j. t < Y n" |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
647 |
proof (clarsimp) |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
648 |
fix n assume n: "i \<le> n" "j \<le> n" |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
649 |
have "\<bar>X n - Y n\<bar> < s" and "r < X n" |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
650 |
using i j n by simp_all |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
651 |
thus "t < Y n" unfolding r by simp |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
652 |
qed |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
653 |
thus "\<exists>r>0. \<exists>k. \<forall>n\<ge>k. r < Y n" using t by fast |
| 14484 | 654 |
qed |
| 14269 | 655 |
|
|
36795
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
656 |
lemma positive_Real: |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
657 |
assumes X: "cauchy X" |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
658 |
shows "positive (Real X) \<longleftrightarrow> (\<exists>r>0. \<exists>k. \<forall>n\<ge>k. r < X n)" |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
659 |
unfolding positive_def |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
660 |
by (rule real_case_1 [OF positive_respects_realrel X]) |
|
23287
063039db59dd
define (1::preal); clean up instance declarations
huffman
parents:
23031
diff
changeset
|
661 |
|
|
36795
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
662 |
lemma positive_zero: "\<not> positive 0" |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
663 |
unfolding zero_real_def by (auto simp add: positive_Real) |
| 14269 | 664 |
|
|
36795
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
665 |
lemma positive_add: |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
666 |
"positive x \<Longrightarrow> positive y \<Longrightarrow> positive (x + y)" |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
667 |
apply (induct x, induct y, rename_tac Y X) |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
668 |
apply (simp add: add_Real positive_Real) |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
669 |
apply (clarify, rename_tac a b i j) |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
670 |
apply (rule_tac x="a + b" in exI, simp) |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
671 |
apply (rule_tac x="max i j" in exI, clarsimp) |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
672 |
apply (simp add: add_strict_mono) |
| 14269 | 673 |
done |
674 |
||
|
36795
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
675 |
lemma positive_mult: |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
676 |
"positive x \<Longrightarrow> positive y \<Longrightarrow> positive (x * y)" |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
677 |
apply (induct x, induct y, rename_tac Y X) |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
678 |
apply (simp add: mult_Real positive_Real) |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
679 |
apply (clarify, rename_tac a b i j) |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
680 |
apply (rule_tac x="a * b" in exI, simp add: mult_pos_pos) |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
681 |
apply (rule_tac x="max i j" in exI, clarsimp) |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
682 |
apply (rule mult_strict_mono, auto) |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
683 |
done |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
684 |
|
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
685 |
lemma positive_minus: |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
686 |
"\<not> positive x \<Longrightarrow> x \<noteq> 0 \<Longrightarrow> positive (- x)" |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
687 |
apply (induct x, rename_tac X) |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
688 |
apply (simp add: zero_real_def eq_Real minus_Real positive_Real) |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
689 |
apply (drule (1) cauchy_not_vanishes_cases, safe, fast, fast) |
| 14269 | 690 |
done |
| 14334 | 691 |
|
|
36795
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
692 |
instantiation real :: linordered_field_inverse_zero |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
693 |
begin |
|
14341
a09441bd4f1e
Ring_and_Field now requires axiom add_left_imp_eq for semirings.
paulson
parents:
14335
diff
changeset
|
694 |
|
|
36795
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
695 |
definition |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
696 |
"x < y \<longleftrightarrow> positive (y - x)" |
|
14341
a09441bd4f1e
Ring_and_Field now requires axiom add_left_imp_eq for semirings.
paulson
parents:
14335
diff
changeset
|
697 |
|
|
36795
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
698 |
definition |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
699 |
"x \<le> (y::real) \<longleftrightarrow> x < y \<or> x = y" |
| 14334 | 700 |
|
|
36795
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
701 |
definition |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
702 |
"abs (a::real) = (if a < 0 then - a else a)" |
| 14269 | 703 |
|
|
36795
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
704 |
definition |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
705 |
"sgn (a::real) = (if a = 0 then 0 else if 0 < a then 1 else - 1)" |
| 14269 | 706 |
|
|
36795
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
707 |
instance proof |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
708 |
fix a b c :: real |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
709 |
show "\<bar>a\<bar> = (if a < 0 then - a else a)" |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
710 |
by (rule abs_real_def) |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
711 |
show "a < b \<longleftrightarrow> a \<le> b \<and> \<not> b \<le> a" |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
712 |
unfolding less_eq_real_def less_real_def |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
713 |
by (auto, drule (1) positive_add, simp_all add: positive_zero) |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
714 |
show "a \<le> a" |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
715 |
unfolding less_eq_real_def by simp |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
716 |
show "a \<le> b \<Longrightarrow> b \<le> c \<Longrightarrow> a \<le> c" |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
717 |
unfolding less_eq_real_def less_real_def |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
718 |
by (auto, drule (1) positive_add, simp add: algebra_simps) |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
719 |
show "a \<le> b \<Longrightarrow> b \<le> a \<Longrightarrow> a = b" |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
720 |
unfolding less_eq_real_def less_real_def |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
721 |
by (auto, drule (1) positive_add, simp add: positive_zero) |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
722 |
show "a \<le> b \<Longrightarrow> c + a \<le> c + b" |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
723 |
unfolding less_eq_real_def less_real_def by auto |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
724 |
show "sgn a = (if a = 0 then 0 else if 0 < a then 1 else - 1)" |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
725 |
by (rule sgn_real_def) |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
726 |
show "a \<le> b \<or> b \<le> a" |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
727 |
unfolding less_eq_real_def less_real_def |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
728 |
by (auto dest!: positive_minus) |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
729 |
show "a < b \<Longrightarrow> 0 < c \<Longrightarrow> c * a < c * b" |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
730 |
unfolding less_real_def |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
731 |
by (drule (1) positive_mult, simp add: algebra_simps) |
| 23288 | 732 |
qed |
|
14378
69c4d5997669
generic of_nat and of_int functions, and generalization of iszero
paulson
parents:
14369
diff
changeset
|
733 |
|
|
36795
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
734 |
end |
| 14334 | 735 |
|
|
25571
c9e39eafc7a0
instantiation target rather than legacy instance
haftmann
parents:
25546
diff
changeset
|
736 |
instantiation real :: distrib_lattice |
|
c9e39eafc7a0
instantiation target rather than legacy instance
haftmann
parents:
25546
diff
changeset
|
737 |
begin |
|
c9e39eafc7a0
instantiation target rather than legacy instance
haftmann
parents:
25546
diff
changeset
|
738 |
|
|
c9e39eafc7a0
instantiation target rather than legacy instance
haftmann
parents:
25546
diff
changeset
|
739 |
definition |
|
36795
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
740 |
"(inf :: real \<Rightarrow> real \<Rightarrow> real) = min" |
|
25571
c9e39eafc7a0
instantiation target rather than legacy instance
haftmann
parents:
25546
diff
changeset
|
741 |
|
|
c9e39eafc7a0
instantiation target rather than legacy instance
haftmann
parents:
25546
diff
changeset
|
742 |
definition |
|
36795
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
743 |
"(sup :: real \<Rightarrow> real \<Rightarrow> real) = max" |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
744 |
|
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
745 |
instance proof |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
746 |
qed (auto simp add: inf_real_def sup_real_def min_max.sup_inf_distrib1) |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
747 |
|
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
748 |
end |
|
25571
c9e39eafc7a0
instantiation target rather than legacy instance
haftmann
parents:
25546
diff
changeset
|
749 |
|
|
36795
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
750 |
instantiation real :: number_ring |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
751 |
begin |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
752 |
|
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
753 |
definition |
| 37767 | 754 |
"(number_of x :: real) = of_int x" |
|
36795
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
755 |
|
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
756 |
instance proof |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
757 |
qed (rule number_of_real_def) |
| 22456 | 758 |
|
|
25571
c9e39eafc7a0
instantiation target rather than legacy instance
haftmann
parents:
25546
diff
changeset
|
759 |
end |
|
c9e39eafc7a0
instantiation target rather than legacy instance
haftmann
parents:
25546
diff
changeset
|
760 |
|
|
36795
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
761 |
lemma of_nat_Real: "of_nat x = Real (\<lambda>n. of_nat x)" |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
762 |
apply (induct x) |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
763 |
apply (simp add: zero_real_def) |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
764 |
apply (simp add: one_real_def add_Real) |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
765 |
done |
|
14378
69c4d5997669
generic of_nat and of_int functions, and generalization of iszero
paulson
parents:
14369
diff
changeset
|
766 |
|
|
36795
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
767 |
lemma of_int_Real: "of_int x = Real (\<lambda>n. of_int x)" |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
768 |
apply (cases x rule: int_diff_cases) |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
769 |
apply (simp add: of_nat_Real diff_Real) |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
770 |
done |
| 14334 | 771 |
|
|
36795
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
772 |
lemma of_rat_Real: "of_rat x = Real (\<lambda>n. x)" |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
773 |
apply (induct x) |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
774 |
apply (simp add: Fract_of_int_quotient of_rat_divide) |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
775 |
apply (simp add: of_int_Real divide_inverse) |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
776 |
apply (simp add: inverse_Real mult_Real) |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
777 |
done |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
778 |
|
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
779 |
instance real :: archimedean_field |
| 14334 | 780 |
proof |
|
36795
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
781 |
fix x :: real |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
782 |
show "\<exists>z. x \<le> of_int z" |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
783 |
apply (induct x) |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
784 |
apply (frule cauchy_imp_bounded, clarify) |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
785 |
apply (rule_tac x="ceiling b + 1" in exI) |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
786 |
apply (rule less_imp_le) |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
787 |
apply (simp add: of_int_Real less_real_def diff_Real positive_Real) |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
788 |
apply (rule_tac x=1 in exI, simp add: algebra_simps) |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
789 |
apply (rule_tac x=0 in exI, clarsimp) |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
790 |
apply (rule le_less_trans [OF abs_ge_self]) |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
791 |
apply (rule less_le_trans [OF _ le_of_int_ceiling]) |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
792 |
apply simp |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
793 |
done |
| 14334 | 794 |
qed |
795 |
||
|
43732
6b2bdc57155b
adding a floor_ceiling type class for different instantiations of floor (changeset from Brian Huffman)
bulwahn
parents:
42311
diff
changeset
|
796 |
instantiation real :: floor_ceiling |
|
6b2bdc57155b
adding a floor_ceiling type class for different instantiations of floor (changeset from Brian Huffman)
bulwahn
parents:
42311
diff
changeset
|
797 |
begin |
|
6b2bdc57155b
adding a floor_ceiling type class for different instantiations of floor (changeset from Brian Huffman)
bulwahn
parents:
42311
diff
changeset
|
798 |
|
|
6b2bdc57155b
adding a floor_ceiling type class for different instantiations of floor (changeset from Brian Huffman)
bulwahn
parents:
42311
diff
changeset
|
799 |
definition [code del]: |
|
6b2bdc57155b
adding a floor_ceiling type class for different instantiations of floor (changeset from Brian Huffman)
bulwahn
parents:
42311
diff
changeset
|
800 |
"floor (x::real) = (THE z. of_int z \<le> x \<and> x < of_int (z + 1))" |
|
6b2bdc57155b
adding a floor_ceiling type class for different instantiations of floor (changeset from Brian Huffman)
bulwahn
parents:
42311
diff
changeset
|
801 |
|
|
6b2bdc57155b
adding a floor_ceiling type class for different instantiations of floor (changeset from Brian Huffman)
bulwahn
parents:
42311
diff
changeset
|
802 |
instance proof |
|
6b2bdc57155b
adding a floor_ceiling type class for different instantiations of floor (changeset from Brian Huffman)
bulwahn
parents:
42311
diff
changeset
|
803 |
fix x :: real |
|
6b2bdc57155b
adding a floor_ceiling type class for different instantiations of floor (changeset from Brian Huffman)
bulwahn
parents:
42311
diff
changeset
|
804 |
show "of_int (floor x) \<le> x \<and> x < of_int (floor x + 1)" |
|
6b2bdc57155b
adding a floor_ceiling type class for different instantiations of floor (changeset from Brian Huffman)
bulwahn
parents:
42311
diff
changeset
|
805 |
unfolding floor_real_def using floor_exists1 by (rule theI') |
|
6b2bdc57155b
adding a floor_ceiling type class for different instantiations of floor (changeset from Brian Huffman)
bulwahn
parents:
42311
diff
changeset
|
806 |
qed |
|
6b2bdc57155b
adding a floor_ceiling type class for different instantiations of floor (changeset from Brian Huffman)
bulwahn
parents:
42311
diff
changeset
|
807 |
|
|
6b2bdc57155b
adding a floor_ceiling type class for different instantiations of floor (changeset from Brian Huffman)
bulwahn
parents:
42311
diff
changeset
|
808 |
end |
|
6b2bdc57155b
adding a floor_ceiling type class for different instantiations of floor (changeset from Brian Huffman)
bulwahn
parents:
42311
diff
changeset
|
809 |
|
|
36795
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
810 |
subsection {* Completeness *}
|
|
14365
3d4df8c166ae
replacing HOL/Real/PRat, PNat by the rational number development
paulson
parents:
14348
diff
changeset
|
811 |
|
|
36795
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
812 |
lemma not_positive_Real: |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
813 |
assumes X: "cauchy X" |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
814 |
shows "\<not> positive (Real X) \<longleftrightarrow> (\<forall>r>0. \<exists>k. \<forall>n\<ge>k. X n \<le> r)" |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
815 |
unfolding positive_Real [OF X] |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
816 |
apply (auto, unfold not_less) |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
817 |
apply (erule obtain_pos_sum) |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
818 |
apply (drule_tac x=s in spec, simp) |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
819 |
apply (drule_tac r=t in cauchyD [OF X], clarify) |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
820 |
apply (drule_tac x=k in spec, clarsimp) |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
821 |
apply (rule_tac x=n in exI, clarify, rename_tac m) |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
822 |
apply (drule_tac x=m in spec, simp) |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
823 |
apply (drule_tac x=n in spec, simp) |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
824 |
apply (drule spec, drule (1) mp, clarify, rename_tac i) |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
825 |
apply (rule_tac x="max i k" in exI, simp) |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
826 |
done |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
827 |
|
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
828 |
lemma le_Real: |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
829 |
assumes X: "cauchy X" and Y: "cauchy Y" |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
830 |
shows "Real X \<le> Real Y = (\<forall>r>0. \<exists>k. \<forall>n\<ge>k. X n \<le> Y n + r)" |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
831 |
unfolding not_less [symmetric, where 'a=real] less_real_def |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
832 |
apply (simp add: diff_Real not_positive_Real X Y) |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
833 |
apply (simp add: diff_le_eq add_ac) |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
834 |
done |
|
14365
3d4df8c166ae
replacing HOL/Real/PRat, PNat by the rational number development
paulson
parents:
14348
diff
changeset
|
835 |
|
|
36795
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
836 |
lemma le_RealI: |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
837 |
assumes Y: "cauchy Y" |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
838 |
shows "\<forall>n. x \<le> of_rat (Y n) \<Longrightarrow> x \<le> Real Y" |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
839 |
proof (induct x) |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
840 |
fix X assume X: "cauchy X" and "\<forall>n. Real X \<le> of_rat (Y n)" |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
841 |
hence le: "\<And>m r. 0 < r \<Longrightarrow> \<exists>k. \<forall>n\<ge>k. X n \<le> Y m + r" |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
842 |
by (simp add: of_rat_Real le_Real) |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
843 |
{
|
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
844 |
fix r :: rat assume "0 < r" |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
845 |
then obtain s t where s: "0 < s" and t: "0 < t" and r: "r = s + t" |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
846 |
by (rule obtain_pos_sum) |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
847 |
obtain i where i: "\<forall>m\<ge>i. \<forall>n\<ge>i. \<bar>Y m - Y n\<bar> < s" |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
848 |
using cauchyD [OF Y s] .. |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
849 |
obtain j where j: "\<forall>n\<ge>j. X n \<le> Y i + t" |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
850 |
using le [OF t] .. |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
851 |
have "\<forall>n\<ge>max i j. X n \<le> Y n + r" |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
852 |
proof (clarsimp) |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
853 |
fix n assume n: "i \<le> n" "j \<le> n" |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
854 |
have "X n \<le> Y i + t" using n j by simp |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
855 |
moreover have "\<bar>Y i - Y n\<bar> < s" using n i by simp |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
856 |
ultimately show "X n \<le> Y n + r" unfolding r by simp |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
857 |
qed |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
858 |
hence "\<exists>k. \<forall>n\<ge>k. X n \<le> Y n + r" .. |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
859 |
} |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
860 |
thus "Real X \<le> Real Y" |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
861 |
by (simp add: of_rat_Real le_Real X Y) |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
862 |
qed |
|
14365
3d4df8c166ae
replacing HOL/Real/PRat, PNat by the rational number development
paulson
parents:
14348
diff
changeset
|
863 |
|
|
36795
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
864 |
lemma Real_leI: |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
865 |
assumes X: "cauchy X" |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
866 |
assumes le: "\<forall>n. of_rat (X n) \<le> y" |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
867 |
shows "Real X \<le> y" |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
868 |
proof - |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
869 |
have "- y \<le> - Real X" |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
870 |
by (simp add: minus_Real X le_RealI of_rat_minus le) |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
871 |
thus ?thesis by simp |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
872 |
qed |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
873 |
|
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
874 |
lemma less_RealD: |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
875 |
assumes Y: "cauchy Y" |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
876 |
shows "x < Real Y \<Longrightarrow> \<exists>n. x < of_rat (Y n)" |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
877 |
by (erule contrapos_pp, simp add: not_less, erule Real_leI [OF Y]) |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
878 |
|
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
879 |
lemma of_nat_less_two_power: |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
880 |
"of_nat n < (2::'a::{linordered_idom,number_ring}) ^ n"
|
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
881 |
apply (induct n) |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
882 |
apply simp |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
883 |
apply (subgoal_tac "(1::'a) \<le> 2 ^ n") |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
884 |
apply (drule (1) add_le_less_mono, simp) |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
885 |
apply simp |
|
14365
3d4df8c166ae
replacing HOL/Real/PRat, PNat by the rational number development
paulson
parents:
14348
diff
changeset
|
886 |
done |
|
3d4df8c166ae
replacing HOL/Real/PRat, PNat by the rational number development
paulson
parents:
14348
diff
changeset
|
887 |
|
|
36795
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
888 |
lemma complete_real: |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
889 |
fixes S :: "real set" |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
890 |
assumes "\<exists>x. x \<in> S" and "\<exists>z. \<forall>x\<in>S. x \<le> z" |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
891 |
shows "\<exists>y. (\<forall>x\<in>S. x \<le> y) \<and> (\<forall>z. (\<forall>x\<in>S. x \<le> z) \<longrightarrow> y \<le> z)" |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
892 |
proof - |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
893 |
obtain x where x: "x \<in> S" using assms(1) .. |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
894 |
obtain z where z: "\<forall>x\<in>S. x \<le> z" using assms(2) .. |
|
14365
3d4df8c166ae
replacing HOL/Real/PRat, PNat by the rational number development
paulson
parents:
14348
diff
changeset
|
895 |
|
|
36795
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
896 |
def P \<equiv> "\<lambda>x. \<forall>y\<in>S. y \<le> of_rat x" |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
897 |
obtain a where a: "\<not> P a" |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
898 |
proof |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
899 |
have "of_int (floor (x - 1)) \<le> x - 1" by (rule of_int_floor_le) |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
900 |
also have "x - 1 < x" by simp |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
901 |
finally have "of_int (floor (x - 1)) < x" . |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
902 |
hence "\<not> x \<le> of_int (floor (x - 1))" by (simp only: not_le) |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
903 |
then show "\<not> P (of_int (floor (x - 1)))" |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
904 |
unfolding P_def of_rat_of_int_eq using x by fast |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
905 |
qed |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
906 |
obtain b where b: "P b" |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
907 |
proof |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
908 |
show "P (of_int (ceiling z))" |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
909 |
unfolding P_def of_rat_of_int_eq |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
910 |
proof |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
911 |
fix y assume "y \<in> S" |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
912 |
hence "y \<le> z" using z by simp |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
913 |
also have "z \<le> of_int (ceiling z)" by (rule le_of_int_ceiling) |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
914 |
finally show "y \<le> of_int (ceiling z)" . |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
915 |
qed |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
916 |
qed |
|
14365
3d4df8c166ae
replacing HOL/Real/PRat, PNat by the rational number development
paulson
parents:
14348
diff
changeset
|
917 |
|
|
36795
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
918 |
def avg \<equiv> "\<lambda>x y :: rat. x/2 + y/2" |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
919 |
def bisect \<equiv> "\<lambda>(x, y). if P (avg x y) then (x, avg x y) else (avg x y, y)" |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
920 |
def A \<equiv> "\<lambda>n. fst ((bisect ^^ n) (a, b))" |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
921 |
def B \<equiv> "\<lambda>n. snd ((bisect ^^ n) (a, b))" |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
922 |
def C \<equiv> "\<lambda>n. avg (A n) (B n)" |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
923 |
have A_0 [simp]: "A 0 = a" unfolding A_def by simp |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
924 |
have B_0 [simp]: "B 0 = b" unfolding B_def by simp |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
925 |
have A_Suc [simp]: "\<And>n. A (Suc n) = (if P (C n) then A n else C n)" |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
926 |
unfolding A_def B_def C_def bisect_def split_def by simp |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
927 |
have B_Suc [simp]: "\<And>n. B (Suc n) = (if P (C n) then C n else B n)" |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
928 |
unfolding A_def B_def C_def bisect_def split_def by simp |
|
14365
3d4df8c166ae
replacing HOL/Real/PRat, PNat by the rational number development
paulson
parents:
14348
diff
changeset
|
929 |
|
|
36795
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
930 |
have width: "\<And>n. B n - A n = (b - a) / 2^n" |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
931 |
apply (simp add: eq_divide_eq) |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
932 |
apply (induct_tac n, simp) |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
933 |
apply (simp add: C_def avg_def algebra_simps) |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
934 |
done |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
935 |
|
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
936 |
have twos: "\<And>y r :: rat. 0 < r \<Longrightarrow> \<exists>n. y / 2 ^ n < r" |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
937 |
apply (simp add: divide_less_eq) |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
938 |
apply (subst mult_commute) |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
939 |
apply (frule_tac y=y in ex_less_of_nat_mult) |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
940 |
apply clarify |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
941 |
apply (rule_tac x=n in exI) |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
942 |
apply (erule less_trans) |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
943 |
apply (rule mult_strict_right_mono) |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
944 |
apply (rule le_less_trans [OF _ of_nat_less_two_power]) |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
945 |
apply simp |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
946 |
apply assumption |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
947 |
done |
|
14365
3d4df8c166ae
replacing HOL/Real/PRat, PNat by the rational number development
paulson
parents:
14348
diff
changeset
|
948 |
|
|
36795
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
949 |
have PA: "\<And>n. \<not> P (A n)" |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
950 |
by (induct_tac n, simp_all add: a) |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
951 |
have PB: "\<And>n. P (B n)" |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
952 |
by (induct_tac n, simp_all add: b) |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
953 |
have ab: "a < b" |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
954 |
using a b unfolding P_def |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
955 |
apply (clarsimp simp add: not_le) |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
956 |
apply (drule (1) bspec) |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
957 |
apply (drule (1) less_le_trans) |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
958 |
apply (simp add: of_rat_less) |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
959 |
done |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
960 |
have AB: "\<And>n. A n < B n" |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
961 |
by (induct_tac n, simp add: ab, simp add: C_def avg_def) |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
962 |
have A_mono: "\<And>i j. i \<le> j \<Longrightarrow> A i \<le> A j" |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
963 |
apply (auto simp add: le_less [where 'a=nat]) |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
964 |
apply (erule less_Suc_induct) |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
965 |
apply (clarsimp simp add: C_def avg_def) |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
966 |
apply (simp add: add_divide_distrib [symmetric]) |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
967 |
apply (rule AB [THEN less_imp_le]) |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
968 |
apply simp |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
969 |
done |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
970 |
have B_mono: "\<And>i j. i \<le> j \<Longrightarrow> B j \<le> B i" |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
971 |
apply (auto simp add: le_less [where 'a=nat]) |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
972 |
apply (erule less_Suc_induct) |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
973 |
apply (clarsimp simp add: C_def avg_def) |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
974 |
apply (simp add: add_divide_distrib [symmetric]) |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
975 |
apply (rule AB [THEN less_imp_le]) |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
976 |
apply simp |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
977 |
done |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
978 |
have cauchy_lemma: |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
979 |
"\<And>X. \<forall>n. \<forall>i\<ge>n. A n \<le> X i \<and> X i \<le> B n \<Longrightarrow> cauchy X" |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
980 |
apply (rule cauchyI) |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
981 |
apply (drule twos [where y="b - a"]) |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
982 |
apply (erule exE) |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
983 |
apply (rule_tac x=n in exI, clarify, rename_tac i j) |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
984 |
apply (rule_tac y="B n - A n" in le_less_trans) defer |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
985 |
apply (simp add: width) |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
986 |
apply (drule_tac x=n in spec) |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
987 |
apply (frule_tac x=i in spec, drule (1) mp) |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
988 |
apply (frule_tac x=j in spec, drule (1) mp) |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
989 |
apply (frule A_mono, drule B_mono) |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
990 |
apply (frule A_mono, drule B_mono) |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
991 |
apply arith |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
992 |
done |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
993 |
have "cauchy A" |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
994 |
apply (rule cauchy_lemma [rule_format]) |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
995 |
apply (simp add: A_mono) |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
996 |
apply (erule order_trans [OF less_imp_le [OF AB] B_mono]) |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
997 |
done |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
998 |
have "cauchy B" |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
999 |
apply (rule cauchy_lemma [rule_format]) |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
1000 |
apply (simp add: B_mono) |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
1001 |
apply (erule order_trans [OF A_mono less_imp_le [OF AB]]) |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
1002 |
done |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
1003 |
have 1: "\<forall>x\<in>S. x \<le> Real B" |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
1004 |
proof |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
1005 |
fix x assume "x \<in> S" |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
1006 |
then show "x \<le> Real B" |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
1007 |
using PB [unfolded P_def] `cauchy B` |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
1008 |
by (simp add: le_RealI) |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
1009 |
qed |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
1010 |
have 2: "\<forall>z. (\<forall>x\<in>S. x \<le> z) \<longrightarrow> Real A \<le> z" |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
1011 |
apply clarify |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
1012 |
apply (erule contrapos_pp) |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
1013 |
apply (simp add: not_le) |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
1014 |
apply (drule less_RealD [OF `cauchy A`], clarify) |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
1015 |
apply (subgoal_tac "\<not> P (A n)") |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
1016 |
apply (simp add: P_def not_le, clarify) |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
1017 |
apply (erule rev_bexI) |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
1018 |
apply (erule (1) less_trans) |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
1019 |
apply (simp add: PA) |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
1020 |
done |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
1021 |
have "vanishes (\<lambda>n. (b - a) / 2 ^ n)" |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
1022 |
proof (rule vanishesI) |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
1023 |
fix r :: rat assume "0 < r" |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
1024 |
then obtain k where k: "\<bar>b - a\<bar> / 2 ^ k < r" |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
1025 |
using twos by fast |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
1026 |
have "\<forall>n\<ge>k. \<bar>(b - a) / 2 ^ n\<bar> < r" |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
1027 |
proof (clarify) |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
1028 |
fix n assume n: "k \<le> n" |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
1029 |
have "\<bar>(b - a) / 2 ^ n\<bar> = \<bar>b - a\<bar> / 2 ^ n" |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
1030 |
by simp |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
1031 |
also have "\<dots> \<le> \<bar>b - a\<bar> / 2 ^ k" |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
1032 |
using n by (simp add: divide_left_mono mult_pos_pos) |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
1033 |
also note k |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
1034 |
finally show "\<bar>(b - a) / 2 ^ n\<bar> < r" . |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
1035 |
qed |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
1036 |
thus "\<exists>k. \<forall>n\<ge>k. \<bar>(b - a) / 2 ^ n\<bar> < r" .. |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
1037 |
qed |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
1038 |
hence 3: "Real B = Real A" |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
1039 |
by (simp add: eq_Real `cauchy A` `cauchy B` width) |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
1040 |
show "\<exists>y. (\<forall>x\<in>S. x \<le> y) \<and> (\<forall>z. (\<forall>x\<in>S. x \<le> z) \<longrightarrow> y \<le> z)" |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
1041 |
using 1 2 3 by (rule_tac x="Real B" in exI, simp) |
| 14484 | 1042 |
qed |
|
14365
3d4df8c166ae
replacing HOL/Real/PRat, PNat by the rational number development
paulson
parents:
14348
diff
changeset
|
1043 |
|
|
36795
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
1044 |
subsection {* Hiding implementation details *}
|
|
14365
3d4df8c166ae
replacing HOL/Real/PRat, PNat by the rational number development
paulson
parents:
14348
diff
changeset
|
1045 |
|
|
36795
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
1046 |
hide_const (open) vanishes cauchy positive Real real_case |
|
14365
3d4df8c166ae
replacing HOL/Real/PRat, PNat by the rational number development
paulson
parents:
14348
diff
changeset
|
1047 |
|
|
36795
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
1048 |
declare Real_induct [induct del] |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
1049 |
declare Abs_real_induct [induct del] |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
1050 |
declare Abs_real_cases [cases del] |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
1051 |
|
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
1052 |
subsection {* Legacy theorem names *}
|
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
1053 |
|
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
1054 |
text {* TODO: Could we have a way to mark theorem names as deprecated,
|
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
1055 |
and have Isabelle issue a warning and display the preferred name? *} |
|
14365
3d4df8c166ae
replacing HOL/Real/PRat, PNat by the rational number development
paulson
parents:
14348
diff
changeset
|
1056 |
|
|
36795
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
1057 |
lemmas real_diff_def = minus_real_def [of "r" "s", standard] |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
1058 |
lemmas real_divide_def = divide_real_def [of "R" "S", standard] |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
1059 |
lemmas real_less_def = less_le [of "x::real" "y", standard] |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
1060 |
lemmas real_abs_def = abs_real_def [of "r", standard] |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
1061 |
lemmas real_sgn_def = sgn_real_def [of "x", standard] |
| 36796 | 1062 |
lemmas real_mult_commute = mult_commute [of "z::real" "w", standard] |
|
36795
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
1063 |
lemmas real_mult_assoc = mult_assoc [of "z1::real" "z2" "z3", standard] |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
1064 |
lemmas real_mult_1 = mult_1_left [of "z::real", standard] |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
1065 |
lemmas real_add_mult_distrib = left_distrib [of "z1::real" "z2" "w", standard] |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
1066 |
lemmas real_zero_not_eq_one = zero_neq_one [where 'a=real] |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
1067 |
lemmas real_mult_inverse_left = left_inverse [of "x::real", standard] |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
1068 |
lemmas INVERSE_ZERO = inverse_zero [where 'a=real] |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
1069 |
lemmas real_le_refl = order_refl [of "w::real", standard] |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
1070 |
lemmas real_le_antisym = order_antisym [of "z::real" "w", standard] |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
1071 |
lemmas real_le_trans = order_trans [of "i::real" "j" "k", standard] |
|
36941
fdefcbcb2887
add real_le_linear to list of legacy theorem names
huffman
parents:
36839
diff
changeset
|
1072 |
lemmas real_le_linear = linear [of "z::real" "w", standard] |
|
36795
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
1073 |
lemmas real_le_eq_diff = le_iff_diff_le_0 [of "x::real" "y", standard] |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
1074 |
lemmas real_add_left_mono = add_left_mono [of "x::real" "y" "z", standard] |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
1075 |
lemmas real_mult_order = mult_pos_pos [of "x::real" "y", standard] |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
1076 |
lemmas real_mult_less_mono2 = |
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
1077 |
mult_strict_left_mono [of "x::real" "y" "z", COMP swap_prems_rl, standard] |
| 14334 | 1078 |
|
1079 |
subsection{*More Lemmas*}
|
|
1080 |
||
|
36776
c137ae7673d3
remove a couple of redundant lemmas; simplify some proofs
huffman
parents:
36414
diff
changeset
|
1081 |
text {* BH: These lemmas should not be necessary; they should be
|
|
c137ae7673d3
remove a couple of redundant lemmas; simplify some proofs
huffman
parents:
36414
diff
changeset
|
1082 |
covered by existing simp rules and simplification procedures. *} |
|
c137ae7673d3
remove a couple of redundant lemmas; simplify some proofs
huffman
parents:
36414
diff
changeset
|
1083 |
|
| 14334 | 1084 |
lemma real_mult_left_cancel: "(c::real) \<noteq> 0 ==> (c*a=c*b) = (a=b)" |
|
36776
c137ae7673d3
remove a couple of redundant lemmas; simplify some proofs
huffman
parents:
36414
diff
changeset
|
1085 |
by simp (* redundant with mult_cancel_left *) |
| 14334 | 1086 |
|
1087 |
lemma real_mult_right_cancel: "(c::real) \<noteq> 0 ==> (a*c=b*c) = (a=b)" |
|
|
36776
c137ae7673d3
remove a couple of redundant lemmas; simplify some proofs
huffman
parents:
36414
diff
changeset
|
1088 |
by simp (* redundant with mult_cancel_right *) |
| 14334 | 1089 |
|
1090 |
lemma real_mult_less_iff1 [simp]: "(0::real) < z ==> (x*z < y*z) = (x < y)" |
|
|
36776
c137ae7673d3
remove a couple of redundant lemmas; simplify some proofs
huffman
parents:
36414
diff
changeset
|
1091 |
by simp (* solved by linordered_ring_less_cancel_factor simproc *) |
| 14334 | 1092 |
|
1093 |
lemma real_mult_le_cancel_iff1 [simp]: "(0::real) < z ==> (x*z \<le> y*z) = (x\<le>y)" |
|
|
36776
c137ae7673d3
remove a couple of redundant lemmas; simplify some proofs
huffman
parents:
36414
diff
changeset
|
1094 |
by simp (* solved by linordered_ring_le_cancel_factor simproc *) |
| 14334 | 1095 |
|
1096 |
lemma real_mult_le_cancel_iff2 [simp]: "(0::real) < z ==> (z*x \<le> z*y) = (x\<le>y)" |
|
|
36776
c137ae7673d3
remove a couple of redundant lemmas; simplify some proofs
huffman
parents:
36414
diff
changeset
|
1097 |
by (rule mult_le_cancel_left_pos) |
|
c137ae7673d3
remove a couple of redundant lemmas; simplify some proofs
huffman
parents:
36414
diff
changeset
|
1098 |
(* BH: Why doesn't "simp" prove this one, like it does the last one? *) |
| 14334 | 1099 |
|
1100 |
||
| 24198 | 1101 |
subsection {* Embedding numbers into the Reals *}
|
1102 |
||
1103 |
abbreviation |
|
1104 |
real_of_nat :: "nat \<Rightarrow> real" |
|
1105 |
where |
|
1106 |
"real_of_nat \<equiv> of_nat" |
|
1107 |
||
1108 |
abbreviation |
|
1109 |
real_of_int :: "int \<Rightarrow> real" |
|
1110 |
where |
|
1111 |
"real_of_int \<equiv> of_int" |
|
1112 |
||
1113 |
abbreviation |
|
1114 |
real_of_rat :: "rat \<Rightarrow> real" |
|
1115 |
where |
|
1116 |
"real_of_rat \<equiv> of_rat" |
|
1117 |
||
1118 |
consts |
|
1119 |
(*overloaded constant for injecting other types into "real"*) |
|
1120 |
real :: "'a => real" |
|
|
14365
3d4df8c166ae
replacing HOL/Real/PRat, PNat by the rational number development
paulson
parents:
14348
diff
changeset
|
1121 |
|
|
14378
69c4d5997669
generic of_nat and of_int functions, and generalization of iszero
paulson
parents:
14369
diff
changeset
|
1122 |
defs (overloaded) |
|
31998
2c7a24f74db9
code attributes use common underscore convention
haftmann
parents:
31952
diff
changeset
|
1123 |
real_of_nat_def [code_unfold]: "real == real_of_nat" |
|
2c7a24f74db9
code attributes use common underscore convention
haftmann
parents:
31952
diff
changeset
|
1124 |
real_of_int_def [code_unfold]: "real == real_of_int" |
|
14365
3d4df8c166ae
replacing HOL/Real/PRat, PNat by the rational number development
paulson
parents:
14348
diff
changeset
|
1125 |
|
|
40939
2c150063cd4d
setup subtyping/coercions once in HOL.thy, but enable it only later via configuration option;
wenzelm
parents:
40864
diff
changeset
|
1126 |
declare [[coercion_enabled]] |
|
40864
4abaaadfdaf2
moved activation of coercion inference into RealDef and declared function real a coercion.
nipkow
parents:
40826
diff
changeset
|
1127 |
declare [[coercion "real::nat\<Rightarrow>real"]] |
|
4abaaadfdaf2
moved activation of coercion inference into RealDef and declared function real a coercion.
nipkow
parents:
40826
diff
changeset
|
1128 |
declare [[coercion "real::int\<Rightarrow>real"]] |
| 41022 | 1129 |
declare [[coercion "int"]] |
|
40864
4abaaadfdaf2
moved activation of coercion inference into RealDef and declared function real a coercion.
nipkow
parents:
40826
diff
changeset
|
1130 |
|
| 41024 | 1131 |
declare [[coercion_map map]] |
|
42112
9cb122742f5c
Change coercion for RealDef to use function application (not composition)
noschinl
parents:
41920
diff
changeset
|
1132 |
declare [[coercion_map "% f g h x. g (h (f x))"]] |
| 41024 | 1133 |
declare [[coercion_map "% f g (x,y) . (f x, g y)"]] |
1134 |
||
| 16819 | 1135 |
lemma real_eq_of_nat: "real = of_nat" |
| 24198 | 1136 |
unfolding real_of_nat_def .. |
| 16819 | 1137 |
|
1138 |
lemma real_eq_of_int: "real = of_int" |
|
| 24198 | 1139 |
unfolding real_of_int_def .. |
| 16819 | 1140 |
|
|
14365
3d4df8c166ae
replacing HOL/Real/PRat, PNat by the rational number development
paulson
parents:
14348
diff
changeset
|
1141 |
lemma real_of_int_zero [simp]: "real (0::int) = 0" |
|
14378
69c4d5997669
generic of_nat and of_int functions, and generalization of iszero
paulson
parents:
14369
diff
changeset
|
1142 |
by (simp add: real_of_int_def) |
|
14365
3d4df8c166ae
replacing HOL/Real/PRat, PNat by the rational number development
paulson
parents:
14348
diff
changeset
|
1143 |
|
|
3d4df8c166ae
replacing HOL/Real/PRat, PNat by the rational number development
paulson
parents:
14348
diff
changeset
|
1144 |
lemma real_of_one [simp]: "real (1::int) = (1::real)" |
|
14378
69c4d5997669
generic of_nat and of_int functions, and generalization of iszero
paulson
parents:
14369
diff
changeset
|
1145 |
by (simp add: real_of_int_def) |
| 14334 | 1146 |
|
| 16819 | 1147 |
lemma real_of_int_add [simp]: "real(x + y) = real (x::int) + real y" |
|
14378
69c4d5997669
generic of_nat and of_int functions, and generalization of iszero
paulson
parents:
14369
diff
changeset
|
1148 |
by (simp add: real_of_int_def) |
|
14365
3d4df8c166ae
replacing HOL/Real/PRat, PNat by the rational number development
paulson
parents:
14348
diff
changeset
|
1149 |
|
| 16819 | 1150 |
lemma real_of_int_minus [simp]: "real(-x) = -real (x::int)" |
|
14378
69c4d5997669
generic of_nat and of_int functions, and generalization of iszero
paulson
parents:
14369
diff
changeset
|
1151 |
by (simp add: real_of_int_def) |
| 16819 | 1152 |
|
1153 |
lemma real_of_int_diff [simp]: "real(x - y) = real (x::int) - real y" |
|
1154 |
by (simp add: real_of_int_def) |
|
|
14365
3d4df8c166ae
replacing HOL/Real/PRat, PNat by the rational number development
paulson
parents:
14348
diff
changeset
|
1155 |
|
| 16819 | 1156 |
lemma real_of_int_mult [simp]: "real(x * y) = real (x::int) * real y" |
|
14378
69c4d5997669
generic of_nat and of_int functions, and generalization of iszero
paulson
parents:
14369
diff
changeset
|
1157 |
by (simp add: real_of_int_def) |
| 14334 | 1158 |
|
|
35344
e0b46cd72414
moved some lemmas from RealPow to RealDef; changed orientation of real_of_int_power
huffman
parents:
35216
diff
changeset
|
1159 |
lemma real_of_int_power [simp]: "real (x ^ n) = real (x::int) ^ n" |
|
e0b46cd72414
moved some lemmas from RealPow to RealDef; changed orientation of real_of_int_power
huffman
parents:
35216
diff
changeset
|
1160 |
by (simp add: real_of_int_def of_int_power) |
|
e0b46cd72414
moved some lemmas from RealPow to RealDef; changed orientation of real_of_int_power
huffman
parents:
35216
diff
changeset
|
1161 |
|
|
e0b46cd72414
moved some lemmas from RealPow to RealDef; changed orientation of real_of_int_power
huffman
parents:
35216
diff
changeset
|
1162 |
lemmas power_real_of_int = real_of_int_power [symmetric] |
|
e0b46cd72414
moved some lemmas from RealPow to RealDef; changed orientation of real_of_int_power
huffman
parents:
35216
diff
changeset
|
1163 |
|
| 16819 | 1164 |
lemma real_of_int_setsum [simp]: "real ((SUM x:A. f x)::int) = (SUM x:A. real(f x))" |
1165 |
apply (subst real_eq_of_int)+ |
|
1166 |
apply (rule of_int_setsum) |
|
1167 |
done |
|
1168 |
||
1169 |
lemma real_of_int_setprod [simp]: "real ((PROD x:A. f x)::int) = |
|
1170 |
(PROD x:A. real(f x))" |
|
1171 |
apply (subst real_eq_of_int)+ |
|
1172 |
apply (rule of_int_setprod) |
|
1173 |
done |
|
|
14365
3d4df8c166ae
replacing HOL/Real/PRat, PNat by the rational number development
paulson
parents:
14348
diff
changeset
|
1174 |
|
| 27668 | 1175 |
lemma real_of_int_zero_cancel [simp, algebra, presburger]: "(real x = 0) = (x = (0::int))" |
|
14378
69c4d5997669
generic of_nat and of_int functions, and generalization of iszero
paulson
parents:
14369
diff
changeset
|
1176 |
by (simp add: real_of_int_def) |
|
14365
3d4df8c166ae
replacing HOL/Real/PRat, PNat by the rational number development
paulson
parents:
14348
diff
changeset
|
1177 |
|
| 27668 | 1178 |
lemma real_of_int_inject [iff, algebra, presburger]: "(real (x::int) = real y) = (x = y)" |
|
14378
69c4d5997669
generic of_nat and of_int functions, and generalization of iszero
paulson
parents:
14369
diff
changeset
|
1179 |
by (simp add: real_of_int_def) |
|
14365
3d4df8c166ae
replacing HOL/Real/PRat, PNat by the rational number development
paulson
parents:
14348
diff
changeset
|
1180 |
|
| 27668 | 1181 |
lemma real_of_int_less_iff [iff, presburger]: "(real (x::int) < real y) = (x < y)" |
|
14378
69c4d5997669
generic of_nat and of_int functions, and generalization of iszero
paulson
parents:
14369
diff
changeset
|
1182 |
by (simp add: real_of_int_def) |
|
14365
3d4df8c166ae
replacing HOL/Real/PRat, PNat by the rational number development
paulson
parents:
14348
diff
changeset
|
1183 |
|
| 27668 | 1184 |
lemma real_of_int_le_iff [simp, presburger]: "(real (x::int) \<le> real y) = (x \<le> y)" |
|
14378
69c4d5997669
generic of_nat and of_int functions, and generalization of iszero
paulson
parents:
14369
diff
changeset
|
1185 |
by (simp add: real_of_int_def) |
|
14365
3d4df8c166ae
replacing HOL/Real/PRat, PNat by the rational number development
paulson
parents:
14348
diff
changeset
|
1186 |
|
| 27668 | 1187 |
lemma real_of_int_gt_zero_cancel_iff [simp, presburger]: "(0 < real (n::int)) = (0 < n)" |
| 16819 | 1188 |
by (simp add: real_of_int_def) |
1189 |
||
| 27668 | 1190 |
lemma real_of_int_ge_zero_cancel_iff [simp, presburger]: "(0 <= real (n::int)) = (0 <= n)" |
| 16819 | 1191 |
by (simp add: real_of_int_def) |
1192 |
||
| 27668 | 1193 |
lemma real_of_int_lt_zero_cancel_iff [simp, presburger]: "(real (n::int) < 0) = (n < 0)" |
| 16819 | 1194 |
by (simp add: real_of_int_def) |
1195 |
||
| 27668 | 1196 |
lemma real_of_int_le_zero_cancel_iff [simp, presburger]: "(real (n::int) <= 0) = (n <= 0)" |
| 16819 | 1197 |
by (simp add: real_of_int_def) |
1198 |
||
| 16888 | 1199 |
lemma real_of_int_abs [simp]: "real (abs x) = abs(real (x::int))" |
1200 |
by (auto simp add: abs_if) |
|
1201 |
||
| 16819 | 1202 |
lemma int_less_real_le: "((n::int) < m) = (real n + 1 <= real m)" |
1203 |
apply (subgoal_tac "real n + 1 = real (n + 1)") |
|
1204 |
apply (simp del: real_of_int_add) |
|
1205 |
apply auto |
|
1206 |
done |
|
1207 |
||
1208 |
lemma int_le_real_less: "((n::int) <= m) = (real n < real m + 1)" |
|
1209 |
apply (subgoal_tac "real m + 1 = real (m + 1)") |
|
1210 |
apply (simp del: real_of_int_add) |
|
1211 |
apply simp |
|
1212 |
done |
|
1213 |
||
1214 |
lemma real_of_int_div_aux: "d ~= 0 ==> (real (x::int)) / (real d) = |
|
1215 |
real (x div d) + (real (x mod d)) / (real d)" |
|
1216 |
proof - |
|
| 41550 | 1217 |
assume d: "d ~= 0" |
| 16819 | 1218 |
have "x = (x div d) * d + x mod d" |
1219 |
by auto |
|
1220 |
then have "real x = real (x div d) * real d + real(x mod d)" |
|
1221 |
by (simp only: real_of_int_mult [THEN sym] real_of_int_add [THEN sym]) |
|
1222 |
then have "real x / real d = ... / real d" |
|
1223 |
by simp |
|
1224 |
then show ?thesis |
|
| 41550 | 1225 |
by (auto simp add: add_divide_distrib algebra_simps d) |
| 16819 | 1226 |
qed |
1227 |
||
1228 |
lemma real_of_int_div: "(d::int) ~= 0 ==> d dvd n ==> |
|
1229 |
real(n div d) = real n / real d" |
|
1230 |
apply (frule real_of_int_div_aux [of d n]) |
|
1231 |
apply simp |
|
| 30042 | 1232 |
apply (simp add: dvd_eq_mod_eq_0) |
| 16819 | 1233 |
done |
1234 |
||
1235 |
lemma real_of_int_div2: |
|
1236 |
"0 <= real (n::int) / real (x) - real (n div x)" |
|
1237 |
apply (case_tac "x = 0") |
|
1238 |
apply simp |
|
1239 |
apply (case_tac "0 < x") |
|
| 29667 | 1240 |
apply (simp add: algebra_simps) |
| 16819 | 1241 |
apply (subst real_of_int_div_aux) |
1242 |
apply simp |
|
1243 |
apply simp |
|
1244 |
apply (subst zero_le_divide_iff) |
|
1245 |
apply auto |
|
| 29667 | 1246 |
apply (simp add: algebra_simps) |
| 16819 | 1247 |
apply (subst real_of_int_div_aux) |
1248 |
apply simp |
|
1249 |
apply simp |
|
1250 |
apply (subst zero_le_divide_iff) |
|
1251 |
apply auto |
|
1252 |
done |
|
1253 |
||
1254 |
lemma real_of_int_div3: |
|
1255 |
"real (n::int) / real (x) - real (n div x) <= 1" |
|
1256 |
apply(case_tac "x = 0") |
|
1257 |
apply simp |
|
| 29667 | 1258 |
apply (simp add: algebra_simps) |
| 16819 | 1259 |
apply (subst real_of_int_div_aux) |
1260 |
apply assumption |
|
1261 |
apply simp |
|
1262 |
apply (subst divide_le_eq) |
|
1263 |
apply clarsimp |
|
1264 |
apply (rule conjI) |
|
1265 |
apply (rule impI) |
|
1266 |
apply (rule order_less_imp_le) |
|
1267 |
apply simp |
|
1268 |
apply (rule impI) |
|
1269 |
apply (rule order_less_imp_le) |
|
1270 |
apply simp |
|
1271 |
done |
|
1272 |
||
1273 |
lemma real_of_int_div4: "real (n div x) <= real (n::int) / real x" |
|
| 27964 | 1274 |
by (insert real_of_int_div2 [of n x], simp) |
1275 |
||
| 35635 | 1276 |
lemma Ints_real_of_int [simp]: "real (x::int) \<in> Ints" |
1277 |
unfolding real_of_int_def by (rule Ints_of_int) |
|
1278 |
||
| 27964 | 1279 |
|
|
14365
3d4df8c166ae
replacing HOL/Real/PRat, PNat by the rational number development
paulson
parents:
14348
diff
changeset
|
1280 |
subsection{*Embedding the Naturals into the Reals*}
|
|
3d4df8c166ae
replacing HOL/Real/PRat, PNat by the rational number development
paulson
parents:
14348
diff
changeset
|
1281 |
|
| 14334 | 1282 |
lemma real_of_nat_zero [simp]: "real (0::nat) = 0" |
|
14365
3d4df8c166ae
replacing HOL/Real/PRat, PNat by the rational number development
paulson
parents:
14348
diff
changeset
|
1283 |
by (simp add: real_of_nat_def) |
| 14334 | 1284 |
|
|
30082
43c5b7bfc791
make more proofs work whether or not One_nat_def is a simp rule
huffman
parents:
30042
diff
changeset
|
1285 |
lemma real_of_nat_1 [simp]: "real (1::nat) = 1" |
|
43c5b7bfc791
make more proofs work whether or not One_nat_def is a simp rule
huffman
parents:
30042
diff
changeset
|
1286 |
by (simp add: real_of_nat_def) |
|
43c5b7bfc791
make more proofs work whether or not One_nat_def is a simp rule
huffman
parents:
30042
diff
changeset
|
1287 |
|
| 14334 | 1288 |
lemma real_of_nat_one [simp]: "real (Suc 0) = (1::real)" |
|
14365
3d4df8c166ae
replacing HOL/Real/PRat, PNat by the rational number development
paulson
parents:
14348
diff
changeset
|
1289 |
by (simp add: real_of_nat_def) |
| 14334 | 1290 |
|
|
14365
3d4df8c166ae
replacing HOL/Real/PRat, PNat by the rational number development
paulson
parents:
14348
diff
changeset
|
1291 |
lemma real_of_nat_add [simp]: "real (m + n) = real (m::nat) + real n" |
|
14378
69c4d5997669
generic of_nat and of_int functions, and generalization of iszero
paulson
parents:
14369
diff
changeset
|
1292 |
by (simp add: real_of_nat_def) |
| 14334 | 1293 |
|
1294 |
(*Not for addsimps: often the LHS is used to represent a positive natural*) |
|
1295 |
lemma real_of_nat_Suc: "real (Suc n) = real n + (1::real)" |
|
|
14378
69c4d5997669
generic of_nat and of_int functions, and generalization of iszero
paulson
parents:
14369
diff
changeset
|
1296 |
by (simp add: real_of_nat_def) |
| 14334 | 1297 |
|
1298 |
lemma real_of_nat_less_iff [iff]: |
|
1299 |
"(real (n::nat) < real m) = (n < m)" |
|
|
14365
3d4df8c166ae
replacing HOL/Real/PRat, PNat by the rational number development
paulson
parents:
14348
diff
changeset
|
1300 |
by (simp add: real_of_nat_def) |
| 14334 | 1301 |
|
1302 |
lemma real_of_nat_le_iff [iff]: "(real (n::nat) \<le> real m) = (n \<le> m)" |
|
|
14378
69c4d5997669
generic of_nat and of_int functions, and generalization of iszero
paulson
parents:
14369
diff
changeset
|
1303 |
by (simp add: real_of_nat_def) |
| 14334 | 1304 |
|
1305 |
lemma real_of_nat_ge_zero [iff]: "0 \<le> real (n::nat)" |
|
|
14378
69c4d5997669
generic of_nat and of_int functions, and generalization of iszero
paulson
parents:
14369
diff
changeset
|
1306 |
by (simp add: real_of_nat_def zero_le_imp_of_nat) |
| 14334 | 1307 |
|
|
14365
3d4df8c166ae
replacing HOL/Real/PRat, PNat by the rational number development
paulson
parents:
14348
diff
changeset
|
1308 |
lemma real_of_nat_Suc_gt_zero: "0 < real (Suc n)" |
|
14378
69c4d5997669
generic of_nat and of_int functions, and generalization of iszero
paulson
parents:
14369
diff
changeset
|
1309 |
by (simp add: real_of_nat_def del: of_nat_Suc) |
|
14365
3d4df8c166ae
replacing HOL/Real/PRat, PNat by the rational number development
paulson
parents:
14348
diff
changeset
|
1310 |
|
| 14334 | 1311 |
lemma real_of_nat_mult [simp]: "real (m * n) = real (m::nat) * real n" |
|
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:
23289
diff
changeset
|
1312 |
by (simp add: real_of_nat_def of_nat_mult) |
| 14334 | 1313 |
|
|
35344
e0b46cd72414
moved some lemmas from RealPow to RealDef; changed orientation of real_of_int_power
huffman
parents:
35216
diff
changeset
|
1314 |
lemma real_of_nat_power [simp]: "real (m ^ n) = real (m::nat) ^ n" |
|
e0b46cd72414
moved some lemmas from RealPow to RealDef; changed orientation of real_of_int_power
huffman
parents:
35216
diff
changeset
|
1315 |
by (simp add: real_of_nat_def of_nat_power) |
|
e0b46cd72414
moved some lemmas from RealPow to RealDef; changed orientation of real_of_int_power
huffman
parents:
35216
diff
changeset
|
1316 |
|
|
e0b46cd72414
moved some lemmas from RealPow to RealDef; changed orientation of real_of_int_power
huffman
parents:
35216
diff
changeset
|
1317 |
lemmas power_real_of_nat = real_of_nat_power [symmetric] |
|
e0b46cd72414
moved some lemmas from RealPow to RealDef; changed orientation of real_of_int_power
huffman
parents:
35216
diff
changeset
|
1318 |
|
| 16819 | 1319 |
lemma real_of_nat_setsum [simp]: "real ((SUM x:A. f x)::nat) = |
1320 |
(SUM x:A. real(f x))" |
|
1321 |
apply (subst real_eq_of_nat)+ |
|
1322 |
apply (rule of_nat_setsum) |
|
1323 |
done |
|
1324 |
||
1325 |
lemma real_of_nat_setprod [simp]: "real ((PROD x:A. f x)::nat) = |
|
1326 |
(PROD x:A. real(f x))" |
|
1327 |
apply (subst real_eq_of_nat)+ |
|
1328 |
apply (rule of_nat_setprod) |
|
1329 |
done |
|
1330 |
||
1331 |
lemma real_of_card: "real (card A) = setsum (%x.1) A" |
|
1332 |
apply (subst card_eq_setsum) |
|
1333 |
apply (subst real_of_nat_setsum) |
|
1334 |
apply simp |
|
1335 |
done |
|
1336 |
||
| 14334 | 1337 |
lemma real_of_nat_inject [iff]: "(real (n::nat) = real m) = (n = m)" |
|
14378
69c4d5997669
generic of_nat and of_int functions, and generalization of iszero
paulson
parents:
14369
diff
changeset
|
1338 |
by (simp add: real_of_nat_def) |
| 14334 | 1339 |
|
|
14387
e96d5c42c4b0
Polymorphic treatment of binary arithmetic using axclasses
paulson
parents:
14378
diff
changeset
|
1340 |
lemma real_of_nat_zero_iff [iff]: "(real (n::nat) = 0) = (n = 0)" |
|
14378
69c4d5997669
generic of_nat and of_int functions, and generalization of iszero
paulson
parents:
14369
diff
changeset
|
1341 |
by (simp add: real_of_nat_def) |
| 14334 | 1342 |
|
|
14365
3d4df8c166ae
replacing HOL/Real/PRat, PNat by the rational number development
paulson
parents:
14348
diff
changeset
|
1343 |
lemma real_of_nat_diff: "n \<le> m ==> real (m - n) = real (m::nat) - real n" |
|
23438
dd824e86fa8a
remove simp attribute from of_nat_diff, for backward compatibility with zdiff_int
huffman
parents:
23431
diff
changeset
|
1344 |
by (simp add: add: real_of_nat_def of_nat_diff) |
| 14334 | 1345 |
|
| 25162 | 1346 |
lemma real_of_nat_gt_zero_cancel_iff [simp]: "(0 < real (n::nat)) = (0 < n)" |
| 25140 | 1347 |
by (auto simp: real_of_nat_def) |
|
14365
3d4df8c166ae
replacing HOL/Real/PRat, PNat by the rational number development
paulson
parents:
14348
diff
changeset
|
1348 |
|
|
3d4df8c166ae
replacing HOL/Real/PRat, PNat by the rational number development
paulson
parents:
14348
diff
changeset
|
1349 |
lemma real_of_nat_le_zero_cancel_iff [simp]: "(real (n::nat) \<le> 0) = (n = 0)" |
|
14378
69c4d5997669
generic of_nat and of_int functions, and generalization of iszero
paulson
parents:
14369
diff
changeset
|
1350 |
by (simp add: add: real_of_nat_def) |
| 14334 | 1351 |
|
|
14365
3d4df8c166ae
replacing HOL/Real/PRat, PNat by the rational number development
paulson
parents:
14348
diff
changeset
|
1352 |
lemma not_real_of_nat_less_zero [simp]: "~ real (n::nat) < 0" |
|
14378
69c4d5997669
generic of_nat and of_int functions, and generalization of iszero
paulson
parents:
14369
diff
changeset
|
1353 |
by (simp add: add: real_of_nat_def) |
| 14334 | 1354 |
|
| 16819 | 1355 |
lemma nat_less_real_le: "((n::nat) < m) = (real n + 1 <= real m)" |
1356 |
apply (subgoal_tac "real n + 1 = real (Suc n)") |
|
1357 |
apply simp |
|
1358 |
apply (auto simp add: real_of_nat_Suc) |
|
1359 |
done |
|
1360 |
||
1361 |
lemma nat_le_real_less: "((n::nat) <= m) = (real n < real m + 1)" |
|
1362 |
apply (subgoal_tac "real m + 1 = real (Suc m)") |
|
1363 |
apply (simp add: less_Suc_eq_le) |
|
1364 |
apply (simp add: real_of_nat_Suc) |
|
1365 |
done |
|
1366 |
||
1367 |
lemma real_of_nat_div_aux: "0 < d ==> (real (x::nat)) / (real d) = |
|
1368 |
real (x div d) + (real (x mod d)) / (real d)" |
|
1369 |
proof - |
|
| 41550 | 1370 |
assume d: "0 < d" |
| 16819 | 1371 |
have "x = (x div d) * d + x mod d" |
1372 |
by auto |
|
1373 |
then have "real x = real (x div d) * real d + real(x mod d)" |
|
1374 |
by (simp only: real_of_nat_mult [THEN sym] real_of_nat_add [THEN sym]) |
|
1375 |
then have "real x / real d = \<dots> / real d" |
|
1376 |
by simp |
|
1377 |
then show ?thesis |
|
| 41550 | 1378 |
by (auto simp add: add_divide_distrib algebra_simps d) |
| 16819 | 1379 |
qed |
1380 |
||
1381 |
lemma real_of_nat_div: "0 < (d::nat) ==> d dvd n ==> |
|
1382 |
real(n div d) = real n / real d" |
|
1383 |
apply (frule real_of_nat_div_aux [of d n]) |
|
1384 |
apply simp |
|
1385 |
apply (subst dvd_eq_mod_eq_0 [THEN sym]) |
|
1386 |
apply assumption |
|
1387 |
done |
|
1388 |
||
1389 |
lemma real_of_nat_div2: |
|
1390 |
"0 <= real (n::nat) / real (x) - real (n div x)" |
|
|
25134
3d4953e88449
Eliminated most of the neq0_conv occurrences. As a result, many
nipkow
parents:
25112
diff
changeset
|
1391 |
apply(case_tac "x = 0") |
|
3d4953e88449
Eliminated most of the neq0_conv occurrences. As a result, many
nipkow
parents:
25112
diff
changeset
|
1392 |
apply (simp) |
| 29667 | 1393 |
apply (simp add: algebra_simps) |
|
25134
3d4953e88449
Eliminated most of the neq0_conv occurrences. As a result, many
nipkow
parents:
25112
diff
changeset
|
1394 |
apply (subst real_of_nat_div_aux) |
|
3d4953e88449
Eliminated most of the neq0_conv occurrences. As a result, many
nipkow
parents:
25112
diff
changeset
|
1395 |
apply simp |
|
3d4953e88449
Eliminated most of the neq0_conv occurrences. As a result, many
nipkow
parents:
25112
diff
changeset
|
1396 |
apply simp |
|
3d4953e88449
Eliminated most of the neq0_conv occurrences. As a result, many
nipkow
parents:
25112
diff
changeset
|
1397 |
apply (subst zero_le_divide_iff) |
|
3d4953e88449
Eliminated most of the neq0_conv occurrences. As a result, many
nipkow
parents:
25112
diff
changeset
|
1398 |
apply simp |
| 16819 | 1399 |
done |
1400 |
||
1401 |
lemma real_of_nat_div3: |
|
1402 |
"real (n::nat) / real (x) - real (n div x) <= 1" |
|
|
25134
3d4953e88449
Eliminated most of the neq0_conv occurrences. As a result, many
nipkow
parents:
25112
diff
changeset
|
1403 |
apply(case_tac "x = 0") |
|
3d4953e88449
Eliminated most of the neq0_conv occurrences. As a result, many
nipkow
parents:
25112
diff
changeset
|
1404 |
apply (simp) |
| 29667 | 1405 |
apply (simp add: algebra_simps) |
|
25134
3d4953e88449
Eliminated most of the neq0_conv occurrences. As a result, many
nipkow
parents:
25112
diff
changeset
|
1406 |
apply (subst real_of_nat_div_aux) |
|
3d4953e88449
Eliminated most of the neq0_conv occurrences. As a result, many
nipkow
parents:
25112
diff
changeset
|
1407 |
apply simp |
|
3d4953e88449
Eliminated most of the neq0_conv occurrences. As a result, many
nipkow
parents:
25112
diff
changeset
|
1408 |
apply simp |
| 16819 | 1409 |
done |
1410 |
||
1411 |
lemma real_of_nat_div4: "real (n div x) <= real (n::nat) / real x" |
|
| 29667 | 1412 |
by (insert real_of_nat_div2 [of n x], simp) |
| 16819 | 1413 |
|
|
14365
3d4df8c166ae
replacing HOL/Real/PRat, PNat by the rational number development
paulson
parents:
14348
diff
changeset
|
1414 |
lemma real_of_int_real_of_nat: "real (int n) = real n" |
|
14378
69c4d5997669
generic of_nat and of_int functions, and generalization of iszero
paulson
parents:
14369
diff
changeset
|
1415 |
by (simp add: real_of_nat_def real_of_int_def int_eq_of_nat) |
|
69c4d5997669
generic of_nat and of_int functions, and generalization of iszero
paulson
parents:
14369
diff
changeset
|
1416 |
|
| 14426 | 1417 |
lemma real_of_int_of_nat_eq [simp]: "real (of_nat n :: int) = real n" |
1418 |
by (simp add: real_of_int_def real_of_nat_def) |
|
| 14334 | 1419 |
|
| 16819 | 1420 |
lemma real_nat_eq_real [simp]: "0 <= x ==> real(nat x) = real x" |
1421 |
apply (subgoal_tac "real(int(nat x)) = real(nat x)") |
|
1422 |
apply force |
|
1423 |
apply (simp only: real_of_int_real_of_nat) |
|
1424 |
done |
|
|
14387
e96d5c42c4b0
Polymorphic treatment of binary arithmetic using axclasses
paulson
parents:
14378
diff
changeset
|
1425 |
|
| 35635 | 1426 |
lemma Nats_real_of_nat [simp]: "real (n::nat) \<in> Nats" |
1427 |
unfolding real_of_nat_def by (rule of_nat_in_Nats) |
|
1428 |
||
1429 |
lemma Ints_real_of_nat [simp]: "real (n::nat) \<in> Ints" |
|
1430 |
unfolding real_of_nat_def by (rule Ints_of_nat) |
|
1431 |
||
| 28001 | 1432 |
|
1433 |
subsection{* Rationals *}
|
|
1434 |
||
|
28091
50f2d6ba024c
Streamlined parts of Complex/ex/DenumRat and AFP/Integration/Rats and
nipkow
parents:
28001
diff
changeset
|
1435 |
lemma Rats_real_nat[simp]: "real(n::nat) \<in> \<rat>" |
|
50f2d6ba024c
Streamlined parts of Complex/ex/DenumRat and AFP/Integration/Rats and
nipkow
parents:
28001
diff
changeset
|
1436 |
by (simp add: real_eq_of_nat) |
|
50f2d6ba024c
Streamlined parts of Complex/ex/DenumRat and AFP/Integration/Rats and
nipkow
parents:
28001
diff
changeset
|
1437 |
|
|
50f2d6ba024c
Streamlined parts of Complex/ex/DenumRat and AFP/Integration/Rats and
nipkow
parents:
28001
diff
changeset
|
1438 |
|
| 28001 | 1439 |
lemma Rats_eq_int_div_int: |
|
28091
50f2d6ba024c
Streamlined parts of Complex/ex/DenumRat and AFP/Integration/Rats and
nipkow
parents:
28001
diff
changeset
|
1440 |
"\<rat> = { real(i::int)/real(j::int) |i j. j \<noteq> 0}" (is "_ = ?S")
|
| 28001 | 1441 |
proof |
|
28091
50f2d6ba024c
Streamlined parts of Complex/ex/DenumRat and AFP/Integration/Rats and
nipkow
parents:
28001
diff
changeset
|
1442 |
show "\<rat> \<subseteq> ?S" |
| 28001 | 1443 |
proof |
|
28091
50f2d6ba024c
Streamlined parts of Complex/ex/DenumRat and AFP/Integration/Rats and
nipkow
parents:
28001
diff
changeset
|
1444 |
fix x::real assume "x : \<rat>" |
| 28001 | 1445 |
then obtain r where "x = of_rat r" unfolding Rats_def .. |
1446 |
have "of_rat r : ?S" |
|
1447 |
by (cases r)(auto simp add:of_rat_rat real_eq_of_int) |
|
1448 |
thus "x : ?S" using `x = of_rat r` by simp |
|
1449 |
qed |
|
1450 |
next |
|
|
28091
50f2d6ba024c
Streamlined parts of Complex/ex/DenumRat and AFP/Integration/Rats and
nipkow
parents:
28001
diff
changeset
|
1451 |
show "?S \<subseteq> \<rat>" |
| 28001 | 1452 |
proof(auto simp:Rats_def) |
1453 |
fix i j :: int assume "j \<noteq> 0" |
|
1454 |
hence "real i / real j = of_rat(Fract i j)" |
|
1455 |
by (simp add:of_rat_rat real_eq_of_int) |
|
1456 |
thus "real i / real j \<in> range of_rat" by blast |
|
1457 |
qed |
|
1458 |
qed |
|
1459 |
||
1460 |
lemma Rats_eq_int_div_nat: |
|
|
28091
50f2d6ba024c
Streamlined parts of Complex/ex/DenumRat and AFP/Integration/Rats and
nipkow
parents:
28001
diff
changeset
|
1461 |
"\<rat> = { real(i::int)/real(n::nat) |i n. n \<noteq> 0}"
|
| 28001 | 1462 |
proof(auto simp:Rats_eq_int_div_int) |
1463 |
fix i j::int assume "j \<noteq> 0" |
|
1464 |
show "EX (i'::int) (n::nat). real i/real j = real i'/real n \<and> 0<n" |
|
1465 |
proof cases |
|
1466 |
assume "j>0" |
|
1467 |
hence "real i/real j = real i/real(nat j) \<and> 0<nat j" |
|
1468 |
by (simp add: real_eq_of_int real_eq_of_nat of_nat_nat) |
|
1469 |
thus ?thesis by blast |
|
1470 |
next |
|
1471 |
assume "~ j>0" |
|
1472 |
hence "real i/real j = real(-i)/real(nat(-j)) \<and> 0<nat(-j)" using `j\<noteq>0` |
|
1473 |
by (simp add: real_eq_of_int real_eq_of_nat of_nat_nat) |
|
1474 |
thus ?thesis by blast |
|
1475 |
qed |
|
1476 |
next |
|
1477 |
fix i::int and n::nat assume "0 < n" |
|
1478 |
hence "real i/real n = real i/real(int n) \<and> int n \<noteq> 0" by simp |
|
1479 |
thus "\<exists>(i'::int) j::int. real i/real n = real i'/real j \<and> j \<noteq> 0" by blast |
|
1480 |
qed |
|
1481 |
||
1482 |
lemma Rats_abs_nat_div_natE: |
|
1483 |
assumes "x \<in> \<rat>" |
|
| 31706 | 1484 |
obtains m n :: nat |
1485 |
where "n \<noteq> 0" and "\<bar>x\<bar> = real m / real n" and "gcd m n = 1" |
|
| 28001 | 1486 |
proof - |
1487 |
from `x \<in> \<rat>` obtain i::int and n::nat where "n \<noteq> 0" and "x = real i / real n" |
|
1488 |
by(auto simp add: Rats_eq_int_div_nat) |
|
1489 |
hence "\<bar>x\<bar> = real(nat(abs i)) / real n" by simp |
|
1490 |
then obtain m :: nat where x_rat: "\<bar>x\<bar> = real m / real n" by blast |
|
1491 |
let ?gcd = "gcd m n" |
|
| 31706 | 1492 |
from `n\<noteq>0` have gcd: "?gcd \<noteq> 0" by simp |
| 28001 | 1493 |
let ?k = "m div ?gcd" |
1494 |
let ?l = "n div ?gcd" |
|
1495 |
let ?gcd' = "gcd ?k ?l" |
|
1496 |
have "?gcd dvd m" .. then have gcd_k: "?gcd * ?k = m" |
|
1497 |
by (rule dvd_mult_div_cancel) |
|
1498 |
have "?gcd dvd n" .. then have gcd_l: "?gcd * ?l = n" |
|
1499 |
by (rule dvd_mult_div_cancel) |
|
1500 |
from `n\<noteq>0` and gcd_l have "?l \<noteq> 0" by (auto iff del: neq0_conv) |
|
1501 |
moreover |
|
1502 |
have "\<bar>x\<bar> = real ?k / real ?l" |
|
1503 |
proof - |
|
1504 |
from gcd have "real ?k / real ?l = |
|
1505 |
real (?gcd * ?k) / real (?gcd * ?l)" by simp |
|
1506 |
also from gcd_k and gcd_l have "\<dots> = real m / real n" by simp |
|
1507 |
also from x_rat have "\<dots> = \<bar>x\<bar>" .. |
|
1508 |
finally show ?thesis .. |
|
1509 |
qed |
|
1510 |
moreover |
|
1511 |
have "?gcd' = 1" |
|
1512 |
proof - |
|
1513 |
have "?gcd * ?gcd' = gcd (?gcd * ?k) (?gcd * ?l)" |
|
|
31952
40501bb2d57c
renamed lemmas: nat_xyz/int_xyz -> xyz_nat/xyz_int
nipkow
parents:
31707
diff
changeset
|
1514 |
by (rule gcd_mult_distrib_nat) |
| 28001 | 1515 |
with gcd_k gcd_l have "?gcd * ?gcd' = ?gcd" by simp |
| 31706 | 1516 |
with gcd show ?thesis by auto |
| 28001 | 1517 |
qed |
1518 |
ultimately show ?thesis .. |
|
1519 |
qed |
|
1520 |
||
1521 |
||
|
14387
e96d5c42c4b0
Polymorphic treatment of binary arithmetic using axclasses
paulson
parents:
14378
diff
changeset
|
1522 |
subsection{*Numerals and Arithmetic*}
|
|
e96d5c42c4b0
Polymorphic treatment of binary arithmetic using axclasses
paulson
parents:
14378
diff
changeset
|
1523 |
|
|
32069
6d28bbd33e2c
prefer code_inline over code_unfold; use code_unfold_post where appropriate
haftmann
parents:
31998
diff
changeset
|
1524 |
lemma [code_unfold_post]: |
| 24198 | 1525 |
"number_of k = real_of_int (number_of k)" |
|
36795
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
1526 |
unfolding number_of_is_id number_of_real_def .. |
|
14387
e96d5c42c4b0
Polymorphic treatment of binary arithmetic using axclasses
paulson
parents:
14378
diff
changeset
|
1527 |
|
|
e96d5c42c4b0
Polymorphic treatment of binary arithmetic using axclasses
paulson
parents:
14378
diff
changeset
|
1528 |
|
|
e96d5c42c4b0
Polymorphic treatment of binary arithmetic using axclasses
paulson
parents:
14378
diff
changeset
|
1529 |
text{*Collapse applications of @{term real} to @{term number_of}*}
|
|
e96d5c42c4b0
Polymorphic treatment of binary arithmetic using axclasses
paulson
parents:
14378
diff
changeset
|
1530 |
lemma real_number_of [simp]: "real (number_of v :: int) = number_of v" |
| 35216 | 1531 |
by (simp add: real_of_int_def) |
|
14387
e96d5c42c4b0
Polymorphic treatment of binary arithmetic using axclasses
paulson
parents:
14378
diff
changeset
|
1532 |
|
|
e96d5c42c4b0
Polymorphic treatment of binary arithmetic using axclasses
paulson
parents:
14378
diff
changeset
|
1533 |
lemma real_of_nat_number_of [simp]: |
|
e96d5c42c4b0
Polymorphic treatment of binary arithmetic using axclasses
paulson
parents:
14378
diff
changeset
|
1534 |
"real (number_of v :: nat) = |
|
e96d5c42c4b0
Polymorphic treatment of binary arithmetic using axclasses
paulson
parents:
14378
diff
changeset
|
1535 |
(if neg (number_of v :: int) then 0 |
|
e96d5c42c4b0
Polymorphic treatment of binary arithmetic using axclasses
paulson
parents:
14378
diff
changeset
|
1536 |
else (number_of v :: real))" |
| 35216 | 1537 |
by (simp add: real_of_int_real_of_nat [symmetric]) |
|
14387
e96d5c42c4b0
Polymorphic treatment of binary arithmetic using axclasses
paulson
parents:
14378
diff
changeset
|
1538 |
|
| 31100 | 1539 |
declaration {*
|
1540 |
K (Lin_Arith.add_inj_thms [@{thm real_of_nat_le_iff} RS iffD2, @{thm real_of_nat_inject} RS iffD2]
|
|
1541 |
(* not needed because x < (y::nat) can be rewritten as Suc x <= y: real_of_nat_less_iff RS iffD2 *) |
|
1542 |
#> Lin_Arith.add_inj_thms [@{thm real_of_int_le_iff} RS iffD2, @{thm real_of_int_inject} RS iffD2]
|
|
1543 |
(* not needed because x < (y::int) can be rewritten as x + 1 <= y: real_of_int_less_iff RS iffD2 *) |
|
1544 |
#> Lin_Arith.add_simps [@{thm real_of_nat_zero}, @{thm real_of_nat_Suc}, @{thm real_of_nat_add},
|
|
1545 |
@{thm real_of_nat_mult}, @{thm real_of_int_zero}, @{thm real_of_one},
|
|
1546 |
@{thm real_of_int_add}, @{thm real_of_int_minus}, @{thm real_of_int_diff},
|
|
1547 |
@{thm real_of_int_mult}, @{thm real_of_int_of_nat_eq},
|
|
1548 |
@{thm real_of_nat_number_of}, @{thm real_number_of}]
|
|
|
36795
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
1549 |
#> Lin_Arith.add_inj_const (@{const_name real}, @{typ "nat \<Rightarrow> real"})
|
|
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
1550 |
#> Lin_Arith.add_inj_const (@{const_name real}, @{typ "int \<Rightarrow> real"}))
|
| 31100 | 1551 |
*} |
|
14387
e96d5c42c4b0
Polymorphic treatment of binary arithmetic using axclasses
paulson
parents:
14378
diff
changeset
|
1552 |
|
|
19023
5652a536b7e8
* include generalised MVT in HyperReal (contributed by Benjamin Porter)
kleing
parents:
16973
diff
changeset
|
1553 |
|
|
14387
e96d5c42c4b0
Polymorphic treatment of binary arithmetic using axclasses
paulson
parents:
14378
diff
changeset
|
1554 |
subsection{* Simprules combining x+y and 0: ARE THEY NEEDED?*}
|
|
e96d5c42c4b0
Polymorphic treatment of binary arithmetic using axclasses
paulson
parents:
14378
diff
changeset
|
1555 |
|
|
e96d5c42c4b0
Polymorphic treatment of binary arithmetic using axclasses
paulson
parents:
14378
diff
changeset
|
1556 |
text{*Needed in this non-standard form by Hyperreal/Transcendental*}
|
|
e96d5c42c4b0
Polymorphic treatment of binary arithmetic using axclasses
paulson
parents:
14378
diff
changeset
|
1557 |
lemma real_0_le_divide_iff: |
|
e96d5c42c4b0
Polymorphic treatment of binary arithmetic using axclasses
paulson
parents:
14378
diff
changeset
|
1558 |
"((0::real) \<le> x/y) = ((x \<le> 0 | 0 \<le> y) & (0 \<le> x | y \<le> 0))" |
|
36795
e05e1283c550
new construction of real numbers using Cauchy sequences
huffman
parents:
36776
diff
changeset
|
1559 |
by (auto simp add: zero_le_divide_iff) |
|
14387
e96d5c42c4b0
Polymorphic treatment of binary arithmetic using axclasses
paulson
parents:
14378
diff
changeset
|
1560 |
|
|
e96d5c42c4b0
Polymorphic treatment of binary arithmetic using axclasses
paulson
parents:
14378
diff
changeset
|
1561 |
lemma real_add_minus_iff [simp]: "(x + - a = (0::real)) = (x=a)" |
|
e96d5c42c4b0
Polymorphic treatment of binary arithmetic using axclasses
paulson
parents:
14378
diff
changeset
|
1562 |
by arith |
|
e96d5c42c4b0
Polymorphic treatment of binary arithmetic using axclasses
paulson
parents:
14378
diff
changeset
|
1563 |
|
|
36839
34dc65df7014
no more RealPow.thy (remaining lemmas moved to RealDef.thy)
huffman
parents:
36796
diff
changeset
|
1564 |
text {* FIXME: redundant with @{text add_eq_0_iff} below *}
|
|
15085
5693a977a767
removed some [iff] declarations from RealDef.thy, concerning inequalities
paulson
parents:
15077
diff
changeset
|
1565 |
lemma real_add_eq_0_iff: "(x+y = (0::real)) = (y = -x)" |
|
14387
e96d5c42c4b0
Polymorphic treatment of binary arithmetic using axclasses
paulson
parents:
14378
diff
changeset
|
1566 |
by auto |
|
e96d5c42c4b0
Polymorphic treatment of binary arithmetic using axclasses
paulson
parents:
14378
diff
changeset
|
1567 |
|
|
15085
5693a977a767
removed some [iff] declarations from RealDef.thy, concerning inequalities
paulson
parents:
15077
diff
changeset
|
1568 |
lemma real_add_less_0_iff: "(x+y < (0::real)) = (y < -x)" |
|
14387
e96d5c42c4b0
Polymorphic treatment of binary arithmetic using axclasses
paulson
parents:
14378
diff
changeset
|
1569 |
by auto |
|
e96d5c42c4b0
Polymorphic treatment of binary arithmetic using axclasses
paulson
parents:
14378
diff
changeset
|
1570 |
|
|
15085
5693a977a767
removed some [iff] declarations from RealDef.thy, concerning inequalities
paulson
parents:
15077
diff
changeset
|
1571 |
lemma real_0_less_add_iff: "((0::real) < x+y) = (-x < y)" |
|
14387
e96d5c42c4b0
Polymorphic treatment of binary arithmetic using axclasses
paulson
parents:
14378
diff
changeset
|
1572 |
by auto |
|
e96d5c42c4b0
Polymorphic treatment of binary arithmetic using axclasses
paulson
parents:
14378
diff
changeset
|
1573 |
|
|
15085
5693a977a767
removed some [iff] declarations from RealDef.thy, concerning inequalities
paulson
parents:
15077
diff
changeset
|
1574 |
lemma real_add_le_0_iff: "(x+y \<le> (0::real)) = (y \<le> -x)" |
|
14387
e96d5c42c4b0
Polymorphic treatment of binary arithmetic using axclasses
paulson
parents:
14378
diff
changeset
|
1575 |
by auto |
|
e96d5c42c4b0
Polymorphic treatment of binary arithmetic using axclasses
paulson
parents:
14378
diff
changeset
|
1576 |
|
|
15085
5693a977a767
removed some [iff] declarations from RealDef.thy, concerning inequalities
paulson
parents:
15077
diff
changeset
|
1577 |
lemma real_0_le_add_iff: "((0::real) \<le> x+y) = (-x \<le> y)" |
|
14387
e96d5c42c4b0
Polymorphic treatment of binary arithmetic using axclasses
paulson
parents:
14378
diff
changeset
|
1578 |
by auto |
|
e96d5c42c4b0
Polymorphic treatment of binary arithmetic using axclasses
paulson
parents:
14378
diff
changeset
|
1579 |
|
|
36839
34dc65df7014
no more RealPow.thy (remaining lemmas moved to RealDef.thy)
huffman
parents:
36796
diff
changeset
|
1580 |
subsection {* Lemmas about powers *}
|
|
14387
e96d5c42c4b0
Polymorphic treatment of binary arithmetic using axclasses
paulson
parents:
14378
diff
changeset
|
1581 |
|
|
36839
34dc65df7014
no more RealPow.thy (remaining lemmas moved to RealDef.thy)
huffman
parents:
36796
diff
changeset
|
1582 |
text {* FIXME: declare this in Rings.thy or not at all *}
|
|
34dc65df7014
no more RealPow.thy (remaining lemmas moved to RealDef.thy)
huffman
parents:
36796
diff
changeset
|
1583 |
declare abs_mult_self [simp] |
|
34dc65df7014
no more RealPow.thy (remaining lemmas moved to RealDef.thy)
huffman
parents:
36796
diff
changeset
|
1584 |
|
|
34dc65df7014
no more RealPow.thy (remaining lemmas moved to RealDef.thy)
huffman
parents:
36796
diff
changeset
|
1585 |
(* used by Import/HOL/real.imp *) |
|
34dc65df7014
no more RealPow.thy (remaining lemmas moved to RealDef.thy)
huffman
parents:
36796
diff
changeset
|
1586 |
lemma two_realpow_ge_one: "(1::real) \<le> 2 ^ n" |
|
34dc65df7014
no more RealPow.thy (remaining lemmas moved to RealDef.thy)
huffman
parents:
36796
diff
changeset
|
1587 |
by simp |
|
34dc65df7014
no more RealPow.thy (remaining lemmas moved to RealDef.thy)
huffman
parents:
36796
diff
changeset
|
1588 |
|
|
34dc65df7014
no more RealPow.thy (remaining lemmas moved to RealDef.thy)
huffman
parents:
36796
diff
changeset
|
1589 |
lemma two_realpow_gt [simp]: "real (n::nat) < 2 ^ n" |
|
34dc65df7014
no more RealPow.thy (remaining lemmas moved to RealDef.thy)
huffman
parents:
36796
diff
changeset
|
1590 |
apply (induct "n") |
|
34dc65df7014
no more RealPow.thy (remaining lemmas moved to RealDef.thy)
huffman
parents:
36796
diff
changeset
|
1591 |
apply (auto simp add: real_of_nat_Suc) |
|
34dc65df7014
no more RealPow.thy (remaining lemmas moved to RealDef.thy)
huffman
parents:
36796
diff
changeset
|
1592 |
apply (subst mult_2) |
|
34dc65df7014
no more RealPow.thy (remaining lemmas moved to RealDef.thy)
huffman
parents:
36796
diff
changeset
|
1593 |
apply (erule add_less_le_mono) |
|
34dc65df7014
no more RealPow.thy (remaining lemmas moved to RealDef.thy)
huffman
parents:
36796
diff
changeset
|
1594 |
apply (rule two_realpow_ge_one) |
|
34dc65df7014
no more RealPow.thy (remaining lemmas moved to RealDef.thy)
huffman
parents:
36796
diff
changeset
|
1595 |
done |
|
34dc65df7014
no more RealPow.thy (remaining lemmas moved to RealDef.thy)
huffman
parents:
36796
diff
changeset
|
1596 |
|
|
34dc65df7014
no more RealPow.thy (remaining lemmas moved to RealDef.thy)
huffman
parents:
36796
diff
changeset
|
1597 |
text {* TODO: no longer real-specific; rename and move elsewhere *}
|
|
34dc65df7014
no more RealPow.thy (remaining lemmas moved to RealDef.thy)
huffman
parents:
36796
diff
changeset
|
1598 |
lemma realpow_Suc_le_self: |
|
34dc65df7014
no more RealPow.thy (remaining lemmas moved to RealDef.thy)
huffman
parents:
36796
diff
changeset
|
1599 |
fixes r :: "'a::linordered_semidom" |
|
34dc65df7014
no more RealPow.thy (remaining lemmas moved to RealDef.thy)
huffman
parents:
36796
diff
changeset
|
1600 |
shows "[| 0 \<le> r; r \<le> 1 |] ==> r ^ Suc n \<le> r" |
|
34dc65df7014
no more RealPow.thy (remaining lemmas moved to RealDef.thy)
huffman
parents:
36796
diff
changeset
|
1601 |
by (insert power_decreasing [of 1 "Suc n" r], simp) |
|
34dc65df7014
no more RealPow.thy (remaining lemmas moved to RealDef.thy)
huffman
parents:
36796
diff
changeset
|
1602 |
|
|
34dc65df7014
no more RealPow.thy (remaining lemmas moved to RealDef.thy)
huffman
parents:
36796
diff
changeset
|
1603 |
text {* TODO: no longer real-specific; rename and move elsewhere *}
|
|
34dc65df7014
no more RealPow.thy (remaining lemmas moved to RealDef.thy)
huffman
parents:
36796
diff
changeset
|
1604 |
lemma realpow_minus_mult: |
|
34dc65df7014
no more RealPow.thy (remaining lemmas moved to RealDef.thy)
huffman
parents:
36796
diff
changeset
|
1605 |
fixes x :: "'a::monoid_mult" |
|
34dc65df7014
no more RealPow.thy (remaining lemmas moved to RealDef.thy)
huffman
parents:
36796
diff
changeset
|
1606 |
shows "0 < n \<Longrightarrow> x ^ (n - 1) * x = x ^ n" |
|
34dc65df7014
no more RealPow.thy (remaining lemmas moved to RealDef.thy)
huffman
parents:
36796
diff
changeset
|
1607 |
by (simp add: power_commutes split add: nat_diff_split) |
|
34dc65df7014
no more RealPow.thy (remaining lemmas moved to RealDef.thy)
huffman
parents:
36796
diff
changeset
|
1608 |
|
|
34dc65df7014
no more RealPow.thy (remaining lemmas moved to RealDef.thy)
huffman
parents:
36796
diff
changeset
|
1609 |
text {* TODO: no longer real-specific; rename and move elsewhere *}
|
|
34dc65df7014
no more RealPow.thy (remaining lemmas moved to RealDef.thy)
huffman
parents:
36796
diff
changeset
|
1610 |
lemma realpow_two_diff: |
|
34dc65df7014
no more RealPow.thy (remaining lemmas moved to RealDef.thy)
huffman
parents:
36796
diff
changeset
|
1611 |
fixes x :: "'a::comm_ring_1" |
|
34dc65df7014
no more RealPow.thy (remaining lemmas moved to RealDef.thy)
huffman
parents:
36796
diff
changeset
|
1612 |
shows "x^Suc (Suc 0) - y^Suc (Suc 0) = (x - y) * (x + y)" |
|
34dc65df7014
no more RealPow.thy (remaining lemmas moved to RealDef.thy)
huffman
parents:
36796
diff
changeset
|
1613 |
by (simp add: algebra_simps) |
|
34dc65df7014
no more RealPow.thy (remaining lemmas moved to RealDef.thy)
huffman
parents:
36796
diff
changeset
|
1614 |
|
|
34dc65df7014
no more RealPow.thy (remaining lemmas moved to RealDef.thy)
huffman
parents:
36796
diff
changeset
|
1615 |
text {* TODO: move elsewhere *}
|
|
34dc65df7014
no more RealPow.thy (remaining lemmas moved to RealDef.thy)
huffman
parents:
36796
diff
changeset
|
1616 |
lemma add_eq_0_iff: |
|
34dc65df7014
no more RealPow.thy (remaining lemmas moved to RealDef.thy)
huffman
parents:
36796
diff
changeset
|
1617 |
fixes x y :: "'a::group_add" |
|
34dc65df7014
no more RealPow.thy (remaining lemmas moved to RealDef.thy)
huffman
parents:
36796
diff
changeset
|
1618 |
shows "x + y = 0 \<longleftrightarrow> y = - x" |
|
34dc65df7014
no more RealPow.thy (remaining lemmas moved to RealDef.thy)
huffman
parents:
36796
diff
changeset
|
1619 |
by (auto dest: minus_unique) |
|
34dc65df7014
no more RealPow.thy (remaining lemmas moved to RealDef.thy)
huffman
parents:
36796
diff
changeset
|
1620 |
|
|
34dc65df7014
no more RealPow.thy (remaining lemmas moved to RealDef.thy)
huffman
parents:
36796
diff
changeset
|
1621 |
text {* TODO: no longer real-specific; rename and move elsewhere *}
|
|
34dc65df7014
no more RealPow.thy (remaining lemmas moved to RealDef.thy)
huffman
parents:
36796
diff
changeset
|
1622 |
lemma realpow_two_disj: |
|
34dc65df7014
no more RealPow.thy (remaining lemmas moved to RealDef.thy)
huffman
parents:
36796
diff
changeset
|
1623 |
fixes x :: "'a::idom" |
|
34dc65df7014
no more RealPow.thy (remaining lemmas moved to RealDef.thy)
huffman
parents:
36796
diff
changeset
|
1624 |
shows "(x^Suc (Suc 0) = y^Suc (Suc 0)) = (x = y | x = -y)" |
|
34dc65df7014
no more RealPow.thy (remaining lemmas moved to RealDef.thy)
huffman
parents:
36796
diff
changeset
|
1625 |
using realpow_two_diff [of x y] |
|
34dc65df7014
no more RealPow.thy (remaining lemmas moved to RealDef.thy)
huffman
parents:
36796
diff
changeset
|
1626 |
by (auto simp add: add_eq_0_iff) |
|
34dc65df7014
no more RealPow.thy (remaining lemmas moved to RealDef.thy)
huffman
parents:
36796
diff
changeset
|
1627 |
|
|
34dc65df7014
no more RealPow.thy (remaining lemmas moved to RealDef.thy)
huffman
parents:
36796
diff
changeset
|
1628 |
text {* FIXME: declare this [simp] for all types, or not at all *}
|
|
34dc65df7014
no more RealPow.thy (remaining lemmas moved to RealDef.thy)
huffman
parents:
36796
diff
changeset
|
1629 |
lemma real_two_squares_add_zero_iff [simp]: |
|
34dc65df7014
no more RealPow.thy (remaining lemmas moved to RealDef.thy)
huffman
parents:
36796
diff
changeset
|
1630 |
"(x * x + y * y = 0) = ((x::real) = 0 \<and> y = 0)" |
|
34dc65df7014
no more RealPow.thy (remaining lemmas moved to RealDef.thy)
huffman
parents:
36796
diff
changeset
|
1631 |
by (rule sum_squares_eq_zero_iff) |
|
34dc65df7014
no more RealPow.thy (remaining lemmas moved to RealDef.thy)
huffman
parents:
36796
diff
changeset
|
1632 |
|
|
34dc65df7014
no more RealPow.thy (remaining lemmas moved to RealDef.thy)
huffman
parents:
36796
diff
changeset
|
1633 |
text {* TODO: no longer real-specific; rename and move elsewhere *}
|
|
34dc65df7014
no more RealPow.thy (remaining lemmas moved to RealDef.thy)
huffman
parents:
36796
diff
changeset
|
1634 |
lemma real_squared_diff_one_factored: |
|
34dc65df7014
no more RealPow.thy (remaining lemmas moved to RealDef.thy)
huffman
parents:
36796
diff
changeset
|
1635 |
fixes x :: "'a::ring_1" |
|
34dc65df7014
no more RealPow.thy (remaining lemmas moved to RealDef.thy)
huffman
parents:
36796
diff
changeset
|
1636 |
shows "x * x - 1 = (x + 1) * (x - 1)" |
|
34dc65df7014
no more RealPow.thy (remaining lemmas moved to RealDef.thy)
huffman
parents:
36796
diff
changeset
|
1637 |
by (simp add: algebra_simps) |
|
34dc65df7014
no more RealPow.thy (remaining lemmas moved to RealDef.thy)
huffman
parents:
36796
diff
changeset
|
1638 |
|
|
34dc65df7014
no more RealPow.thy (remaining lemmas moved to RealDef.thy)
huffman
parents:
36796
diff
changeset
|
1639 |
text {* FIXME: declare this [simp] for all types, or not at all *}
|
|
34dc65df7014
no more RealPow.thy (remaining lemmas moved to RealDef.thy)
huffman
parents:
36796
diff
changeset
|
1640 |
lemma realpow_two_sum_zero_iff [simp]: |
|
34dc65df7014
no more RealPow.thy (remaining lemmas moved to RealDef.thy)
huffman
parents:
36796
diff
changeset
|
1641 |
"(x ^ 2 + y ^ 2 = (0::real)) = (x = 0 & y = 0)" |
|
34dc65df7014
no more RealPow.thy (remaining lemmas moved to RealDef.thy)
huffman
parents:
36796
diff
changeset
|
1642 |
by (rule sum_power2_eq_zero_iff) |
|
34dc65df7014
no more RealPow.thy (remaining lemmas moved to RealDef.thy)
huffman
parents:
36796
diff
changeset
|
1643 |
|
|
34dc65df7014
no more RealPow.thy (remaining lemmas moved to RealDef.thy)
huffman
parents:
36796
diff
changeset
|
1644 |
lemma real_minus_mult_self_le [simp]: "-(u * u) \<le> (x * (x::real))" |
|
34dc65df7014
no more RealPow.thy (remaining lemmas moved to RealDef.thy)
huffman
parents:
36796
diff
changeset
|
1645 |
by (rule_tac y = 0 in order_trans, auto) |
|
34dc65df7014
no more RealPow.thy (remaining lemmas moved to RealDef.thy)
huffman
parents:
36796
diff
changeset
|
1646 |
|
|
34dc65df7014
no more RealPow.thy (remaining lemmas moved to RealDef.thy)
huffman
parents:
36796
diff
changeset
|
1647 |
lemma realpow_square_minus_le [simp]: "-(u ^ 2) \<le> (x::real) ^ 2" |
|
34dc65df7014
no more RealPow.thy (remaining lemmas moved to RealDef.thy)
huffman
parents:
36796
diff
changeset
|
1648 |
by (auto simp add: power2_eq_square) |
|
34dc65df7014
no more RealPow.thy (remaining lemmas moved to RealDef.thy)
huffman
parents:
36796
diff
changeset
|
1649 |
|
|
34dc65df7014
no more RealPow.thy (remaining lemmas moved to RealDef.thy)
huffman
parents:
36796
diff
changeset
|
1650 |
|
|
34dc65df7014
no more RealPow.thy (remaining lemmas moved to RealDef.thy)
huffman
parents:
36796
diff
changeset
|
1651 |
subsection{*Density of the Reals*}
|
|
14387
e96d5c42c4b0
Polymorphic treatment of binary arithmetic using axclasses
paulson
parents:
14378
diff
changeset
|
1652 |
|
|
e96d5c42c4b0
Polymorphic treatment of binary arithmetic using axclasses
paulson
parents:
14378
diff
changeset
|
1653 |
lemma real_lbound_gt_zero: |
|
e96d5c42c4b0
Polymorphic treatment of binary arithmetic using axclasses
paulson
parents:
14378
diff
changeset
|
1654 |
"[| (0::real) < d1; 0 < d2 |] ==> \<exists>e. 0 < e & e < d1 & e < d2" |
|
e96d5c42c4b0
Polymorphic treatment of binary arithmetic using axclasses
paulson
parents:
14378
diff
changeset
|
1655 |
apply (rule_tac x = " (min d1 d2) /2" in exI) |
|
e96d5c42c4b0
Polymorphic treatment of binary arithmetic using axclasses
paulson
parents:
14378
diff
changeset
|
1656 |
apply (simp add: min_def) |
|
e96d5c42c4b0
Polymorphic treatment of binary arithmetic using axclasses
paulson
parents:
14378
diff
changeset
|
1657 |
done |
|
e96d5c42c4b0
Polymorphic treatment of binary arithmetic using axclasses
paulson
parents:
14378
diff
changeset
|
1658 |
|
|
e96d5c42c4b0
Polymorphic treatment of binary arithmetic using axclasses
paulson
parents:
14378
diff
changeset
|
1659 |
|
|
35050
9f841f20dca6
renamed OrderedGroup to Groups; split theory Ring_and_Field into Rings Fields
haftmann
parents:
35032
diff
changeset
|
1660 |
text{*Similar results are proved in @{text Fields}*}
|
|
14387
e96d5c42c4b0
Polymorphic treatment of binary arithmetic using axclasses
paulson
parents:
14378
diff
changeset
|
1661 |
lemma real_less_half_sum: "x < y ==> x < (x+y) / (2::real)" |
|
e96d5c42c4b0
Polymorphic treatment of binary arithmetic using axclasses
paulson
parents:
14378
diff
changeset
|
1662 |
by auto |
|
e96d5c42c4b0
Polymorphic treatment of binary arithmetic using axclasses
paulson
parents:
14378
diff
changeset
|
1663 |
|
|
e96d5c42c4b0
Polymorphic treatment of binary arithmetic using axclasses
paulson
parents:
14378
diff
changeset
|
1664 |
lemma real_gt_half_sum: "x < y ==> (x+y)/(2::real) < y" |
|
e96d5c42c4b0
Polymorphic treatment of binary arithmetic using axclasses
paulson
parents:
14378
diff
changeset
|
1665 |
by auto |
|
e96d5c42c4b0
Polymorphic treatment of binary arithmetic using axclasses
paulson
parents:
14378
diff
changeset
|
1666 |
|
|
e96d5c42c4b0
Polymorphic treatment of binary arithmetic using axclasses
paulson
parents:
14378
diff
changeset
|
1667 |
|
|
e96d5c42c4b0
Polymorphic treatment of binary arithmetic using axclasses
paulson
parents:
14378
diff
changeset
|
1668 |
subsection{*Absolute Value Function for the Reals*}
|
|
e96d5c42c4b0
Polymorphic treatment of binary arithmetic using axclasses
paulson
parents:
14378
diff
changeset
|
1669 |
|
|
e96d5c42c4b0
Polymorphic treatment of binary arithmetic using axclasses
paulson
parents:
14378
diff
changeset
|
1670 |
lemma abs_minus_add_cancel: "abs(x + (-y)) = abs (y + (-(x::real)))" |
| 15003 | 1671 |
by (simp add: abs_if) |
|
14387
e96d5c42c4b0
Polymorphic treatment of binary arithmetic using axclasses
paulson
parents:
14378
diff
changeset
|
1672 |
|
| 23289 | 1673 |
(* FIXME: redundant, but used by Integration/RealRandVar.thy in AFP *) |
|
14387
e96d5c42c4b0
Polymorphic treatment of binary arithmetic using axclasses
paulson
parents:
14378
diff
changeset
|
1674 |
lemma abs_le_interval_iff: "(abs x \<le> r) = (-r\<le>x & x\<le>(r::real))" |
|
35050
9f841f20dca6
renamed OrderedGroup to Groups; split theory Ring_and_Field into Rings Fields
haftmann
parents:
35032
diff
changeset
|
1675 |
by (force simp add: abs_le_iff) |
|
14387
e96d5c42c4b0
Polymorphic treatment of binary arithmetic using axclasses
paulson
parents:
14378
diff
changeset
|
1676 |
|
| 44344 | 1677 |
lemma abs_add_one_gt_zero: "(0::real) < 1 + abs(x)" |
| 15003 | 1678 |
by (simp add: abs_if) |
|
14387
e96d5c42c4b0
Polymorphic treatment of binary arithmetic using axclasses
paulson
parents:
14378
diff
changeset
|
1679 |
|
|
e96d5c42c4b0
Polymorphic treatment of binary arithmetic using axclasses
paulson
parents:
14378
diff
changeset
|
1680 |
lemma abs_real_of_nat_cancel [simp]: "abs (real x) = real (x::nat)" |
| 22958 | 1681 |
by (rule abs_of_nonneg [OF real_of_nat_ge_zero]) |
|
14387
e96d5c42c4b0
Polymorphic treatment of binary arithmetic using axclasses
paulson
parents:
14378
diff
changeset
|
1682 |
|
| 44344 | 1683 |
lemma abs_add_one_not_less_self: "~ abs(x) + (1::real) < x" |
|
20217
25b068a99d2b
linear arithmetic splits certain operators (e.g. min, max, abs)
webertj
parents:
19765
diff
changeset
|
1684 |
by simp |
|
14387
e96d5c42c4b0
Polymorphic treatment of binary arithmetic using axclasses
paulson
parents:
14378
diff
changeset
|
1685 |
|
|
e96d5c42c4b0
Polymorphic treatment of binary arithmetic using axclasses
paulson
parents:
14378
diff
changeset
|
1686 |
lemma abs_sum_triangle_ineq: "abs ((x::real) + y + (-l + -m)) \<le> abs(x + -l) + abs(y + -m)" |
|
20217
25b068a99d2b
linear arithmetic splits certain operators (e.g. min, max, abs)
webertj
parents:
19765
diff
changeset
|
1687 |
by simp |
|
14387
e96d5c42c4b0
Polymorphic treatment of binary arithmetic using axclasses
paulson
parents:
14378
diff
changeset
|
1688 |
|
|
24534
09b9a47904b7
New code generator setup (taken from Library/Executable_Real.thy,
berghofe
parents:
24506
diff
changeset
|
1689 |
|
| 27544 | 1690 |
subsection {* Implementation of rational real numbers *}
|
|
24534
09b9a47904b7
New code generator setup (taken from Library/Executable_Real.thy,
berghofe
parents:
24506
diff
changeset
|
1691 |
|
| 27544 | 1692 |
definition Ratreal :: "rat \<Rightarrow> real" where |
1693 |
[simp]: "Ratreal = of_rat" |
|
|
24534
09b9a47904b7
New code generator setup (taken from Library/Executable_Real.thy,
berghofe
parents:
24506
diff
changeset
|
1694 |
|
| 24623 | 1695 |
code_datatype Ratreal |
|
24534
09b9a47904b7
New code generator setup (taken from Library/Executable_Real.thy,
berghofe
parents:
24506
diff
changeset
|
1696 |
|
|
31998
2c7a24f74db9
code attributes use common underscore convention
haftmann
parents:
31952
diff
changeset
|
1697 |
lemma Ratreal_number_collapse [code_post]: |
| 27544 | 1698 |
"Ratreal 0 = 0" |
1699 |
"Ratreal 1 = 1" |
|
1700 |
"Ratreal (number_of k) = number_of k" |
|
1701 |
by simp_all |
|
|
24534
09b9a47904b7
New code generator setup (taken from Library/Executable_Real.thy,
berghofe
parents:
24506
diff
changeset
|
1702 |
|
|
31998
2c7a24f74db9
code attributes use common underscore convention
haftmann
parents:
31952
diff
changeset
|
1703 |
lemma zero_real_code [code, code_unfold]: |
| 27544 | 1704 |
"0 = Ratreal 0" |
1705 |
by simp |
|
|
24534
09b9a47904b7
New code generator setup (taken from Library/Executable_Real.thy,
berghofe
parents:
24506
diff
changeset
|
1706 |
|
|
31998
2c7a24f74db9
code attributes use common underscore convention
haftmann
parents:
31952
diff
changeset
|
1707 |
lemma one_real_code [code, code_unfold]: |
| 27544 | 1708 |
"1 = Ratreal 1" |
1709 |
by simp |
|
1710 |
||
|
31998
2c7a24f74db9
code attributes use common underscore convention
haftmann
parents:
31952
diff
changeset
|
1711 |
lemma number_of_real_code [code_unfold]: |
| 27544 | 1712 |
"number_of k = Ratreal (number_of k)" |
1713 |
by simp |
|
1714 |
||
|
31998
2c7a24f74db9
code attributes use common underscore convention
haftmann
parents:
31952
diff
changeset
|
1715 |
lemma Ratreal_number_of_quotient [code_post]: |
| 27544 | 1716 |
"Ratreal (number_of r) / Ratreal (number_of s) = number_of r / number_of s" |
1717 |
by simp |
|
1718 |
||
|
31998
2c7a24f74db9
code attributes use common underscore convention
haftmann
parents:
31952
diff
changeset
|
1719 |
lemma Ratreal_number_of_quotient2 [code_post]: |
| 27544 | 1720 |
"Ratreal (number_of r / number_of s) = number_of r / number_of s" |
1721 |
unfolding Ratreal_number_of_quotient [symmetric] Ratreal_def of_rat_divide .. |
|
|
24534
09b9a47904b7
New code generator setup (taken from Library/Executable_Real.thy,
berghofe
parents:
24506
diff
changeset
|
1722 |
|
|
38857
97775f3e8722
renamed class/constant eq to equal; tuned some instantiations
haftmann
parents:
38287
diff
changeset
|
1723 |
instantiation real :: equal |
| 26513 | 1724 |
begin |
1725 |
||
|
38857
97775f3e8722
renamed class/constant eq to equal; tuned some instantiations
haftmann
parents:
38287
diff
changeset
|
1726 |
definition "HOL.equal (x\<Colon>real) y \<longleftrightarrow> x - y = 0" |
| 26513 | 1727 |
|
|
38857
97775f3e8722
renamed class/constant eq to equal; tuned some instantiations
haftmann
parents:
38287
diff
changeset
|
1728 |
instance proof |
|
97775f3e8722
renamed class/constant eq to equal; tuned some instantiations
haftmann
parents:
38287
diff
changeset
|
1729 |
qed (simp add: equal_real_def) |
|
24534
09b9a47904b7
New code generator setup (taken from Library/Executable_Real.thy,
berghofe
parents:
24506
diff
changeset
|
1730 |
|
|
38857
97775f3e8722
renamed class/constant eq to equal; tuned some instantiations
haftmann
parents:
38287
diff
changeset
|
1731 |
lemma real_equal_code [code]: |
|
97775f3e8722
renamed class/constant eq to equal; tuned some instantiations
haftmann
parents:
38287
diff
changeset
|
1732 |
"HOL.equal (Ratreal x) (Ratreal y) \<longleftrightarrow> HOL.equal x y" |
|
97775f3e8722
renamed class/constant eq to equal; tuned some instantiations
haftmann
parents:
38287
diff
changeset
|
1733 |
by (simp add: equal_real_def equal) |
| 26513 | 1734 |
|
|
38857
97775f3e8722
renamed class/constant eq to equal; tuned some instantiations
haftmann
parents:
38287
diff
changeset
|
1735 |
lemma [code nbe]: |
|
97775f3e8722
renamed class/constant eq to equal; tuned some instantiations
haftmann
parents:
38287
diff
changeset
|
1736 |
"HOL.equal (x::real) x \<longleftrightarrow> True" |
|
97775f3e8722
renamed class/constant eq to equal; tuned some instantiations
haftmann
parents:
38287
diff
changeset
|
1737 |
by (rule equal_refl) |
| 28351 | 1738 |
|
| 26513 | 1739 |
end |
|
24534
09b9a47904b7
New code generator setup (taken from Library/Executable_Real.thy,
berghofe
parents:
24506
diff
changeset
|
1740 |
|
| 27544 | 1741 |
lemma real_less_eq_code [code]: "Ratreal x \<le> Ratreal y \<longleftrightarrow> x \<le> y" |
|
27652
818666de6c24
refined code generator setup for rational numbers; more simplification rules for rational numbers
haftmann
parents:
27544
diff
changeset
|
1742 |
by (simp add: of_rat_less_eq) |
|
24534
09b9a47904b7
New code generator setup (taken from Library/Executable_Real.thy,
berghofe
parents:
24506
diff
changeset
|
1743 |
|
| 27544 | 1744 |
lemma real_less_code [code]: "Ratreal x < Ratreal y \<longleftrightarrow> x < y" |
|
27652
818666de6c24
refined code generator setup for rational numbers; more simplification rules for rational numbers
haftmann
parents:
27544
diff
changeset
|
1745 |
by (simp add: of_rat_less) |
|
24534
09b9a47904b7
New code generator setup (taken from Library/Executable_Real.thy,
berghofe
parents:
24506
diff
changeset
|
1746 |
|
| 27544 | 1747 |
lemma real_plus_code [code]: "Ratreal x + Ratreal y = Ratreal (x + y)" |
1748 |
by (simp add: of_rat_add) |
|
|
24534
09b9a47904b7
New code generator setup (taken from Library/Executable_Real.thy,
berghofe
parents:
24506
diff
changeset
|
1749 |
|
| 27544 | 1750 |
lemma real_times_code [code]: "Ratreal x * Ratreal y = Ratreal (x * y)" |
1751 |
by (simp add: of_rat_mult) |
|
1752 |
||
1753 |
lemma real_uminus_code [code]: "- Ratreal x = Ratreal (- x)" |
|
1754 |
by (simp add: of_rat_minus) |
|
|
24534
09b9a47904b7
New code generator setup (taken from Library/Executable_Real.thy,
berghofe
parents:
24506
diff
changeset
|
1755 |
|
| 27544 | 1756 |
lemma real_minus_code [code]: "Ratreal x - Ratreal y = Ratreal (x - y)" |
1757 |
by (simp add: of_rat_diff) |
|
|
24534
09b9a47904b7
New code generator setup (taken from Library/Executable_Real.thy,
berghofe
parents:
24506
diff
changeset
|
1758 |
|
| 27544 | 1759 |
lemma real_inverse_code [code]: "inverse (Ratreal x) = Ratreal (inverse x)" |
1760 |
by (simp add: of_rat_inverse) |
|
1761 |
||
1762 |
lemma real_divide_code [code]: "Ratreal x / Ratreal y = Ratreal (x / y)" |
|
1763 |
by (simp add: of_rat_divide) |
|
|
24534
09b9a47904b7
New code generator setup (taken from Library/Executable_Real.thy,
berghofe
parents:
24506
diff
changeset
|
1764 |
|
|
43733
a6ca7b83612f
adding code equations to execute floor and ceiling on rational and real numbers
bulwahn
parents:
43732
diff
changeset
|
1765 |
lemma real_floor_code [code]: "floor (Ratreal x) = floor x" |
|
a6ca7b83612f
adding code equations to execute floor and ceiling on rational and real numbers
bulwahn
parents:
43732
diff
changeset
|
1766 |
by (metis Ratreal_def floor_le_iff floor_unique le_floor_iff of_int_floor_le of_rat_of_int_eq real_less_eq_code) |
|
a6ca7b83612f
adding code equations to execute floor and ceiling on rational and real numbers
bulwahn
parents:
43732
diff
changeset
|
1767 |
|
|
31203
5c8fb4fd67e0
moved Code_Index, Random and Quickcheck before Main
haftmann
parents:
31100
diff
changeset
|
1768 |
definition (in term_syntax) |
| 32657 | 1769 |
valterm_ratreal :: "rat \<times> (unit \<Rightarrow> Code_Evaluation.term) \<Rightarrow> real \<times> (unit \<Rightarrow> Code_Evaluation.term)" where |
1770 |
[code_unfold]: "valterm_ratreal k = Code_Evaluation.valtermify Ratreal {\<cdot>} k"
|
|
|
31203
5c8fb4fd67e0
moved Code_Index, Random and Quickcheck before Main
haftmann
parents:
31100
diff
changeset
|
1771 |
|
| 37751 | 1772 |
notation fcomp (infixl "\<circ>>" 60) |
1773 |
notation scomp (infixl "\<circ>\<rightarrow>" 60) |
|
|
31203
5c8fb4fd67e0
moved Code_Index, Random and Quickcheck before Main
haftmann
parents:
31100
diff
changeset
|
1774 |
|
|
5c8fb4fd67e0
moved Code_Index, Random and Quickcheck before Main
haftmann
parents:
31100
diff
changeset
|
1775 |
instantiation real :: random |
|
5c8fb4fd67e0
moved Code_Index, Random and Quickcheck before Main
haftmann
parents:
31100
diff
changeset
|
1776 |
begin |
|
5c8fb4fd67e0
moved Code_Index, Random and Quickcheck before Main
haftmann
parents:
31100
diff
changeset
|
1777 |
|
|
5c8fb4fd67e0
moved Code_Index, Random and Quickcheck before Main
haftmann
parents:
31100
diff
changeset
|
1778 |
definition |
| 37751 | 1779 |
"Quickcheck.random i = Quickcheck.random i \<circ>\<rightarrow> (\<lambda>r. Pair (valterm_ratreal r))" |
|
31203
5c8fb4fd67e0
moved Code_Index, Random and Quickcheck before Main
haftmann
parents:
31100
diff
changeset
|
1780 |
|
|
5c8fb4fd67e0
moved Code_Index, Random and Quickcheck before Main
haftmann
parents:
31100
diff
changeset
|
1781 |
instance .. |
|
5c8fb4fd67e0
moved Code_Index, Random and Quickcheck before Main
haftmann
parents:
31100
diff
changeset
|
1782 |
|
|
5c8fb4fd67e0
moved Code_Index, Random and Quickcheck before Main
haftmann
parents:
31100
diff
changeset
|
1783 |
end |
|
5c8fb4fd67e0
moved Code_Index, Random and Quickcheck before Main
haftmann
parents:
31100
diff
changeset
|
1784 |
|
| 37751 | 1785 |
no_notation fcomp (infixl "\<circ>>" 60) |
1786 |
no_notation scomp (infixl "\<circ>\<rightarrow>" 60) |
|
|
31203
5c8fb4fd67e0
moved Code_Index, Random and Quickcheck before Main
haftmann
parents:
31100
diff
changeset
|
1787 |
|
|
41920
d4fb7a418152
moving exhaustive_generators.ML to Quickcheck directory
bulwahn
parents:
41792
diff
changeset
|
1788 |
instantiation real :: exhaustive |
|
41231
2e901158675e
adding exhaustive tester instances for numeric types: code_numeral, nat, rat and real
bulwahn
parents:
41024
diff
changeset
|
1789 |
begin |
|
2e901158675e
adding exhaustive tester instances for numeric types: code_numeral, nat, rat and real
bulwahn
parents:
41024
diff
changeset
|
1790 |
|
|
2e901158675e
adding exhaustive tester instances for numeric types: code_numeral, nat, rat and real
bulwahn
parents:
41024
diff
changeset
|
1791 |
definition |
|
42311
eb32a8474a57
rational and real instances for new compilation scheme for exhaustive quickcheck
bulwahn
parents:
42112
diff
changeset
|
1792 |
"exhaustive f d = exhaustive (%r. f (Ratreal r)) d" |
|
eb32a8474a57
rational and real instances for new compilation scheme for exhaustive quickcheck
bulwahn
parents:
42112
diff
changeset
|
1793 |
|
|
eb32a8474a57
rational and real instances for new compilation scheme for exhaustive quickcheck
bulwahn
parents:
42112
diff
changeset
|
1794 |
instance .. |
|
eb32a8474a57
rational and real instances for new compilation scheme for exhaustive quickcheck
bulwahn
parents:
42112
diff
changeset
|
1795 |
|
|
eb32a8474a57
rational and real instances for new compilation scheme for exhaustive quickcheck
bulwahn
parents:
42112
diff
changeset
|
1796 |
end |
|
eb32a8474a57
rational and real instances for new compilation scheme for exhaustive quickcheck
bulwahn
parents:
42112
diff
changeset
|
1797 |
|
|
eb32a8474a57
rational and real instances for new compilation scheme for exhaustive quickcheck
bulwahn
parents:
42112
diff
changeset
|
1798 |
instantiation real :: full_exhaustive |
|
eb32a8474a57
rational and real instances for new compilation scheme for exhaustive quickcheck
bulwahn
parents:
42112
diff
changeset
|
1799 |
begin |
|
eb32a8474a57
rational and real instances for new compilation scheme for exhaustive quickcheck
bulwahn
parents:
42112
diff
changeset
|
1800 |
|
|
eb32a8474a57
rational and real instances for new compilation scheme for exhaustive quickcheck
bulwahn
parents:
42112
diff
changeset
|
1801 |
definition |
|
eb32a8474a57
rational and real instances for new compilation scheme for exhaustive quickcheck
bulwahn
parents:
42112
diff
changeset
|
1802 |
"full_exhaustive f d = full_exhaustive (%r. f (valterm_ratreal r)) d" |
|
41231
2e901158675e
adding exhaustive tester instances for numeric types: code_numeral, nat, rat and real
bulwahn
parents:
41024
diff
changeset
|
1803 |
|
|
2e901158675e
adding exhaustive tester instances for numeric types: code_numeral, nat, rat and real
bulwahn
parents:
41024
diff
changeset
|
1804 |
instance .. |
|
2e901158675e
adding exhaustive tester instances for numeric types: code_numeral, nat, rat and real
bulwahn
parents:
41024
diff
changeset
|
1805 |
|
|
2e901158675e
adding exhaustive tester instances for numeric types: code_numeral, nat, rat and real
bulwahn
parents:
41024
diff
changeset
|
1806 |
end |
|
2e901158675e
adding exhaustive tester instances for numeric types: code_numeral, nat, rat and real
bulwahn
parents:
41024
diff
changeset
|
1807 |
|
| 43887 | 1808 |
instantiation real :: narrowing |
1809 |
begin |
|
1810 |
||
1811 |
definition |
|
1812 |
"narrowing = Quickcheck_Narrowing.apply (Quickcheck_Narrowing.cons Ratreal) narrowing" |
|
1813 |
||
1814 |
instance .. |
|
1815 |
||
1816 |
end |
|
1817 |
||
1818 |
||
| 24623 | 1819 |
text {* Setup for SML code generator *}
|
|
23031
9da9585c816e
added code generation based on Isabelle's rat type.
nipkow
parents:
22970
diff
changeset
|
1820 |
|
|
9da9585c816e
added code generation based on Isabelle's rat type.
nipkow
parents:
22970
diff
changeset
|
1821 |
types_code |
|
24534
09b9a47904b7
New code generator setup (taken from Library/Executable_Real.thy,
berghofe
parents:
24506
diff
changeset
|
1822 |
real ("(int */ int)")
|
|
23031
9da9585c816e
added code generation based on Isabelle's rat type.
nipkow
parents:
22970
diff
changeset
|
1823 |
attach (term_of) {*
|
|
24534
09b9a47904b7
New code generator setup (taken from Library/Executable_Real.thy,
berghofe
parents:
24506
diff
changeset
|
1824 |
fun term_of_real (p, q) = |
| 24623 | 1825 |
let |
1826 |
val rT = HOLogic.realT |
|
|
24534
09b9a47904b7
New code generator setup (taken from Library/Executable_Real.thy,
berghofe
parents:
24506
diff
changeset
|
1827 |
in |
|
09b9a47904b7
New code generator setup (taken from Library/Executable_Real.thy,
berghofe
parents:
24506
diff
changeset
|
1828 |
if q = 1 orelse p = 0 then HOLogic.mk_number rT p |
| 24623 | 1829 |
else @{term "op / \<Colon> real \<Rightarrow> real \<Rightarrow> real"} $
|
|
24534
09b9a47904b7
New code generator setup (taken from Library/Executable_Real.thy,
berghofe
parents:
24506
diff
changeset
|
1830 |
HOLogic.mk_number rT p $ HOLogic.mk_number rT q |
|
09b9a47904b7
New code generator setup (taken from Library/Executable_Real.thy,
berghofe
parents:
24506
diff
changeset
|
1831 |
end; |
|
23031
9da9585c816e
added code generation based on Isabelle's rat type.
nipkow
parents:
22970
diff
changeset
|
1832 |
*} |
|
9da9585c816e
added code generation based on Isabelle's rat type.
nipkow
parents:
22970
diff
changeset
|
1833 |
attach (test) {*
|
|
9da9585c816e
added code generation based on Isabelle's rat type.
nipkow
parents:
22970
diff
changeset
|
1834 |
fun gen_real i = |
|
24534
09b9a47904b7
New code generator setup (taken from Library/Executable_Real.thy,
berghofe
parents:
24506
diff
changeset
|
1835 |
let |
|
09b9a47904b7
New code generator setup (taken from Library/Executable_Real.thy,
berghofe
parents:
24506
diff
changeset
|
1836 |
val p = random_range 0 i; |
|
09b9a47904b7
New code generator setup (taken from Library/Executable_Real.thy,
berghofe
parents:
24506
diff
changeset
|
1837 |
val q = random_range 1 (i + 1); |
|
09b9a47904b7
New code generator setup (taken from Library/Executable_Real.thy,
berghofe
parents:
24506
diff
changeset
|
1838 |
val g = Integer.gcd p q; |
|
24630
351a308ab58d
simplified type int (eliminated IntInf.int, integer);
wenzelm
parents:
24623
diff
changeset
|
1839 |
val p' = p div g; |
|
351a308ab58d
simplified type int (eliminated IntInf.int, integer);
wenzelm
parents:
24623
diff
changeset
|
1840 |
val q' = q div g; |
| 25885 | 1841 |
val r = (if one_of [true, false] then p' else ~ p', |
| 31666 | 1842 |
if p' = 0 then 1 else q') |
|
24534
09b9a47904b7
New code generator setup (taken from Library/Executable_Real.thy,
berghofe
parents:
24506
diff
changeset
|
1843 |
in |
| 25885 | 1844 |
(r, fn () => term_of_real r) |
|
24534
09b9a47904b7
New code generator setup (taken from Library/Executable_Real.thy,
berghofe
parents:
24506
diff
changeset
|
1845 |
end; |
|
23031
9da9585c816e
added code generation based on Isabelle's rat type.
nipkow
parents:
22970
diff
changeset
|
1846 |
*} |
|
9da9585c816e
added code generation based on Isabelle's rat type.
nipkow
parents:
22970
diff
changeset
|
1847 |
|
|
9da9585c816e
added code generation based on Isabelle's rat type.
nipkow
parents:
22970
diff
changeset
|
1848 |
consts_code |
| 24623 | 1849 |
Ratreal ("(_)")
|
|
24534
09b9a47904b7
New code generator setup (taken from Library/Executable_Real.thy,
berghofe
parents:
24506
diff
changeset
|
1850 |
|
|
09b9a47904b7
New code generator setup (taken from Library/Executable_Real.thy,
berghofe
parents:
24506
diff
changeset
|
1851 |
consts_code |
|
09b9a47904b7
New code generator setup (taken from Library/Executable_Real.thy,
berghofe
parents:
24506
diff
changeset
|
1852 |
"of_int :: int \<Rightarrow> real" ("\<module>real'_of'_int")
|
|
09b9a47904b7
New code generator setup (taken from Library/Executable_Real.thy,
berghofe
parents:
24506
diff
changeset
|
1853 |
attach {*
|
| 31666 | 1854 |
fun real_of_int i = (i, 1); |
|
24534
09b9a47904b7
New code generator setup (taken from Library/Executable_Real.thy,
berghofe
parents:
24506
diff
changeset
|
1855 |
*} |
|
09b9a47904b7
New code generator setup (taken from Library/Executable_Real.thy,
berghofe
parents:
24506
diff
changeset
|
1856 |
|
| 38287 | 1857 |
declaration {*
|
1858 |
Nitpick_HOL.register_frac_type @{type_name real}
|
|
| 33209 | 1859 |
[(@{const_name zero_real_inst.zero_real}, @{const_name Nitpick.zero_frac}),
|
1860 |
(@{const_name one_real_inst.one_real}, @{const_name Nitpick.one_frac}),
|
|
1861 |
(@{const_name plus_real_inst.plus_real}, @{const_name Nitpick.plus_frac}),
|
|
1862 |
(@{const_name times_real_inst.times_real}, @{const_name Nitpick.times_frac}),
|
|
1863 |
(@{const_name uminus_real_inst.uminus_real}, @{const_name Nitpick.uminus_frac}),
|
|
1864 |
(@{const_name number_real_inst.number_of_real}, @{const_name Nitpick.number_of_frac}),
|
|
1865 |
(@{const_name inverse_real_inst.inverse_real}, @{const_name Nitpick.inverse_frac}),
|
|
|
37397
18000f9d783e
adjust Nitpick's handling of "<" on "rat"s and "reals"
blanchet
parents:
36977
diff
changeset
|
1866 |
(@{const_name ord_real_inst.less_real}, @{const_name Nitpick.less_eq_frac}),
|
| 33209 | 1867 |
(@{const_name ord_real_inst.less_eq_real}, @{const_name Nitpick.less_eq_frac})]
|
|
33197
de6285ebcc05
continuation of Nitpick's integration into Isabelle;
blanchet
parents:
32657
diff
changeset
|
1868 |
*} |
|
de6285ebcc05
continuation of Nitpick's integration into Isabelle;
blanchet
parents:
32657
diff
changeset
|
1869 |
|
|
41792
ff3cb0c418b7
renamed "nitpick\_def" to "nitpick_unfold" to reflect its new semantics
blanchet
parents:
41550
diff
changeset
|
1870 |
lemmas [nitpick_unfold] = inverse_real_inst.inverse_real |
|
33197
de6285ebcc05
continuation of Nitpick's integration into Isabelle;
blanchet
parents:
32657
diff
changeset
|
1871 |
number_real_inst.number_of_real one_real_inst.one_real |
|
37397
18000f9d783e
adjust Nitpick's handling of "<" on "rat"s and "reals"
blanchet
parents:
36977
diff
changeset
|
1872 |
ord_real_inst.less_real ord_real_inst.less_eq_real plus_real_inst.plus_real |
|
33197
de6285ebcc05
continuation of Nitpick's integration into Isabelle;
blanchet
parents:
32657
diff
changeset
|
1873 |
times_real_inst.times_real uminus_real_inst.uminus_real |
|
de6285ebcc05
continuation of Nitpick's integration into Isabelle;
blanchet
parents:
32657
diff
changeset
|
1874 |
zero_real_inst.zero_real |
|
de6285ebcc05
continuation of Nitpick's integration into Isabelle;
blanchet
parents:
32657
diff
changeset
|
1875 |
|
| 5588 | 1876 |
end |