author | bulwahn |
Mon, 18 Jul 2011 10:34:21 +0200 | |
changeset 43889 | 90d24cafb05d |
parent 43887 | 442aceb54969 |
child 45183 | 2e1ad4a54189 |
permissions | -rw-r--r-- |
35372 | 1 |
(* Title: HOL/Rat.thy |
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2 |
Author: Markus Wenzel, TU Muenchen |
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3 |
*) |
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4 |
|
14691 | 5 |
header {* Rational numbers *} |
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6 |
|
35372 | 7 |
theory Rat |
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imports GCD Archimedean_Field |
35343 | 9 |
uses ("Tools/float_syntax.ML") |
15131 | 10 |
begin |
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|
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subsection {* Rational numbers as quotient *} |
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|
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subsubsection {* Construction of the type of rational numbers *} |
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|
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definition |
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ratrel :: "((int \<times> int) \<times> (int \<times> int)) set" where |
27551 | 18 |
"ratrel = {(x, y). snd x \<noteq> 0 \<and> snd y \<noteq> 0 \<and> fst x * snd y = fst y * snd x}" |
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|
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lemma ratrel_iff [simp]: |
27551 | 21 |
"(x, y) \<in> ratrel \<longleftrightarrow> snd x \<noteq> 0 \<and> snd y \<noteq> 0 \<and> fst x * snd y = fst y * snd x" |
22 |
by (simp add: ratrel_def) |
|
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23 |
|
30198 | 24 |
lemma refl_on_ratrel: "refl_on {x. snd x \<noteq> 0} ratrel" |
25 |
by (auto simp add: refl_on_def ratrel_def) |
|
18913 | 26 |
|
27 |
lemma sym_ratrel: "sym ratrel" |
|
27551 | 28 |
by (simp add: ratrel_def sym_def) |
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29 |
|
18913 | 30 |
lemma trans_ratrel: "trans ratrel" |
27551 | 31 |
proof (rule transI, unfold split_paired_all) |
32 |
fix a b a' b' a'' b'' :: int |
|
33 |
assume A: "((a, b), (a', b')) \<in> ratrel" |
|
34 |
assume B: "((a', b'), (a'', b'')) \<in> ratrel" |
|
35 |
have "b' * (a * b'') = b'' * (a * b')" by simp |
|
36 |
also from A have "a * b' = a' * b" by auto |
|
37 |
also have "b'' * (a' * b) = b * (a' * b'')" by simp |
|
38 |
also from B have "a' * b'' = a'' * b'" by auto |
|
39 |
also have "b * (a'' * b') = b' * (a'' * b)" by simp |
|
40 |
finally have "b' * (a * b'') = b' * (a'' * b)" . |
|
41 |
moreover from B have "b' \<noteq> 0" by auto |
|
42 |
ultimately have "a * b'' = a'' * b" by simp |
|
43 |
with A B show "((a, b), (a'', b'')) \<in> ratrel" by auto |
|
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qed |
27551 | 45 |
|
46 |
lemma equiv_ratrel: "equiv {x. snd x \<noteq> 0} ratrel" |
|
40815 | 47 |
by (rule equivI [OF refl_on_ratrel sym_ratrel trans_ratrel]) |
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48 |
|
18913 | 49 |
lemmas UN_ratrel = UN_equiv_class [OF equiv_ratrel] |
50 |
lemmas UN_ratrel2 = UN_equiv_class2 [OF equiv_ratrel equiv_ratrel] |
|
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51 |
|
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lemma equiv_ratrel_iff [iff]: |
53 |
assumes "snd x \<noteq> 0" and "snd y \<noteq> 0" |
|
54 |
shows "ratrel `` {x} = ratrel `` {y} \<longleftrightarrow> (x, y) \<in> ratrel" |
|
55 |
by (rule eq_equiv_class_iff, rule equiv_ratrel) (auto simp add: assms) |
|
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56 |
|
27551 | 57 |
typedef (Rat) rat = "{x. snd x \<noteq> 0} // ratrel" |
58 |
proof |
|
59 |
have "(0::int, 1::int) \<in> {x. snd x \<noteq> 0}" by simp |
|
60 |
then show "ratrel `` {(0, 1)} \<in> {x. snd x \<noteq> 0} // ratrel" by (rule quotientI) |
|
61 |
qed |
|
62 |
||
63 |
lemma ratrel_in_Rat [simp]: "snd x \<noteq> 0 \<Longrightarrow> ratrel `` {x} \<in> Rat" |
|
64 |
by (simp add: Rat_def quotientI) |
|
65 |
||
66 |
declare Abs_Rat_inject [simp] Abs_Rat_inverse [simp] |
|
67 |
||
68 |
||
69 |
subsubsection {* Representation and basic operations *} |
|
70 |
||
71 |
definition |
|
72 |
Fract :: "int \<Rightarrow> int \<Rightarrow> rat" where |
|
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"Fract a b = Abs_Rat (ratrel `` {if b = 0 then (0, 1) else (a, b)})" |
27551 | 74 |
|
75 |
lemma eq_rat: |
|
76 |
shows "\<And>a b c d. b \<noteq> 0 \<Longrightarrow> d \<noteq> 0 \<Longrightarrow> Fract a b = Fract c d \<longleftrightarrow> a * d = c * b" |
|
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and "\<And>a. Fract a 0 = Fract 0 1" |
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78 |
and "\<And>a c. Fract 0 a = Fract 0 c" |
27551 | 79 |
by (simp_all add: Fract_def) |
80 |
||
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81 |
lemma Rat_cases [case_names Fract, cases type: rat]: |
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82 |
assumes "\<And>a b. q = Fract a b \<Longrightarrow> b > 0 \<Longrightarrow> coprime a b \<Longrightarrow> C" |
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83 |
shows C |
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84 |
proof - |
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85 |
obtain a b :: int where "q = Fract a b" and "b \<noteq> 0" |
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86 |
by (cases q) (clarsimp simp add: Fract_def Rat_def quotient_def) |
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let ?a = "a div gcd a b" |
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88 |
let ?b = "b div gcd a b" |
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89 |
from `b \<noteq> 0` have "?b * gcd a b = b" |
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90 |
by (simp add: dvd_div_mult_self) |
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91 |
with `b \<noteq> 0` have "?b \<noteq> 0" by auto |
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92 |
from `q = Fract a b` `b \<noteq> 0` `?b \<noteq> 0` have q: "q = Fract ?a ?b" |
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93 |
by (simp add: eq_rat dvd_div_mult mult_commute [of a]) |
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94 |
from `b \<noteq> 0` have coprime: "coprime ?a ?b" |
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95 |
by (auto intro: div_gcd_coprime_int) |
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96 |
show C proof (cases "b > 0") |
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97 |
case True |
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98 |
note assms |
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99 |
moreover note q |
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100 |
moreover from True have "?b > 0" by (simp add: nonneg1_imp_zdiv_pos_iff) |
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101 |
moreover note coprime |
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102 |
ultimately show C . |
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103 |
next |
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104 |
case False |
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105 |
note assms |
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106 |
moreover from q have "q = Fract (- ?a) (- ?b)" by (simp add: Fract_def) |
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107 |
moreover from False `b \<noteq> 0` have "- ?b > 0" by (simp add: pos_imp_zdiv_neg_iff) |
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108 |
moreover from coprime have "coprime (- ?a) (- ?b)" by simp |
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109 |
ultimately show C . |
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|
110 |
qed |
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|
111 |
qed |
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112 |
|
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113 |
lemma Rat_induct [case_names Fract, induct type: rat]: |
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114 |
assumes "\<And>a b. b > 0 \<Longrightarrow> coprime a b \<Longrightarrow> P (Fract a b)" |
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115 |
shows "P q" |
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116 |
using assms by (cases q) simp |
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117 |
|
31017 | 118 |
instantiation rat :: comm_ring_1 |
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119 |
begin |
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120 |
|
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121 |
definition |
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Zero_rat_def: "0 = Fract 0 1" |
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123 |
|
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124 |
definition |
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125 |
One_rat_def: "1 = Fract 1 1" |
18913 | 126 |
|
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127 |
definition |
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128 |
add_rat_def: |
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"q + r = Abs_Rat (\<Union>x \<in> Rep_Rat q. \<Union>y \<in> Rep_Rat r. |
130 |
ratrel `` {(fst x * snd y + fst y * snd x, snd x * snd y)})" |
|
131 |
||
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132 |
lemma add_rat [simp]: |
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assumes "b \<noteq> 0" and "d \<noteq> 0" |
134 |
shows "Fract a b + Fract c d = Fract (a * d + c * b) (b * d)" |
|
135 |
proof - |
|
136 |
have "(\<lambda>x y. ratrel``{(fst x * snd y + fst y * snd x, snd x * snd y)}) |
|
137 |
respects2 ratrel" |
|
138 |
by (rule equiv_ratrel [THEN congruent2_commuteI]) (simp_all add: left_distrib) |
|
139 |
with assms show ?thesis by (simp add: Fract_def add_rat_def UN_ratrel2) |
|
140 |
qed |
|
18913 | 141 |
|
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142 |
definition |
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143 |
minus_rat_def: |
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"- q = Abs_Rat (\<Union>x \<in> Rep_Rat q. ratrel `` {(- fst x, snd x)})" |
145 |
||
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146 |
lemma minus_rat [simp]: "- Fract a b = Fract (- a) b" |
27551 | 147 |
proof - |
148 |
have "(\<lambda>x. ratrel `` {(- fst x, snd x)}) respects ratrel" |
|
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149 |
by (simp add: congruent_def split_paired_all) |
27551 | 150 |
then show ?thesis by (simp add: Fract_def minus_rat_def UN_ratrel) |
151 |
qed |
|
152 |
||
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153 |
lemma minus_rat_cancel [simp]: "Fract (- a) (- b) = Fract a b" |
27551 | 154 |
by (cases "b = 0") (simp_all add: eq_rat) |
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155 |
|
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156 |
definition |
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157 |
diff_rat_def: "q - r = q + - (r::rat)" |
18913 | 158 |
|
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159 |
lemma diff_rat [simp]: |
27551 | 160 |
assumes "b \<noteq> 0" and "d \<noteq> 0" |
161 |
shows "Fract a b - Fract c d = Fract (a * d - c * b) (b * d)" |
|
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|
162 |
using assms by (simp add: diff_rat_def) |
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163 |
|
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164 |
definition |
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|
165 |
mult_rat_def: |
27551 | 166 |
"q * r = Abs_Rat (\<Union>x \<in> Rep_Rat q. \<Union>y \<in> Rep_Rat r. |
167 |
ratrel``{(fst x * fst y, snd x * snd y)})" |
|
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168 |
|
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|
169 |
lemma mult_rat [simp]: "Fract a b * Fract c d = Fract (a * c) (b * d)" |
27551 | 170 |
proof - |
171 |
have "(\<lambda>x y. ratrel `` {(fst x * fst y, snd x * snd y)}) respects2 ratrel" |
|
172 |
by (rule equiv_ratrel [THEN congruent2_commuteI]) simp_all |
|
173 |
then show ?thesis by (simp add: Fract_def mult_rat_def UN_ratrel2) |
|
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|
174 |
qed |
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175 |
|
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|
176 |
lemma mult_rat_cancel: |
27551 | 177 |
assumes "c \<noteq> 0" |
178 |
shows "Fract (c * a) (c * b) = Fract a b" |
|
179 |
proof - |
|
180 |
from assms have "Fract c c = Fract 1 1" by (simp add: Fract_def) |
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then show ?thesis by (simp add: mult_rat [symmetric]) |
27551 | 182 |
qed |
27509 | 183 |
|
184 |
instance proof |
|
27668 | 185 |
fix q r s :: rat show "(q * r) * s = q * (r * s)" |
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by (cases q, cases r, cases s) (simp add: eq_rat) |
27551 | 187 |
next |
188 |
fix q r :: rat show "q * r = r * q" |
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by (cases q, cases r) (simp add: eq_rat) |
27551 | 190 |
next |
191 |
fix q :: rat show "1 * q = q" |
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by (cases q) (simp add: One_rat_def eq_rat) |
27551 | 193 |
next |
194 |
fix q r s :: rat show "(q + r) + s = q + (r + s)" |
|
29667 | 195 |
by (cases q, cases r, cases s) (simp add: eq_rat algebra_simps) |
27551 | 196 |
next |
197 |
fix q r :: rat show "q + r = r + q" |
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by (cases q, cases r) (simp add: eq_rat) |
27551 | 199 |
next |
200 |
fix q :: rat show "0 + q = q" |
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by (cases q) (simp add: Zero_rat_def eq_rat) |
27551 | 202 |
next |
203 |
fix q :: rat show "- q + q = 0" |
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by (cases q) (simp add: Zero_rat_def eq_rat) |
27551 | 205 |
next |
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fix q r :: rat show "q - r = q + - r" |
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by (cases q, cases r) (simp add: eq_rat) |
27551 | 208 |
next |
209 |
fix q r s :: rat show "(q + r) * s = q * s + r * s" |
|
29667 | 210 |
by (cases q, cases r, cases s) (simp add: eq_rat algebra_simps) |
27551 | 211 |
next |
212 |
show "(0::rat) \<noteq> 1" by (simp add: Zero_rat_def One_rat_def eq_rat) |
|
27509 | 213 |
qed |
214 |
||
215 |
end |
|
216 |
||
27551 | 217 |
lemma of_nat_rat: "of_nat k = Fract (of_nat k) 1" |
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by (induct k) (simp_all add: Zero_rat_def One_rat_def) |
27551 | 219 |
|
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lemma of_int_rat: "of_int k = Fract k 1" |
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by (cases k rule: int_diff_cases) (simp add: of_nat_rat) |
27551 | 222 |
|
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lemma Fract_of_nat_eq: "Fract (of_nat k) 1 = of_nat k" |
|
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by (rule of_nat_rat [symmetric]) |
|
225 |
||
226 |
lemma Fract_of_int_eq: "Fract k 1 = of_int k" |
|
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by (rule of_int_rat [symmetric]) |
|
228 |
||
229 |
instantiation rat :: number_ring |
|
230 |
begin |
|
231 |
||
232 |
definition |
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rat_number_of_def: "number_of w = Fract w 1" |
27551 | 234 |
|
30960 | 235 |
instance proof |
236 |
qed (simp add: rat_number_of_def of_int_rat) |
|
27551 | 237 |
|
238 |
end |
|
239 |
||
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lemma rat_number_collapse: |
27551 | 241 |
"Fract 0 k = 0" |
242 |
"Fract 1 1 = 1" |
|
243 |
"Fract (number_of k) 1 = number_of k" |
|
244 |
"Fract k 0 = 0" |
|
245 |
by (cases "k = 0") |
|
246 |
(simp_all add: Zero_rat_def One_rat_def number_of_is_id number_of_eq of_int_rat eq_rat Fract_def) |
|
247 |
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lemma rat_number_expand [code_unfold]: |
27551 | 249 |
"0 = Fract 0 1" |
250 |
"1 = Fract 1 1" |
|
251 |
"number_of k = Fract (number_of k) 1" |
|
252 |
by (simp_all add: rat_number_collapse) |
|
253 |
||
254 |
lemma iszero_rat [simp]: |
|
255 |
"iszero (number_of k :: rat) \<longleftrightarrow> iszero (number_of k :: int)" |
|
256 |
by (simp add: iszero_def rat_number_expand number_of_is_id eq_rat) |
|
257 |
||
258 |
lemma Rat_cases_nonzero [case_names Fract 0]: |
|
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assumes Fract: "\<And>a b. q = Fract a b \<Longrightarrow> b > 0 \<Longrightarrow> a \<noteq> 0 \<Longrightarrow> coprime a b \<Longrightarrow> C" |
27551 | 260 |
assumes 0: "q = 0 \<Longrightarrow> C" |
261 |
shows C |
|
262 |
proof (cases "q = 0") |
|
263 |
case True then show C using 0 by auto |
|
264 |
next |
|
265 |
case False |
|
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then obtain a b where "q = Fract a b" and "b > 0" and "coprime a b" by (cases q) auto |
27551 | 267 |
moreover with False have "0 \<noteq> Fract a b" by simp |
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with `b > 0` have "a \<noteq> 0" by (simp add: Zero_rat_def eq_rat) |
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with Fract `q = Fract a b` `b > 0` `coprime a b` show C by blast |
27551 | 270 |
qed |
271 |
||
33805 | 272 |
subsubsection {* Function @{text normalize} *} |
273 |
||
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lemma Fract_coprime: "Fract (a div gcd a b) (b div gcd a b) = Fract a b" |
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proof (cases "b = 0") |
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case True then show ?thesis by (simp add: eq_rat) |
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next |
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case False |
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moreover have "b div gcd a b * gcd a b = b" |
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by (rule dvd_div_mult_self) simp |
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ultimately have "b div gcd a b \<noteq> 0" by auto |
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with False show ?thesis by (simp add: eq_rat dvd_div_mult mult_commute [of a]) |
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283 |
qed |
33805 | 284 |
|
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definition normalize :: "int \<times> int \<Rightarrow> int \<times> int" where |
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286 |
"normalize p = (if snd p > 0 then (let a = gcd (fst p) (snd p) in (fst p div a, snd p div a)) |
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else if snd p = 0 then (0, 1) |
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else (let a = - gcd (fst p) (snd p) in (fst p div a, snd p div a)))" |
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289 |
|
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290 |
lemma normalize_crossproduct: |
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291 |
assumes "q \<noteq> 0" "s \<noteq> 0" |
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assumes "normalize (p, q) = normalize (r, s)" |
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293 |
shows "p * s = r * q" |
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294 |
proof - |
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295 |
have aux: "p * gcd r s = sgn (q * s) * r * gcd p q \<Longrightarrow> q * gcd r s = sgn (q * s) * s * gcd p q \<Longrightarrow> p * s = q * r" |
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296 |
proof - |
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297 |
assume "p * gcd r s = sgn (q * s) * r * gcd p q" and "q * gcd r s = sgn (q * s) * s * gcd p q" |
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298 |
then have "(p * gcd r s) * (sgn (q * s) * s * gcd p q) = (q * gcd r s) * (sgn (q * s) * r * gcd p q)" by simp |
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299 |
with assms show "p * s = q * r" by (auto simp add: mult_ac sgn_times sgn_0_0) |
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300 |
qed |
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301 |
from assms show ?thesis |
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302 |
by (auto simp add: normalize_def Let_def dvd_div_div_eq_mult mult_commute sgn_times split: if_splits intro: aux) |
33805 | 303 |
qed |
304 |
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305 |
lemma normalize_eq: "normalize (a, b) = (p, q) \<Longrightarrow> Fract p q = Fract a b" |
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306 |
by (auto simp add: normalize_def Let_def Fract_coprime dvd_div_neg rat_number_collapse |
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307 |
split:split_if_asm) |
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|
308 |
|
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309 |
lemma normalize_denom_pos: "normalize r = (p, q) \<Longrightarrow> q > 0" |
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310 |
by (auto simp add: normalize_def Let_def dvd_div_neg pos_imp_zdiv_neg_iff nonneg1_imp_zdiv_pos_iff |
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311 |
split:split_if_asm) |
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|
312 |
|
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313 |
lemma normalize_coprime: "normalize r = (p, q) \<Longrightarrow> coprime p q" |
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314 |
by (auto simp add: normalize_def Let_def dvd_div_neg div_gcd_coprime_int |
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315 |
split:split_if_asm) |
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|
316 |
|
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317 |
lemma normalize_stable [simp]: |
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318 |
"q > 0 \<Longrightarrow> coprime p q \<Longrightarrow> normalize (p, q) = (p, q)" |
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319 |
by (simp add: normalize_def) |
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|
320 |
|
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321 |
lemma normalize_denom_zero [simp]: |
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322 |
"normalize (p, 0) = (0, 1)" |
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323 |
by (simp add: normalize_def) |
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|
324 |
|
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325 |
lemma normalize_negative [simp]: |
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326 |
"q < 0 \<Longrightarrow> normalize (p, q) = normalize (- p, - q)" |
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327 |
by (simp add: normalize_def Let_def dvd_div_neg dvd_neg_div) |
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328 |
|
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|
329 |
text{* |
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330 |
Decompose a fraction into normalized, i.e. coprime numerator and denominator: |
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|
331 |
*} |
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332 |
|
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333 |
definition quotient_of :: "rat \<Rightarrow> int \<times> int" where |
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334 |
"quotient_of x = (THE pair. x = Fract (fst pair) (snd pair) & |
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335 |
snd pair > 0 & coprime (fst pair) (snd pair))" |
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336 |
|
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337 |
lemma quotient_of_unique: |
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338 |
"\<exists>!p. r = Fract (fst p) (snd p) \<and> snd p > 0 \<and> coprime (fst p) (snd p)" |
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|
339 |
proof (cases r) |
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340 |
case (Fract a b) |
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341 |
then have "r = Fract (fst (a, b)) (snd (a, b)) \<and> snd (a, b) > 0 \<and> coprime (fst (a, b)) (snd (a, b))" by auto |
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342 |
then show ?thesis proof (rule ex1I) |
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343 |
fix p |
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344 |
obtain c d :: int where p: "p = (c, d)" by (cases p) |
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345 |
assume "r = Fract (fst p) (snd p) \<and> snd p > 0 \<and> coprime (fst p) (snd p)" |
e4a7947e02b8
more general case and induct rules; normalize and quotient_of; abstract code generation
haftmann
parents:
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diff
changeset
|
346 |
with p have Fract': "r = Fract c d" "d > 0" "coprime c d" by simp_all |
e4a7947e02b8
more general case and induct rules; normalize and quotient_of; abstract code generation
haftmann
parents:
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diff
changeset
|
347 |
have "c = a \<and> d = b" |
e4a7947e02b8
more general case and induct rules; normalize and quotient_of; abstract code generation
haftmann
parents:
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diff
changeset
|
348 |
proof (cases "a = 0") |
e4a7947e02b8
more general case and induct rules; normalize and quotient_of; abstract code generation
haftmann
parents:
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diff
changeset
|
349 |
case True with Fract Fract' show ?thesis by (simp add: eq_rat) |
e4a7947e02b8
more general case and induct rules; normalize and quotient_of; abstract code generation
haftmann
parents:
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diff
changeset
|
350 |
next |
e4a7947e02b8
more general case and induct rules; normalize and quotient_of; abstract code generation
haftmann
parents:
35293
diff
changeset
|
351 |
case False |
e4a7947e02b8
more general case and induct rules; normalize and quotient_of; abstract code generation
haftmann
parents:
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diff
changeset
|
352 |
with Fract Fract' have *: "c * b = a * d" and "c \<noteq> 0" by (auto simp add: eq_rat) |
e4a7947e02b8
more general case and induct rules; normalize and quotient_of; abstract code generation
haftmann
parents:
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diff
changeset
|
353 |
then have "c * b > 0 \<longleftrightarrow> a * d > 0" by auto |
e4a7947e02b8
more general case and induct rules; normalize and quotient_of; abstract code generation
haftmann
parents:
35293
diff
changeset
|
354 |
with `b > 0` `d > 0` have "a > 0 \<longleftrightarrow> c > 0" by (simp add: zero_less_mult_iff) |
e4a7947e02b8
more general case and induct rules; normalize and quotient_of; abstract code generation
haftmann
parents:
35293
diff
changeset
|
355 |
with `a \<noteq> 0` `c \<noteq> 0` have sgn: "sgn a = sgn c" by (auto simp add: not_less) |
e4a7947e02b8
more general case and induct rules; normalize and quotient_of; abstract code generation
haftmann
parents:
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diff
changeset
|
356 |
from `coprime a b` `coprime c d` have "\<bar>a\<bar> * \<bar>d\<bar> = \<bar>c\<bar> * \<bar>b\<bar> \<longleftrightarrow> \<bar>a\<bar> = \<bar>c\<bar> \<and> \<bar>d\<bar> = \<bar>b\<bar>" |
e4a7947e02b8
more general case and induct rules; normalize and quotient_of; abstract code generation
haftmann
parents:
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diff
changeset
|
357 |
by (simp add: coprime_crossproduct_int) |
e4a7947e02b8
more general case and induct rules; normalize and quotient_of; abstract code generation
haftmann
parents:
35293
diff
changeset
|
358 |
with `b > 0` `d > 0` have "\<bar>a\<bar> * d = \<bar>c\<bar> * b \<longleftrightarrow> \<bar>a\<bar> = \<bar>c\<bar> \<and> d = b" by simp |
e4a7947e02b8
more general case and induct rules; normalize and quotient_of; abstract code generation
haftmann
parents:
35293
diff
changeset
|
359 |
then have "a * sgn a * d = c * sgn c * b \<longleftrightarrow> a * sgn a = c * sgn c \<and> d = b" by (simp add: abs_sgn) |
e4a7947e02b8
more general case and induct rules; normalize and quotient_of; abstract code generation
haftmann
parents:
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diff
changeset
|
360 |
with sgn * show ?thesis by (auto simp add: sgn_0_0) |
33805 | 361 |
qed |
35369
e4a7947e02b8
more general case and induct rules; normalize and quotient_of; abstract code generation
haftmann
parents:
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diff
changeset
|
362 |
with p show "p = (a, b)" by simp |
33805 | 363 |
qed |
364 |
qed |
|
365 |
||
35369
e4a7947e02b8
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haftmann
parents:
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diff
changeset
|
366 |
lemma quotient_of_Fract [code]: |
e4a7947e02b8
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haftmann
parents:
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diff
changeset
|
367 |
"quotient_of (Fract a b) = normalize (a, b)" |
e4a7947e02b8
more general case and induct rules; normalize and quotient_of; abstract code generation
haftmann
parents:
35293
diff
changeset
|
368 |
proof - |
e4a7947e02b8
more general case and induct rules; normalize and quotient_of; abstract code generation
haftmann
parents:
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diff
changeset
|
369 |
have "Fract a b = Fract (fst (normalize (a, b))) (snd (normalize (a, b)))" (is ?Fract) |
e4a7947e02b8
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haftmann
parents:
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diff
changeset
|
370 |
by (rule sym) (auto intro: normalize_eq) |
e4a7947e02b8
more general case and induct rules; normalize and quotient_of; abstract code generation
haftmann
parents:
35293
diff
changeset
|
371 |
moreover have "0 < snd (normalize (a, b))" (is ?denom_pos) |
e4a7947e02b8
more general case and induct rules; normalize and quotient_of; abstract code generation
haftmann
parents:
35293
diff
changeset
|
372 |
by (cases "normalize (a, b)") (rule normalize_denom_pos, simp) |
e4a7947e02b8
more general case and induct rules; normalize and quotient_of; abstract code generation
haftmann
parents:
35293
diff
changeset
|
373 |
moreover have "coprime (fst (normalize (a, b))) (snd (normalize (a, b)))" (is ?coprime) |
e4a7947e02b8
more general case and induct rules; normalize and quotient_of; abstract code generation
haftmann
parents:
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diff
changeset
|
374 |
by (rule normalize_coprime) simp |
e4a7947e02b8
more general case and induct rules; normalize and quotient_of; abstract code generation
haftmann
parents:
35293
diff
changeset
|
375 |
ultimately have "?Fract \<and> ?denom_pos \<and> ?coprime" by blast |
e4a7947e02b8
more general case and induct rules; normalize and quotient_of; abstract code generation
haftmann
parents:
35293
diff
changeset
|
376 |
with quotient_of_unique have |
e4a7947e02b8
more general case and induct rules; normalize and quotient_of; abstract code generation
haftmann
parents:
35293
diff
changeset
|
377 |
"(THE p. Fract a b = Fract (fst p) (snd p) \<and> 0 < snd p \<and> coprime (fst p) (snd p)) = normalize (a, b)" |
e4a7947e02b8
more general case and induct rules; normalize and quotient_of; abstract code generation
haftmann
parents:
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diff
changeset
|
378 |
by (rule the1_equality) |
e4a7947e02b8
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haftmann
parents:
35293
diff
changeset
|
379 |
then show ?thesis by (simp add: quotient_of_def) |
e4a7947e02b8
more general case and induct rules; normalize and quotient_of; abstract code generation
haftmann
parents:
35293
diff
changeset
|
380 |
qed |
e4a7947e02b8
more general case and induct rules; normalize and quotient_of; abstract code generation
haftmann
parents:
35293
diff
changeset
|
381 |
|
e4a7947e02b8
more general case and induct rules; normalize and quotient_of; abstract code generation
haftmann
parents:
35293
diff
changeset
|
382 |
lemma quotient_of_number [simp]: |
e4a7947e02b8
more general case and induct rules; normalize and quotient_of; abstract code generation
haftmann
parents:
35293
diff
changeset
|
383 |
"quotient_of 0 = (0, 1)" |
e4a7947e02b8
more general case and induct rules; normalize and quotient_of; abstract code generation
haftmann
parents:
35293
diff
changeset
|
384 |
"quotient_of 1 = (1, 1)" |
e4a7947e02b8
more general case and induct rules; normalize and quotient_of; abstract code generation
haftmann
parents:
35293
diff
changeset
|
385 |
"quotient_of (number_of k) = (number_of k, 1)" |
e4a7947e02b8
more general case and induct rules; normalize and quotient_of; abstract code generation
haftmann
parents:
35293
diff
changeset
|
386 |
by (simp_all add: rat_number_expand quotient_of_Fract) |
33805 | 387 |
|
35369
e4a7947e02b8
more general case and induct rules; normalize and quotient_of; abstract code generation
haftmann
parents:
35293
diff
changeset
|
388 |
lemma quotient_of_eq: "quotient_of (Fract a b) = (p, q) \<Longrightarrow> Fract p q = Fract a b" |
e4a7947e02b8
more general case and induct rules; normalize and quotient_of; abstract code generation
haftmann
parents:
35293
diff
changeset
|
389 |
by (simp add: quotient_of_Fract normalize_eq) |
e4a7947e02b8
more general case and induct rules; normalize and quotient_of; abstract code generation
haftmann
parents:
35293
diff
changeset
|
390 |
|
e4a7947e02b8
more general case and induct rules; normalize and quotient_of; abstract code generation
haftmann
parents:
35293
diff
changeset
|
391 |
lemma quotient_of_denom_pos: "quotient_of r = (p, q) \<Longrightarrow> q > 0" |
e4a7947e02b8
more general case and induct rules; normalize and quotient_of; abstract code generation
haftmann
parents:
35293
diff
changeset
|
392 |
by (cases r) (simp add: quotient_of_Fract normalize_denom_pos) |
e4a7947e02b8
more general case and induct rules; normalize and quotient_of; abstract code generation
haftmann
parents:
35293
diff
changeset
|
393 |
|
e4a7947e02b8
more general case and induct rules; normalize and quotient_of; abstract code generation
haftmann
parents:
35293
diff
changeset
|
394 |
lemma quotient_of_coprime: "quotient_of r = (p, q) \<Longrightarrow> coprime p q" |
e4a7947e02b8
more general case and induct rules; normalize and quotient_of; abstract code generation
haftmann
parents:
35293
diff
changeset
|
395 |
by (cases r) (simp add: quotient_of_Fract normalize_coprime) |
33805 | 396 |
|
35369
e4a7947e02b8
more general case and induct rules; normalize and quotient_of; abstract code generation
haftmann
parents:
35293
diff
changeset
|
397 |
lemma quotient_of_inject: |
e4a7947e02b8
more general case and induct rules; normalize and quotient_of; abstract code generation
haftmann
parents:
35293
diff
changeset
|
398 |
assumes "quotient_of a = quotient_of b" |
e4a7947e02b8
more general case and induct rules; normalize and quotient_of; abstract code generation
haftmann
parents:
35293
diff
changeset
|
399 |
shows "a = b" |
e4a7947e02b8
more general case and induct rules; normalize and quotient_of; abstract code generation
haftmann
parents:
35293
diff
changeset
|
400 |
proof - |
e4a7947e02b8
more general case and induct rules; normalize and quotient_of; abstract code generation
haftmann
parents:
35293
diff
changeset
|
401 |
obtain p q r s where a: "a = Fract p q" |
e4a7947e02b8
more general case and induct rules; normalize and quotient_of; abstract code generation
haftmann
parents:
35293
diff
changeset
|
402 |
and b: "b = Fract r s" |
e4a7947e02b8
more general case and induct rules; normalize and quotient_of; abstract code generation
haftmann
parents:
35293
diff
changeset
|
403 |
and "q > 0" and "s > 0" by (cases a, cases b) |
e4a7947e02b8
more general case and induct rules; normalize and quotient_of; abstract code generation
haftmann
parents:
35293
diff
changeset
|
404 |
with assms show ?thesis by (simp add: eq_rat quotient_of_Fract normalize_crossproduct) |
e4a7947e02b8
more general case and induct rules; normalize and quotient_of; abstract code generation
haftmann
parents:
35293
diff
changeset
|
405 |
qed |
e4a7947e02b8
more general case and induct rules; normalize and quotient_of; abstract code generation
haftmann
parents:
35293
diff
changeset
|
406 |
|
e4a7947e02b8
more general case and induct rules; normalize and quotient_of; abstract code generation
haftmann
parents:
35293
diff
changeset
|
407 |
lemma quotient_of_inject_eq: |
e4a7947e02b8
more general case and induct rules; normalize and quotient_of; abstract code generation
haftmann
parents:
35293
diff
changeset
|
408 |
"quotient_of a = quotient_of b \<longleftrightarrow> a = b" |
e4a7947e02b8
more general case and induct rules; normalize and quotient_of; abstract code generation
haftmann
parents:
35293
diff
changeset
|
409 |
by (auto simp add: quotient_of_inject) |
33805 | 410 |
|
27551 | 411 |
|
412 |
subsubsection {* The field of rational numbers *} |
|
413 |
||
36409 | 414 |
instantiation rat :: field_inverse_zero |
27551 | 415 |
begin |
416 |
||
417 |
definition |
|
35369
e4a7947e02b8
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haftmann
parents:
35293
diff
changeset
|
418 |
inverse_rat_def: |
27551 | 419 |
"inverse q = Abs_Rat (\<Union>x \<in> Rep_Rat q. |
420 |
ratrel `` {if fst x = 0 then (0, 1) else (snd x, fst x)})" |
|
421 |
||
27652
818666de6c24
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haftmann
parents:
27551
diff
changeset
|
422 |
lemma inverse_rat [simp]: "inverse (Fract a b) = Fract b a" |
27551 | 423 |
proof - |
424 |
have "(\<lambda>x. ratrel `` {if fst x = 0 then (0, 1) else (snd x, fst x)}) respects ratrel" |
|
425 |
by (auto simp add: congruent_def mult_commute) |
|
426 |
then show ?thesis by (simp add: Fract_def inverse_rat_def UN_ratrel) |
|
27509 | 427 |
qed |
428 |
||
27551 | 429 |
definition |
35369
e4a7947e02b8
more general case and induct rules; normalize and quotient_of; abstract code generation
haftmann
parents:
35293
diff
changeset
|
430 |
divide_rat_def: "q / r = q * inverse (r::rat)" |
27551 | 431 |
|
27652
818666de6c24
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haftmann
parents:
27551
diff
changeset
|
432 |
lemma divide_rat [simp]: "Fract a b / Fract c d = Fract (a * d) (b * c)" |
818666de6c24
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haftmann
parents:
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diff
changeset
|
433 |
by (simp add: divide_rat_def) |
27551 | 434 |
|
435 |
instance proof |
|
436 |
fix q :: rat |
|
437 |
assume "q \<noteq> 0" |
|
438 |
then show "inverse q * q = 1" by (cases q rule: Rat_cases_nonzero) |
|
35216 | 439 |
(simp_all add: rat_number_expand eq_rat) |
27551 | 440 |
next |
441 |
fix q r :: rat |
|
442 |
show "q / r = q * inverse r" by (simp add: divide_rat_def) |
|
36415 | 443 |
next |
444 |
show "inverse 0 = (0::rat)" by (simp add: rat_number_expand, simp add: rat_number_collapse) |
|
445 |
qed |
|
27551 | 446 |
|
447 |
end |
|
448 |
||
449 |
||
450 |
subsubsection {* Various *} |
|
451 |
||
452 |
lemma Fract_add_one: "n \<noteq> 0 ==> Fract (m + n) n = Fract m n + 1" |
|
27652
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haftmann
parents:
27551
diff
changeset
|
453 |
by (simp add: rat_number_expand) |
27551 | 454 |
|
455 |
lemma Fract_of_int_quotient: "Fract k l = of_int k / of_int l" |
|
27652
818666de6c24
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haftmann
parents:
27551
diff
changeset
|
456 |
by (simp add: Fract_of_int_eq [symmetric]) |
27551 | 457 |
|
35369
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haftmann
parents:
35293
diff
changeset
|
458 |
lemma Fract_number_of_quotient: |
27551 | 459 |
"Fract (number_of k) (number_of l) = number_of k / number_of l" |
460 |
unfolding Fract_of_int_quotient number_of_is_id number_of_eq .. |
|
461 |
||
35369
e4a7947e02b8
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haftmann
parents:
35293
diff
changeset
|
462 |
lemma Fract_1_number_of: |
27652
818666de6c24
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haftmann
parents:
27551
diff
changeset
|
463 |
"Fract 1 (number_of k) = 1 / number_of k" |
818666de6c24
refined code generator setup for rational numbers; more simplification rules for rational numbers
haftmann
parents:
27551
diff
changeset
|
464 |
unfolding Fract_of_int_quotient number_of_eq by simp |
27551 | 465 |
|
466 |
subsubsection {* The ordered field of rational numbers *} |
|
27509 | 467 |
|
468 |
instantiation rat :: linorder |
|
469 |
begin |
|
470 |
||
471 |
definition |
|
35369
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haftmann
parents:
35293
diff
changeset
|
472 |
le_rat_def: |
39910 | 473 |
"q \<le> r \<longleftrightarrow> the_elem (\<Union>x \<in> Rep_Rat q. \<Union>y \<in> Rep_Rat r. |
27551 | 474 |
{(fst x * snd y) * (snd x * snd y) \<le> (fst y * snd x) * (snd x * snd y)})" |
475 |
||
27652
818666de6c24
refined code generator setup for rational numbers; more simplification rules for rational numbers
haftmann
parents:
27551
diff
changeset
|
476 |
lemma le_rat [simp]: |
27551 | 477 |
assumes "b \<noteq> 0" and "d \<noteq> 0" |
478 |
shows "Fract a b \<le> Fract c d \<longleftrightarrow> (a * d) * (b * d) \<le> (c * b) * (b * d)" |
|
479 |
proof - |
|
480 |
have "(\<lambda>x y. {(fst x * snd y) * (snd x * snd y) \<le> (fst y * snd x) * (snd x * snd y)}) |
|
481 |
respects2 ratrel" |
|
482 |
proof (clarsimp simp add: congruent2_def) |
|
483 |
fix a b a' b' c d c' d'::int |
|
484 |
assume neq: "b \<noteq> 0" "b' \<noteq> 0" "d \<noteq> 0" "d' \<noteq> 0" |
|
485 |
assume eq1: "a * b' = a' * b" |
|
486 |
assume eq2: "c * d' = c' * d" |
|
487 |
||
488 |
let ?le = "\<lambda>a b c d. ((a * d) * (b * d) \<le> (c * b) * (b * d))" |
|
489 |
{ |
|
490 |
fix a b c d x :: int assume x: "x \<noteq> 0" |
|
491 |
have "?le a b c d = ?le (a * x) (b * x) c d" |
|
492 |
proof - |
|
493 |
from x have "0 < x * x" by (auto simp add: zero_less_mult_iff) |
|
494 |
hence "?le a b c d = |
|
495 |
((a * d) * (b * d) * (x * x) \<le> (c * b) * (b * d) * (x * x))" |
|
496 |
by (simp add: mult_le_cancel_right) |
|
497 |
also have "... = ?le (a * x) (b * x) c d" |
|
498 |
by (simp add: mult_ac) |
|
499 |
finally show ?thesis . |
|
500 |
qed |
|
501 |
} note le_factor = this |
|
502 |
||
503 |
let ?D = "b * d" and ?D' = "b' * d'" |
|
504 |
from neq have D: "?D \<noteq> 0" by simp |
|
505 |
from neq have "?D' \<noteq> 0" by simp |
|
506 |
hence "?le a b c d = ?le (a * ?D') (b * ?D') c d" |
|
507 |
by (rule le_factor) |
|
27668 | 508 |
also have "... = ((a * b') * ?D * ?D' * d * d' \<le> (c * d') * ?D * ?D' * b * b')" |
27551 | 509 |
by (simp add: mult_ac) |
510 |
also have "... = ((a' * b) * ?D * ?D' * d * d' \<le> (c' * d) * ?D * ?D' * b * b')" |
|
511 |
by (simp only: eq1 eq2) |
|
512 |
also have "... = ?le (a' * ?D) (b' * ?D) c' d'" |
|
513 |
by (simp add: mult_ac) |
|
514 |
also from D have "... = ?le a' b' c' d'" |
|
515 |
by (rule le_factor [symmetric]) |
|
516 |
finally show "?le a b c d = ?le a' b' c' d'" . |
|
517 |
qed |
|
518 |
with assms show ?thesis by (simp add: Fract_def le_rat_def UN_ratrel2) |
|
519 |
qed |
|
27509 | 520 |
|
521 |
definition |
|
35369
e4a7947e02b8
more general case and induct rules; normalize and quotient_of; abstract code generation
haftmann
parents:
35293
diff
changeset
|
522 |
less_rat_def: "z < (w::rat) \<longleftrightarrow> z \<le> w \<and> z \<noteq> w" |
27509 | 523 |
|
27652
818666de6c24
refined code generator setup for rational numbers; more simplification rules for rational numbers
haftmann
parents:
27551
diff
changeset
|
524 |
lemma less_rat [simp]: |
27551 | 525 |
assumes "b \<noteq> 0" and "d \<noteq> 0" |
526 |
shows "Fract a b < Fract c d \<longleftrightarrow> (a * d) * (b * d) < (c * b) * (b * d)" |
|
27652
818666de6c24
refined code generator setup for rational numbers; more simplification rules for rational numbers
haftmann
parents:
27551
diff
changeset
|
527 |
using assms by (simp add: less_rat_def eq_rat order_less_le) |
27509 | 528 |
|
529 |
instance proof |
|
14365
3d4df8c166ae
replacing HOL/Real/PRat, PNat by the rational number development
paulson
parents:
diff
changeset
|
530 |
fix q r s :: rat |
3d4df8c166ae
replacing HOL/Real/PRat, PNat by the rational number development
paulson
parents:
diff
changeset
|
531 |
{ |
3d4df8c166ae
replacing HOL/Real/PRat, PNat by the rational number development
paulson
parents:
diff
changeset
|
532 |
assume "q \<le> r" and "r \<le> s" |
35369
e4a7947e02b8
more general case and induct rules; normalize and quotient_of; abstract code generation
haftmann
parents:
35293
diff
changeset
|
533 |
then show "q \<le> s" |
e4a7947e02b8
more general case and induct rules; normalize and quotient_of; abstract code generation
haftmann
parents:
35293
diff
changeset
|
534 |
proof (induct q, induct r, induct s) |
14365
3d4df8c166ae
replacing HOL/Real/PRat, PNat by the rational number development
paulson
parents:
diff
changeset
|
535 |
fix a b c d e f :: int |
35369
e4a7947e02b8
more general case and induct rules; normalize and quotient_of; abstract code generation
haftmann
parents:
35293
diff
changeset
|
536 |
assume neq: "b > 0" "d > 0" "f > 0" |
14365
3d4df8c166ae
replacing HOL/Real/PRat, PNat by the rational number development
paulson
parents:
diff
changeset
|
537 |
assume 1: "Fract a b \<le> Fract c d" and 2: "Fract c d \<le> Fract e f" |
3d4df8c166ae
replacing HOL/Real/PRat, PNat by the rational number development
paulson
parents:
diff
changeset
|
538 |
show "Fract a b \<le> Fract e f" |
3d4df8c166ae
replacing HOL/Real/PRat, PNat by the rational number development
paulson
parents:
diff
changeset
|
539 |
proof - |
3d4df8c166ae
replacing HOL/Real/PRat, PNat by the rational number development
paulson
parents:
diff
changeset
|
540 |
from neq obtain bb: "0 < b * b" and dd: "0 < d * d" and ff: "0 < f * f" |
3d4df8c166ae
replacing HOL/Real/PRat, PNat by the rational number development
paulson
parents:
diff
changeset
|
541 |
by (auto simp add: zero_less_mult_iff linorder_neq_iff) |
3d4df8c166ae
replacing HOL/Real/PRat, PNat by the rational number development
paulson
parents:
diff
changeset
|
542 |
have "(a * d) * (b * d) * (f * f) \<le> (c * b) * (b * d) * (f * f)" |
3d4df8c166ae
replacing HOL/Real/PRat, PNat by the rational number development
paulson
parents:
diff
changeset
|
543 |
proof - |
3d4df8c166ae
replacing HOL/Real/PRat, PNat by the rational number development
paulson
parents:
diff
changeset
|
544 |
from neq 1 have "(a * d) * (b * d) \<le> (c * b) * (b * d)" |
27652
818666de6c24
refined code generator setup for rational numbers; more simplification rules for rational numbers
haftmann
parents:
27551
diff
changeset
|
545 |
by simp |
14365
3d4df8c166ae
replacing HOL/Real/PRat, PNat by the rational number development
paulson
parents:
diff
changeset
|
546 |
with ff show ?thesis by (simp add: mult_le_cancel_right) |
3d4df8c166ae
replacing HOL/Real/PRat, PNat by the rational number development
paulson
parents:
diff
changeset
|
547 |
qed |
27668 | 548 |
also have "... = (c * f) * (d * f) * (b * b)" by algebra |
14365
3d4df8c166ae
replacing HOL/Real/PRat, PNat by the rational number development
paulson
parents:
diff
changeset
|
549 |
also have "... \<le> (e * d) * (d * f) * (b * b)" |
3d4df8c166ae
replacing HOL/Real/PRat, PNat by the rational number development
paulson
parents:
diff
changeset
|
550 |
proof - |
3d4df8c166ae
replacing HOL/Real/PRat, PNat by the rational number development
paulson
parents:
diff
changeset
|
551 |
from neq 2 have "(c * f) * (d * f) \<le> (e * d) * (d * f)" |
27652
818666de6c24
refined code generator setup for rational numbers; more simplification rules for rational numbers
haftmann
parents:
27551
diff
changeset
|
552 |
by simp |
14365
3d4df8c166ae
replacing HOL/Real/PRat, PNat by the rational number development
paulson
parents:
diff
changeset
|
553 |
with bb show ?thesis by (simp add: mult_le_cancel_right) |
3d4df8c166ae
replacing HOL/Real/PRat, PNat by the rational number development
paulson
parents:
diff
changeset
|
554 |
qed |
3d4df8c166ae
replacing HOL/Real/PRat, PNat by the rational number development
paulson
parents:
diff
changeset
|
555 |
finally have "(a * f) * (b * f) * (d * d) \<le> e * b * (b * f) * (d * d)" |
3d4df8c166ae
replacing HOL/Real/PRat, PNat by the rational number development
paulson
parents:
diff
changeset
|
556 |
by (simp only: mult_ac) |
3d4df8c166ae
replacing HOL/Real/PRat, PNat by the rational number development
paulson
parents:
diff
changeset
|
557 |
with dd have "(a * f) * (b * f) \<le> (e * b) * (b * f)" |
3d4df8c166ae
replacing HOL/Real/PRat, PNat by the rational number development
paulson
parents:
diff
changeset
|
558 |
by (simp add: mult_le_cancel_right) |
27652
818666de6c24
refined code generator setup for rational numbers; more simplification rules for rational numbers
haftmann
parents:
27551
diff
changeset
|
559 |
with neq show ?thesis by simp |
14365
3d4df8c166ae
replacing HOL/Real/PRat, PNat by the rational number development
paulson
parents:
diff
changeset
|
560 |
qed |
3d4df8c166ae
replacing HOL/Real/PRat, PNat by the rational number development
paulson
parents:
diff
changeset
|
561 |
qed |
3d4df8c166ae
replacing HOL/Real/PRat, PNat by the rational number development
paulson
parents:
diff
changeset
|
562 |
next |
3d4df8c166ae
replacing HOL/Real/PRat, PNat by the rational number development
paulson
parents:
diff
changeset
|
563 |
assume "q \<le> r" and "r \<le> q" |
35369
e4a7947e02b8
more general case and induct rules; normalize and quotient_of; abstract code generation
haftmann
parents:
35293
diff
changeset
|
564 |
then show "q = r" |
e4a7947e02b8
more general case and induct rules; normalize and quotient_of; abstract code generation
haftmann
parents:
35293
diff
changeset
|
565 |
proof (induct q, induct r) |
14365
3d4df8c166ae
replacing HOL/Real/PRat, PNat by the rational number development
paulson
parents:
diff
changeset
|
566 |
fix a b c d :: int |
35369
e4a7947e02b8
more general case and induct rules; normalize and quotient_of; abstract code generation
haftmann
parents:
35293
diff
changeset
|
567 |
assume neq: "b > 0" "d > 0" |
14365
3d4df8c166ae
replacing HOL/Real/PRat, PNat by the rational number development
paulson
parents:
diff
changeset
|
568 |
assume 1: "Fract a b \<le> Fract c d" and 2: "Fract c d \<le> Fract a b" |
3d4df8c166ae
replacing HOL/Real/PRat, PNat by the rational number development
paulson
parents:
diff
changeset
|
569 |
show "Fract a b = Fract c d" |
3d4df8c166ae
replacing HOL/Real/PRat, PNat by the rational number development
paulson
parents:
diff
changeset
|
570 |
proof - |
3d4df8c166ae
replacing HOL/Real/PRat, PNat by the rational number development
paulson
parents:
diff
changeset
|
571 |
from neq 1 have "(a * d) * (b * d) \<le> (c * b) * (b * d)" |
27652
818666de6c24
refined code generator setup for rational numbers; more simplification rules for rational numbers
haftmann
parents:
27551
diff
changeset
|
572 |
by simp |
14365
3d4df8c166ae
replacing HOL/Real/PRat, PNat by the rational number development
paulson
parents:
diff
changeset
|
573 |
also have "... \<le> (a * d) * (b * d)" |
3d4df8c166ae
replacing HOL/Real/PRat, PNat by the rational number development
paulson
parents:
diff
changeset
|
574 |
proof - |
3d4df8c166ae
replacing HOL/Real/PRat, PNat by the rational number development
paulson
parents:
diff
changeset
|
575 |
from neq 2 have "(c * b) * (d * b) \<le> (a * d) * (d * b)" |
27652
818666de6c24
refined code generator setup for rational numbers; more simplification rules for rational numbers
haftmann
parents:
27551
diff
changeset
|
576 |
by simp |
14365
3d4df8c166ae
replacing HOL/Real/PRat, PNat by the rational number development
paulson
parents:
diff
changeset
|
577 |
thus ?thesis by (simp only: mult_ac) |
3d4df8c166ae
replacing HOL/Real/PRat, PNat by the rational number development
paulson
parents:
diff
changeset
|
578 |
qed |
3d4df8c166ae
replacing HOL/Real/PRat, PNat by the rational number development
paulson
parents:
diff
changeset
|
579 |
finally have "(a * d) * (b * d) = (c * b) * (b * d)" . |
3d4df8c166ae
replacing HOL/Real/PRat, PNat by the rational number development
paulson
parents:
diff
changeset
|
580 |
moreover from neq have "b * d \<noteq> 0" by simp |
3d4df8c166ae
replacing HOL/Real/PRat, PNat by the rational number development
paulson
parents:
diff
changeset
|
581 |
ultimately have "a * d = c * b" by simp |
3d4df8c166ae
replacing HOL/Real/PRat, PNat by the rational number development
paulson
parents:
diff
changeset
|
582 |
with neq show ?thesis by (simp add: eq_rat) |
3d4df8c166ae
replacing HOL/Real/PRat, PNat by the rational number development
paulson
parents:
diff
changeset
|
583 |
qed |
3d4df8c166ae
replacing HOL/Real/PRat, PNat by the rational number development
paulson
parents:
diff
changeset
|
584 |
qed |
3d4df8c166ae
replacing HOL/Real/PRat, PNat by the rational number development
paulson
parents:
diff
changeset
|
585 |
next |
3d4df8c166ae
replacing HOL/Real/PRat, PNat by the rational number development
paulson
parents:
diff
changeset
|
586 |
show "q \<le> q" |
27652
818666de6c24
refined code generator setup for rational numbers; more simplification rules for rational numbers
haftmann
parents:
27551
diff
changeset
|
587 |
by (induct q) simp |
27682 | 588 |
show "(q < r) = (q \<le> r \<and> \<not> r \<le> q)" |
589 |
by (induct q, induct r) (auto simp add: le_less mult_commute) |
|
14365
3d4df8c166ae
replacing HOL/Real/PRat, PNat by the rational number development
paulson
parents:
diff
changeset
|
590 |
show "q \<le> r \<or> r \<le> q" |
18913 | 591 |
by (induct q, induct r) |
27652
818666de6c24
refined code generator setup for rational numbers; more simplification rules for rational numbers
haftmann
parents:
27551
diff
changeset
|
592 |
(simp add: mult_commute, rule linorder_linear) |
14365
3d4df8c166ae
replacing HOL/Real/PRat, PNat by the rational number development
paulson
parents:
diff
changeset
|
593 |
} |
3d4df8c166ae
replacing HOL/Real/PRat, PNat by the rational number development
paulson
parents:
diff
changeset
|
594 |
qed |
3d4df8c166ae
replacing HOL/Real/PRat, PNat by the rational number development
paulson
parents:
diff
changeset
|
595 |
|
27509 | 596 |
end |
597 |
||
27551 | 598 |
instantiation rat :: "{distrib_lattice, abs_if, sgn_if}" |
25571
c9e39eafc7a0
instantiation target rather than legacy instance
haftmann
parents:
25502
diff
changeset
|
599 |
begin |
c9e39eafc7a0
instantiation target rather than legacy instance
haftmann
parents:
25502
diff
changeset
|
600 |
|
c9e39eafc7a0
instantiation target rather than legacy instance
haftmann
parents:
25502
diff
changeset
|
601 |
definition |
35369
e4a7947e02b8
more general case and induct rules; normalize and quotient_of; abstract code generation
haftmann
parents:
35293
diff
changeset
|
602 |
abs_rat_def: "\<bar>q\<bar> = (if q < 0 then -q else (q::rat))" |
27551 | 603 |
|
27652
818666de6c24
refined code generator setup for rational numbers; more simplification rules for rational numbers
haftmann
parents:
27551
diff
changeset
|
604 |
lemma abs_rat [simp, code]: "\<bar>Fract a b\<bar> = Fract \<bar>a\<bar> \<bar>b\<bar>" |
35216 | 605 |
by (auto simp add: abs_rat_def zabs_def Zero_rat_def not_less le_less eq_rat zero_less_mult_iff) |
27551 | 606 |
|
607 |
definition |
|
35369
e4a7947e02b8
more general case and induct rules; normalize and quotient_of; abstract code generation
haftmann
parents:
35293
diff
changeset
|
608 |
sgn_rat_def: "sgn (q::rat) = (if q = 0 then 0 else if 0 < q then 1 else - 1)" |
27551 | 609 |
|
27652
818666de6c24
refined code generator setup for rational numbers; more simplification rules for rational numbers
haftmann
parents:
27551
diff
changeset
|
610 |
lemma sgn_rat [simp, code]: "sgn (Fract a b) = of_int (sgn a * sgn b)" |
27551 | 611 |
unfolding Fract_of_int_eq |
27652
818666de6c24
refined code generator setup for rational numbers; more simplification rules for rational numbers
haftmann
parents:
27551
diff
changeset
|
612 |
by (auto simp: zsgn_def sgn_rat_def Zero_rat_def eq_rat) |
27551 | 613 |
(auto simp: rat_number_collapse not_less le_less zero_less_mult_iff) |
614 |
||
615 |
definition |
|
25571
c9e39eafc7a0
instantiation target rather than legacy instance
haftmann
parents:
25502
diff
changeset
|
616 |
"(inf \<Colon> rat \<Rightarrow> rat \<Rightarrow> rat) = min" |
c9e39eafc7a0
instantiation target rather than legacy instance
haftmann
parents:
25502
diff
changeset
|
617 |
|
c9e39eafc7a0
instantiation target rather than legacy instance
haftmann
parents:
25502
diff
changeset
|
618 |
definition |
c9e39eafc7a0
instantiation target rather than legacy instance
haftmann
parents:
25502
diff
changeset
|
619 |
"(sup \<Colon> rat \<Rightarrow> rat \<Rightarrow> rat) = max" |
c9e39eafc7a0
instantiation target rather than legacy instance
haftmann
parents:
25502
diff
changeset
|
620 |
|
27551 | 621 |
instance by intro_classes |
622 |
(auto simp add: abs_rat_def sgn_rat_def min_max.sup_inf_distrib1 inf_rat_def sup_rat_def) |
|
22456 | 623 |
|
25571
c9e39eafc7a0
instantiation target rather than legacy instance
haftmann
parents:
25502
diff
changeset
|
624 |
end |
c9e39eafc7a0
instantiation target rather than legacy instance
haftmann
parents:
25502
diff
changeset
|
625 |
|
36409 | 626 |
instance rat :: linordered_field_inverse_zero |
27551 | 627 |
proof |
14365
3d4df8c166ae
replacing HOL/Real/PRat, PNat by the rational number development
paulson
parents:
diff
changeset
|
628 |
fix q r s :: rat |
3d4df8c166ae
replacing HOL/Real/PRat, PNat by the rational number development
paulson
parents:
diff
changeset
|
629 |
show "q \<le> r ==> s + q \<le> s + r" |
3d4df8c166ae
replacing HOL/Real/PRat, PNat by the rational number development
paulson
parents:
diff
changeset
|
630 |
proof (induct q, induct r, induct s) |
3d4df8c166ae
replacing HOL/Real/PRat, PNat by the rational number development
paulson
parents:
diff
changeset
|
631 |
fix a b c d e f :: int |
35369
e4a7947e02b8
more general case and induct rules; normalize and quotient_of; abstract code generation
haftmann
parents:
35293
diff
changeset
|
632 |
assume neq: "b > 0" "d > 0" "f > 0" |
14365
3d4df8c166ae
replacing HOL/Real/PRat, PNat by the rational number development
paulson
parents:
diff
changeset
|
633 |
assume le: "Fract a b \<le> Fract c d" |
3d4df8c166ae
replacing HOL/Real/PRat, PNat by the rational number development
paulson
parents:
diff
changeset
|
634 |
show "Fract e f + Fract a b \<le> Fract e f + Fract c d" |
3d4df8c166ae
replacing HOL/Real/PRat, PNat by the rational number development
paulson
parents:
diff
changeset
|
635 |
proof - |
3d4df8c166ae
replacing HOL/Real/PRat, PNat by the rational number development
paulson
parents:
diff
changeset
|
636 |
let ?F = "f * f" from neq have F: "0 < ?F" |
3d4df8c166ae
replacing HOL/Real/PRat, PNat by the rational number development
paulson
parents:
diff
changeset
|
637 |
by (auto simp add: zero_less_mult_iff) |
3d4df8c166ae
replacing HOL/Real/PRat, PNat by the rational number development
paulson
parents:
diff
changeset
|
638 |
from neq le have "(a * d) * (b * d) \<le> (c * b) * (b * d)" |
27652
818666de6c24
refined code generator setup for rational numbers; more simplification rules for rational numbers
haftmann
parents:
27551
diff
changeset
|
639 |
by simp |
14365
3d4df8c166ae
replacing HOL/Real/PRat, PNat by the rational number development
paulson
parents:
diff
changeset
|
640 |
with F have "(a * d) * (b * d) * ?F * ?F \<le> (c * b) * (b * d) * ?F * ?F" |
3d4df8c166ae
replacing HOL/Real/PRat, PNat by the rational number development
paulson
parents:
diff
changeset
|
641 |
by (simp add: mult_le_cancel_right) |
27652
818666de6c24
refined code generator setup for rational numbers; more simplification rules for rational numbers
haftmann
parents:
27551
diff
changeset
|
642 |
with neq show ?thesis by (simp add: mult_ac int_distrib) |
14365
3d4df8c166ae
replacing HOL/Real/PRat, PNat by the rational number development
paulson
parents:
diff
changeset
|
643 |
qed |
3d4df8c166ae
replacing HOL/Real/PRat, PNat by the rational number development
paulson
parents:
diff
changeset
|
644 |
qed |
3d4df8c166ae
replacing HOL/Real/PRat, PNat by the rational number development
paulson
parents:
diff
changeset
|
645 |
show "q < r ==> 0 < s ==> s * q < s * r" |
3d4df8c166ae
replacing HOL/Real/PRat, PNat by the rational number development
paulson
parents:
diff
changeset
|
646 |
proof (induct q, induct r, induct s) |
3d4df8c166ae
replacing HOL/Real/PRat, PNat by the rational number development
paulson
parents:
diff
changeset
|
647 |
fix a b c d e f :: int |
35369
e4a7947e02b8
more general case and induct rules; normalize and quotient_of; abstract code generation
haftmann
parents:
35293
diff
changeset
|
648 |
assume neq: "b > 0" "d > 0" "f > 0" |
14365
3d4df8c166ae
replacing HOL/Real/PRat, PNat by the rational number development
paulson
parents:
diff
changeset
|
649 |
assume le: "Fract a b < Fract c d" |
3d4df8c166ae
replacing HOL/Real/PRat, PNat by the rational number development
paulson
parents:
diff
changeset
|
650 |
assume gt: "0 < Fract e f" |
3d4df8c166ae
replacing HOL/Real/PRat, PNat by the rational number development
paulson
parents:
diff
changeset
|
651 |
show "Fract e f * Fract a b < Fract e f * Fract c d" |
3d4df8c166ae
replacing HOL/Real/PRat, PNat by the rational number development
paulson
parents:
diff
changeset
|
652 |
proof - |
3d4df8c166ae
replacing HOL/Real/PRat, PNat by the rational number development
paulson
parents:
diff
changeset
|
653 |
let ?E = "e * f" and ?F = "f * f" |
3d4df8c166ae
replacing HOL/Real/PRat, PNat by the rational number development
paulson
parents:
diff
changeset
|
654 |
from neq gt have "0 < ?E" |
27652
818666de6c24
refined code generator setup for rational numbers; more simplification rules for rational numbers
haftmann
parents:
27551
diff
changeset
|
655 |
by (auto simp add: Zero_rat_def order_less_le eq_rat) |
14365
3d4df8c166ae
replacing HOL/Real/PRat, PNat by the rational number development
paulson
parents:
diff
changeset
|
656 |
moreover from neq have "0 < ?F" |
3d4df8c166ae
replacing HOL/Real/PRat, PNat by the rational number development
paulson
parents:
diff
changeset
|
657 |
by (auto simp add: zero_less_mult_iff) |
3d4df8c166ae
replacing HOL/Real/PRat, PNat by the rational number development
paulson
parents:
diff
changeset
|
658 |
moreover from neq le have "(a * d) * (b * d) < (c * b) * (b * d)" |
27652
818666de6c24
refined code generator setup for rational numbers; more simplification rules for rational numbers
haftmann
parents:
27551
diff
changeset
|
659 |
by simp |
14365
3d4df8c166ae
replacing HOL/Real/PRat, PNat by the rational number development
paulson
parents:
diff
changeset
|
660 |
ultimately have "(a * d) * (b * d) * ?E * ?F < (c * b) * (b * d) * ?E * ?F" |
3d4df8c166ae
replacing HOL/Real/PRat, PNat by the rational number development
paulson
parents:
diff
changeset
|
661 |
by (simp add: mult_less_cancel_right) |
3d4df8c166ae
replacing HOL/Real/PRat, PNat by the rational number development
paulson
parents:
diff
changeset
|
662 |
with neq show ?thesis |
27652
818666de6c24
refined code generator setup for rational numbers; more simplification rules for rational numbers
haftmann
parents:
27551
diff
changeset
|
663 |
by (simp add: mult_ac) |
14365
3d4df8c166ae
replacing HOL/Real/PRat, PNat by the rational number development
paulson
parents:
diff
changeset
|
664 |
qed |
3d4df8c166ae
replacing HOL/Real/PRat, PNat by the rational number development
paulson
parents:
diff
changeset
|
665 |
qed |
27551 | 666 |
qed auto |
14365
3d4df8c166ae
replacing HOL/Real/PRat, PNat by the rational number development
paulson
parents:
diff
changeset
|
667 |
|
27551 | 668 |
lemma Rat_induct_pos [case_names Fract, induct type: rat]: |
669 |
assumes step: "\<And>a b. 0 < b \<Longrightarrow> P (Fract a b)" |
|
670 |
shows "P q" |
|
14365
3d4df8c166ae
replacing HOL/Real/PRat, PNat by the rational number development
paulson
parents:
diff
changeset
|
671 |
proof (cases q) |
27551 | 672 |
have step': "\<And>a b. b < 0 \<Longrightarrow> P (Fract a b)" |
14365
3d4df8c166ae
replacing HOL/Real/PRat, PNat by the rational number development
paulson
parents:
diff
changeset
|
673 |
proof - |
3d4df8c166ae
replacing HOL/Real/PRat, PNat by the rational number development
paulson
parents:
diff
changeset
|
674 |
fix a::int and b::int |
3d4df8c166ae
replacing HOL/Real/PRat, PNat by the rational number development
paulson
parents:
diff
changeset
|
675 |
assume b: "b < 0" |
3d4df8c166ae
replacing HOL/Real/PRat, PNat by the rational number development
paulson
parents:
diff
changeset
|
676 |
hence "0 < -b" by simp |
3d4df8c166ae
replacing HOL/Real/PRat, PNat by the rational number development
paulson
parents:
diff
changeset
|
677 |
hence "P (Fract (-a) (-b))" by (rule step) |
3d4df8c166ae
replacing HOL/Real/PRat, PNat by the rational number development
paulson
parents:
diff
changeset
|
678 |
thus "P (Fract a b)" by (simp add: order_less_imp_not_eq [OF b]) |
3d4df8c166ae
replacing HOL/Real/PRat, PNat by the rational number development
paulson
parents:
diff
changeset
|
679 |
qed |
3d4df8c166ae
replacing HOL/Real/PRat, PNat by the rational number development
paulson
parents:
diff
changeset
|
680 |
case (Fract a b) |
3d4df8c166ae
replacing HOL/Real/PRat, PNat by the rational number development
paulson
parents:
diff
changeset
|
681 |
thus "P q" by (force simp add: linorder_neq_iff step step') |
3d4df8c166ae
replacing HOL/Real/PRat, PNat by the rational number development
paulson
parents:
diff
changeset
|
682 |
qed |
3d4df8c166ae
replacing HOL/Real/PRat, PNat by the rational number development
paulson
parents:
diff
changeset
|
683 |
|
3d4df8c166ae
replacing HOL/Real/PRat, PNat by the rational number development
paulson
parents:
diff
changeset
|
684 |
lemma zero_less_Fract_iff: |
30095
c6e184561159
add lemmas about comparisons of Fract a b with 0 and 1
huffman
parents:
29940
diff
changeset
|
685 |
"0 < b \<Longrightarrow> 0 < Fract a b \<longleftrightarrow> 0 < a" |
c6e184561159
add lemmas about comparisons of Fract a b with 0 and 1
huffman
parents:
29940
diff
changeset
|
686 |
by (simp add: Zero_rat_def zero_less_mult_iff) |
c6e184561159
add lemmas about comparisons of Fract a b with 0 and 1
huffman
parents:
29940
diff
changeset
|
687 |
|
c6e184561159
add lemmas about comparisons of Fract a b with 0 and 1
huffman
parents:
29940
diff
changeset
|
688 |
lemma Fract_less_zero_iff: |
c6e184561159
add lemmas about comparisons of Fract a b with 0 and 1
huffman
parents:
29940
diff
changeset
|
689 |
"0 < b \<Longrightarrow> Fract a b < 0 \<longleftrightarrow> a < 0" |
c6e184561159
add lemmas about comparisons of Fract a b with 0 and 1
huffman
parents:
29940
diff
changeset
|
690 |
by (simp add: Zero_rat_def mult_less_0_iff) |
c6e184561159
add lemmas about comparisons of Fract a b with 0 and 1
huffman
parents:
29940
diff
changeset
|
691 |
|
c6e184561159
add lemmas about comparisons of Fract a b with 0 and 1
huffman
parents:
29940
diff
changeset
|
692 |
lemma zero_le_Fract_iff: |
c6e184561159
add lemmas about comparisons of Fract a b with 0 and 1
huffman
parents:
29940
diff
changeset
|
693 |
"0 < b \<Longrightarrow> 0 \<le> Fract a b \<longleftrightarrow> 0 \<le> a" |
c6e184561159
add lemmas about comparisons of Fract a b with 0 and 1
huffman
parents:
29940
diff
changeset
|
694 |
by (simp add: Zero_rat_def zero_le_mult_iff) |
c6e184561159
add lemmas about comparisons of Fract a b with 0 and 1
huffman
parents:
29940
diff
changeset
|
695 |
|
c6e184561159
add lemmas about comparisons of Fract a b with 0 and 1
huffman
parents:
29940
diff
changeset
|
696 |
lemma Fract_le_zero_iff: |
c6e184561159
add lemmas about comparisons of Fract a b with 0 and 1
huffman
parents:
29940
diff
changeset
|
697 |
"0 < b \<Longrightarrow> Fract a b \<le> 0 \<longleftrightarrow> a \<le> 0" |
c6e184561159
add lemmas about comparisons of Fract a b with 0 and 1
huffman
parents:
29940
diff
changeset
|
698 |
by (simp add: Zero_rat_def mult_le_0_iff) |
c6e184561159
add lemmas about comparisons of Fract a b with 0 and 1
huffman
parents:
29940
diff
changeset
|
699 |
|
c6e184561159
add lemmas about comparisons of Fract a b with 0 and 1
huffman
parents:
29940
diff
changeset
|
700 |
lemma one_less_Fract_iff: |
c6e184561159
add lemmas about comparisons of Fract a b with 0 and 1
huffman
parents:
29940
diff
changeset
|
701 |
"0 < b \<Longrightarrow> 1 < Fract a b \<longleftrightarrow> b < a" |
c6e184561159
add lemmas about comparisons of Fract a b with 0 and 1
huffman
parents:
29940
diff
changeset
|
702 |
by (simp add: One_rat_def mult_less_cancel_right_disj) |
c6e184561159
add lemmas about comparisons of Fract a b with 0 and 1
huffman
parents:
29940
diff
changeset
|
703 |
|
c6e184561159
add lemmas about comparisons of Fract a b with 0 and 1
huffman
parents:
29940
diff
changeset
|
704 |
lemma Fract_less_one_iff: |
c6e184561159
add lemmas about comparisons of Fract a b with 0 and 1
huffman
parents:
29940
diff
changeset
|
705 |
"0 < b \<Longrightarrow> Fract a b < 1 \<longleftrightarrow> a < b" |
c6e184561159
add lemmas about comparisons of Fract a b with 0 and 1
huffman
parents:
29940
diff
changeset
|
706 |
by (simp add: One_rat_def mult_less_cancel_right_disj) |
c6e184561159
add lemmas about comparisons of Fract a b with 0 and 1
huffman
parents:
29940
diff
changeset
|
707 |
|
c6e184561159
add lemmas about comparisons of Fract a b with 0 and 1
huffman
parents:
29940
diff
changeset
|
708 |
lemma one_le_Fract_iff: |
c6e184561159
add lemmas about comparisons of Fract a b with 0 and 1
huffman
parents:
29940
diff
changeset
|
709 |
"0 < b \<Longrightarrow> 1 \<le> Fract a b \<longleftrightarrow> b \<le> a" |
c6e184561159
add lemmas about comparisons of Fract a b with 0 and 1
huffman
parents:
29940
diff
changeset
|
710 |
by (simp add: One_rat_def mult_le_cancel_right) |
c6e184561159
add lemmas about comparisons of Fract a b with 0 and 1
huffman
parents:
29940
diff
changeset
|
711 |
|
c6e184561159
add lemmas about comparisons of Fract a b with 0 and 1
huffman
parents:
29940
diff
changeset
|
712 |
lemma Fract_le_one_iff: |
c6e184561159
add lemmas about comparisons of Fract a b with 0 and 1
huffman
parents:
29940
diff
changeset
|
713 |
"0 < b \<Longrightarrow> Fract a b \<le> 1 \<longleftrightarrow> a \<le> b" |
c6e184561159
add lemmas about comparisons of Fract a b with 0 and 1
huffman
parents:
29940
diff
changeset
|
714 |
by (simp add: One_rat_def mult_le_cancel_right) |
14365
3d4df8c166ae
replacing HOL/Real/PRat, PNat by the rational number development
paulson
parents:
diff
changeset
|
715 |
|
14378
69c4d5997669
generic of_nat and of_int functions, and generalization of iszero
paulson
parents:
14365
diff
changeset
|
716 |
|
30097
57df8626c23b
generalize floor/ceiling to work with real and rat; rename floor_mono2 to floor_mono
huffman
parents:
30095
diff
changeset
|
717 |
subsubsection {* Rationals are an Archimedean field *} |
57df8626c23b
generalize floor/ceiling to work with real and rat; rename floor_mono2 to floor_mono
huffman
parents:
30095
diff
changeset
|
718 |
|
57df8626c23b
generalize floor/ceiling to work with real and rat; rename floor_mono2 to floor_mono
huffman
parents:
30095
diff
changeset
|
719 |
lemma rat_floor_lemma: |
57df8626c23b
generalize floor/ceiling to work with real and rat; rename floor_mono2 to floor_mono
huffman
parents:
30095
diff
changeset
|
720 |
shows "of_int (a div b) \<le> Fract a b \<and> Fract a b < of_int (a div b + 1)" |
57df8626c23b
generalize floor/ceiling to work with real and rat; rename floor_mono2 to floor_mono
huffman
parents:
30095
diff
changeset
|
721 |
proof - |
57df8626c23b
generalize floor/ceiling to work with real and rat; rename floor_mono2 to floor_mono
huffman
parents:
30095
diff
changeset
|
722 |
have "Fract a b = of_int (a div b) + Fract (a mod b) b" |
35293
06a98796453e
remove unneeded premise from rat_floor_lemma and floor_Fract
huffman
parents:
35216
diff
changeset
|
723 |
by (cases "b = 0", simp, simp add: of_int_rat) |
30097
57df8626c23b
generalize floor/ceiling to work with real and rat; rename floor_mono2 to floor_mono
huffman
parents:
30095
diff
changeset
|
724 |
moreover have "0 \<le> Fract (a mod b) b \<and> Fract (a mod b) b < 1" |
35293
06a98796453e
remove unneeded premise from rat_floor_lemma and floor_Fract
huffman
parents:
35216
diff
changeset
|
725 |
unfolding Fract_of_int_quotient |
36409 | 726 |
by (rule linorder_cases [of b 0]) (simp add: divide_nonpos_neg, simp, simp add: divide_nonneg_pos) |
30097
57df8626c23b
generalize floor/ceiling to work with real and rat; rename floor_mono2 to floor_mono
huffman
parents:
30095
diff
changeset
|
727 |
ultimately show ?thesis by simp |
57df8626c23b
generalize floor/ceiling to work with real and rat; rename floor_mono2 to floor_mono
huffman
parents:
30095
diff
changeset
|
728 |
qed |
57df8626c23b
generalize floor/ceiling to work with real and rat; rename floor_mono2 to floor_mono
huffman
parents:
30095
diff
changeset
|
729 |
|
57df8626c23b
generalize floor/ceiling to work with real and rat; rename floor_mono2 to floor_mono
huffman
parents:
30095
diff
changeset
|
730 |
instance rat :: archimedean_field |
57df8626c23b
generalize floor/ceiling to work with real and rat; rename floor_mono2 to floor_mono
huffman
parents:
30095
diff
changeset
|
731 |
proof |
57df8626c23b
generalize floor/ceiling to work with real and rat; rename floor_mono2 to floor_mono
huffman
parents:
30095
diff
changeset
|
732 |
fix r :: rat |
57df8626c23b
generalize floor/ceiling to work with real and rat; rename floor_mono2 to floor_mono
huffman
parents:
30095
diff
changeset
|
733 |
show "\<exists>z. r \<le> of_int z" |
57df8626c23b
generalize floor/ceiling to work with real and rat; rename floor_mono2 to floor_mono
huffman
parents:
30095
diff
changeset
|
734 |
proof (induct r) |
57df8626c23b
generalize floor/ceiling to work with real and rat; rename floor_mono2 to floor_mono
huffman
parents:
30095
diff
changeset
|
735 |
case (Fract a b) |
35293
06a98796453e
remove unneeded premise from rat_floor_lemma and floor_Fract
huffman
parents:
35216
diff
changeset
|
736 |
have "Fract a b \<le> of_int (a div b + 1)" |
06a98796453e
remove unneeded premise from rat_floor_lemma and floor_Fract
huffman
parents:
35216
diff
changeset
|
737 |
using rat_floor_lemma [of a b] by simp |
30097
57df8626c23b
generalize floor/ceiling to work with real and rat; rename floor_mono2 to floor_mono
huffman
parents:
30095
diff
changeset
|
738 |
then show "\<exists>z. Fract a b \<le> of_int z" .. |
57df8626c23b
generalize floor/ceiling to work with real and rat; rename floor_mono2 to floor_mono
huffman
parents:
30095
diff
changeset
|
739 |
qed |
57df8626c23b
generalize floor/ceiling to work with real and rat; rename floor_mono2 to floor_mono
huffman
parents:
30095
diff
changeset
|
740 |
qed |
57df8626c23b
generalize floor/ceiling to work with real and rat; rename floor_mono2 to floor_mono
huffman
parents:
30095
diff
changeset
|
741 |
|
43732
6b2bdc57155b
adding a floor_ceiling type class for different instantiations of floor (changeset from Brian Huffman)
bulwahn
parents:
42311
diff
changeset
|
742 |
instantiation rat :: floor_ceiling |
6b2bdc57155b
adding a floor_ceiling type class for different instantiations of floor (changeset from Brian Huffman)
bulwahn
parents:
42311
diff
changeset
|
743 |
begin |
6b2bdc57155b
adding a floor_ceiling type class for different instantiations of floor (changeset from Brian Huffman)
bulwahn
parents:
42311
diff
changeset
|
744 |
|
6b2bdc57155b
adding a floor_ceiling type class for different instantiations of floor (changeset from Brian Huffman)
bulwahn
parents:
42311
diff
changeset
|
745 |
definition [code del]: |
6b2bdc57155b
adding a floor_ceiling type class for different instantiations of floor (changeset from Brian Huffman)
bulwahn
parents:
42311
diff
changeset
|
746 |
"floor (x::rat) = (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
|
747 |
|
6b2bdc57155b
adding a floor_ceiling type class for different instantiations of floor (changeset from Brian Huffman)
bulwahn
parents:
42311
diff
changeset
|
748 |
instance proof |
6b2bdc57155b
adding a floor_ceiling type class for different instantiations of floor (changeset from Brian Huffman)
bulwahn
parents:
42311
diff
changeset
|
749 |
fix x :: rat |
6b2bdc57155b
adding a floor_ceiling type class for different instantiations of floor (changeset from Brian Huffman)
bulwahn
parents:
42311
diff
changeset
|
750 |
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
|
751 |
unfolding floor_rat_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
|
752 |
qed |
6b2bdc57155b
adding a floor_ceiling type class for different instantiations of floor (changeset from Brian Huffman)
bulwahn
parents:
42311
diff
changeset
|
753 |
|
6b2bdc57155b
adding a floor_ceiling type class for different instantiations of floor (changeset from Brian Huffman)
bulwahn
parents:
42311
diff
changeset
|
754 |
end |
6b2bdc57155b
adding a floor_ceiling type class for different instantiations of floor (changeset from Brian Huffman)
bulwahn
parents:
42311
diff
changeset
|
755 |
|
35293
06a98796453e
remove unneeded premise from rat_floor_lemma and floor_Fract
huffman
parents:
35216
diff
changeset
|
756 |
lemma floor_Fract: "floor (Fract a b) = a div b" |
06a98796453e
remove unneeded premise from rat_floor_lemma and floor_Fract
huffman
parents:
35216
diff
changeset
|
757 |
using rat_floor_lemma [of a b] |
30097
57df8626c23b
generalize floor/ceiling to work with real and rat; rename floor_mono2 to floor_mono
huffman
parents:
30095
diff
changeset
|
758 |
by (simp add: floor_unique) |
57df8626c23b
generalize floor/ceiling to work with real and rat; rename floor_mono2 to floor_mono
huffman
parents:
30095
diff
changeset
|
759 |
|
57df8626c23b
generalize floor/ceiling to work with real and rat; rename floor_mono2 to floor_mono
huffman
parents:
30095
diff
changeset
|
760 |
|
31100 | 761 |
subsection {* Linear arithmetic setup *} |
14387
e96d5c42c4b0
Polymorphic treatment of binary arithmetic using axclasses
paulson
parents:
14378
diff
changeset
|
762 |
|
31100 | 763 |
declaration {* |
764 |
K (Lin_Arith.add_inj_thms [@{thm of_nat_le_iff} RS iffD2, @{thm of_nat_eq_iff} RS iffD2] |
|
765 |
(* not needed because x < (y::nat) can be rewritten as Suc x <= y: of_nat_less_iff RS iffD2 *) |
|
766 |
#> Lin_Arith.add_inj_thms [@{thm of_int_le_iff} RS iffD2, @{thm of_int_eq_iff} RS iffD2] |
|
767 |
(* not needed because x < (y::int) can be rewritten as x + 1 <= y: of_int_less_iff RS iffD2 *) |
|
768 |
#> Lin_Arith.add_simps [@{thm neg_less_iff_less}, |
|
769 |
@{thm True_implies_equals}, |
|
770 |
read_instantiate @{context} [(("a", 0), "(number_of ?v)")] @{thm right_distrib}, |
|
771 |
@{thm divide_1}, @{thm divide_zero_left}, |
|
772 |
@{thm times_divide_eq_right}, @{thm times_divide_eq_left}, |
|
773 |
@{thm minus_divide_left} RS sym, @{thm minus_divide_right} RS sym, |
|
774 |
@{thm of_int_minus}, @{thm of_int_diff}, |
|
775 |
@{thm of_int_of_nat_eq}] |
|
776 |
#> Lin_Arith.add_simprocs Numeral_Simprocs.field_cancel_numeral_factors |
|
777 |
#> Lin_Arith.add_inj_const (@{const_name of_nat}, @{typ "nat => rat"}) |
|
778 |
#> Lin_Arith.add_inj_const (@{const_name of_int}, @{typ "int => rat"})) |
|
779 |
*} |
|
14387
e96d5c42c4b0
Polymorphic treatment of binary arithmetic using axclasses
paulson
parents:
14378
diff
changeset
|
780 |
|
23342 | 781 |
|
782 |
subsection {* Embedding from Rationals to other Fields *} |
|
783 |
||
24198 | 784 |
class field_char_0 = field + ring_char_0 |
23342 | 785 |
|
35028
108662d50512
more consistent naming of type classes involving orderings (and lattices) -- c.f. NEWS
haftmann
parents:
33814
diff
changeset
|
786 |
subclass (in linordered_field) field_char_0 .. |
23342 | 787 |
|
27551 | 788 |
context field_char_0 |
789 |
begin |
|
790 |
||
791 |
definition of_rat :: "rat \<Rightarrow> 'a" where |
|
39910 | 792 |
"of_rat q = the_elem (\<Union>(a,b) \<in> Rep_Rat q. {of_int a / of_int b})" |
23342 | 793 |
|
27551 | 794 |
end |
795 |
||
23342 | 796 |
lemma of_rat_congruent: |
27551 | 797 |
"(\<lambda>(a, b). {of_int a / of_int b :: 'a::field_char_0}) respects ratrel" |
40816
19c492929756
replaced slightly odd locale congruent by plain definition
haftmann
parents:
40815
diff
changeset
|
798 |
apply (rule congruentI) |
23342 | 799 |
apply (clarsimp simp add: nonzero_divide_eq_eq nonzero_eq_divide_eq) |
800 |
apply (simp only: of_int_mult [symmetric]) |
|
801 |
done |
|
802 |
||
27551 | 803 |
lemma of_rat_rat: "b \<noteq> 0 \<Longrightarrow> of_rat (Fract a b) = of_int a / of_int b" |
804 |
unfolding Fract_def of_rat_def by (simp add: UN_ratrel of_rat_congruent) |
|
23342 | 805 |
|
806 |
lemma of_rat_0 [simp]: "of_rat 0 = 0" |
|
807 |
by (simp add: Zero_rat_def of_rat_rat) |
|
808 |
||
809 |
lemma of_rat_1 [simp]: "of_rat 1 = 1" |
|
810 |
by (simp add: One_rat_def of_rat_rat) |
|
811 |
||
812 |
lemma of_rat_add: "of_rat (a + b) = of_rat a + of_rat b" |
|
27652
818666de6c24
refined code generator setup for rational numbers; more simplification rules for rational numbers
haftmann
parents:
27551
diff
changeset
|
813 |
by (induct a, induct b, simp add: of_rat_rat add_frac_eq) |
23342 | 814 |
|
23343 | 815 |
lemma of_rat_minus: "of_rat (- a) = - of_rat a" |
27652
818666de6c24
refined code generator setup for rational numbers; more simplification rules for rational numbers
haftmann
parents:
27551
diff
changeset
|
816 |
by (induct a, simp add: of_rat_rat) |
23343 | 817 |
|
818 |
lemma of_rat_diff: "of_rat (a - b) = of_rat a - of_rat b" |
|
819 |
by (simp only: diff_minus of_rat_add of_rat_minus) |
|
820 |
||
23342 | 821 |
lemma of_rat_mult: "of_rat (a * b) = of_rat a * of_rat b" |
27652
818666de6c24
refined code generator setup for rational numbers; more simplification rules for rational numbers
haftmann
parents:
27551
diff
changeset
|
822 |
apply (induct a, induct b, simp add: of_rat_rat) |
23342 | 823 |
apply (simp add: divide_inverse nonzero_inverse_mult_distrib mult_ac) |
824 |
done |
|
825 |
||
826 |
lemma nonzero_of_rat_inverse: |
|
827 |
"a \<noteq> 0 \<Longrightarrow> of_rat (inverse a) = inverse (of_rat a)" |
|
23343 | 828 |
apply (rule inverse_unique [symmetric]) |
829 |
apply (simp add: of_rat_mult [symmetric]) |
|
23342 | 830 |
done |
831 |
||
832 |
lemma of_rat_inverse: |
|
36409 | 833 |
"(of_rat (inverse a)::'a::{field_char_0, field_inverse_zero}) = |
23342 | 834 |
inverse (of_rat a)" |
835 |
by (cases "a = 0", simp_all add: nonzero_of_rat_inverse) |
|
836 |
||
837 |
lemma nonzero_of_rat_divide: |
|
838 |
"b \<noteq> 0 \<Longrightarrow> of_rat (a / b) = of_rat a / of_rat b" |
|
839 |
by (simp add: divide_inverse of_rat_mult nonzero_of_rat_inverse) |
|
840 |
||
841 |
lemma of_rat_divide: |
|
36409 | 842 |
"(of_rat (a / b)::'a::{field_char_0, field_inverse_zero}) |
23342 | 843 |
= of_rat a / of_rat b" |
27652
818666de6c24
refined code generator setup for rational numbers; more simplification rules for rational numbers
haftmann
parents:
27551
diff
changeset
|
844 |
by (cases "b = 0") (simp_all add: nonzero_of_rat_divide) |
23342 | 845 |
|
23343 | 846 |
lemma of_rat_power: |
31017 | 847 |
"(of_rat (a ^ n)::'a::field_char_0) = of_rat a ^ n" |
30273
ecd6f0ca62ea
declare power_Suc [simp]; remove redundant type-specific versions of power_Suc
huffman
parents:
30242
diff
changeset
|
848 |
by (induct n) (simp_all add: of_rat_mult) |
23343 | 849 |
|
850 |
lemma of_rat_eq_iff [simp]: "(of_rat a = of_rat b) = (a = b)" |
|
851 |
apply (induct a, induct b) |
|
852 |
apply (simp add: of_rat_rat eq_rat) |
|
853 |
apply (simp add: nonzero_divide_eq_eq nonzero_eq_divide_eq) |
|
854 |
apply (simp only: of_int_mult [symmetric] of_int_eq_iff) |
|
855 |
done |
|
856 |
||
27652
818666de6c24
refined code generator setup for rational numbers; more simplification rules for rational numbers
haftmann
parents:
27551
diff
changeset
|
857 |
lemma of_rat_less: |
35028
108662d50512
more consistent naming of type classes involving orderings (and lattices) -- c.f. NEWS
haftmann
parents:
33814
diff
changeset
|
858 |
"(of_rat r :: 'a::linordered_field) < of_rat s \<longleftrightarrow> r < s" |
27652
818666de6c24
refined code generator setup for rational numbers; more simplification rules for rational numbers
haftmann
parents:
27551
diff
changeset
|
859 |
proof (induct r, induct s) |
818666de6c24
refined code generator setup for rational numbers; more simplification rules for rational numbers
haftmann
parents:
27551
diff
changeset
|
860 |
fix a b c d :: int |
818666de6c24
refined code generator setup for rational numbers; more simplification rules for rational numbers
haftmann
parents:
27551
diff
changeset
|
861 |
assume not_zero: "b > 0" "d > 0" |
818666de6c24
refined code generator setup for rational numbers; more simplification rules for rational numbers
haftmann
parents:
27551
diff
changeset
|
862 |
then have "b * d > 0" by (rule mult_pos_pos) |
818666de6c24
refined code generator setup for rational numbers; more simplification rules for rational numbers
haftmann
parents:
27551
diff
changeset
|
863 |
have of_int_divide_less_eq: |
818666de6c24
refined code generator setup for rational numbers; more simplification rules for rational numbers
haftmann
parents:
27551
diff
changeset
|
864 |
"(of_int a :: 'a) / of_int b < of_int c / of_int d |
818666de6c24
refined code generator setup for rational numbers; more simplification rules for rational numbers
haftmann
parents:
27551
diff
changeset
|
865 |
\<longleftrightarrow> (of_int a :: 'a) * of_int d < of_int c * of_int b" |
818666de6c24
refined code generator setup for rational numbers; more simplification rules for rational numbers
haftmann
parents:
27551
diff
changeset
|
866 |
using not_zero by (simp add: pos_less_divide_eq pos_divide_less_eq) |
35028
108662d50512
more consistent naming of type classes involving orderings (and lattices) -- c.f. NEWS
haftmann
parents:
33814
diff
changeset
|
867 |
show "(of_rat (Fract a b) :: 'a::linordered_field) < of_rat (Fract c d) |
27652
818666de6c24
refined code generator setup for rational numbers; more simplification rules for rational numbers
haftmann
parents:
27551
diff
changeset
|
868 |
\<longleftrightarrow> Fract a b < Fract c d" |
818666de6c24
refined code generator setup for rational numbers; more simplification rules for rational numbers
haftmann
parents:
27551
diff
changeset
|
869 |
using not_zero `b * d > 0` |
818666de6c24
refined code generator setup for rational numbers; more simplification rules for rational numbers
haftmann
parents:
27551
diff
changeset
|
870 |
by (simp add: of_rat_rat of_int_divide_less_eq of_int_mult [symmetric] del: of_int_mult) |
818666de6c24
refined code generator setup for rational numbers; more simplification rules for rational numbers
haftmann
parents:
27551
diff
changeset
|
871 |
qed |
818666de6c24
refined code generator setup for rational numbers; more simplification rules for rational numbers
haftmann
parents:
27551
diff
changeset
|
872 |
|
818666de6c24
refined code generator setup for rational numbers; more simplification rules for rational numbers
haftmann
parents:
27551
diff
changeset
|
873 |
lemma of_rat_less_eq: |
35028
108662d50512
more consistent naming of type classes involving orderings (and lattices) -- c.f. NEWS
haftmann
parents:
33814
diff
changeset
|
874 |
"(of_rat r :: 'a::linordered_field) \<le> of_rat s \<longleftrightarrow> r \<le> s" |
27652
818666de6c24
refined code generator setup for rational numbers; more simplification rules for rational numbers
haftmann
parents:
27551
diff
changeset
|
875 |
unfolding le_less by (auto simp add: of_rat_less) |
818666de6c24
refined code generator setup for rational numbers; more simplification rules for rational numbers
haftmann
parents:
27551
diff
changeset
|
876 |
|
23343 | 877 |
lemmas of_rat_eq_0_iff [simp] = of_rat_eq_iff [of _ 0, simplified] |
878 |
||
27652
818666de6c24
refined code generator setup for rational numbers; more simplification rules for rational numbers
haftmann
parents:
27551
diff
changeset
|
879 |
lemma of_rat_eq_id [simp]: "of_rat = id" |
23343 | 880 |
proof |
881 |
fix a |
|
882 |
show "of_rat a = id a" |
|
883 |
by (induct a) |
|
27652
818666de6c24
refined code generator setup for rational numbers; more simplification rules for rational numbers
haftmann
parents:
27551
diff
changeset
|
884 |
(simp add: of_rat_rat Fract_of_int_eq [symmetric]) |
23343 | 885 |
qed |
886 |
||
887 |
text{*Collapse nested embeddings*} |
|
888 |
lemma of_rat_of_nat_eq [simp]: "of_rat (of_nat n) = of_nat n" |
|
889 |
by (induct n) (simp_all add: of_rat_add) |
|
890 |
||
891 |
lemma of_rat_of_int_eq [simp]: "of_rat (of_int z) = of_int z" |
|
27652
818666de6c24
refined code generator setup for rational numbers; more simplification rules for rational numbers
haftmann
parents:
27551
diff
changeset
|
892 |
by (cases z rule: int_diff_cases) (simp add: of_rat_diff) |
23343 | 893 |
|
894 |
lemma of_rat_number_of_eq [simp]: |
|
895 |
"of_rat (number_of w) = (number_of w :: 'a::{number_ring,field_char_0})" |
|
896 |
by (simp add: number_of_eq) |
|
897 |
||
23879 | 898 |
lemmas zero_rat = Zero_rat_def |
899 |
lemmas one_rat = One_rat_def |
|
900 |
||
24198 | 901 |
abbreviation |
902 |
rat_of_nat :: "nat \<Rightarrow> rat" |
|
903 |
where |
|
904 |
"rat_of_nat \<equiv> of_nat" |
|
905 |
||
906 |
abbreviation |
|
907 |
rat_of_int :: "int \<Rightarrow> rat" |
|
908 |
where |
|
909 |
"rat_of_int \<equiv> of_int" |
|
910 |
||
28010
8312edc51969
add lemmas about Rats similar to those about Reals
huffman
parents:
28001
diff
changeset
|
911 |
subsection {* The Set of Rational Numbers *} |
24533
fe1f93f6a15a
Added code generator setup (taken from Library/Executable_Rat.thy,
berghofe
parents:
24506
diff
changeset
|
912 |
|
28001 | 913 |
context field_char_0 |
914 |
begin |
|
915 |
||
916 |
definition |
|
917 |
Rats :: "'a set" where |
|
35369
e4a7947e02b8
more general case and induct rules; normalize and quotient_of; abstract code generation
haftmann
parents:
35293
diff
changeset
|
918 |
"Rats = range of_rat" |
28001 | 919 |
|
920 |
notation (xsymbols) |
|
921 |
Rats ("\<rat>") |
|
922 |
||
923 |
end |
|
924 |
||
28010
8312edc51969
add lemmas about Rats similar to those about Reals
huffman
parents:
28001
diff
changeset
|
925 |
lemma Rats_of_rat [simp]: "of_rat r \<in> Rats" |
8312edc51969
add lemmas about Rats similar to those about Reals
huffman
parents:
28001
diff
changeset
|
926 |
by (simp add: Rats_def) |
8312edc51969
add lemmas about Rats similar to those about Reals
huffman
parents:
28001
diff
changeset
|
927 |
|
8312edc51969
add lemmas about Rats similar to those about Reals
huffman
parents:
28001
diff
changeset
|
928 |
lemma Rats_of_int [simp]: "of_int z \<in> Rats" |
8312edc51969
add lemmas about Rats similar to those about Reals
huffman
parents:
28001
diff
changeset
|
929 |
by (subst of_rat_of_int_eq [symmetric], rule Rats_of_rat) |
8312edc51969
add lemmas about Rats similar to those about Reals
huffman
parents:
28001
diff
changeset
|
930 |
|
8312edc51969
add lemmas about Rats similar to those about Reals
huffman
parents:
28001
diff
changeset
|
931 |
lemma Rats_of_nat [simp]: "of_nat n \<in> Rats" |
8312edc51969
add lemmas about Rats similar to those about Reals
huffman
parents:
28001
diff
changeset
|
932 |
by (subst of_rat_of_nat_eq [symmetric], rule Rats_of_rat) |
8312edc51969
add lemmas about Rats similar to those about Reals
huffman
parents:
28001
diff
changeset
|
933 |
|
8312edc51969
add lemmas about Rats similar to those about Reals
huffman
parents:
28001
diff
changeset
|
934 |
lemma Rats_number_of [simp]: |
8312edc51969
add lemmas about Rats similar to those about Reals
huffman
parents:
28001
diff
changeset
|
935 |
"(number_of w::'a::{number_ring,field_char_0}) \<in> Rats" |
8312edc51969
add lemmas about Rats similar to those about Reals
huffman
parents:
28001
diff
changeset
|
936 |
by (subst of_rat_number_of_eq [symmetric], rule Rats_of_rat) |
8312edc51969
add lemmas about Rats similar to those about Reals
huffman
parents:
28001
diff
changeset
|
937 |
|
8312edc51969
add lemmas about Rats similar to those about Reals
huffman
parents:
28001
diff
changeset
|
938 |
lemma Rats_0 [simp]: "0 \<in> Rats" |
8312edc51969
add lemmas about Rats similar to those about Reals
huffman
parents:
28001
diff
changeset
|
939 |
apply (unfold Rats_def) |
8312edc51969
add lemmas about Rats similar to those about Reals
huffman
parents:
28001
diff
changeset
|
940 |
apply (rule range_eqI) |
8312edc51969
add lemmas about Rats similar to those about Reals
huffman
parents:
28001
diff
changeset
|
941 |
apply (rule of_rat_0 [symmetric]) |
8312edc51969
add lemmas about Rats similar to those about Reals
huffman
parents:
28001
diff
changeset
|
942 |
done |
8312edc51969
add lemmas about Rats similar to those about Reals
huffman
parents:
28001
diff
changeset
|
943 |
|
8312edc51969
add lemmas about Rats similar to those about Reals
huffman
parents:
28001
diff
changeset
|
944 |
lemma Rats_1 [simp]: "1 \<in> Rats" |
8312edc51969
add lemmas about Rats similar to those about Reals
huffman
parents:
28001
diff
changeset
|
945 |
apply (unfold Rats_def) |
8312edc51969
add lemmas about Rats similar to those about Reals
huffman
parents:
28001
diff
changeset
|
946 |
apply (rule range_eqI) |
8312edc51969
add lemmas about Rats similar to those about Reals
huffman
parents:
28001
diff
changeset
|
947 |
apply (rule of_rat_1 [symmetric]) |
8312edc51969
add lemmas about Rats similar to those about Reals
huffman
parents:
28001
diff
changeset
|
948 |
done |
8312edc51969
add lemmas about Rats similar to those about Reals
huffman
parents:
28001
diff
changeset
|
949 |
|
8312edc51969
add lemmas about Rats similar to those about Reals
huffman
parents:
28001
diff
changeset
|
950 |
lemma Rats_add [simp]: "\<lbrakk>a \<in> Rats; b \<in> Rats\<rbrakk> \<Longrightarrow> a + b \<in> Rats" |
8312edc51969
add lemmas about Rats similar to those about Reals
huffman
parents:
28001
diff
changeset
|
951 |
apply (auto simp add: Rats_def) |
8312edc51969
add lemmas about Rats similar to those about Reals
huffman
parents:
28001
diff
changeset
|
952 |
apply (rule range_eqI) |
8312edc51969
add lemmas about Rats similar to those about Reals
huffman
parents:
28001
diff
changeset
|
953 |
apply (rule of_rat_add [symmetric]) |
8312edc51969
add lemmas about Rats similar to those about Reals
huffman
parents:
28001
diff
changeset
|
954 |
done |
8312edc51969
add lemmas about Rats similar to those about Reals
huffman
parents:
28001
diff
changeset
|
955 |
|
8312edc51969
add lemmas about Rats similar to those about Reals
huffman
parents:
28001
diff
changeset
|
956 |
lemma Rats_minus [simp]: "a \<in> Rats \<Longrightarrow> - a \<in> Rats" |
8312edc51969
add lemmas about Rats similar to those about Reals
huffman
parents:
28001
diff
changeset
|
957 |
apply (auto simp add: Rats_def) |
8312edc51969
add lemmas about Rats similar to those about Reals
huffman
parents:
28001
diff
changeset
|
958 |
apply (rule range_eqI) |
8312edc51969
add lemmas about Rats similar to those about Reals
huffman
parents:
28001
diff
changeset
|
959 |
apply (rule of_rat_minus [symmetric]) |
8312edc51969
add lemmas about Rats similar to those about Reals
huffman
parents:
28001
diff
changeset
|
960 |
done |
8312edc51969
add lemmas about Rats similar to those about Reals
huffman
parents:
28001
diff
changeset
|
961 |
|
8312edc51969
add lemmas about Rats similar to those about Reals
huffman
parents:
28001
diff
changeset
|
962 |
lemma Rats_diff [simp]: "\<lbrakk>a \<in> Rats; b \<in> Rats\<rbrakk> \<Longrightarrow> a - b \<in> Rats" |
8312edc51969
add lemmas about Rats similar to those about Reals
huffman
parents:
28001
diff
changeset
|
963 |
apply (auto simp add: Rats_def) |
8312edc51969
add lemmas about Rats similar to those about Reals
huffman
parents:
28001
diff
changeset
|
964 |
apply (rule range_eqI) |
8312edc51969
add lemmas about Rats similar to those about Reals
huffman
parents:
28001
diff
changeset
|
965 |
apply (rule of_rat_diff [symmetric]) |
8312edc51969
add lemmas about Rats similar to those about Reals
huffman
parents:
28001
diff
changeset
|
966 |
done |
8312edc51969
add lemmas about Rats similar to those about Reals
huffman
parents:
28001
diff
changeset
|
967 |
|
8312edc51969
add lemmas about Rats similar to those about Reals
huffman
parents:
28001
diff
changeset
|
968 |
lemma Rats_mult [simp]: "\<lbrakk>a \<in> Rats; b \<in> Rats\<rbrakk> \<Longrightarrow> a * b \<in> Rats" |
8312edc51969
add lemmas about Rats similar to those about Reals
huffman
parents:
28001
diff
changeset
|
969 |
apply (auto simp add: Rats_def) |
8312edc51969
add lemmas about Rats similar to those about Reals
huffman
parents:
28001
diff
changeset
|
970 |
apply (rule range_eqI) |
8312edc51969
add lemmas about Rats similar to those about Reals
huffman
parents:
28001
diff
changeset
|
971 |
apply (rule of_rat_mult [symmetric]) |
8312edc51969
add lemmas about Rats similar to those about Reals
huffman
parents:
28001
diff
changeset
|
972 |
done |
8312edc51969
add lemmas about Rats similar to those about Reals
huffman
parents:
28001
diff
changeset
|
973 |
|
8312edc51969
add lemmas about Rats similar to those about Reals
huffman
parents:
28001
diff
changeset
|
974 |
lemma nonzero_Rats_inverse: |
8312edc51969
add lemmas about Rats similar to those about Reals
huffman
parents:
28001
diff
changeset
|
975 |
fixes a :: "'a::field_char_0" |
8312edc51969
add lemmas about Rats similar to those about Reals
huffman
parents:
28001
diff
changeset
|
976 |
shows "\<lbrakk>a \<in> Rats; a \<noteq> 0\<rbrakk> \<Longrightarrow> inverse a \<in> Rats" |
8312edc51969
add lemmas about Rats similar to those about Reals
huffman
parents:
28001
diff
changeset
|
977 |
apply (auto simp add: Rats_def) |
8312edc51969
add lemmas about Rats similar to those about Reals
huffman
parents:
28001
diff
changeset
|
978 |
apply (rule range_eqI) |
8312edc51969
add lemmas about Rats similar to those about Reals
huffman
parents:
28001
diff
changeset
|
979 |
apply (erule nonzero_of_rat_inverse [symmetric]) |
8312edc51969
add lemmas about Rats similar to those about Reals
huffman
parents:
28001
diff
changeset
|
980 |
done |
8312edc51969
add lemmas about Rats similar to those about Reals
huffman
parents:
28001
diff
changeset
|
981 |
|
8312edc51969
add lemmas about Rats similar to those about Reals
huffman
parents:
28001
diff
changeset
|
982 |
lemma Rats_inverse [simp]: |
36409 | 983 |
fixes a :: "'a::{field_char_0, field_inverse_zero}" |
28010
8312edc51969
add lemmas about Rats similar to those about Reals
huffman
parents:
28001
diff
changeset
|
984 |
shows "a \<in> Rats \<Longrightarrow> inverse a \<in> Rats" |
8312edc51969
add lemmas about Rats similar to those about Reals
huffman
parents:
28001
diff
changeset
|
985 |
apply (auto simp add: Rats_def) |
8312edc51969
add lemmas about Rats similar to those about Reals
huffman
parents:
28001
diff
changeset
|
986 |
apply (rule range_eqI) |
8312edc51969
add lemmas about Rats similar to those about Reals
huffman
parents:
28001
diff
changeset
|
987 |
apply (rule of_rat_inverse [symmetric]) |
8312edc51969
add lemmas about Rats similar to those about Reals
huffman
parents:
28001
diff
changeset
|
988 |
done |
8312edc51969
add lemmas about Rats similar to those about Reals
huffman
parents:
28001
diff
changeset
|
989 |
|
8312edc51969
add lemmas about Rats similar to those about Reals
huffman
parents:
28001
diff
changeset
|
990 |
lemma nonzero_Rats_divide: |
8312edc51969
add lemmas about Rats similar to those about Reals
huffman
parents:
28001
diff
changeset
|
991 |
fixes a b :: "'a::field_char_0" |
8312edc51969
add lemmas about Rats similar to those about Reals
huffman
parents:
28001
diff
changeset
|
992 |
shows "\<lbrakk>a \<in> Rats; b \<in> Rats; b \<noteq> 0\<rbrakk> \<Longrightarrow> a / b \<in> Rats" |
8312edc51969
add lemmas about Rats similar to those about Reals
huffman
parents:
28001
diff
changeset
|
993 |
apply (auto simp add: Rats_def) |
8312edc51969
add lemmas about Rats similar to those about Reals
huffman
parents:
28001
diff
changeset
|
994 |
apply (rule range_eqI) |
8312edc51969
add lemmas about Rats similar to those about Reals
huffman
parents:
28001
diff
changeset
|
995 |
apply (erule nonzero_of_rat_divide [symmetric]) |
8312edc51969
add lemmas about Rats similar to those about Reals
huffman
parents:
28001
diff
changeset
|
996 |
done |
8312edc51969
add lemmas about Rats similar to those about Reals
huffman
parents:
28001
diff
changeset
|
997 |
|
8312edc51969
add lemmas about Rats similar to those about Reals
huffman
parents:
28001
diff
changeset
|
998 |
lemma Rats_divide [simp]: |
36409 | 999 |
fixes a b :: "'a::{field_char_0, field_inverse_zero}" |
28010
8312edc51969
add lemmas about Rats similar to those about Reals
huffman
parents:
28001
diff
changeset
|
1000 |
shows "\<lbrakk>a \<in> Rats; b \<in> Rats\<rbrakk> \<Longrightarrow> a / b \<in> Rats" |
8312edc51969
add lemmas about Rats similar to those about Reals
huffman
parents:
28001
diff
changeset
|
1001 |
apply (auto simp add: Rats_def) |
8312edc51969
add lemmas about Rats similar to those about Reals
huffman
parents:
28001
diff
changeset
|
1002 |
apply (rule range_eqI) |
8312edc51969
add lemmas about Rats similar to those about Reals
huffman
parents:
28001
diff
changeset
|
1003 |
apply (rule of_rat_divide [symmetric]) |
8312edc51969
add lemmas about Rats similar to those about Reals
huffman
parents:
28001
diff
changeset
|
1004 |
done |
8312edc51969
add lemmas about Rats similar to those about Reals
huffman
parents:
28001
diff
changeset
|
1005 |
|
8312edc51969
add lemmas about Rats similar to those about Reals
huffman
parents:
28001
diff
changeset
|
1006 |
lemma Rats_power [simp]: |
31017 | 1007 |
fixes a :: "'a::field_char_0" |
28010
8312edc51969
add lemmas about Rats similar to those about Reals
huffman
parents:
28001
diff
changeset
|
1008 |
shows "a \<in> Rats \<Longrightarrow> a ^ n \<in> Rats" |
8312edc51969
add lemmas about Rats similar to those about Reals
huffman
parents:
28001
diff
changeset
|
1009 |
apply (auto simp add: Rats_def) |
8312edc51969
add lemmas about Rats similar to those about Reals
huffman
parents:
28001
diff
changeset
|
1010 |
apply (rule range_eqI) |
8312edc51969
add lemmas about Rats similar to those about Reals
huffman
parents:
28001
diff
changeset
|
1011 |
apply (rule of_rat_power [symmetric]) |
8312edc51969
add lemmas about Rats similar to those about Reals
huffman
parents:
28001
diff
changeset
|
1012 |
done |
8312edc51969
add lemmas about Rats similar to those about Reals
huffman
parents:
28001
diff
changeset
|
1013 |
|
8312edc51969
add lemmas about Rats similar to those about Reals
huffman
parents:
28001
diff
changeset
|
1014 |
lemma Rats_cases [cases set: Rats]: |
8312edc51969
add lemmas about Rats similar to those about Reals
huffman
parents:
28001
diff
changeset
|
1015 |
assumes "q \<in> \<rat>" |
8312edc51969
add lemmas about Rats similar to those about Reals
huffman
parents:
28001
diff
changeset
|
1016 |
obtains (of_rat) r where "q = of_rat r" |
8312edc51969
add lemmas about Rats similar to those about Reals
huffman
parents:
28001
diff
changeset
|
1017 |
unfolding Rats_def |
8312edc51969
add lemmas about Rats similar to those about Reals
huffman
parents:
28001
diff
changeset
|
1018 |
proof - |
8312edc51969
add lemmas about Rats similar to those about Reals
huffman
parents:
28001
diff
changeset
|
1019 |
from `q \<in> \<rat>` have "q \<in> range of_rat" unfolding Rats_def . |
8312edc51969
add lemmas about Rats similar to those about Reals
huffman
parents:
28001
diff
changeset
|
1020 |
then obtain r where "q = of_rat r" .. |
8312edc51969
add lemmas about Rats similar to those about Reals
huffman
parents:
28001
diff
changeset
|
1021 |
then show thesis .. |
8312edc51969
add lemmas about Rats similar to those about Reals
huffman
parents:
28001
diff
changeset
|
1022 |
qed |
8312edc51969
add lemmas about Rats similar to those about Reals
huffman
parents:
28001
diff
changeset
|
1023 |
|
8312edc51969
add lemmas about Rats similar to those about Reals
huffman
parents:
28001
diff
changeset
|
1024 |
lemma Rats_induct [case_names of_rat, induct set: Rats]: |
8312edc51969
add lemmas about Rats similar to those about Reals
huffman
parents:
28001
diff
changeset
|
1025 |
"q \<in> \<rat> \<Longrightarrow> (\<And>r. P (of_rat r)) \<Longrightarrow> P q" |
8312edc51969
add lemmas about Rats similar to those about Reals
huffman
parents:
28001
diff
changeset
|
1026 |
by (rule Rats_cases) auto |
8312edc51969
add lemmas about Rats similar to those about Reals
huffman
parents:
28001
diff
changeset
|
1027 |
|
28001 | 1028 |
|
24533
fe1f93f6a15a
Added code generator setup (taken from Library/Executable_Rat.thy,
berghofe
parents:
24506
diff
changeset
|
1029 |
subsection {* Implementation of rational numbers as pairs of integers *} |
fe1f93f6a15a
Added code generator setup (taken from Library/Executable_Rat.thy,
berghofe
parents:
24506
diff
changeset
|
1030 |
|
35369
e4a7947e02b8
more general case and induct rules; normalize and quotient_of; abstract code generation
haftmann
parents:
35293
diff
changeset
|
1031 |
definition Frct :: "int \<times> int \<Rightarrow> rat" where |
e4a7947e02b8
more general case and induct rules; normalize and quotient_of; abstract code generation
haftmann
parents:
35293
diff
changeset
|
1032 |
[simp]: "Frct p = Fract (fst p) (snd p)" |
e4a7947e02b8
more general case and induct rules; normalize and quotient_of; abstract code generation
haftmann
parents:
35293
diff
changeset
|
1033 |
|
36112
7fa17a225852
user interface for abstract datatypes is an attribute, not a command
haftmann
parents:
35726
diff
changeset
|
1034 |
lemma [code abstype]: |
7fa17a225852
user interface for abstract datatypes is an attribute, not a command
haftmann
parents:
35726
diff
changeset
|
1035 |
"Frct (quotient_of q) = q" |
7fa17a225852
user interface for abstract datatypes is an attribute, not a command
haftmann
parents:
35726
diff
changeset
|
1036 |
by (cases q) (auto intro: quotient_of_eq) |
35369
e4a7947e02b8
more general case and induct rules; normalize and quotient_of; abstract code generation
haftmann
parents:
35293
diff
changeset
|
1037 |
|
e4a7947e02b8
more general case and induct rules; normalize and quotient_of; abstract code generation
haftmann
parents:
35293
diff
changeset
|
1038 |
lemma Frct_code_post [code_post]: |
e4a7947e02b8
more general case and induct rules; normalize and quotient_of; abstract code generation
haftmann
parents:
35293
diff
changeset
|
1039 |
"Frct (0, k) = 0" |
e4a7947e02b8
more general case and induct rules; normalize and quotient_of; abstract code generation
haftmann
parents:
35293
diff
changeset
|
1040 |
"Frct (k, 0) = 0" |
e4a7947e02b8
more general case and induct rules; normalize and quotient_of; abstract code generation
haftmann
parents:
35293
diff
changeset
|
1041 |
"Frct (1, 1) = 1" |
e4a7947e02b8
more general case and induct rules; normalize and quotient_of; abstract code generation
haftmann
parents:
35293
diff
changeset
|
1042 |
"Frct (number_of k, 1) = number_of k" |
e4a7947e02b8
more general case and induct rules; normalize and quotient_of; abstract code generation
haftmann
parents:
35293
diff
changeset
|
1043 |
"Frct (1, number_of k) = 1 / number_of k" |
e4a7947e02b8
more general case and induct rules; normalize and quotient_of; abstract code generation
haftmann
parents:
35293
diff
changeset
|
1044 |
"Frct (number_of k, number_of l) = number_of k / number_of l" |
e4a7947e02b8
more general case and induct rules; normalize and quotient_of; abstract code generation
haftmann
parents:
35293
diff
changeset
|
1045 |
by (simp_all add: rat_number_collapse Fract_number_of_quotient Fract_1_number_of) |
e4a7947e02b8
more general case and induct rules; normalize and quotient_of; abstract code generation
haftmann
parents:
35293
diff
changeset
|
1046 |
|
e4a7947e02b8
more general case and induct rules; normalize and quotient_of; abstract code generation
haftmann
parents:
35293
diff
changeset
|
1047 |
declare quotient_of_Fract [code abstract] |
e4a7947e02b8
more general case and induct rules; normalize and quotient_of; abstract code generation
haftmann
parents:
35293
diff
changeset
|
1048 |
|
e4a7947e02b8
more general case and induct rules; normalize and quotient_of; abstract code generation
haftmann
parents:
35293
diff
changeset
|
1049 |
lemma rat_zero_code [code abstract]: |
e4a7947e02b8
more general case and induct rules; normalize and quotient_of; abstract code generation
haftmann
parents:
35293
diff
changeset
|
1050 |
"quotient_of 0 = (0, 1)" |
e4a7947e02b8
more general case and induct rules; normalize and quotient_of; abstract code generation
haftmann
parents:
35293
diff
changeset
|
1051 |
by (simp add: Zero_rat_def quotient_of_Fract normalize_def) |
e4a7947e02b8
more general case and induct rules; normalize and quotient_of; abstract code generation
haftmann
parents:
35293
diff
changeset
|
1052 |
|
e4a7947e02b8
more general case and induct rules; normalize and quotient_of; abstract code generation
haftmann
parents:
35293
diff
changeset
|
1053 |
lemma rat_one_code [code abstract]: |
e4a7947e02b8
more general case and induct rules; normalize and quotient_of; abstract code generation
haftmann
parents:
35293
diff
changeset
|
1054 |
"quotient_of 1 = (1, 1)" |
e4a7947e02b8
more general case and induct rules; normalize and quotient_of; abstract code generation
haftmann
parents:
35293
diff
changeset
|
1055 |
by (simp add: One_rat_def quotient_of_Fract normalize_def) |
e4a7947e02b8
more general case and induct rules; normalize and quotient_of; abstract code generation
haftmann
parents:
35293
diff
changeset
|
1056 |
|
e4a7947e02b8
more general case and induct rules; normalize and quotient_of; abstract code generation
haftmann
parents:
35293
diff
changeset
|
1057 |
lemma rat_plus_code [code abstract]: |
e4a7947e02b8
more general case and induct rules; normalize and quotient_of; abstract code generation
haftmann
parents:
35293
diff
changeset
|
1058 |
"quotient_of (p + q) = (let (a, c) = quotient_of p; (b, d) = quotient_of q |
e4a7947e02b8
more general case and induct rules; normalize and quotient_of; abstract code generation
haftmann
parents:
35293
diff
changeset
|
1059 |
in normalize (a * d + b * c, c * d))" |
e4a7947e02b8
more general case and induct rules; normalize and quotient_of; abstract code generation
haftmann
parents:
35293
diff
changeset
|
1060 |
by (cases p, cases q) (simp add: quotient_of_Fract) |
27652
818666de6c24
refined code generator setup for rational numbers; more simplification rules for rational numbers
haftmann
parents:
27551
diff
changeset
|
1061 |
|
35369
e4a7947e02b8
more general case and induct rules; normalize and quotient_of; abstract code generation
haftmann
parents:
35293
diff
changeset
|
1062 |
lemma rat_uminus_code [code abstract]: |
e4a7947e02b8
more general case and induct rules; normalize and quotient_of; abstract code generation
haftmann
parents:
35293
diff
changeset
|
1063 |
"quotient_of (- p) = (let (a, b) = quotient_of p in (- a, b))" |
e4a7947e02b8
more general case and induct rules; normalize and quotient_of; abstract code generation
haftmann
parents:
35293
diff
changeset
|
1064 |
by (cases p) (simp add: quotient_of_Fract) |
e4a7947e02b8
more general case and induct rules; normalize and quotient_of; abstract code generation
haftmann
parents:
35293
diff
changeset
|
1065 |
|
e4a7947e02b8
more general case and induct rules; normalize and quotient_of; abstract code generation
haftmann
parents:
35293
diff
changeset
|
1066 |
lemma rat_minus_code [code abstract]: |
e4a7947e02b8
more general case and induct rules; normalize and quotient_of; abstract code generation
haftmann
parents:
35293
diff
changeset
|
1067 |
"quotient_of (p - q) = (let (a, c) = quotient_of p; (b, d) = quotient_of q |
e4a7947e02b8
more general case and induct rules; normalize and quotient_of; abstract code generation
haftmann
parents:
35293
diff
changeset
|
1068 |
in normalize (a * d - b * c, c * d))" |
e4a7947e02b8
more general case and induct rules; normalize and quotient_of; abstract code generation
haftmann
parents:
35293
diff
changeset
|
1069 |
by (cases p, cases q) (simp add: quotient_of_Fract) |
e4a7947e02b8
more general case and induct rules; normalize and quotient_of; abstract code generation
haftmann
parents:
35293
diff
changeset
|
1070 |
|
e4a7947e02b8
more general case and induct rules; normalize and quotient_of; abstract code generation
haftmann
parents:
35293
diff
changeset
|
1071 |
lemma rat_times_code [code abstract]: |
e4a7947e02b8
more general case and induct rules; normalize and quotient_of; abstract code generation
haftmann
parents:
35293
diff
changeset
|
1072 |
"quotient_of (p * q) = (let (a, c) = quotient_of p; (b, d) = quotient_of q |
e4a7947e02b8
more general case and induct rules; normalize and quotient_of; abstract code generation
haftmann
parents:
35293
diff
changeset
|
1073 |
in normalize (a * b, c * d))" |
e4a7947e02b8
more general case and induct rules; normalize and quotient_of; abstract code generation
haftmann
parents:
35293
diff
changeset
|
1074 |
by (cases p, cases q) (simp add: quotient_of_Fract) |
24533
fe1f93f6a15a
Added code generator setup (taken from Library/Executable_Rat.thy,
berghofe
parents:
24506
diff
changeset
|
1075 |
|
35369
e4a7947e02b8
more general case and induct rules; normalize and quotient_of; abstract code generation
haftmann
parents:
35293
diff
changeset
|
1076 |
lemma rat_inverse_code [code abstract]: |
e4a7947e02b8
more general case and induct rules; normalize and quotient_of; abstract code generation
haftmann
parents:
35293
diff
changeset
|
1077 |
"quotient_of (inverse p) = (let (a, b) = quotient_of p |
e4a7947e02b8
more general case and induct rules; normalize and quotient_of; abstract code generation
haftmann
parents:
35293
diff
changeset
|
1078 |
in if a = 0 then (0, 1) else (sgn a * b, \<bar>a\<bar>))" |
e4a7947e02b8
more general case and induct rules; normalize and quotient_of; abstract code generation
haftmann
parents:
35293
diff
changeset
|
1079 |
proof (cases p) |
e4a7947e02b8
more general case and induct rules; normalize and quotient_of; abstract code generation
haftmann
parents:
35293
diff
changeset
|
1080 |
case (Fract a b) then show ?thesis |
e4a7947e02b8
more general case and induct rules; normalize and quotient_of; abstract code generation
haftmann
parents:
35293
diff
changeset
|
1081 |
by (cases "0::int" a rule: linorder_cases) (simp_all add: quotient_of_Fract gcd_int.commute) |
e4a7947e02b8
more general case and induct rules; normalize and quotient_of; abstract code generation
haftmann
parents:
35293
diff
changeset
|
1082 |
qed |
e4a7947e02b8
more general case and induct rules; normalize and quotient_of; abstract code generation
haftmann
parents:
35293
diff
changeset
|
1083 |
|
e4a7947e02b8
more general case and induct rules; normalize and quotient_of; abstract code generation
haftmann
parents:
35293
diff
changeset
|
1084 |
lemma rat_divide_code [code abstract]: |
e4a7947e02b8
more general case and induct rules; normalize and quotient_of; abstract code generation
haftmann
parents:
35293
diff
changeset
|
1085 |
"quotient_of (p / q) = (let (a, c) = quotient_of p; (b, d) = quotient_of q |
e4a7947e02b8
more general case and induct rules; normalize and quotient_of; abstract code generation
haftmann
parents:
35293
diff
changeset
|
1086 |
in normalize (a * d, c * b))" |
e4a7947e02b8
more general case and induct rules; normalize and quotient_of; abstract code generation
haftmann
parents:
35293
diff
changeset
|
1087 |
by (cases p, cases q) (simp add: quotient_of_Fract) |
e4a7947e02b8
more general case and induct rules; normalize and quotient_of; abstract code generation
haftmann
parents:
35293
diff
changeset
|
1088 |
|
e4a7947e02b8
more general case and induct rules; normalize and quotient_of; abstract code generation
haftmann
parents:
35293
diff
changeset
|
1089 |
lemma rat_abs_code [code abstract]: |
e4a7947e02b8
more general case and induct rules; normalize and quotient_of; abstract code generation
haftmann
parents:
35293
diff
changeset
|
1090 |
"quotient_of \<bar>p\<bar> = (let (a, b) = quotient_of p in (\<bar>a\<bar>, b))" |
e4a7947e02b8
more general case and induct rules; normalize and quotient_of; abstract code generation
haftmann
parents:
35293
diff
changeset
|
1091 |
by (cases p) (simp add: quotient_of_Fract) |
e4a7947e02b8
more general case and induct rules; normalize and quotient_of; abstract code generation
haftmann
parents:
35293
diff
changeset
|
1092 |
|
e4a7947e02b8
more general case and induct rules; normalize and quotient_of; abstract code generation
haftmann
parents:
35293
diff
changeset
|
1093 |
lemma rat_sgn_code [code abstract]: |
e4a7947e02b8
more general case and induct rules; normalize and quotient_of; abstract code generation
haftmann
parents:
35293
diff
changeset
|
1094 |
"quotient_of (sgn p) = (sgn (fst (quotient_of p)), 1)" |
e4a7947e02b8
more general case and induct rules; normalize and quotient_of; abstract code generation
haftmann
parents:
35293
diff
changeset
|
1095 |
proof (cases p) |
e4a7947e02b8
more general case and induct rules; normalize and quotient_of; abstract code generation
haftmann
parents:
35293
diff
changeset
|
1096 |
case (Fract a b) then show ?thesis |
e4a7947e02b8
more general case and induct rules; normalize and quotient_of; abstract code generation
haftmann
parents:
35293
diff
changeset
|
1097 |
by (cases "0::int" a rule: linorder_cases) (simp_all add: quotient_of_Fract) |
e4a7947e02b8
more general case and induct rules; normalize and quotient_of; abstract code generation
haftmann
parents:
35293
diff
changeset
|
1098 |
qed |
24533
fe1f93f6a15a
Added code generator setup (taken from Library/Executable_Rat.thy,
berghofe
parents:
24506
diff
changeset
|
1099 |
|
43733
a6ca7b83612f
adding code equations to execute floor and ceiling on rational and real numbers
bulwahn
parents:
43732
diff
changeset
|
1100 |
lemma rat_floor_code [code]: |
a6ca7b83612f
adding code equations to execute floor and ceiling on rational and real numbers
bulwahn
parents:
43732
diff
changeset
|
1101 |
"floor p = (let (a, b) = quotient_of p in a div b)" |
a6ca7b83612f
adding code equations to execute floor and ceiling on rational and real numbers
bulwahn
parents:
43732
diff
changeset
|
1102 |
by (cases p) (simp add: quotient_of_Fract floor_Fract) |
a6ca7b83612f
adding code equations to execute floor and ceiling on rational and real numbers
bulwahn
parents:
43732
diff
changeset
|
1103 |
|
38857
97775f3e8722
renamed class/constant eq to equal; tuned some instantiations
haftmann
parents:
38287
diff
changeset
|
1104 |
instantiation rat :: equal |
26513 | 1105 |
begin |
1106 |
||
35369
e4a7947e02b8
more general case and induct rules; normalize and quotient_of; abstract code generation
haftmann
parents:
35293
diff
changeset
|
1107 |
definition [code]: |
38857
97775f3e8722
renamed class/constant eq to equal; tuned some instantiations
haftmann
parents:
38287
diff
changeset
|
1108 |
"HOL.equal a b \<longleftrightarrow> quotient_of a = quotient_of b" |
26513 | 1109 |
|
35369
e4a7947e02b8
more general case and induct rules; normalize and quotient_of; abstract code generation
haftmann
parents:
35293
diff
changeset
|
1110 |
instance proof |
38857
97775f3e8722
renamed class/constant eq to equal; tuned some instantiations
haftmann
parents:
38287
diff
changeset
|
1111 |
qed (simp add: equal_rat_def quotient_of_inject_eq) |
26513 | 1112 |
|
28351 | 1113 |
lemma rat_eq_refl [code nbe]: |
38857
97775f3e8722
renamed class/constant eq to equal; tuned some instantiations
haftmann
parents:
38287
diff
changeset
|
1114 |
"HOL.equal (r::rat) r \<longleftrightarrow> True" |
97775f3e8722
renamed class/constant eq to equal; tuned some instantiations
haftmann
parents:
38287
diff
changeset
|
1115 |
by (rule equal_refl) |
28351 | 1116 |
|
26513 | 1117 |
end |
24533
fe1f93f6a15a
Added code generator setup (taken from Library/Executable_Rat.thy,
berghofe
parents:
24506
diff
changeset
|
1118 |
|
35369
e4a7947e02b8
more general case and induct rules; normalize and quotient_of; abstract code generation
haftmann
parents:
35293
diff
changeset
|
1119 |
lemma rat_less_eq_code [code]: |
e4a7947e02b8
more general case and induct rules; normalize and quotient_of; abstract code generation
haftmann
parents:
35293
diff
changeset
|
1120 |
"p \<le> q \<longleftrightarrow> (let (a, c) = quotient_of p; (b, d) = quotient_of q in a * d \<le> c * b)" |
35726 | 1121 |
by (cases p, cases q) (simp add: quotient_of_Fract mult.commute) |
24533
fe1f93f6a15a
Added code generator setup (taken from Library/Executable_Rat.thy,
berghofe
parents:
24506
diff
changeset
|
1122 |
|
35369
e4a7947e02b8
more general case and induct rules; normalize and quotient_of; abstract code generation
haftmann
parents:
35293
diff
changeset
|
1123 |
lemma rat_less_code [code]: |
e4a7947e02b8
more general case and induct rules; normalize and quotient_of; abstract code generation
haftmann
parents:
35293
diff
changeset
|
1124 |
"p < q \<longleftrightarrow> (let (a, c) = quotient_of p; (b, d) = quotient_of q in a * d < c * b)" |
35726 | 1125 |
by (cases p, cases q) (simp add: quotient_of_Fract mult.commute) |
24533
fe1f93f6a15a
Added code generator setup (taken from Library/Executable_Rat.thy,
berghofe
parents:
24506
diff
changeset
|
1126 |
|
35369
e4a7947e02b8
more general case and induct rules; normalize and quotient_of; abstract code generation
haftmann
parents:
35293
diff
changeset
|
1127 |
lemma [code]: |
e4a7947e02b8
more general case and induct rules; normalize and quotient_of; abstract code generation
haftmann
parents:
35293
diff
changeset
|
1128 |
"of_rat p = (let (a, b) = quotient_of p in of_int a / of_int b)" |
e4a7947e02b8
more general case and induct rules; normalize and quotient_of; abstract code generation
haftmann
parents:
35293
diff
changeset
|
1129 |
by (cases p) (simp add: quotient_of_Fract of_rat_rat) |
27652
818666de6c24
refined code generator setup for rational numbers; more simplification rules for rational numbers
haftmann
parents:
27551
diff
changeset
|
1130 |
|
31203
5c8fb4fd67e0
moved Code_Index, Random and Quickcheck before Main
haftmann
parents:
31100
diff
changeset
|
1131 |
definition (in term_syntax) |
32657 | 1132 |
valterm_fract :: "int \<times> (unit \<Rightarrow> Code_Evaluation.term) \<Rightarrow> int \<times> (unit \<Rightarrow> Code_Evaluation.term) \<Rightarrow> rat \<times> (unit \<Rightarrow> Code_Evaluation.term)" where |
1133 |
[code_unfold]: "valterm_fract k l = Code_Evaluation.valtermify Fract {\<cdot>} k {\<cdot>} l" |
|
31203
5c8fb4fd67e0
moved Code_Index, Random and Quickcheck before Main
haftmann
parents:
31100
diff
changeset
|
1134 |
|
37751 | 1135 |
notation fcomp (infixl "\<circ>>" 60) |
1136 |
notation scomp (infixl "\<circ>\<rightarrow>" 60) |
|
31203
5c8fb4fd67e0
moved Code_Index, Random and Quickcheck before Main
haftmann
parents:
31100
diff
changeset
|
1137 |
|
5c8fb4fd67e0
moved Code_Index, Random and Quickcheck before Main
haftmann
parents:
31100
diff
changeset
|
1138 |
instantiation rat :: random |
5c8fb4fd67e0
moved Code_Index, Random and Quickcheck before Main
haftmann
parents:
31100
diff
changeset
|
1139 |
begin |
5c8fb4fd67e0
moved Code_Index, Random and Quickcheck before Main
haftmann
parents:
31100
diff
changeset
|
1140 |
|
5c8fb4fd67e0
moved Code_Index, Random and Quickcheck before Main
haftmann
parents:
31100
diff
changeset
|
1141 |
definition |
37751 | 1142 |
"Quickcheck.random i = Quickcheck.random i \<circ>\<rightarrow> (\<lambda>num. Random.range i \<circ>\<rightarrow> (\<lambda>denom. Pair ( |
31205
98370b26c2ce
String.literal replaces message_string, code_numeral replaces (code_)index
haftmann
parents:
31203
diff
changeset
|
1143 |
let j = Code_Numeral.int_of (denom + 1) |
32657 | 1144 |
in valterm_fract num (j, \<lambda>u. Code_Evaluation.term_of j))))" |
31203
5c8fb4fd67e0
moved Code_Index, Random and Quickcheck before Main
haftmann
parents:
31100
diff
changeset
|
1145 |
|
5c8fb4fd67e0
moved Code_Index, Random and Quickcheck before Main
haftmann
parents:
31100
diff
changeset
|
1146 |
instance .. |
5c8fb4fd67e0
moved Code_Index, Random and Quickcheck before Main
haftmann
parents:
31100
diff
changeset
|
1147 |
|
5c8fb4fd67e0
moved Code_Index, Random and Quickcheck before Main
haftmann
parents:
31100
diff
changeset
|
1148 |
end |
5c8fb4fd67e0
moved Code_Index, Random and Quickcheck before Main
haftmann
parents:
31100
diff
changeset
|
1149 |
|
37751 | 1150 |
no_notation fcomp (infixl "\<circ>>" 60) |
1151 |
no_notation scomp (infixl "\<circ>\<rightarrow>" 60) |
|
31203
5c8fb4fd67e0
moved Code_Index, Random and Quickcheck before Main
haftmann
parents:
31100
diff
changeset
|
1152 |
|
41920
d4fb7a418152
moving exhaustive_generators.ML to Quickcheck directory
bulwahn
parents:
41792
diff
changeset
|
1153 |
instantiation rat :: exhaustive |
41231
2e901158675e
adding exhaustive tester instances for numeric types: code_numeral, nat, rat and real
bulwahn
parents:
40819
diff
changeset
|
1154 |
begin |
2e901158675e
adding exhaustive tester instances for numeric types: code_numeral, nat, rat and real
bulwahn
parents:
40819
diff
changeset
|
1155 |
|
2e901158675e
adding exhaustive tester instances for numeric types: code_numeral, nat, rat and real
bulwahn
parents:
40819
diff
changeset
|
1156 |
definition |
42311
eb32a8474a57
rational and real instances for new compilation scheme for exhaustive quickcheck
bulwahn
parents:
41920
diff
changeset
|
1157 |
"exhaustive f d = exhaustive (%k. exhaustive (%l. f (Fract (Code_Numeral.int_of k) (Code_Numeral.int_of l))) d) d" |
eb32a8474a57
rational and real instances for new compilation scheme for exhaustive quickcheck
bulwahn
parents:
41920
diff
changeset
|
1158 |
|
eb32a8474a57
rational and real instances for new compilation scheme for exhaustive quickcheck
bulwahn
parents:
41920
diff
changeset
|
1159 |
instance .. |
eb32a8474a57
rational and real instances for new compilation scheme for exhaustive quickcheck
bulwahn
parents:
41920
diff
changeset
|
1160 |
|
eb32a8474a57
rational and real instances for new compilation scheme for exhaustive quickcheck
bulwahn
parents:
41920
diff
changeset
|
1161 |
end |
eb32a8474a57
rational and real instances for new compilation scheme for exhaustive quickcheck
bulwahn
parents:
41920
diff
changeset
|
1162 |
|
eb32a8474a57
rational and real instances for new compilation scheme for exhaustive quickcheck
bulwahn
parents:
41920
diff
changeset
|
1163 |
instantiation rat :: full_exhaustive |
eb32a8474a57
rational and real instances for new compilation scheme for exhaustive quickcheck
bulwahn
parents:
41920
diff
changeset
|
1164 |
begin |
eb32a8474a57
rational and real instances for new compilation scheme for exhaustive quickcheck
bulwahn
parents:
41920
diff
changeset
|
1165 |
|
eb32a8474a57
rational and real instances for new compilation scheme for exhaustive quickcheck
bulwahn
parents:
41920
diff
changeset
|
1166 |
definition |
eb32a8474a57
rational and real instances for new compilation scheme for exhaustive quickcheck
bulwahn
parents:
41920
diff
changeset
|
1167 |
"full_exhaustive f d = full_exhaustive (%(k, kt). full_exhaustive (%(l, lt). |
41231
2e901158675e
adding exhaustive tester instances for numeric types: code_numeral, nat, rat and real
bulwahn
parents:
40819
diff
changeset
|
1168 |
f (valterm_fract (Code_Numeral.int_of k, %_. Code_Evaluation.term_of (Code_Numeral.int_of k)) (Code_Numeral.int_of l, %_. Code_Evaluation.term_of (Code_Numeral.int_of l)))) d) d" |
2e901158675e
adding exhaustive tester instances for numeric types: code_numeral, nat, rat and real
bulwahn
parents:
40819
diff
changeset
|
1169 |
|
2e901158675e
adding exhaustive tester instances for numeric types: code_numeral, nat, rat and real
bulwahn
parents:
40819
diff
changeset
|
1170 |
instance .. |
2e901158675e
adding exhaustive tester instances for numeric types: code_numeral, nat, rat and real
bulwahn
parents:
40819
diff
changeset
|
1171 |
|
2e901158675e
adding exhaustive tester instances for numeric types: code_numeral, nat, rat and real
bulwahn
parents:
40819
diff
changeset
|
1172 |
end |
2e901158675e
adding exhaustive tester instances for numeric types: code_numeral, nat, rat and real
bulwahn
parents:
40819
diff
changeset
|
1173 |
|
43889
90d24cafb05d
adding code equations for partial_term_of for rational numbers
bulwahn
parents:
43887
diff
changeset
|
1174 |
instantiation rat :: partial_term_of |
90d24cafb05d
adding code equations for partial_term_of for rational numbers
bulwahn
parents:
43887
diff
changeset
|
1175 |
begin |
90d24cafb05d
adding code equations for partial_term_of for rational numbers
bulwahn
parents:
43887
diff
changeset
|
1176 |
|
90d24cafb05d
adding code equations for partial_term_of for rational numbers
bulwahn
parents:
43887
diff
changeset
|
1177 |
instance .. |
90d24cafb05d
adding code equations for partial_term_of for rational numbers
bulwahn
parents:
43887
diff
changeset
|
1178 |
|
90d24cafb05d
adding code equations for partial_term_of for rational numbers
bulwahn
parents:
43887
diff
changeset
|
1179 |
end |
90d24cafb05d
adding code equations for partial_term_of for rational numbers
bulwahn
parents:
43887
diff
changeset
|
1180 |
|
90d24cafb05d
adding code equations for partial_term_of for rational numbers
bulwahn
parents:
43887
diff
changeset
|
1181 |
lemma [code]: |
90d24cafb05d
adding code equations for partial_term_of for rational numbers
bulwahn
parents:
43887
diff
changeset
|
1182 |
"partial_term_of (ty :: rat itself) (Quickcheck_Narrowing.Var p tt) == Code_Evaluation.Free (STR ''_'') (Typerep.Typerep (STR ''Rat.rat'') [])" |
90d24cafb05d
adding code equations for partial_term_of for rational numbers
bulwahn
parents:
43887
diff
changeset
|
1183 |
"partial_term_of (ty :: rat itself) (Quickcheck_Narrowing.Ctr 0 [l, k]) == |
90d24cafb05d
adding code equations for partial_term_of for rational numbers
bulwahn
parents:
43887
diff
changeset
|
1184 |
Code_Evaluation.App (Code_Evaluation.App (Code_Evaluation.Const (STR ''Rat.Fract'') |
90d24cafb05d
adding code equations for partial_term_of for rational numbers
bulwahn
parents:
43887
diff
changeset
|
1185 |
(Typerep.Typerep (STR ''fun'') [Typerep.Typerep (STR ''Int.int'') [], Typerep.Typerep (STR ''fun'') [Typerep.Typerep (STR ''Int.int'') [], |
90d24cafb05d
adding code equations for partial_term_of for rational numbers
bulwahn
parents:
43887
diff
changeset
|
1186 |
Typerep.Typerep (STR ''Rat.rat'') []]])) (partial_term_of (TYPE(int)) l)) (partial_term_of (TYPE(int)) k)" |
90d24cafb05d
adding code equations for partial_term_of for rational numbers
bulwahn
parents:
43887
diff
changeset
|
1187 |
by (rule partial_term_of_anything)+ |
90d24cafb05d
adding code equations for partial_term_of for rational numbers
bulwahn
parents:
43887
diff
changeset
|
1188 |
|
43887 | 1189 |
instantiation rat :: narrowing |
1190 |
begin |
|
1191 |
||
1192 |
definition |
|
1193 |
"narrowing = Quickcheck_Narrowing.apply (Quickcheck_Narrowing.apply (Quickcheck_Narrowing.cons Fract) narrowing) narrowing" |
|
1194 |
||
1195 |
instance .. |
|
1196 |
||
1197 |
end |
|
1198 |
||
1199 |
||
24622 | 1200 |
text {* Setup for SML code generator *} |
24533
fe1f93f6a15a
Added code generator setup (taken from Library/Executable_Rat.thy,
berghofe
parents:
24506
diff
changeset
|
1201 |
|
fe1f93f6a15a
Added code generator setup (taken from Library/Executable_Rat.thy,
berghofe
parents:
24506
diff
changeset
|
1202 |
types_code |
fe1f93f6a15a
Added code generator setup (taken from Library/Executable_Rat.thy,
berghofe
parents:
24506
diff
changeset
|
1203 |
rat ("(int */ int)") |
fe1f93f6a15a
Added code generator setup (taken from Library/Executable_Rat.thy,
berghofe
parents:
24506
diff
changeset
|
1204 |
attach (term_of) {* |
fe1f93f6a15a
Added code generator setup (taken from Library/Executable_Rat.thy,
berghofe
parents:
24506
diff
changeset
|
1205 |
fun term_of_rat (p, q) = |
24622 | 1206 |
let |
35372 | 1207 |
val rT = Type ("Rat.rat", []) |
24533
fe1f93f6a15a
Added code generator setup (taken from Library/Executable_Rat.thy,
berghofe
parents:
24506
diff
changeset
|
1208 |
in |
fe1f93f6a15a
Added code generator setup (taken from Library/Executable_Rat.thy,
berghofe
parents:
24506
diff
changeset
|
1209 |
if q = 1 orelse p = 0 then HOLogic.mk_number rT p |
25885 | 1210 |
else @{term "op / \<Colon> rat \<Rightarrow> rat \<Rightarrow> rat"} $ |
24533
fe1f93f6a15a
Added code generator setup (taken from Library/Executable_Rat.thy,
berghofe
parents:
24506
diff
changeset
|
1211 |
HOLogic.mk_number rT p $ HOLogic.mk_number rT q |
fe1f93f6a15a
Added code generator setup (taken from Library/Executable_Rat.thy,
berghofe
parents:
24506
diff
changeset
|
1212 |
end; |
fe1f93f6a15a
Added code generator setup (taken from Library/Executable_Rat.thy,
berghofe
parents:
24506
diff
changeset
|
1213 |
*} |
fe1f93f6a15a
Added code generator setup (taken from Library/Executable_Rat.thy,
berghofe
parents:
24506
diff
changeset
|
1214 |
attach (test) {* |
fe1f93f6a15a
Added code generator setup (taken from Library/Executable_Rat.thy,
berghofe
parents:
24506
diff
changeset
|
1215 |
fun gen_rat i = |
fe1f93f6a15a
Added code generator setup (taken from Library/Executable_Rat.thy,
berghofe
parents:
24506
diff
changeset
|
1216 |
let |
fe1f93f6a15a
Added code generator setup (taken from Library/Executable_Rat.thy,
berghofe
parents:
24506
diff
changeset
|
1217 |
val p = random_range 0 i; |
fe1f93f6a15a
Added code generator setup (taken from Library/Executable_Rat.thy,
berghofe
parents:
24506
diff
changeset
|
1218 |
val q = random_range 1 (i + 1); |
fe1f93f6a15a
Added code generator setup (taken from Library/Executable_Rat.thy,
berghofe
parents:
24506
diff
changeset
|
1219 |
val g = Integer.gcd p q; |
24630
351a308ab58d
simplified type int (eliminated IntInf.int, integer);
wenzelm
parents:
24622
diff
changeset
|
1220 |
val p' = p div g; |
351a308ab58d
simplified type int (eliminated IntInf.int, integer);
wenzelm
parents:
24622
diff
changeset
|
1221 |
val q' = q div g; |
25885 | 1222 |
val r = (if one_of [true, false] then p' else ~ p', |
31666 | 1223 |
if p' = 0 then 1 else q') |
24533
fe1f93f6a15a
Added code generator setup (taken from Library/Executable_Rat.thy,
berghofe
parents:
24506
diff
changeset
|
1224 |
in |
25885 | 1225 |
(r, fn () => term_of_rat r) |
24533
fe1f93f6a15a
Added code generator setup (taken from Library/Executable_Rat.thy,
berghofe
parents:
24506
diff
changeset
|
1226 |
end; |
fe1f93f6a15a
Added code generator setup (taken from Library/Executable_Rat.thy,
berghofe
parents:
24506
diff
changeset
|
1227 |
*} |
fe1f93f6a15a
Added code generator setup (taken from Library/Executable_Rat.thy,
berghofe
parents:
24506
diff
changeset
|
1228 |
|
fe1f93f6a15a
Added code generator setup (taken from Library/Executable_Rat.thy,
berghofe
parents:
24506
diff
changeset
|
1229 |
consts_code |
27551 | 1230 |
Fract ("(_,/ _)") |
24533
fe1f93f6a15a
Added code generator setup (taken from Library/Executable_Rat.thy,
berghofe
parents:
24506
diff
changeset
|
1231 |
|
fe1f93f6a15a
Added code generator setup (taken from Library/Executable_Rat.thy,
berghofe
parents:
24506
diff
changeset
|
1232 |
consts_code |
35375
cb06a11a7955
implement quotient_of for odl SML code generator
haftmann
parents:
35373
diff
changeset
|
1233 |
quotient_of ("{*normalize*}") |
cb06a11a7955
implement quotient_of for odl SML code generator
haftmann
parents:
35373
diff
changeset
|
1234 |
|
cb06a11a7955
implement quotient_of for odl SML code generator
haftmann
parents:
35373
diff
changeset
|
1235 |
consts_code |
24533
fe1f93f6a15a
Added code generator setup (taken from Library/Executable_Rat.thy,
berghofe
parents:
24506
diff
changeset
|
1236 |
"of_int :: int \<Rightarrow> rat" ("\<module>rat'_of'_int") |
fe1f93f6a15a
Added code generator setup (taken from Library/Executable_Rat.thy,
berghofe
parents:
24506
diff
changeset
|
1237 |
attach {* |
31674 | 1238 |
fun rat_of_int i = (i, 1); |
24533
fe1f93f6a15a
Added code generator setup (taken from Library/Executable_Rat.thy,
berghofe
parents:
24506
diff
changeset
|
1239 |
*} |
fe1f93f6a15a
Added code generator setup (taken from Library/Executable_Rat.thy,
berghofe
parents:
24506
diff
changeset
|
1240 |
|
38287 | 1241 |
declaration {* |
1242 |
Nitpick_HOL.register_frac_type @{type_name rat} |
|
33209 | 1243 |
[(@{const_name zero_rat_inst.zero_rat}, @{const_name Nitpick.zero_frac}), |
1244 |
(@{const_name one_rat_inst.one_rat}, @{const_name Nitpick.one_frac}), |
|
1245 |
(@{const_name plus_rat_inst.plus_rat}, @{const_name Nitpick.plus_frac}), |
|
1246 |
(@{const_name times_rat_inst.times_rat}, @{const_name Nitpick.times_frac}), |
|
1247 |
(@{const_name uminus_rat_inst.uminus_rat}, @{const_name Nitpick.uminus_frac}), |
|
1248 |
(@{const_name number_rat_inst.number_of_rat}, @{const_name Nitpick.number_of_frac}), |
|
1249 |
(@{const_name inverse_rat_inst.inverse_rat}, @{const_name Nitpick.inverse_frac}), |
|
37397
18000f9d783e
adjust Nitpick's handling of "<" on "rat"s and "reals"
blanchet
parents:
37143
diff
changeset
|
1250 |
(@{const_name ord_rat_inst.less_rat}, @{const_name Nitpick.less_frac}), |
33209 | 1251 |
(@{const_name ord_rat_inst.less_eq_rat}, @{const_name Nitpick.less_eq_frac}), |
1252 |
(@{const_name field_char_0_class.of_rat}, @{const_name Nitpick.of_frac}), |
|
35402 | 1253 |
(@{const_name field_char_0_class.Rats}, @{const_abbrev UNIV})] |
33197
de6285ebcc05
continuation of Nitpick's integration into Isabelle;
blanchet
parents:
32657
diff
changeset
|
1254 |
*} |
de6285ebcc05
continuation of Nitpick's integration into Isabelle;
blanchet
parents:
32657
diff
changeset
|
1255 |
|
41792
ff3cb0c418b7
renamed "nitpick\_def" to "nitpick_unfold" to reflect its new semantics
blanchet
parents:
41231
diff
changeset
|
1256 |
lemmas [nitpick_unfold] = inverse_rat_inst.inverse_rat |
37397
18000f9d783e
adjust Nitpick's handling of "<" on "rat"s and "reals"
blanchet
parents:
37143
diff
changeset
|
1257 |
number_rat_inst.number_of_rat one_rat_inst.one_rat ord_rat_inst.less_rat |
18000f9d783e
adjust Nitpick's handling of "<" on "rat"s and "reals"
blanchet
parents:
37143
diff
changeset
|
1258 |
ord_rat_inst.less_eq_rat plus_rat_inst.plus_rat times_rat_inst.times_rat |
18000f9d783e
adjust Nitpick's handling of "<" on "rat"s and "reals"
blanchet
parents:
37143
diff
changeset
|
1259 |
uminus_rat_inst.uminus_rat zero_rat_inst.zero_rat |
33197
de6285ebcc05
continuation of Nitpick's integration into Isabelle;
blanchet
parents:
32657
diff
changeset
|
1260 |
|
35343 | 1261 |
subsection{* Float syntax *} |
1262 |
||
1263 |
syntax "_Float" :: "float_const \<Rightarrow> 'a" ("_") |
|
1264 |
||
1265 |
use "Tools/float_syntax.ML" |
|
1266 |
setup Float_Syntax.setup |
|
1267 |
||
1268 |
text{* Test: *} |
|
1269 |
lemma "123.456 = -111.111 + 200 + 30 + 4 + 5/10 + 6/100 + (7/1000::rat)" |
|
1270 |
by simp |
|
1271 |
||
37143 | 1272 |
|
1273 |
hide_const (open) normalize |
|
1274 |
||
29880
3dee8ff45d3d
move countability proof from Rational to Countable; add instance rat :: countable
huffman
parents:
29667
diff
changeset
|
1275 |
end |