| author | huffman |
| Mon, 12 Jan 2009 12:10:41 -0800 | |
| changeset 29461 | 7c1841a7bdf4 |
| parent 29409 | f0a8fe83bc07 |
| child 29465 | b2cfb5d0a59e |
| permissions | -rw-r--r-- |
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(* Title: HOL/Ring_and_Field.thy |
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ID: $Id$ |
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tuned and renamed group_eq_simps and ring_eq_simps
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Author: Gertrud Bauer, Steven Obua, Tobias Nipkow, Lawrence C Paulson, and Markus Wenzel, |
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with contributions by Jeremy Avigad |
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*) |
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header {* (Ordered) Rings and Fields *}
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theory Ring_and_Field |
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imports OrderedGroup |
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begin |
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text {*
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The theory of partially ordered rings is taken from the books: |
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\begin{itemize}
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\item \emph{Lattice Theory} by Garret Birkhoff, American Mathematical Society 1979
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\item \emph{Partially Ordered Algebraic Systems}, Pergamon Press 1963
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\end{itemize}
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Most of the used notions can also be looked up in |
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\begin{itemize}
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\item \url{http://www.mathworld.com} by Eric Weisstein et. al.
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\item \emph{Algebra I} by van der Waerden, Springer.
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\end{itemize}
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*} |
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class semiring = ab_semigroup_add + semigroup_mult + |
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assumes left_distrib: "(a + b) * c = a * c + b * c" |
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assumes right_distrib: "a * (b + c) = a * b + a * c" |
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begin |
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||
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text{*For the @{text combine_numerals} simproc*}
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lemma combine_common_factor: |
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"a * e + (b * e + c) = (a + b) * e + c" |
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by (simp add: left_distrib add_ac) |
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||
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end |
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class mult_zero = times + zero + |
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assumes mult_zero_left [simp]: "0 * a = 0" |
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assumes mult_zero_right [simp]: "a * 0 = 0" |
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class semiring_0 = semiring + comm_monoid_add + mult_zero |
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class semiring_0_cancel = semiring + comm_monoid_add + cancel_ab_semigroup_add |
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begin |
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subclass semiring_0 |
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proof |
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fix a :: 'a |
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have "0 * a + 0 * a = 0 * a + 0" |
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by (simp add: left_distrib [symmetric]) |
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thus "0 * a = 0" |
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by (simp only: add_left_cancel) |
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next |
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fix a :: 'a |
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have "a * 0 + a * 0 = a * 0 + 0" |
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by (simp add: right_distrib [symmetric]) |
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thus "a * 0 = 0" |
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by (simp only: add_left_cancel) |
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qed |
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end |
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class comm_semiring = ab_semigroup_add + ab_semigroup_mult + |
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assumes distrib: "(a + b) * c = a * c + b * c" |
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begin |
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subclass semiring |
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proof |
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fix a b c :: 'a |
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show "(a + b) * c = a * c + b * c" by (simp add: distrib) |
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have "a * (b + c) = (b + c) * a" by (simp add: mult_ac) |
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also have "... = b * a + c * a" by (simp only: distrib) |
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also have "... = a * b + a * c" by (simp add: mult_ac) |
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finally show "a * (b + c) = a * b + a * c" by blast |
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qed |
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||
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end |
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class comm_semiring_0 = comm_semiring + comm_monoid_add + mult_zero |
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begin |
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subclass semiring_0 .. |
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end |
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class comm_semiring_0_cancel = comm_semiring + comm_monoid_add + cancel_ab_semigroup_add |
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begin |
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subclass semiring_0_cancel .. |
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subclass comm_semiring_0 .. |
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end |
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class zero_neq_one = zero + one + |
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assumes zero_neq_one [simp]: "0 \<noteq> 1" |
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begin |
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lemma one_neq_zero [simp]: "1 \<noteq> 0" |
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by (rule not_sym) (rule zero_neq_one) |
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end |
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class semiring_1 = zero_neq_one + semiring_0 + monoid_mult |
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text {* Abstract divisibility *}
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class dvd = times |
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begin |
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definition dvd :: "'a \<Rightarrow> 'a \<Rightarrow> bool" (infixl "dvd" 50) where |
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[code del]: "b dvd a \<longleftrightarrow> (\<exists>k. a = b * k)" |
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lemma dvdI [intro?]: "a = b * k \<Longrightarrow> b dvd a" |
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unfolding dvd_def .. |
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lemma dvdE [elim?]: "b dvd a \<Longrightarrow> (\<And>k. a = b * k \<Longrightarrow> P) \<Longrightarrow> P" |
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unfolding dvd_def by blast |
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end |
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class comm_semiring_1 = zero_neq_one + comm_semiring_0 + comm_monoid_mult + dvd |
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(*previously almost_semiring*) |
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begin |
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subclass semiring_1 .. |
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lemma dvd_refl: "a dvd a" |
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proof |
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show "a = a * 1" by simp |
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qed |
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lemma dvd_trans: |
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assumes "a dvd b" and "b dvd c" |
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shows "a dvd c" |
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proof - |
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from assms obtain v where "b = a * v" by (auto elim!: dvdE) |
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moreover from assms obtain w where "c = b * w" by (auto elim!: dvdE) |
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ultimately have "c = a * (v * w)" by (simp add: mult_assoc) |
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then show ?thesis .. |
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qed |
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lemma dvd_0_left_iff [noatp, simp]: "0 dvd a \<longleftrightarrow> a = 0" |
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by (auto intro: dvd_refl elim!: dvdE) |
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lemma dvd_0_right [iff]: "a dvd 0" |
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proof |
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show "0 = a * 0" by simp |
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qed |
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lemma one_dvd [simp]: "1 dvd a" |
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by (auto intro!: dvdI) |
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lemma dvd_mult: "a dvd c \<Longrightarrow> a dvd (b * c)" |
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by (auto intro!: mult_left_commute dvdI elim!: dvdE) |
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lemma dvd_mult2: "a dvd b \<Longrightarrow> a dvd (b * c)" |
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apply (subst mult_commute) |
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apply (erule dvd_mult) |
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done |
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lemma dvd_triv_right [simp]: "a dvd b * a" |
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by (rule dvd_mult) (rule dvd_refl) |
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lemma dvd_triv_left [simp]: "a dvd a * b" |
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by (rule dvd_mult2) (rule dvd_refl) |
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lemma mult_dvd_mono: |
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assumes ab: "a dvd b" |
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and "cd": "c dvd d" |
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shows "a * c dvd b * d" |
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proof - |
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from ab obtain b' where "b = a * b'" .. |
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moreover from "cd" obtain d' where "d = c * d'" .. |
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ultimately have "b * d = (a * c) * (b' * d')" by (simp add: mult_ac) |
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then show ?thesis .. |
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qed |
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lemma dvd_mult_left: "a * b dvd c \<Longrightarrow> a dvd c" |
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by (simp add: dvd_def mult_assoc, blast) |
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182 |
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lemma dvd_mult_right: "a * b dvd c \<Longrightarrow> b dvd c" |
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|
184 |
unfolding mult_ac [of a] by (rule dvd_mult_left) |
|
16a26996c30e
moved op dvd to theory Ring_and_Field; generalized a couple of lemmas
haftmann
parents:
27516
diff
changeset
|
185 |
|
|
16a26996c30e
moved op dvd to theory Ring_and_Field; generalized a couple of lemmas
haftmann
parents:
27516
diff
changeset
|
186 |
lemma dvd_0_left: "0 dvd a \<Longrightarrow> a = 0" |
|
16a26996c30e
moved op dvd to theory Ring_and_Field; generalized a couple of lemmas
haftmann
parents:
27516
diff
changeset
|
187 |
by simp |
|
16a26996c30e
moved op dvd to theory Ring_and_Field; generalized a couple of lemmas
haftmann
parents:
27516
diff
changeset
|
188 |
|
|
16a26996c30e
moved op dvd to theory Ring_and_Field; generalized a couple of lemmas
haftmann
parents:
27516
diff
changeset
|
189 |
lemma dvd_add: |
|
16a26996c30e
moved op dvd to theory Ring_and_Field; generalized a couple of lemmas
haftmann
parents:
27516
diff
changeset
|
190 |
assumes ab: "a dvd b" |
|
16a26996c30e
moved op dvd to theory Ring_and_Field; generalized a couple of lemmas
haftmann
parents:
27516
diff
changeset
|
191 |
and ac: "a dvd c" |
|
16a26996c30e
moved op dvd to theory Ring_and_Field; generalized a couple of lemmas
haftmann
parents:
27516
diff
changeset
|
192 |
shows "a dvd (b + c)" |
|
16a26996c30e
moved op dvd to theory Ring_and_Field; generalized a couple of lemmas
haftmann
parents:
27516
diff
changeset
|
193 |
proof - |
|
16a26996c30e
moved op dvd to theory Ring_and_Field; generalized a couple of lemmas
haftmann
parents:
27516
diff
changeset
|
194 |
from ab obtain b' where "b = a * b'" .. |
|
16a26996c30e
moved op dvd to theory Ring_and_Field; generalized a couple of lemmas
haftmann
parents:
27516
diff
changeset
|
195 |
moreover from ac obtain c' where "c = a * c'" .. |
|
16a26996c30e
moved op dvd to theory Ring_and_Field; generalized a couple of lemmas
haftmann
parents:
27516
diff
changeset
|
196 |
ultimately have "b + c = a * (b' + c')" by (simp add: right_distrib) |
|
16a26996c30e
moved op dvd to theory Ring_and_Field; generalized a couple of lemmas
haftmann
parents:
27516
diff
changeset
|
197 |
then show ?thesis .. |
|
16a26996c30e
moved op dvd to theory Ring_and_Field; generalized a couple of lemmas
haftmann
parents:
27516
diff
changeset
|
198 |
qed |
|
16a26996c30e
moved op dvd to theory Ring_and_Field; generalized a couple of lemmas
haftmann
parents:
27516
diff
changeset
|
199 |
|
| 25152 | 200 |
end |
|
14421
ee97b6463cb4
new Ring_and_Field hierarchy, eliminating redundant axioms
paulson
parents:
14398
diff
changeset
|
201 |
|
| 22390 | 202 |
class no_zero_divisors = zero + times + |
| 25062 | 203 |
assumes no_zero_divisors: "a \<noteq> 0 \<Longrightarrow> b \<noteq> 0 \<Longrightarrow> a * b \<noteq> 0" |
| 14504 | 204 |
|
| 22390 | 205 |
class semiring_1_cancel = semiring + comm_monoid_add + zero_neq_one |
206 |
+ cancel_ab_semigroup_add + monoid_mult |
|
| 25267 | 207 |
begin |
| 14940 | 208 |
|
| 27516 | 209 |
subclass semiring_0_cancel .. |
|
25512
4134f7c782e2
using intro_locales instead of unfold_locales if appropriate
haftmann
parents:
25450
diff
changeset
|
210 |
|
| 27516 | 211 |
subclass semiring_1 .. |
| 25267 | 212 |
|
213 |
end |
|
|
21199
2d83f93c3580
* Added annihilation axioms ("x * 0 = 0") to axclass semiring_0.
krauss
parents:
20633
diff
changeset
|
214 |
|
| 22390 | 215 |
class comm_semiring_1_cancel = comm_semiring + comm_monoid_add + comm_monoid_mult |
216 |
+ zero_neq_one + cancel_ab_semigroup_add |
|
| 25267 | 217 |
begin |
| 14738 | 218 |
|
| 27516 | 219 |
subclass semiring_1_cancel .. |
220 |
subclass comm_semiring_0_cancel .. |
|
221 |
subclass comm_semiring_1 .. |
|
| 25267 | 222 |
|
223 |
end |
|
| 25152 | 224 |
|
| 22390 | 225 |
class ring = semiring + ab_group_add |
| 25267 | 226 |
begin |
| 25152 | 227 |
|
| 27516 | 228 |
subclass semiring_0_cancel .. |
| 25152 | 229 |
|
230 |
text {* Distribution rules *}
|
|
231 |
||
232 |
lemma minus_mult_left: "- (a * b) = - a * b" |
|
233 |
by (rule equals_zero_I) (simp add: left_distrib [symmetric]) |
|
234 |
||
235 |
lemma minus_mult_right: "- (a * b) = a * - b" |
|
236 |
by (rule equals_zero_I) (simp add: right_distrib [symmetric]) |
|
237 |
||
|
29407
5ef7e97fd9e4
move lemmas mult_minus{left,right} inside class ring
huffman
parents:
29406
diff
changeset
|
238 |
text{*Extract signs from products*}
|
|
5ef7e97fd9e4
move lemmas mult_minus{left,right} inside class ring
huffman
parents:
29406
diff
changeset
|
239 |
lemmas mult_minus_left [simp] = minus_mult_left [symmetric] |
|
5ef7e97fd9e4
move lemmas mult_minus{left,right} inside class ring
huffman
parents:
29406
diff
changeset
|
240 |
lemmas mult_minus_right [simp] = minus_mult_right [symmetric] |
|
5ef7e97fd9e4
move lemmas mult_minus{left,right} inside class ring
huffman
parents:
29406
diff
changeset
|
241 |
|
| 25152 | 242 |
lemma minus_mult_minus [simp]: "- a * - b = a * b" |
|
29407
5ef7e97fd9e4
move lemmas mult_minus{left,right} inside class ring
huffman
parents:
29406
diff
changeset
|
243 |
by simp |
| 25152 | 244 |
|
245 |
lemma minus_mult_commute: "- a * b = a * - b" |
|
|
29407
5ef7e97fd9e4
move lemmas mult_minus{left,right} inside class ring
huffman
parents:
29406
diff
changeset
|
246 |
by simp |
| 25152 | 247 |
|
248 |
lemma right_diff_distrib: "a * (b - c) = a * b - a * c" |
|
|
29407
5ef7e97fd9e4
move lemmas mult_minus{left,right} inside class ring
huffman
parents:
29406
diff
changeset
|
249 |
by (simp add: right_distrib diff_minus) |
| 25152 | 250 |
|
251 |
lemma left_diff_distrib: "(a - b) * c = a * c - b * c" |
|
|
29407
5ef7e97fd9e4
move lemmas mult_minus{left,right} inside class ring
huffman
parents:
29406
diff
changeset
|
252 |
by (simp add: left_distrib diff_minus) |
| 25152 | 253 |
|
254 |
lemmas ring_distribs = |
|
255 |
right_distrib left_distrib left_diff_distrib right_diff_distrib |
|
256 |
||
| 25230 | 257 |
lemmas ring_simps = |
258 |
add_ac |
|
259 |
add_diff_eq diff_add_eq diff_diff_eq diff_diff_eq2 |
|
260 |
diff_eq_eq eq_diff_eq diff_minus [symmetric] uminus_add_conv_diff |
|
261 |
ring_distribs |
|
262 |
||
263 |
lemma eq_add_iff1: |
|
264 |
"a * e + c = b * e + d \<longleftrightarrow> (a - b) * e + c = d" |
|
265 |
by (simp add: ring_simps) |
|
266 |
||
267 |
lemma eq_add_iff2: |
|
268 |
"a * e + c = b * e + d \<longleftrightarrow> c = (b - a) * e + d" |
|
269 |
by (simp add: ring_simps) |
|
270 |
||
| 25152 | 271 |
end |
272 |
||
273 |
lemmas ring_distribs = |
|
274 |
right_distrib left_distrib left_diff_distrib right_diff_distrib |
|
275 |
||
| 22390 | 276 |
class comm_ring = comm_semiring + ab_group_add |
| 25267 | 277 |
begin |
| 14738 | 278 |
|
| 27516 | 279 |
subclass ring .. |
|
28141
193c3ea0f63b
instances comm_semiring_0_cancel < comm_semiring_0, comm_ring < comm_semiring_0_cancel
huffman
parents:
27651
diff
changeset
|
280 |
subclass comm_semiring_0_cancel .. |
| 25267 | 281 |
|
282 |
end |
|
| 14738 | 283 |
|
| 22390 | 284 |
class ring_1 = ring + zero_neq_one + monoid_mult |
| 25267 | 285 |
begin |
|
14265
95b42e69436c
HOL: installation of Ring_and_Field as the basis for Naturals and Reals
paulson
parents:
diff
changeset
|
286 |
|
| 27516 | 287 |
subclass semiring_1_cancel .. |
| 25267 | 288 |
|
289 |
end |
|
| 25152 | 290 |
|
| 22390 | 291 |
class comm_ring_1 = comm_ring + zero_neq_one + comm_monoid_mult |
292 |
(*previously ring*) |
|
| 25267 | 293 |
begin |
| 14738 | 294 |
|
| 27516 | 295 |
subclass ring_1 .. |
296 |
subclass comm_semiring_1_cancel .. |
|
| 25267 | 297 |
|
| 29461 | 298 |
lemma dvd_minus_iff [iff]: "x dvd - y \<longleftrightarrow> x dvd y" |
|
29408
6d10cf26b5dc
add lemmas dvd_minus_iff and minus_dvd_iff in class comm_ring_1
huffman
parents:
29407
diff
changeset
|
299 |
proof |
|
6d10cf26b5dc
add lemmas dvd_minus_iff and minus_dvd_iff in class comm_ring_1
huffman
parents:
29407
diff
changeset
|
300 |
assume "x dvd - y" |
|
6d10cf26b5dc
add lemmas dvd_minus_iff and minus_dvd_iff in class comm_ring_1
huffman
parents:
29407
diff
changeset
|
301 |
then have "x dvd - 1 * - y" by (rule dvd_mult) |
|
6d10cf26b5dc
add lemmas dvd_minus_iff and minus_dvd_iff in class comm_ring_1
huffman
parents:
29407
diff
changeset
|
302 |
then show "x dvd y" by simp |
|
6d10cf26b5dc
add lemmas dvd_minus_iff and minus_dvd_iff in class comm_ring_1
huffman
parents:
29407
diff
changeset
|
303 |
next |
|
6d10cf26b5dc
add lemmas dvd_minus_iff and minus_dvd_iff in class comm_ring_1
huffman
parents:
29407
diff
changeset
|
304 |
assume "x dvd y" |
|
6d10cf26b5dc
add lemmas dvd_minus_iff and minus_dvd_iff in class comm_ring_1
huffman
parents:
29407
diff
changeset
|
305 |
then have "x dvd - 1 * y" by (rule dvd_mult) |
|
6d10cf26b5dc
add lemmas dvd_minus_iff and minus_dvd_iff in class comm_ring_1
huffman
parents:
29407
diff
changeset
|
306 |
then show "x dvd - y" by simp |
|
6d10cf26b5dc
add lemmas dvd_minus_iff and minus_dvd_iff in class comm_ring_1
huffman
parents:
29407
diff
changeset
|
307 |
qed |
|
6d10cf26b5dc
add lemmas dvd_minus_iff and minus_dvd_iff in class comm_ring_1
huffman
parents:
29407
diff
changeset
|
308 |
|
| 29461 | 309 |
lemma minus_dvd_iff [iff]: "- x dvd y \<longleftrightarrow> x dvd y" |
|
29408
6d10cf26b5dc
add lemmas dvd_minus_iff and minus_dvd_iff in class comm_ring_1
huffman
parents:
29407
diff
changeset
|
310 |
proof |
|
6d10cf26b5dc
add lemmas dvd_minus_iff and minus_dvd_iff in class comm_ring_1
huffman
parents:
29407
diff
changeset
|
311 |
assume "- x dvd y" |
|
6d10cf26b5dc
add lemmas dvd_minus_iff and minus_dvd_iff in class comm_ring_1
huffman
parents:
29407
diff
changeset
|
312 |
then obtain k where "y = - x * k" .. |
|
6d10cf26b5dc
add lemmas dvd_minus_iff and minus_dvd_iff in class comm_ring_1
huffman
parents:
29407
diff
changeset
|
313 |
then have "y = x * - k" by simp |
|
6d10cf26b5dc
add lemmas dvd_minus_iff and minus_dvd_iff in class comm_ring_1
huffman
parents:
29407
diff
changeset
|
314 |
then show "x dvd y" .. |
|
6d10cf26b5dc
add lemmas dvd_minus_iff and minus_dvd_iff in class comm_ring_1
huffman
parents:
29407
diff
changeset
|
315 |
next |
|
6d10cf26b5dc
add lemmas dvd_minus_iff and minus_dvd_iff in class comm_ring_1
huffman
parents:
29407
diff
changeset
|
316 |
assume "x dvd y" |
|
6d10cf26b5dc
add lemmas dvd_minus_iff and minus_dvd_iff in class comm_ring_1
huffman
parents:
29407
diff
changeset
|
317 |
then obtain k where "y = x * k" .. |
|
6d10cf26b5dc
add lemmas dvd_minus_iff and minus_dvd_iff in class comm_ring_1
huffman
parents:
29407
diff
changeset
|
318 |
then have "y = - x * - k" by simp |
|
6d10cf26b5dc
add lemmas dvd_minus_iff and minus_dvd_iff in class comm_ring_1
huffman
parents:
29407
diff
changeset
|
319 |
then show "- x dvd y" .. |
|
6d10cf26b5dc
add lemmas dvd_minus_iff and minus_dvd_iff in class comm_ring_1
huffman
parents:
29407
diff
changeset
|
320 |
qed |
|
6d10cf26b5dc
add lemmas dvd_minus_iff and minus_dvd_iff in class comm_ring_1
huffman
parents:
29407
diff
changeset
|
321 |
|
| 29409 | 322 |
lemma dvd_diff: "x dvd y \<Longrightarrow> x dvd z \<Longrightarrow> x dvd (y - z)" |
323 |
by (simp add: diff_minus dvd_add dvd_minus_iff) |
|
324 |
||
| 25267 | 325 |
end |
| 25152 | 326 |
|
|
22990
775e9de3db48
added classes ring_no_zero_divisors and dom (non-commutative version of idom);
huffman
parents:
22987
diff
changeset
|
327 |
class ring_no_zero_divisors = ring + no_zero_divisors |
| 25230 | 328 |
begin |
329 |
||
330 |
lemma mult_eq_0_iff [simp]: |
|
331 |
shows "a * b = 0 \<longleftrightarrow> (a = 0 \<or> b = 0)" |
|
332 |
proof (cases "a = 0 \<or> b = 0") |
|
333 |
case False then have "a \<noteq> 0" and "b \<noteq> 0" by auto |
|
334 |
then show ?thesis using no_zero_divisors by simp |
|
335 |
next |
|
336 |
case True then show ?thesis by auto |
|
337 |
qed |
|
338 |
||
| 26193 | 339 |
text{*Cancellation of equalities with a common factor*}
|
340 |
lemma mult_cancel_right [simp, noatp]: |
|
341 |
"a * c = b * c \<longleftrightarrow> c = 0 \<or> a = b" |
|
342 |
proof - |
|
343 |
have "(a * c = b * c) = ((a - b) * c = 0)" |
|
344 |
by (simp add: ring_distribs right_minus_eq) |
|
345 |
thus ?thesis |
|
346 |
by (simp add: disj_commute right_minus_eq) |
|
347 |
qed |
|
348 |
||
349 |
lemma mult_cancel_left [simp, noatp]: |
|
350 |
"c * a = c * b \<longleftrightarrow> c = 0 \<or> a = b" |
|
351 |
proof - |
|
352 |
have "(c * a = c * b) = (c * (a - b) = 0)" |
|
353 |
by (simp add: ring_distribs right_minus_eq) |
|
354 |
thus ?thesis |
|
355 |
by (simp add: right_minus_eq) |
|
356 |
qed |
|
357 |
||
| 25230 | 358 |
end |
|
22990
775e9de3db48
added classes ring_no_zero_divisors and dom (non-commutative version of idom);
huffman
parents:
22987
diff
changeset
|
359 |
|
| 23544 | 360 |
class ring_1_no_zero_divisors = ring_1 + ring_no_zero_divisors |
| 26274 | 361 |
begin |
362 |
||
363 |
lemma mult_cancel_right1 [simp]: |
|
364 |
"c = b * c \<longleftrightarrow> c = 0 \<or> b = 1" |
|
365 |
by (insert mult_cancel_right [of 1 c b], force) |
|
366 |
||
367 |
lemma mult_cancel_right2 [simp]: |
|
368 |
"a * c = c \<longleftrightarrow> c = 0 \<or> a = 1" |
|
369 |
by (insert mult_cancel_right [of a c 1], simp) |
|
370 |
||
371 |
lemma mult_cancel_left1 [simp]: |
|
372 |
"c = c * b \<longleftrightarrow> c = 0 \<or> b = 1" |
|
373 |
by (insert mult_cancel_left [of c 1 b], force) |
|
374 |
||
375 |
lemma mult_cancel_left2 [simp]: |
|
376 |
"c * a = c \<longleftrightarrow> c = 0 \<or> a = 1" |
|
377 |
by (insert mult_cancel_left [of c a 1], simp) |
|
378 |
||
379 |
end |
|
|
22990
775e9de3db48
added classes ring_no_zero_divisors and dom (non-commutative version of idom);
huffman
parents:
22987
diff
changeset
|
380 |
|
| 22390 | 381 |
class idom = comm_ring_1 + no_zero_divisors |
| 25186 | 382 |
begin |
|
14421
ee97b6463cb4
new Ring_and_Field hierarchy, eliminating redundant axioms
paulson
parents:
14398
diff
changeset
|
383 |
|
| 27516 | 384 |
subclass ring_1_no_zero_divisors .. |
|
22990
775e9de3db48
added classes ring_no_zero_divisors and dom (non-commutative version of idom);
huffman
parents:
22987
diff
changeset
|
385 |
|
| 25186 | 386 |
end |
| 25152 | 387 |
|
| 22390 | 388 |
class division_ring = ring_1 + inverse + |
| 25062 | 389 |
assumes left_inverse [simp]: "a \<noteq> 0 \<Longrightarrow> inverse a * a = 1" |
390 |
assumes right_inverse [simp]: "a \<noteq> 0 \<Longrightarrow> a * inverse a = 1" |
|
| 25186 | 391 |
begin |
|
20496
23eb6034c06d
added axclass division_ring (like field without commutativity; includes e.g. quaternions) and generalized some theorems from field to division_ring
huffman
parents:
19404
diff
changeset
|
392 |
|
| 25186 | 393 |
subclass ring_1_no_zero_divisors |
| 28823 | 394 |
proof |
|
22987
550709aa8e66
instance division_ring < no_zero_divisors; clean up field instance proofs
huffman
parents:
22842
diff
changeset
|
395 |
fix a b :: 'a |
|
550709aa8e66
instance division_ring < no_zero_divisors; clean up field instance proofs
huffman
parents:
22842
diff
changeset
|
396 |
assume a: "a \<noteq> 0" and b: "b \<noteq> 0" |
|
550709aa8e66
instance division_ring < no_zero_divisors; clean up field instance proofs
huffman
parents:
22842
diff
changeset
|
397 |
show "a * b \<noteq> 0" |
|
550709aa8e66
instance division_ring < no_zero_divisors; clean up field instance proofs
huffman
parents:
22842
diff
changeset
|
398 |
proof |
|
550709aa8e66
instance division_ring < no_zero_divisors; clean up field instance proofs
huffman
parents:
22842
diff
changeset
|
399 |
assume ab: "a * b = 0" |
|
550709aa8e66
instance division_ring < no_zero_divisors; clean up field instance proofs
huffman
parents:
22842
diff
changeset
|
400 |
hence "0 = inverse a * (a * b) * inverse b" |
|
550709aa8e66
instance division_ring < no_zero_divisors; clean up field instance proofs
huffman
parents:
22842
diff
changeset
|
401 |
by simp |
|
550709aa8e66
instance division_ring < no_zero_divisors; clean up field instance proofs
huffman
parents:
22842
diff
changeset
|
402 |
also have "\<dots> = (inverse a * a) * (b * inverse b)" |
|
550709aa8e66
instance division_ring < no_zero_divisors; clean up field instance proofs
huffman
parents:
22842
diff
changeset
|
403 |
by (simp only: mult_assoc) |
|
550709aa8e66
instance division_ring < no_zero_divisors; clean up field instance proofs
huffman
parents:
22842
diff
changeset
|
404 |
also have "\<dots> = 1" |
|
550709aa8e66
instance division_ring < no_zero_divisors; clean up field instance proofs
huffman
parents:
22842
diff
changeset
|
405 |
using a b by simp |
|
550709aa8e66
instance division_ring < no_zero_divisors; clean up field instance proofs
huffman
parents:
22842
diff
changeset
|
406 |
finally show False |
|
550709aa8e66
instance division_ring < no_zero_divisors; clean up field instance proofs
huffman
parents:
22842
diff
changeset
|
407 |
by simp |
|
550709aa8e66
instance division_ring < no_zero_divisors; clean up field instance proofs
huffman
parents:
22842
diff
changeset
|
408 |
qed |
|
550709aa8e66
instance division_ring < no_zero_divisors; clean up field instance proofs
huffman
parents:
22842
diff
changeset
|
409 |
qed |
|
20496
23eb6034c06d
added axclass division_ring (like field without commutativity; includes e.g. quaternions) and generalized some theorems from field to division_ring
huffman
parents:
19404
diff
changeset
|
410 |
|
| 26274 | 411 |
lemma nonzero_imp_inverse_nonzero: |
412 |
"a \<noteq> 0 \<Longrightarrow> inverse a \<noteq> 0" |
|
413 |
proof |
|
414 |
assume ianz: "inverse a = 0" |
|
415 |
assume "a \<noteq> 0" |
|
416 |
hence "1 = a * inverse a" by simp |
|
417 |
also have "... = 0" by (simp add: ianz) |
|
418 |
finally have "1 = 0" . |
|
419 |
thus False by (simp add: eq_commute) |
|
420 |
qed |
|
421 |
||
422 |
lemma inverse_zero_imp_zero: |
|
423 |
"inverse a = 0 \<Longrightarrow> a = 0" |
|
424 |
apply (rule classical) |
|
425 |
apply (drule nonzero_imp_inverse_nonzero) |
|
426 |
apply auto |
|
427 |
done |
|
428 |
||
429 |
lemma inverse_unique: |
|
430 |
assumes ab: "a * b = 1" |
|
431 |
shows "inverse a = b" |
|
432 |
proof - |
|
433 |
have "a \<noteq> 0" using ab by (cases "a = 0") simp_all |
|
| 29406 | 434 |
moreover have "inverse a * (a * b) = inverse a" by (simp add: ab) |
435 |
ultimately show ?thesis by (simp add: mult_assoc [symmetric]) |
|
| 26274 | 436 |
qed |
437 |
||
| 29406 | 438 |
lemma nonzero_inverse_minus_eq: |
439 |
"a \<noteq> 0 \<Longrightarrow> inverse (- a) = - inverse a" |
|
440 |
by (rule inverse_unique) simp |
|
441 |
||
442 |
lemma nonzero_inverse_inverse_eq: |
|
443 |
"a \<noteq> 0 \<Longrightarrow> inverse (inverse a) = a" |
|
444 |
by (rule inverse_unique) simp |
|
445 |
||
446 |
lemma nonzero_inverse_eq_imp_eq: |
|
447 |
assumes "inverse a = inverse b" and "a \<noteq> 0" and "b \<noteq> 0" |
|
448 |
shows "a = b" |
|
449 |
proof - |
|
450 |
from `inverse a = inverse b` |
|
451 |
have "inverse (inverse a) = inverse (inverse b)" |
|
452 |
by (rule arg_cong) |
|
453 |
with `a \<noteq> 0` and `b \<noteq> 0` show "a = b" |
|
454 |
by (simp add: nonzero_inverse_inverse_eq) |
|
455 |
qed |
|
456 |
||
457 |
lemma inverse_1 [simp]: "inverse 1 = 1" |
|
458 |
by (rule inverse_unique) simp |
|
459 |
||
| 26274 | 460 |
lemma nonzero_inverse_mult_distrib: |
| 29406 | 461 |
assumes "a \<noteq> 0" and "b \<noteq> 0" |
| 26274 | 462 |
shows "inverse (a * b) = inverse b * inverse a" |
463 |
proof - |
|
| 29406 | 464 |
have "a * (b * inverse b) * inverse a = 1" |
465 |
using assms by simp |
|
466 |
hence "a * b * (inverse b * inverse a) = 1" |
|
467 |
by (simp only: mult_assoc) |
|
| 26274 | 468 |
thus ?thesis |
| 29406 | 469 |
by (rule inverse_unique) |
| 26274 | 470 |
qed |
471 |
||
472 |
lemma division_ring_inverse_add: |
|
473 |
"a \<noteq> 0 \<Longrightarrow> b \<noteq> 0 \<Longrightarrow> inverse a + inverse b = inverse a * (a + b) * inverse b" |
|
474 |
by (simp add: ring_simps mult_assoc) |
|
475 |
||
476 |
lemma division_ring_inverse_diff: |
|
477 |
"a \<noteq> 0 \<Longrightarrow> b \<noteq> 0 \<Longrightarrow> inverse a - inverse b = inverse a * (b - a) * inverse b" |
|
478 |
by (simp add: ring_simps mult_assoc) |
|
479 |
||
| 25186 | 480 |
end |
| 25152 | 481 |
|
|
22987
550709aa8e66
instance division_ring < no_zero_divisors; clean up field instance proofs
huffman
parents:
22842
diff
changeset
|
482 |
class field = comm_ring_1 + inverse + |
| 25062 | 483 |
assumes field_inverse: "a \<noteq> 0 \<Longrightarrow> inverse a * a = 1" |
484 |
assumes divide_inverse: "a / b = a * inverse b" |
|
| 25267 | 485 |
begin |
|
20496
23eb6034c06d
added axclass division_ring (like field without commutativity; includes e.g. quaternions) and generalized some theorems from field to division_ring
huffman
parents:
19404
diff
changeset
|
486 |
|
| 25267 | 487 |
subclass division_ring |
| 28823 | 488 |
proof |
|
22987
550709aa8e66
instance division_ring < no_zero_divisors; clean up field instance proofs
huffman
parents:
22842
diff
changeset
|
489 |
fix a :: 'a |
|
550709aa8e66
instance division_ring < no_zero_divisors; clean up field instance proofs
huffman
parents:
22842
diff
changeset
|
490 |
assume "a \<noteq> 0" |
|
550709aa8e66
instance division_ring < no_zero_divisors; clean up field instance proofs
huffman
parents:
22842
diff
changeset
|
491 |
thus "inverse a * a = 1" by (rule field_inverse) |
|
550709aa8e66
instance division_ring < no_zero_divisors; clean up field instance proofs
huffman
parents:
22842
diff
changeset
|
492 |
thus "a * inverse a = 1" by (simp only: mult_commute) |
| 14738 | 493 |
qed |
| 25230 | 494 |
|
| 27516 | 495 |
subclass idom .. |
| 25230 | 496 |
|
497 |
lemma right_inverse_eq: "b \<noteq> 0 \<Longrightarrow> a / b = 1 \<longleftrightarrow> a = b" |
|
498 |
proof |
|
499 |
assume neq: "b \<noteq> 0" |
|
500 |
{
|
|
501 |
hence "a = (a / b) * b" by (simp add: divide_inverse mult_ac) |
|
502 |
also assume "a / b = 1" |
|
503 |
finally show "a = b" by simp |
|
504 |
next |
|
505 |
assume "a = b" |
|
506 |
with neq show "a / b = 1" by (simp add: divide_inverse) |
|
507 |
} |
|
508 |
qed |
|
509 |
||
510 |
lemma nonzero_inverse_eq_divide: "a \<noteq> 0 \<Longrightarrow> inverse a = 1 / a" |
|
511 |
by (simp add: divide_inverse) |
|
512 |
||
513 |
lemma divide_self [simp]: "a \<noteq> 0 \<Longrightarrow> a / a = 1" |
|
514 |
by (simp add: divide_inverse) |
|
515 |
||
516 |
lemma divide_zero_left [simp]: "0 / a = 0" |
|
517 |
by (simp add: divide_inverse) |
|
518 |
||
519 |
lemma inverse_eq_divide: "inverse a = 1 / a" |
|
520 |
by (simp add: divide_inverse) |
|
521 |
||
522 |
lemma add_divide_distrib: "(a+b) / c = a/c + b/c" |
|
523 |
by (simp add: divide_inverse ring_distribs) |
|
524 |
||
525 |
end |
|
526 |
||
| 22390 | 527 |
class division_by_zero = zero + inverse + |
| 25062 | 528 |
assumes inverse_zero [simp]: "inverse 0 = 0" |
|
14265
95b42e69436c
HOL: installation of Ring_and_Field as the basis for Naturals and Reals
paulson
parents:
diff
changeset
|
529 |
|
| 25230 | 530 |
lemma divide_zero [simp]: |
531 |
"a / 0 = (0::'a::{field,division_by_zero})"
|
|
532 |
by (simp add: divide_inverse) |
|
533 |
||
534 |
lemma divide_self_if [simp]: |
|
535 |
"a / (a::'a::{field,division_by_zero}) = (if a=0 then 0 else 1)"
|
|
| 28559 | 536 |
by simp |
| 25230 | 537 |
|
| 22390 | 538 |
class mult_mono = times + zero + ord + |
| 25062 | 539 |
assumes mult_left_mono: "a \<le> b \<Longrightarrow> 0 \<le> c \<Longrightarrow> c * a \<le> c * b" |
540 |
assumes mult_right_mono: "a \<le> b \<Longrightarrow> 0 \<le> c \<Longrightarrow> a * c \<le> b * c" |
|
|
14267
b963e9cee2a0
More refinements to Ring_and_Field and numerics. Conversion of Divides_lemmas
paulson
parents:
14266
diff
changeset
|
541 |
|
| 22390 | 542 |
class pordered_semiring = mult_mono + semiring_0 + pordered_ab_semigroup_add |
| 25230 | 543 |
begin |
544 |
||
545 |
lemma mult_mono: |
|
546 |
"a \<le> b \<Longrightarrow> c \<le> d \<Longrightarrow> 0 \<le> b \<Longrightarrow> 0 \<le> c |
|
547 |
\<Longrightarrow> a * c \<le> b * d" |
|
548 |
apply (erule mult_right_mono [THEN order_trans], assumption) |
|
549 |
apply (erule mult_left_mono, assumption) |
|
550 |
done |
|
551 |
||
552 |
lemma mult_mono': |
|
553 |
"a \<le> b \<Longrightarrow> c \<le> d \<Longrightarrow> 0 \<le> a \<Longrightarrow> 0 \<le> c |
|
554 |
\<Longrightarrow> a * c \<le> b * d" |
|
555 |
apply (rule mult_mono) |
|
556 |
apply (fast intro: order_trans)+ |
|
557 |
done |
|
558 |
||
559 |
end |
|
|
21199
2d83f93c3580
* Added annihilation axioms ("x * 0 = 0") to axclass semiring_0.
krauss
parents:
20633
diff
changeset
|
560 |
|
| 22390 | 561 |
class pordered_cancel_semiring = mult_mono + pordered_ab_semigroup_add |
|
22987
550709aa8e66
instance division_ring < no_zero_divisors; clean up field instance proofs
huffman
parents:
22842
diff
changeset
|
562 |
+ semiring + comm_monoid_add + cancel_ab_semigroup_add |
| 25267 | 563 |
begin |
|
14268
5cf13e80be0e
Removal of Hyperreal/ExtraThms2.ML, sending the material to the correct files.
paulson
parents:
14267
diff
changeset
|
564 |
|
| 27516 | 565 |
subclass semiring_0_cancel .. |
566 |
subclass pordered_semiring .. |
|
| 23521 | 567 |
|
| 25230 | 568 |
lemma mult_nonneg_nonneg: "0 \<le> a \<Longrightarrow> 0 \<le> b \<Longrightarrow> 0 \<le> a * b" |
569 |
by (drule mult_left_mono [of zero b], auto) |
|
570 |
||
571 |
lemma mult_nonneg_nonpos: "0 \<le> a \<Longrightarrow> b \<le> 0 \<Longrightarrow> a * b \<le> 0" |
|
572 |
by (drule mult_left_mono [of b zero], auto) |
|
573 |
||
574 |
lemma mult_nonneg_nonpos2: "0 \<le> a \<Longrightarrow> b \<le> 0 \<Longrightarrow> b * a \<le> 0" |
|
575 |
by (drule mult_right_mono [of b zero], auto) |
|
576 |
||
| 26234 | 577 |
lemma split_mult_neg_le: "(0 \<le> a & b \<le> 0) | (a \<le> 0 & 0 \<le> b) \<Longrightarrow> a * b \<le> 0" |
| 25230 | 578 |
by (auto simp add: mult_nonneg_nonpos mult_nonneg_nonpos2) |
579 |
||
580 |
end |
|
581 |
||
582 |
class ordered_semiring = semiring + comm_monoid_add + ordered_cancel_ab_semigroup_add + mult_mono |
|
| 25267 | 583 |
begin |
| 25230 | 584 |
|
| 27516 | 585 |
subclass pordered_cancel_semiring .. |
|
25512
4134f7c782e2
using intro_locales instead of unfold_locales if appropriate
haftmann
parents:
25450
diff
changeset
|
586 |
|
| 27516 | 587 |
subclass pordered_comm_monoid_add .. |
|
25304
7491c00f0915
removed subclass edge ordered_ring < lordered_ring
haftmann
parents:
25267
diff
changeset
|
588 |
|
| 25230 | 589 |
lemma mult_left_less_imp_less: |
590 |
"c * a < c * b \<Longrightarrow> 0 \<le> c \<Longrightarrow> a < b" |
|
591 |
by (force simp add: mult_left_mono not_le [symmetric]) |
|
592 |
||
593 |
lemma mult_right_less_imp_less: |
|
594 |
"a * c < b * c \<Longrightarrow> 0 \<le> c \<Longrightarrow> a < b" |
|
595 |
by (force simp add: mult_right_mono not_le [symmetric]) |
|
| 23521 | 596 |
|
| 25186 | 597 |
end |
| 25152 | 598 |
|
| 22390 | 599 |
class ordered_semiring_strict = semiring + comm_monoid_add + ordered_cancel_ab_semigroup_add + |
| 25062 | 600 |
assumes mult_strict_left_mono: "a < b \<Longrightarrow> 0 < c \<Longrightarrow> c * a < c * b" |
601 |
assumes mult_strict_right_mono: "a < b \<Longrightarrow> 0 < c \<Longrightarrow> a * c < b * c" |
|
| 25267 | 602 |
begin |
|
14341
a09441bd4f1e
Ring_and_Field now requires axiom add_left_imp_eq for semirings.
paulson
parents:
14334
diff
changeset
|
603 |
|
| 27516 | 604 |
subclass semiring_0_cancel .. |
| 14940 | 605 |
|
| 25267 | 606 |
subclass ordered_semiring |
| 28823 | 607 |
proof |
| 23550 | 608 |
fix a b c :: 'a |
609 |
assume A: "a \<le> b" "0 \<le> c" |
|
610 |
from A show "c * a \<le> c * b" |
|
| 25186 | 611 |
unfolding le_less |
612 |
using mult_strict_left_mono by (cases "c = 0") auto |
|
| 23550 | 613 |
from A show "a * c \<le> b * c" |
| 25152 | 614 |
unfolding le_less |
| 25186 | 615 |
using mult_strict_right_mono by (cases "c = 0") auto |
| 25152 | 616 |
qed |
617 |
||
| 25230 | 618 |
lemma mult_left_le_imp_le: |
619 |
"c * a \<le> c * b \<Longrightarrow> 0 < c \<Longrightarrow> a \<le> b" |
|
620 |
by (force simp add: mult_strict_left_mono _not_less [symmetric]) |
|
621 |
||
622 |
lemma mult_right_le_imp_le: |
|
623 |
"a * c \<le> b * c \<Longrightarrow> 0 < c \<Longrightarrow> a \<le> b" |
|
624 |
by (force simp add: mult_strict_right_mono not_less [symmetric]) |
|
625 |
||
626 |
lemma mult_pos_pos: |
|
627 |
"0 < a \<Longrightarrow> 0 < b \<Longrightarrow> 0 < a * b" |
|
628 |
by (drule mult_strict_left_mono [of zero b], auto) |
|
629 |
||
630 |
lemma mult_pos_neg: |
|
631 |
"0 < a \<Longrightarrow> b < 0 \<Longrightarrow> a * b < 0" |
|
632 |
by (drule mult_strict_left_mono [of b zero], auto) |
|
633 |
||
634 |
lemma mult_pos_neg2: |
|
635 |
"0 < a \<Longrightarrow> b < 0 \<Longrightarrow> b * a < 0" |
|
636 |
by (drule mult_strict_right_mono [of b zero], auto) |
|
637 |
||
638 |
lemma zero_less_mult_pos: |
|
639 |
"0 < a * b \<Longrightarrow> 0 < a \<Longrightarrow> 0 < b" |
|
640 |
apply (cases "b\<le>0") |
|
641 |
apply (auto simp add: le_less not_less) |
|
642 |
apply (drule_tac mult_pos_neg [of a b]) |
|
643 |
apply (auto dest: less_not_sym) |
|
644 |
done |
|
645 |
||
646 |
lemma zero_less_mult_pos2: |
|
647 |
"0 < b * a \<Longrightarrow> 0 < a \<Longrightarrow> 0 < b" |
|
648 |
apply (cases "b\<le>0") |
|
649 |
apply (auto simp add: le_less not_less) |
|
650 |
apply (drule_tac mult_pos_neg2 [of a b]) |
|
651 |
apply (auto dest: less_not_sym) |
|
652 |
done |
|
653 |
||
| 26193 | 654 |
text{*Strict monotonicity in both arguments*}
|
655 |
lemma mult_strict_mono: |
|
656 |
assumes "a < b" and "c < d" and "0 < b" and "0 \<le> c" |
|
657 |
shows "a * c < b * d" |
|
658 |
using assms apply (cases "c=0") |
|
659 |
apply (simp add: mult_pos_pos) |
|
660 |
apply (erule mult_strict_right_mono [THEN less_trans]) |
|
661 |
apply (force simp add: le_less) |
|
662 |
apply (erule mult_strict_left_mono, assumption) |
|
663 |
done |
|
664 |
||
665 |
text{*This weaker variant has more natural premises*}
|
|
666 |
lemma mult_strict_mono': |
|
667 |
assumes "a < b" and "c < d" and "0 \<le> a" and "0 \<le> c" |
|
668 |
shows "a * c < b * d" |
|
669 |
by (rule mult_strict_mono) (insert assms, auto) |
|
670 |
||
671 |
lemma mult_less_le_imp_less: |
|
672 |
assumes "a < b" and "c \<le> d" and "0 \<le> a" and "0 < c" |
|
673 |
shows "a * c < b * d" |
|
674 |
using assms apply (subgoal_tac "a * c < b * c") |
|
675 |
apply (erule less_le_trans) |
|
676 |
apply (erule mult_left_mono) |
|
677 |
apply simp |
|
678 |
apply (erule mult_strict_right_mono) |
|
679 |
apply assumption |
|
680 |
done |
|
681 |
||
682 |
lemma mult_le_less_imp_less: |
|
683 |
assumes "a \<le> b" and "c < d" and "0 < a" and "0 \<le> c" |
|
684 |
shows "a * c < b * d" |
|
685 |
using assms apply (subgoal_tac "a * c \<le> b * c") |
|
686 |
apply (erule le_less_trans) |
|
687 |
apply (erule mult_strict_left_mono) |
|
688 |
apply simp |
|
689 |
apply (erule mult_right_mono) |
|
690 |
apply simp |
|
691 |
done |
|
692 |
||
693 |
lemma mult_less_imp_less_left: |
|
694 |
assumes less: "c * a < c * b" and nonneg: "0 \<le> c" |
|
695 |
shows "a < b" |
|
696 |
proof (rule ccontr) |
|
697 |
assume "\<not> a < b" |
|
698 |
hence "b \<le> a" by (simp add: linorder_not_less) |
|
699 |
hence "c * b \<le> c * a" using nonneg by (rule mult_left_mono) |
|
700 |
with this and less show False |
|
701 |
by (simp add: not_less [symmetric]) |
|
702 |
qed |
|
703 |
||
704 |
lemma mult_less_imp_less_right: |
|
705 |
assumes less: "a * c < b * c" and nonneg: "0 \<le> c" |
|
706 |
shows "a < b" |
|
707 |
proof (rule ccontr) |
|
708 |
assume "\<not> a < b" |
|
709 |
hence "b \<le> a" by (simp add: linorder_not_less) |
|
710 |
hence "b * c \<le> a * c" using nonneg by (rule mult_right_mono) |
|
711 |
with this and less show False |
|
712 |
by (simp add: not_less [symmetric]) |
|
713 |
qed |
|
714 |
||
| 25230 | 715 |
end |
716 |
||
| 22390 | 717 |
class mult_mono1 = times + zero + ord + |
| 25230 | 718 |
assumes mult_mono1: "a \<le> b \<Longrightarrow> 0 \<le> c \<Longrightarrow> c * a \<le> c * b" |
| 14270 | 719 |
|
| 22390 | 720 |
class pordered_comm_semiring = comm_semiring_0 |
721 |
+ pordered_ab_semigroup_add + mult_mono1 |
|
| 25186 | 722 |
begin |
| 25152 | 723 |
|
| 25267 | 724 |
subclass pordered_semiring |
| 28823 | 725 |
proof |
|
21199
2d83f93c3580
* Added annihilation axioms ("x * 0 = 0") to axclass semiring_0.
krauss
parents:
20633
diff
changeset
|
726 |
fix a b c :: 'a |
| 23550 | 727 |
assume "a \<le> b" "0 \<le> c" |
| 25230 | 728 |
thus "c * a \<le> c * b" by (rule mult_mono1) |
| 23550 | 729 |
thus "a * c \<le> b * c" by (simp only: mult_commute) |
|
21199
2d83f93c3580
* Added annihilation axioms ("x * 0 = 0") to axclass semiring_0.
krauss
parents:
20633
diff
changeset
|
730 |
qed |
|
14265
95b42e69436c
HOL: installation of Ring_and_Field as the basis for Naturals and Reals
paulson
parents:
diff
changeset
|
731 |
|
| 25267 | 732 |
end |
733 |
||
734 |
class pordered_cancel_comm_semiring = comm_semiring_0_cancel |
|
735 |
+ pordered_ab_semigroup_add + mult_mono1 |
|
736 |
begin |
|
|
14265
95b42e69436c
HOL: installation of Ring_and_Field as the basis for Naturals and Reals
paulson
parents:
diff
changeset
|
737 |
|
| 27516 | 738 |
subclass pordered_comm_semiring .. |
739 |
subclass pordered_cancel_semiring .. |
|
| 25267 | 740 |
|
741 |
end |
|
742 |
||
743 |
class ordered_comm_semiring_strict = comm_semiring_0 + ordered_cancel_ab_semigroup_add + |
|
| 26193 | 744 |
assumes mult_strict_left_mono_comm: "a < b \<Longrightarrow> 0 < c \<Longrightarrow> c * a < c * b" |
| 25267 | 745 |
begin |
746 |
||
747 |
subclass ordered_semiring_strict |
|
| 28823 | 748 |
proof |
| 23550 | 749 |
fix a b c :: 'a |
750 |
assume "a < b" "0 < c" |
|
| 26193 | 751 |
thus "c * a < c * b" by (rule mult_strict_left_mono_comm) |
| 23550 | 752 |
thus "a * c < b * c" by (simp only: mult_commute) |
753 |
qed |
|
|
14272
5efbb548107d
Tidying of the integer development; towards removing the
paulson
parents:
14270
diff
changeset
|
754 |
|
| 25267 | 755 |
subclass pordered_cancel_comm_semiring |
| 28823 | 756 |
proof |
| 23550 | 757 |
fix a b c :: 'a |
758 |
assume "a \<le> b" "0 \<le> c" |
|
759 |
thus "c * a \<le> c * b" |
|
| 25186 | 760 |
unfolding le_less |
| 26193 | 761 |
using mult_strict_left_mono by (cases "c = 0") auto |
| 23550 | 762 |
qed |
|
14272
5efbb548107d
Tidying of the integer development; towards removing the
paulson
parents:
14270
diff
changeset
|
763 |
|
| 25267 | 764 |
end |
| 25230 | 765 |
|
| 25267 | 766 |
class pordered_ring = ring + pordered_cancel_semiring |
767 |
begin |
|
| 25230 | 768 |
|
| 27516 | 769 |
subclass pordered_ab_group_add .. |
| 14270 | 770 |
|
| 25230 | 771 |
lemmas ring_simps = ring_simps group_simps |
772 |
||
773 |
lemma less_add_iff1: |
|
774 |
"a * e + c < b * e + d \<longleftrightarrow> (a - b) * e + c < d" |
|
775 |
by (simp add: ring_simps) |
|
776 |
||
777 |
lemma less_add_iff2: |
|
778 |
"a * e + c < b * e + d \<longleftrightarrow> c < (b - a) * e + d" |
|
779 |
by (simp add: ring_simps) |
|
780 |
||
781 |
lemma le_add_iff1: |
|
782 |
"a * e + c \<le> b * e + d \<longleftrightarrow> (a - b) * e + c \<le> d" |
|
783 |
by (simp add: ring_simps) |
|
784 |
||
785 |
lemma le_add_iff2: |
|
786 |
"a * e + c \<le> b * e + d \<longleftrightarrow> c \<le> (b - a) * e + d" |
|
787 |
by (simp add: ring_simps) |
|
788 |
||
789 |
lemma mult_left_mono_neg: |
|
790 |
"b \<le> a \<Longrightarrow> c \<le> 0 \<Longrightarrow> c * a \<le> c * b" |
|
791 |
apply (drule mult_left_mono [of _ _ "uminus c"]) |
|
792 |
apply (simp_all add: minus_mult_left [symmetric]) |
|
793 |
done |
|
794 |
||
795 |
lemma mult_right_mono_neg: |
|
796 |
"b \<le> a \<Longrightarrow> c \<le> 0 \<Longrightarrow> a * c \<le> b * c" |
|
797 |
apply (drule mult_right_mono [of _ _ "uminus c"]) |
|
798 |
apply (simp_all add: minus_mult_right [symmetric]) |
|
799 |
done |
|
800 |
||
801 |
lemma mult_nonpos_nonpos: |
|
802 |
"a \<le> 0 \<Longrightarrow> b \<le> 0 \<Longrightarrow> 0 \<le> a * b" |
|
803 |
by (drule mult_right_mono_neg [of a zero b]) auto |
|
804 |
||
805 |
lemma split_mult_pos_le: |
|
806 |
"(0 \<le> a \<and> 0 \<le> b) \<or> (a \<le> 0 \<and> b \<le> 0) \<Longrightarrow> 0 \<le> a * b" |
|
807 |
by (auto simp add: mult_nonneg_nonneg mult_nonpos_nonpos) |
|
| 25186 | 808 |
|
809 |
end |
|
| 14270 | 810 |
|
| 25762 | 811 |
class abs_if = minus + uminus + ord + zero + abs + |
812 |
assumes abs_if: "\<bar>a\<bar> = (if a < 0 then - a else a)" |
|
813 |
||
814 |
class sgn_if = minus + uminus + zero + one + ord + sgn + |
|
| 25186 | 815 |
assumes sgn_if: "sgn x = (if x = 0 then 0 else if 0 < x then 1 else - 1)" |
| 24506 | 816 |
|
| 25564 | 817 |
lemma (in sgn_if) sgn0[simp]: "sgn 0 = 0" |
818 |
by(simp add:sgn_if) |
|
819 |
||
| 25230 | 820 |
class ordered_ring = ring + ordered_semiring |
|
25304
7491c00f0915
removed subclass edge ordered_ring < lordered_ring
haftmann
parents:
25267
diff
changeset
|
821 |
+ ordered_ab_group_add + abs_if |
|
7491c00f0915
removed subclass edge ordered_ring < lordered_ring
haftmann
parents:
25267
diff
changeset
|
822 |
begin |
|
7491c00f0915
removed subclass edge ordered_ring < lordered_ring
haftmann
parents:
25267
diff
changeset
|
823 |
|
| 27516 | 824 |
subclass pordered_ring .. |
|
25304
7491c00f0915
removed subclass edge ordered_ring < lordered_ring
haftmann
parents:
25267
diff
changeset
|
825 |
|
|
7491c00f0915
removed subclass edge ordered_ring < lordered_ring
haftmann
parents:
25267
diff
changeset
|
826 |
subclass pordered_ab_group_add_abs |
| 28823 | 827 |
proof |
|
25304
7491c00f0915
removed subclass edge ordered_ring < lordered_ring
haftmann
parents:
25267
diff
changeset
|
828 |
fix a b |
|
7491c00f0915
removed subclass edge ordered_ring < lordered_ring
haftmann
parents:
25267
diff
changeset
|
829 |
show "\<bar>a + b\<bar> \<le> \<bar>a\<bar> + \<bar>b\<bar>" |
|
7491c00f0915
removed subclass edge ordered_ring < lordered_ring
haftmann
parents:
25267
diff
changeset
|
830 |
by (auto simp add: abs_if not_less neg_less_eq_nonneg less_eq_neg_nonpos) |
|
7491c00f0915
removed subclass edge ordered_ring < lordered_ring
haftmann
parents:
25267
diff
changeset
|
831 |
(auto simp del: minus_add_distrib simp add: minus_add_distrib [symmetric] |
|
7491c00f0915
removed subclass edge ordered_ring < lordered_ring
haftmann
parents:
25267
diff
changeset
|
832 |
neg_less_eq_nonneg less_eq_neg_nonpos, auto intro: add_nonneg_nonneg, |
|
7491c00f0915
removed subclass edge ordered_ring < lordered_ring
haftmann
parents:
25267
diff
changeset
|
833 |
auto intro!: less_imp_le add_neg_neg) |
|
7491c00f0915
removed subclass edge ordered_ring < lordered_ring
haftmann
parents:
25267
diff
changeset
|
834 |
qed (auto simp add: abs_if less_eq_neg_nonpos neg_equal_zero) |
|
7491c00f0915
removed subclass edge ordered_ring < lordered_ring
haftmann
parents:
25267
diff
changeset
|
835 |
|
|
7491c00f0915
removed subclass edge ordered_ring < lordered_ring
haftmann
parents:
25267
diff
changeset
|
836 |
end |
| 23521 | 837 |
|
| 25230 | 838 |
(* The "strict" suffix can be seen as describing the combination of ordered_ring and no_zero_divisors. |
839 |
Basically, ordered_ring + no_zero_divisors = ordered_ring_strict. |
|
840 |
*) |
|
841 |
class ordered_ring_strict = ring + ordered_semiring_strict |
|
|
25304
7491c00f0915
removed subclass edge ordered_ring < lordered_ring
haftmann
parents:
25267
diff
changeset
|
842 |
+ ordered_ab_group_add + abs_if |
| 25230 | 843 |
begin |
|
14348
744c868ee0b7
Defining the type class "ringpower" and deleting superseded theorems for
paulson
parents:
14341
diff
changeset
|
844 |
|
| 27516 | 845 |
subclass ordered_ring .. |
|
25304
7491c00f0915
removed subclass edge ordered_ring < lordered_ring
haftmann
parents:
25267
diff
changeset
|
846 |
|
|
14265
95b42e69436c
HOL: installation of Ring_and_Field as the basis for Naturals and Reals
paulson
parents:
diff
changeset
|
847 |
lemma mult_strict_left_mono_neg: |
| 25230 | 848 |
"b < a \<Longrightarrow> c < 0 \<Longrightarrow> c * a < c * b" |
849 |
apply (drule mult_strict_left_mono [of _ _ "uminus c"]) |
|
850 |
apply (simp_all add: minus_mult_left [symmetric]) |
|
851 |
done |
|
| 14738 | 852 |
|
|
14265
95b42e69436c
HOL: installation of Ring_and_Field as the basis for Naturals and Reals
paulson
parents:
diff
changeset
|
853 |
lemma mult_strict_right_mono_neg: |
| 25230 | 854 |
"b < a \<Longrightarrow> c < 0 \<Longrightarrow> a * c < b * c" |
855 |
apply (drule mult_strict_right_mono [of _ _ "uminus c"]) |
|
856 |
apply (simp_all add: minus_mult_right [symmetric]) |
|
857 |
done |
|
| 14738 | 858 |
|
| 25230 | 859 |
lemma mult_neg_neg: |
860 |
"a < 0 \<Longrightarrow> b < 0 \<Longrightarrow> 0 < a * b" |
|
861 |
by (drule mult_strict_right_mono_neg, auto) |
|
| 14738 | 862 |
|
| 25917 | 863 |
subclass ring_no_zero_divisors |
| 28823 | 864 |
proof |
| 25917 | 865 |
fix a b |
866 |
assume "a \<noteq> 0" then have A: "a < 0 \<or> 0 < a" by (simp add: neq_iff) |
|
867 |
assume "b \<noteq> 0" then have B: "b < 0 \<or> 0 < b" by (simp add: neq_iff) |
|
868 |
have "a * b < 0 \<or> 0 < a * b" |
|
869 |
proof (cases "a < 0") |
|
870 |
case True note A' = this |
|
871 |
show ?thesis proof (cases "b < 0") |
|
872 |
case True with A' |
|
873 |
show ?thesis by (auto dest: mult_neg_neg) |
|
874 |
next |
|
875 |
case False with B have "0 < b" by auto |
|
876 |
with A' show ?thesis by (auto dest: mult_strict_right_mono) |
|
877 |
qed |
|
878 |
next |
|
879 |
case False with A have A': "0 < a" by auto |
|
880 |
show ?thesis proof (cases "b < 0") |
|
881 |
case True with A' |
|
882 |
show ?thesis by (auto dest: mult_strict_right_mono_neg) |
|
883 |
next |
|
884 |
case False with B have "0 < b" by auto |
|
885 |
with A' show ?thesis by (auto dest: mult_pos_pos) |
|
886 |
qed |
|
887 |
qed |
|
888 |
then show "a * b \<noteq> 0" by (simp add: neq_iff) |
|
889 |
qed |
|
|
25304
7491c00f0915
removed subclass edge ordered_ring < lordered_ring
haftmann
parents:
25267
diff
changeset
|
890 |
|
|
14265
95b42e69436c
HOL: installation of Ring_and_Field as the basis for Naturals and Reals
paulson
parents:
diff
changeset
|
891 |
lemma zero_less_mult_iff: |
| 25917 | 892 |
"0 < a * b \<longleftrightarrow> 0 < a \<and> 0 < b \<or> a < 0 \<and> b < 0" |
893 |
apply (auto simp add: mult_pos_pos mult_neg_neg) |
|
894 |
apply (simp_all add: not_less le_less) |
|
895 |
apply (erule disjE) apply assumption defer |
|
896 |
apply (erule disjE) defer apply (drule sym) apply simp |
|
897 |
apply (erule disjE) defer apply (drule sym) apply simp |
|
898 |
apply (erule disjE) apply assumption apply (drule sym) apply simp |
|
899 |
apply (drule sym) apply simp |
|
900 |
apply (blast dest: zero_less_mult_pos) |
|
| 25230 | 901 |
apply (blast dest: zero_less_mult_pos2) |
902 |
done |
|
|
22990
775e9de3db48
added classes ring_no_zero_divisors and dom (non-commutative version of idom);
huffman
parents:
22987
diff
changeset
|
903 |
|
|
14265
95b42e69436c
HOL: installation of Ring_and_Field as the basis for Naturals and Reals
paulson
parents:
diff
changeset
|
904 |
lemma zero_le_mult_iff: |
| 25917 | 905 |
"0 \<le> a * b \<longleftrightarrow> 0 \<le> a \<and> 0 \<le> b \<or> a \<le> 0 \<and> b \<le> 0" |
906 |
by (auto simp add: eq_commute [of 0] le_less not_less zero_less_mult_iff) |
|
|
14265
95b42e69436c
HOL: installation of Ring_and_Field as the basis for Naturals and Reals
paulson
parents:
diff
changeset
|
907 |
|
|
95b42e69436c
HOL: installation of Ring_and_Field as the basis for Naturals and Reals
paulson
parents:
diff
changeset
|
908 |
lemma mult_less_0_iff: |
| 25917 | 909 |
"a * b < 0 \<longleftrightarrow> 0 < a \<and> b < 0 \<or> a < 0 \<and> 0 < b" |
910 |
apply (insert zero_less_mult_iff [of "-a" b]) |
|
911 |
apply (force simp add: minus_mult_left[symmetric]) |
|
912 |
done |
|
|
14265
95b42e69436c
HOL: installation of Ring_and_Field as the basis for Naturals and Reals
paulson
parents:
diff
changeset
|
913 |
|
|
95b42e69436c
HOL: installation of Ring_and_Field as the basis for Naturals and Reals
paulson
parents:
diff
changeset
|
914 |
lemma mult_le_0_iff: |
| 25917 | 915 |
"a * b \<le> 0 \<longleftrightarrow> 0 \<le> a \<and> b \<le> 0 \<or> a \<le> 0 \<and> 0 \<le> b" |
916 |
apply (insert zero_le_mult_iff [of "-a" b]) |
|
917 |
apply (force simp add: minus_mult_left[symmetric]) |
|
918 |
done |
|
919 |
||
920 |
lemma zero_le_square [simp]: "0 \<le> a * a" |
|
921 |
by (simp add: zero_le_mult_iff linear) |
|
922 |
||
923 |
lemma not_square_less_zero [simp]: "\<not> (a * a < 0)" |
|
924 |
by (simp add: not_less) |
|
925 |
||
| 26193 | 926 |
text{*Cancellation laws for @{term "c*a < c*b"} and @{term "a*c < b*c"},
|
927 |
also with the relations @{text "\<le>"} and equality.*}
|
|
928 |
||
929 |
text{*These ``disjunction'' versions produce two cases when the comparison is
|
|
930 |
an assumption, but effectively four when the comparison is a goal.*} |
|
931 |
||
932 |
lemma mult_less_cancel_right_disj: |
|
933 |
"a * c < b * c \<longleftrightarrow> 0 < c \<and> a < b \<or> c < 0 \<and> b < a" |
|
934 |
apply (cases "c = 0") |
|
935 |
apply (auto simp add: neq_iff mult_strict_right_mono |
|
936 |
mult_strict_right_mono_neg) |
|
937 |
apply (auto simp add: not_less |
|
938 |
not_le [symmetric, of "a*c"] |
|
939 |
not_le [symmetric, of a]) |
|
940 |
apply (erule_tac [!] notE) |
|
941 |
apply (auto simp add: less_imp_le mult_right_mono |
|
942 |
mult_right_mono_neg) |
|
943 |
done |
|
944 |
||
945 |
lemma mult_less_cancel_left_disj: |
|
946 |
"c * a < c * b \<longleftrightarrow> 0 < c \<and> a < b \<or> c < 0 \<and> b < a" |
|
947 |
apply (cases "c = 0") |
|
948 |
apply (auto simp add: neq_iff mult_strict_left_mono |
|
949 |
mult_strict_left_mono_neg) |
|
950 |
apply (auto simp add: not_less |
|
951 |
not_le [symmetric, of "c*a"] |
|
952 |
not_le [symmetric, of a]) |
|
953 |
apply (erule_tac [!] notE) |
|
954 |
apply (auto simp add: less_imp_le mult_left_mono |
|
955 |
mult_left_mono_neg) |
|
956 |
done |
|
957 |
||
958 |
text{*The ``conjunction of implication'' lemmas produce two cases when the
|
|
959 |
comparison is a goal, but give four when the comparison is an assumption.*} |
|
960 |
||
961 |
lemma mult_less_cancel_right: |
|
962 |
"a * c < b * c \<longleftrightarrow> (0 \<le> c \<longrightarrow> a < b) \<and> (c \<le> 0 \<longrightarrow> b < a)" |
|
963 |
using mult_less_cancel_right_disj [of a c b] by auto |
|
964 |
||
965 |
lemma mult_less_cancel_left: |
|
966 |
"c * a < c * b \<longleftrightarrow> (0 \<le> c \<longrightarrow> a < b) \<and> (c \<le> 0 \<longrightarrow> b < a)" |
|
967 |
using mult_less_cancel_left_disj [of c a b] by auto |
|
968 |
||
969 |
lemma mult_le_cancel_right: |
|
970 |
"a * c \<le> b * c \<longleftrightarrow> (0 < c \<longrightarrow> a \<le> b) \<and> (c < 0 \<longrightarrow> b \<le> a)" |
|
971 |
by (simp add: not_less [symmetric] mult_less_cancel_right_disj) |
|
972 |
||
973 |
lemma mult_le_cancel_left: |
|
974 |
"c * a \<le> c * b \<longleftrightarrow> (0 < c \<longrightarrow> a \<le> b) \<and> (c < 0 \<longrightarrow> b \<le> a)" |
|
975 |
by (simp add: not_less [symmetric] mult_less_cancel_left_disj) |
|
976 |
||
| 25917 | 977 |
end |
|
14265
95b42e69436c
HOL: installation of Ring_and_Field as the basis for Naturals and Reals
paulson
parents:
diff
changeset
|
978 |
|
| 25230 | 979 |
text{*This list of rewrites simplifies ring terms by multiplying
|
980 |
everything out and bringing sums and products into a canonical form |
|
981 |
(by ordered rewriting). As a result it decides ring equalities but |
|
982 |
also helps with inequalities. *} |
|
983 |
lemmas ring_simps = group_simps ring_distribs |
|
984 |
||
985 |
||
986 |
class pordered_comm_ring = comm_ring + pordered_comm_semiring |
|
| 25267 | 987 |
begin |
| 25230 | 988 |
|
| 27516 | 989 |
subclass pordered_ring .. |
990 |
subclass pordered_cancel_comm_semiring .. |
|
| 25230 | 991 |
|
| 25267 | 992 |
end |
| 25230 | 993 |
|
994 |
class ordered_semidom = comm_semiring_1_cancel + ordered_comm_semiring_strict + |
|
995 |
(*previously ordered_semiring*) |
|
996 |
assumes zero_less_one [simp]: "0 < 1" |
|
997 |
begin |
|
998 |
||
999 |
lemma pos_add_strict: |
|
1000 |
shows "0 < a \<Longrightarrow> b < c \<Longrightarrow> b < a + c" |
|
1001 |
using add_strict_mono [of zero a b c] by simp |
|
1002 |
||
| 26193 | 1003 |
lemma zero_le_one [simp]: "0 \<le> 1" |
1004 |
by (rule zero_less_one [THEN less_imp_le]) |
|
1005 |
||
1006 |
lemma not_one_le_zero [simp]: "\<not> 1 \<le> 0" |
|
1007 |
by (simp add: not_le) |
|
1008 |
||
1009 |
lemma not_one_less_zero [simp]: "\<not> 1 < 0" |
|
1010 |
by (simp add: not_less) |
|
1011 |
||
1012 |
lemma less_1_mult: |
|
1013 |
assumes "1 < m" and "1 < n" |
|
1014 |
shows "1 < m * n" |
|
1015 |
using assms mult_strict_mono [of 1 m 1 n] |
|
1016 |
by (simp add: less_trans [OF zero_less_one]) |
|
1017 |
||
| 25230 | 1018 |
end |
1019 |
||
| 26193 | 1020 |
class ordered_idom = comm_ring_1 + |
1021 |
ordered_comm_semiring_strict + ordered_ab_group_add + |
|
| 25230 | 1022 |
abs_if + sgn_if |
1023 |
(*previously ordered_ring*) |
|
| 25917 | 1024 |
begin |
1025 |
||
| 27516 | 1026 |
subclass ordered_ring_strict .. |
1027 |
subclass pordered_comm_ring .. |
|
1028 |
subclass idom .. |
|
| 25917 | 1029 |
|
1030 |
subclass ordered_semidom |
|
| 28823 | 1031 |
proof |
| 26193 | 1032 |
have "0 \<le> 1 * 1" by (rule zero_le_square) |
1033 |
thus "0 < 1" by (simp add: le_less) |
|
| 25917 | 1034 |
qed |
1035 |
||
| 26193 | 1036 |
lemma linorder_neqE_ordered_idom: |
1037 |
assumes "x \<noteq> y" obtains "x < y" | "y < x" |
|
1038 |
using assms by (rule neqE) |
|
1039 |
||
| 26274 | 1040 |
text {* These cancellation simprules also produce two cases when the comparison is a goal. *}
|
1041 |
||
1042 |
lemma mult_le_cancel_right1: |
|
1043 |
"c \<le> b * c \<longleftrightarrow> (0 < c \<longrightarrow> 1 \<le> b) \<and> (c < 0 \<longrightarrow> b \<le> 1)" |
|
1044 |
by (insert mult_le_cancel_right [of 1 c b], simp) |
|
1045 |
||
1046 |
lemma mult_le_cancel_right2: |
|
1047 |
"a * c \<le> c \<longleftrightarrow> (0 < c \<longrightarrow> a \<le> 1) \<and> (c < 0 \<longrightarrow> 1 \<le> a)" |
|
1048 |
by (insert mult_le_cancel_right [of a c 1], simp) |
|
1049 |
||
1050 |
lemma mult_le_cancel_left1: |
|
1051 |
"c \<le> c * b \<longleftrightarrow> (0 < c \<longrightarrow> 1 \<le> b) \<and> (c < 0 \<longrightarrow> b \<le> 1)" |
|
1052 |
by (insert mult_le_cancel_left [of c 1 b], simp) |
|
1053 |
||
1054 |
lemma mult_le_cancel_left2: |
|
1055 |
"c * a \<le> c \<longleftrightarrow> (0 < c \<longrightarrow> a \<le> 1) \<and> (c < 0 \<longrightarrow> 1 \<le> a)" |
|
1056 |
by (insert mult_le_cancel_left [of c a 1], simp) |
|
1057 |
||
1058 |
lemma mult_less_cancel_right1: |
|
1059 |
"c < b * c \<longleftrightarrow> (0 \<le> c \<longrightarrow> 1 < b) \<and> (c \<le> 0 \<longrightarrow> b < 1)" |
|
1060 |
by (insert mult_less_cancel_right [of 1 c b], simp) |
|
1061 |
||
1062 |
lemma mult_less_cancel_right2: |
|
1063 |
"a * c < c \<longleftrightarrow> (0 \<le> c \<longrightarrow> a < 1) \<and> (c \<le> 0 \<longrightarrow> 1 < a)" |
|
1064 |
by (insert mult_less_cancel_right [of a c 1], simp) |
|
1065 |
||
1066 |
lemma mult_less_cancel_left1: |
|
1067 |
"c < c * b \<longleftrightarrow> (0 \<le> c \<longrightarrow> 1 < b) \<and> (c \<le> 0 \<longrightarrow> b < 1)" |
|
1068 |
by (insert mult_less_cancel_left [of c 1 b], simp) |
|
1069 |
||
1070 |
lemma mult_less_cancel_left2: |
|
1071 |
"c * a < c \<longleftrightarrow> (0 \<le> c \<longrightarrow> a < 1) \<and> (c \<le> 0 \<longrightarrow> 1 < a)" |
|
1072 |
by (insert mult_less_cancel_left [of c a 1], simp) |
|
1073 |
||
|
27651
16a26996c30e
moved op dvd to theory Ring_and_Field; generalized a couple of lemmas
haftmann
parents:
27516
diff
changeset
|
1074 |
lemma sgn_sgn [simp]: |
|
16a26996c30e
moved op dvd to theory Ring_and_Field; generalized a couple of lemmas
haftmann
parents:
27516
diff
changeset
|
1075 |
"sgn (sgn a) = sgn a" |
|
16a26996c30e
moved op dvd to theory Ring_and_Field; generalized a couple of lemmas
haftmann
parents:
27516
diff
changeset
|
1076 |
unfolding sgn_if by simp |
|
16a26996c30e
moved op dvd to theory Ring_and_Field; generalized a couple of lemmas
haftmann
parents:
27516
diff
changeset
|
1077 |
|
|
16a26996c30e
moved op dvd to theory Ring_and_Field; generalized a couple of lemmas
haftmann
parents:
27516
diff
changeset
|
1078 |
lemma sgn_0_0: |
|
16a26996c30e
moved op dvd to theory Ring_and_Field; generalized a couple of lemmas
haftmann
parents:
27516
diff
changeset
|
1079 |
"sgn a = 0 \<longleftrightarrow> a = 0" |
|
16a26996c30e
moved op dvd to theory Ring_and_Field; generalized a couple of lemmas
haftmann
parents:
27516
diff
changeset
|
1080 |
unfolding sgn_if by simp |
|
16a26996c30e
moved op dvd to theory Ring_and_Field; generalized a couple of lemmas
haftmann
parents:
27516
diff
changeset
|
1081 |
|
|
16a26996c30e
moved op dvd to theory Ring_and_Field; generalized a couple of lemmas
haftmann
parents:
27516
diff
changeset
|
1082 |
lemma sgn_1_pos: |
|
16a26996c30e
moved op dvd to theory Ring_and_Field; generalized a couple of lemmas
haftmann
parents:
27516
diff
changeset
|
1083 |
"sgn a = 1 \<longleftrightarrow> a > 0" |
|
16a26996c30e
moved op dvd to theory Ring_and_Field; generalized a couple of lemmas
haftmann
parents:
27516
diff
changeset
|
1084 |
unfolding sgn_if by (simp add: neg_equal_zero) |
|
16a26996c30e
moved op dvd to theory Ring_and_Field; generalized a couple of lemmas
haftmann
parents:
27516
diff
changeset
|
1085 |
|
|
16a26996c30e
moved op dvd to theory Ring_and_Field; generalized a couple of lemmas
haftmann
parents:
27516
diff
changeset
|
1086 |
lemma sgn_1_neg: |
|
16a26996c30e
moved op dvd to theory Ring_and_Field; generalized a couple of lemmas
haftmann
parents:
27516
diff
changeset
|
1087 |
"sgn a = - 1 \<longleftrightarrow> a < 0" |
|
16a26996c30e
moved op dvd to theory Ring_and_Field; generalized a couple of lemmas
haftmann
parents:
27516
diff
changeset
|
1088 |
unfolding sgn_if by (auto simp add: equal_neg_zero) |
|
16a26996c30e
moved op dvd to theory Ring_and_Field; generalized a couple of lemmas
haftmann
parents:
27516
diff
changeset
|
1089 |
|
|
16a26996c30e
moved op dvd to theory Ring_and_Field; generalized a couple of lemmas
haftmann
parents:
27516
diff
changeset
|
1090 |
lemma sgn_times: |
|
16a26996c30e
moved op dvd to theory Ring_and_Field; generalized a couple of lemmas
haftmann
parents:
27516
diff
changeset
|
1091 |
"sgn (a * b) = sgn a * sgn b" |
|
16a26996c30e
moved op dvd to theory Ring_and_Field; generalized a couple of lemmas
haftmann
parents:
27516
diff
changeset
|
1092 |
by (auto simp add: sgn_if zero_less_mult_iff) |
|
16a26996c30e
moved op dvd to theory Ring_and_Field; generalized a couple of lemmas
haftmann
parents:
27516
diff
changeset
|
1093 |
|
| 25917 | 1094 |
end |
| 25230 | 1095 |
|
1096 |
class ordered_field = field + ordered_idom |
|
1097 |
||
| 26274 | 1098 |
text {* Simprules for comparisons where common factors can be cancelled. *}
|
|
15234
ec91a90c604e
simplification tweaks for better arithmetic reasoning
paulson
parents:
15229
diff
changeset
|
1099 |
|
|
ec91a90c604e
simplification tweaks for better arithmetic reasoning
paulson
parents:
15229
diff
changeset
|
1100 |
lemmas mult_compare_simps = |
|
ec91a90c604e
simplification tweaks for better arithmetic reasoning
paulson
parents:
15229
diff
changeset
|
1101 |
mult_le_cancel_right mult_le_cancel_left |
|
ec91a90c604e
simplification tweaks for better arithmetic reasoning
paulson
parents:
15229
diff
changeset
|
1102 |
mult_le_cancel_right1 mult_le_cancel_right2 |
|
ec91a90c604e
simplification tweaks for better arithmetic reasoning
paulson
parents:
15229
diff
changeset
|
1103 |
mult_le_cancel_left1 mult_le_cancel_left2 |
|
ec91a90c604e
simplification tweaks for better arithmetic reasoning
paulson
parents:
15229
diff
changeset
|
1104 |
mult_less_cancel_right mult_less_cancel_left |
|
ec91a90c604e
simplification tweaks for better arithmetic reasoning
paulson
parents:
15229
diff
changeset
|
1105 |
mult_less_cancel_right1 mult_less_cancel_right2 |
|
ec91a90c604e
simplification tweaks for better arithmetic reasoning
paulson
parents:
15229
diff
changeset
|
1106 |
mult_less_cancel_left1 mult_less_cancel_left2 |
|
ec91a90c604e
simplification tweaks for better arithmetic reasoning
paulson
parents:
15229
diff
changeset
|
1107 |
mult_cancel_right mult_cancel_left |
|
ec91a90c604e
simplification tweaks for better arithmetic reasoning
paulson
parents:
15229
diff
changeset
|
1108 |
mult_cancel_right1 mult_cancel_right2 |
|
ec91a90c604e
simplification tweaks for better arithmetic reasoning
paulson
parents:
15229
diff
changeset
|
1109 |
mult_cancel_left1 mult_cancel_left2 |
|
ec91a90c604e
simplification tweaks for better arithmetic reasoning
paulson
parents:
15229
diff
changeset
|
1110 |
|
| 26274 | 1111 |
-- {* FIXME continue localization here *}
|
|
14268
5cf13e80be0e
Removal of Hyperreal/ExtraThms2.ML, sending the material to the correct files.
paulson
parents:
14267
diff
changeset
|
1112 |
|
|
5cf13e80be0e
Removal of Hyperreal/ExtraThms2.ML, sending the material to the correct files.
paulson
parents:
14267
diff
changeset
|
1113 |
lemma inverse_nonzero_iff_nonzero [simp]: |
|
20496
23eb6034c06d
added axclass division_ring (like field without commutativity; includes e.g. quaternions) and generalized some theorems from field to division_ring
huffman
parents:
19404
diff
changeset
|
1114 |
"(inverse a = 0) = (a = (0::'a::{division_ring,division_by_zero}))"
|
| 26274 | 1115 |
by (force dest: inverse_zero_imp_zero) |
|
14268
5cf13e80be0e
Removal of Hyperreal/ExtraThms2.ML, sending the material to the correct files.
paulson
parents:
14267
diff
changeset
|
1116 |
|
|
5cf13e80be0e
Removal of Hyperreal/ExtraThms2.ML, sending the material to the correct files.
paulson
parents:
14267
diff
changeset
|
1117 |
lemma inverse_minus_eq [simp]: |
|
20496
23eb6034c06d
added axclass division_ring (like field without commutativity; includes e.g. quaternions) and generalized some theorems from field to division_ring
huffman
parents:
19404
diff
changeset
|
1118 |
"inverse(-a) = -inverse(a::'a::{division_ring,division_by_zero})"
|
| 14377 | 1119 |
proof cases |
1120 |
assume "a=0" thus ?thesis by (simp add: inverse_zero) |
|
1121 |
next |
|
1122 |
assume "a\<noteq>0" |
|
1123 |
thus ?thesis by (simp add: nonzero_inverse_minus_eq) |
|
1124 |
qed |
|
|
14268
5cf13e80be0e
Removal of Hyperreal/ExtraThms2.ML, sending the material to the correct files.
paulson
parents:
14267
diff
changeset
|
1125 |
|
|
5cf13e80be0e
Removal of Hyperreal/ExtraThms2.ML, sending the material to the correct files.
paulson
parents:
14267
diff
changeset
|
1126 |
lemma inverse_eq_imp_eq: |
|
20496
23eb6034c06d
added axclass division_ring (like field without commutativity; includes e.g. quaternions) and generalized some theorems from field to division_ring
huffman
parents:
19404
diff
changeset
|
1127 |
"inverse a = inverse b ==> a = (b::'a::{division_ring,division_by_zero})"
|
| 21328 | 1128 |
apply (cases "a=0 | b=0") |
|
14268
5cf13e80be0e
Removal of Hyperreal/ExtraThms2.ML, sending the material to the correct files.
paulson
parents:
14267
diff
changeset
|
1129 |
apply (force dest!: inverse_zero_imp_zero |
|
5cf13e80be0e
Removal of Hyperreal/ExtraThms2.ML, sending the material to the correct files.
paulson
parents:
14267
diff
changeset
|
1130 |
simp add: eq_commute [of "0::'a"]) |
|
5cf13e80be0e
Removal of Hyperreal/ExtraThms2.ML, sending the material to the correct files.
paulson
parents:
14267
diff
changeset
|
1131 |
apply (force dest!: nonzero_inverse_eq_imp_eq) |
|
5cf13e80be0e
Removal of Hyperreal/ExtraThms2.ML, sending the material to the correct files.
paulson
parents:
14267
diff
changeset
|
1132 |
done |
|
5cf13e80be0e
Removal of Hyperreal/ExtraThms2.ML, sending the material to the correct files.
paulson
parents:
14267
diff
changeset
|
1133 |
|
|
5cf13e80be0e
Removal of Hyperreal/ExtraThms2.ML, sending the material to the correct files.
paulson
parents:
14267
diff
changeset
|
1134 |
lemma inverse_eq_iff_eq [simp]: |
|
20496
23eb6034c06d
added axclass division_ring (like field without commutativity; includes e.g. quaternions) and generalized some theorems from field to division_ring
huffman
parents:
19404
diff
changeset
|
1135 |
"(inverse a = inverse b) = (a = (b::'a::{division_ring,division_by_zero}))"
|
|
23eb6034c06d
added axclass division_ring (like field without commutativity; includes e.g. quaternions) and generalized some theorems from field to division_ring
huffman
parents:
19404
diff
changeset
|
1136 |
by (force dest!: inverse_eq_imp_eq) |
|
14268
5cf13e80be0e
Removal of Hyperreal/ExtraThms2.ML, sending the material to the correct files.
paulson
parents:
14267
diff
changeset
|
1137 |
|
| 14270 | 1138 |
lemma inverse_inverse_eq [simp]: |
|
20496
23eb6034c06d
added axclass division_ring (like field without commutativity; includes e.g. quaternions) and generalized some theorems from field to division_ring
huffman
parents:
19404
diff
changeset
|
1139 |
"inverse(inverse (a::'a::{division_ring,division_by_zero})) = a"
|
| 14270 | 1140 |
proof cases |
1141 |
assume "a=0" thus ?thesis by simp |
|
1142 |
next |
|
1143 |
assume "a\<noteq>0" |
|
1144 |
thus ?thesis by (simp add: nonzero_inverse_inverse_eq) |
|
1145 |
qed |
|
1146 |
||
1147 |
text{*This version builds in division by zero while also re-orienting
|
|
1148 |
the right-hand side.*} |
|
1149 |
lemma inverse_mult_distrib [simp]: |
|
1150 |
"inverse(a*b) = inverse(a) * inverse(b::'a::{field,division_by_zero})"
|
|
1151 |
proof cases |
|
1152 |
assume "a \<noteq> 0 & b \<noteq> 0" |
|
| 22993 | 1153 |
thus ?thesis |
1154 |
by (simp add: nonzero_inverse_mult_distrib mult_commute) |
|
| 14270 | 1155 |
next |
1156 |
assume "~ (a \<noteq> 0 & b \<noteq> 0)" |
|
| 22993 | 1157 |
thus ?thesis |
1158 |
by force |
|
| 14270 | 1159 |
qed |
1160 |
||
1161 |
text{*There is no slick version using division by zero.*}
|
|
1162 |
lemma inverse_add: |
|
|
23477
f4b83f03cac9
tuned and renamed group_eq_simps and ring_eq_simps
nipkow
parents:
23413
diff
changeset
|
1163 |
"[|a \<noteq> 0; b \<noteq> 0|] |
|
f4b83f03cac9
tuned and renamed group_eq_simps and ring_eq_simps
nipkow
parents:
23413
diff
changeset
|
1164 |
==> inverse a + inverse b = (a+b) * inverse a * inverse (b::'a::field)" |
|
20496
23eb6034c06d
added axclass division_ring (like field without commutativity; includes e.g. quaternions) and generalized some theorems from field to division_ring
huffman
parents:
19404
diff
changeset
|
1165 |
by (simp add: division_ring_inverse_add mult_ac) |
| 14270 | 1166 |
|
|
14365
3d4df8c166ae
replacing HOL/Real/PRat, PNat by the rational number development
paulson
parents:
14353
diff
changeset
|
1167 |
lemma inverse_divide [simp]: |
|
23477
f4b83f03cac9
tuned and renamed group_eq_simps and ring_eq_simps
nipkow
parents:
23413
diff
changeset
|
1168 |
"inverse (a/b) = b / (a::'a::{field,division_by_zero})"
|
|
f4b83f03cac9
tuned and renamed group_eq_simps and ring_eq_simps
nipkow
parents:
23413
diff
changeset
|
1169 |
by (simp add: divide_inverse mult_commute) |
|
14365
3d4df8c166ae
replacing HOL/Real/PRat, PNat by the rational number development
paulson
parents:
14353
diff
changeset
|
1170 |
|
| 23389 | 1171 |
|
|
16775
c1b87ef4a1c3
added lemmas to OrderedGroup.thy (reasoning about signs, absolute value, triangle inequalities)
avigad
parents:
16568
diff
changeset
|
1172 |
subsection {* Calculations with fractions *}
|
|
c1b87ef4a1c3
added lemmas to OrderedGroup.thy (reasoning about signs, absolute value, triangle inequalities)
avigad
parents:
16568
diff
changeset
|
1173 |
|
|
23413
5caa2710dd5b
tuned laws for cancellation in divisions for fields.
nipkow
parents:
23406
diff
changeset
|
1174 |
text{* There is a whole bunch of simp-rules just for class @{text
|
|
5caa2710dd5b
tuned laws for cancellation in divisions for fields.
nipkow
parents:
23406
diff
changeset
|
1175 |
field} but none for class @{text field} and @{text nonzero_divides}
|
|
5caa2710dd5b
tuned laws for cancellation in divisions for fields.
nipkow
parents:
23406
diff
changeset
|
1176 |
because the latter are covered by a simproc. *} |
|
5caa2710dd5b
tuned laws for cancellation in divisions for fields.
nipkow
parents:
23406
diff
changeset
|
1177 |
|
| 24427 | 1178 |
lemma nonzero_mult_divide_mult_cancel_left[simp,noatp]: |
|
23477
f4b83f03cac9
tuned and renamed group_eq_simps and ring_eq_simps
nipkow
parents:
23413
diff
changeset
|
1179 |
assumes [simp]: "b\<noteq>0" and [simp]: "c\<noteq>0" shows "(c*a)/(c*b) = a/(b::'a::field)" |
|
14277
ad66687ece6e
more field division lemmas transferred from Real to Ring_and_Field
paulson
parents:
14272
diff
changeset
|
1180 |
proof - |
|
ad66687ece6e
more field division lemmas transferred from Real to Ring_and_Field
paulson
parents:
14272
diff
changeset
|
1181 |
have "(c*a)/(c*b) = c * a * (inverse b * inverse c)" |
| 23482 | 1182 |
by (simp add: divide_inverse nonzero_inverse_mult_distrib) |
|
14277
ad66687ece6e
more field division lemmas transferred from Real to Ring_and_Field
paulson
parents:
14272
diff
changeset
|
1183 |
also have "... = a * inverse b * (inverse c * c)" |
|
ad66687ece6e
more field division lemmas transferred from Real to Ring_and_Field
paulson
parents:
14272
diff
changeset
|
1184 |
by (simp only: mult_ac) |
|
ad66687ece6e
more field division lemmas transferred from Real to Ring_and_Field
paulson
parents:
14272
diff
changeset
|
1185 |
also have "... = a * inverse b" |
|
ad66687ece6e
more field division lemmas transferred from Real to Ring_and_Field
paulson
parents:
14272
diff
changeset
|
1186 |
by simp |
|
ad66687ece6e
more field division lemmas transferred from Real to Ring_and_Field
paulson
parents:
14272
diff
changeset
|
1187 |
finally show ?thesis |
|
ad66687ece6e
more field division lemmas transferred from Real to Ring_and_Field
paulson
parents:
14272
diff
changeset
|
1188 |
by (simp add: divide_inverse) |
|
ad66687ece6e
more field division lemmas transferred from Real to Ring_and_Field
paulson
parents:
14272
diff
changeset
|
1189 |
qed |
|
ad66687ece6e
more field division lemmas transferred from Real to Ring_and_Field
paulson
parents:
14272
diff
changeset
|
1190 |
|
|
23413
5caa2710dd5b
tuned laws for cancellation in divisions for fields.
nipkow
parents:
23406
diff
changeset
|
1191 |
lemma mult_divide_mult_cancel_left: |
|
23477
f4b83f03cac9
tuned and renamed group_eq_simps and ring_eq_simps
nipkow
parents:
23413
diff
changeset
|
1192 |
"c\<noteq>0 ==> (c*a) / (c*b) = a / (b::'a::{field,division_by_zero})"
|
| 21328 | 1193 |
apply (cases "b = 0") |
|
23413
5caa2710dd5b
tuned laws for cancellation in divisions for fields.
nipkow
parents:
23406
diff
changeset
|
1194 |
apply (simp_all add: nonzero_mult_divide_mult_cancel_left) |
|
14277
ad66687ece6e
more field division lemmas transferred from Real to Ring_and_Field
paulson
parents:
14272
diff
changeset
|
1195 |
done |
|
ad66687ece6e
more field division lemmas transferred from Real to Ring_and_Field
paulson
parents:
14272
diff
changeset
|
1196 |
|
| 24427 | 1197 |
lemma nonzero_mult_divide_mult_cancel_right [noatp]: |
|
23477
f4b83f03cac9
tuned and renamed group_eq_simps and ring_eq_simps
nipkow
parents:
23413
diff
changeset
|
1198 |
"[|b\<noteq>0; c\<noteq>0|] ==> (a*c) / (b*c) = a/(b::'a::field)" |
|
23413
5caa2710dd5b
tuned laws for cancellation in divisions for fields.
nipkow
parents:
23406
diff
changeset
|
1199 |
by (simp add: mult_commute [of _ c] nonzero_mult_divide_mult_cancel_left) |
| 14321 | 1200 |
|
|
23413
5caa2710dd5b
tuned laws for cancellation in divisions for fields.
nipkow
parents:
23406
diff
changeset
|
1201 |
lemma mult_divide_mult_cancel_right: |
|
23477
f4b83f03cac9
tuned and renamed group_eq_simps and ring_eq_simps
nipkow
parents:
23413
diff
changeset
|
1202 |
"c\<noteq>0 ==> (a*c) / (b*c) = a / (b::'a::{field,division_by_zero})"
|
| 21328 | 1203 |
apply (cases "b = 0") |
|
23413
5caa2710dd5b
tuned laws for cancellation in divisions for fields.
nipkow
parents:
23406
diff
changeset
|
1204 |
apply (simp_all add: nonzero_mult_divide_mult_cancel_right) |
| 14321 | 1205 |
done |
|
23413
5caa2710dd5b
tuned laws for cancellation in divisions for fields.
nipkow
parents:
23406
diff
changeset
|
1206 |
|
|
14284
f1abe67c448a
re-organisation of Real/RealArith0.ML; more `Isar scripts
paulson
parents:
14277
diff
changeset
|
1207 |
lemma divide_1 [simp]: "a/1 = (a::'a::field)" |
|
23477
f4b83f03cac9
tuned and renamed group_eq_simps and ring_eq_simps
nipkow
parents:
23413
diff
changeset
|
1208 |
by (simp add: divide_inverse) |
|
14284
f1abe67c448a
re-organisation of Real/RealArith0.ML; more `Isar scripts
paulson
parents:
14277
diff
changeset
|
1209 |
|
|
15234
ec91a90c604e
simplification tweaks for better arithmetic reasoning
paulson
parents:
15229
diff
changeset
|
1210 |
lemma times_divide_eq_right: "a * (b/c) = (a*b) / (c::'a::field)" |
|
14430
5cb24165a2e1
new material from Avigad, and simplified treatment of division by 0
paulson
parents:
14421
diff
changeset
|
1211 |
by (simp add: divide_inverse mult_assoc) |
| 14288 | 1212 |
|
|
14430
5cb24165a2e1
new material from Avigad, and simplified treatment of division by 0
paulson
parents:
14421
diff
changeset
|
1213 |
lemma times_divide_eq_left: "(b/c) * a = (b*a) / (c::'a::field)" |
|
5cb24165a2e1
new material from Avigad, and simplified treatment of division by 0
paulson
parents:
14421
diff
changeset
|
1214 |
by (simp add: divide_inverse mult_ac) |
| 14288 | 1215 |
|
| 23482 | 1216 |
lemmas times_divide_eq = times_divide_eq_right times_divide_eq_left |
1217 |
||
|
24286
7619080e49f0
ATP blacklisting is now in theory data, attribute noatp
paulson
parents:
23879
diff
changeset
|
1218 |
lemma divide_divide_eq_right [simp,noatp]: |
|
23477
f4b83f03cac9
tuned and renamed group_eq_simps and ring_eq_simps
nipkow
parents:
23413
diff
changeset
|
1219 |
"a / (b/c) = (a*c) / (b::'a::{field,division_by_zero})"
|
|
14430
5cb24165a2e1
new material from Avigad, and simplified treatment of division by 0
paulson
parents:
14421
diff
changeset
|
1220 |
by (simp add: divide_inverse mult_ac) |
| 14288 | 1221 |
|
|
24286
7619080e49f0
ATP blacklisting is now in theory data, attribute noatp
paulson
parents:
23879
diff
changeset
|
1222 |
lemma divide_divide_eq_left [simp,noatp]: |
|
23477
f4b83f03cac9
tuned and renamed group_eq_simps and ring_eq_simps
nipkow
parents:
23413
diff
changeset
|
1223 |
"(a / b) / (c::'a::{field,division_by_zero}) = a / (b*c)"
|
|
14430
5cb24165a2e1
new material from Avigad, and simplified treatment of division by 0
paulson
parents:
14421
diff
changeset
|
1224 |
by (simp add: divide_inverse mult_assoc) |
| 14288 | 1225 |
|
|
16775
c1b87ef4a1c3
added lemmas to OrderedGroup.thy (reasoning about signs, absolute value, triangle inequalities)
avigad
parents:
16568
diff
changeset
|
1226 |
lemma add_frac_eq: "(y::'a::field) ~= 0 ==> z ~= 0 ==> |
|
c1b87ef4a1c3
added lemmas to OrderedGroup.thy (reasoning about signs, absolute value, triangle inequalities)
avigad
parents:
16568
diff
changeset
|
1227 |
x / y + w / z = (x * z + w * y) / (y * z)" |
|
23477
f4b83f03cac9
tuned and renamed group_eq_simps and ring_eq_simps
nipkow
parents:
23413
diff
changeset
|
1228 |
apply (subgoal_tac "x / y = (x * z) / (y * z)") |
|
f4b83f03cac9
tuned and renamed group_eq_simps and ring_eq_simps
nipkow
parents:
23413
diff
changeset
|
1229 |
apply (erule ssubst) |
|
f4b83f03cac9
tuned and renamed group_eq_simps and ring_eq_simps
nipkow
parents:
23413
diff
changeset
|
1230 |
apply (subgoal_tac "w / z = (w * y) / (y * z)") |
|
f4b83f03cac9
tuned and renamed group_eq_simps and ring_eq_simps
nipkow
parents:
23413
diff
changeset
|
1231 |
apply (erule ssubst) |
|
f4b83f03cac9
tuned and renamed group_eq_simps and ring_eq_simps
nipkow
parents:
23413
diff
changeset
|
1232 |
apply (rule add_divide_distrib [THEN sym]) |
|
f4b83f03cac9
tuned and renamed group_eq_simps and ring_eq_simps
nipkow
parents:
23413
diff
changeset
|
1233 |
apply (subst mult_commute) |
|
f4b83f03cac9
tuned and renamed group_eq_simps and ring_eq_simps
nipkow
parents:
23413
diff
changeset
|
1234 |
apply (erule nonzero_mult_divide_mult_cancel_left [THEN sym]) |
|
f4b83f03cac9
tuned and renamed group_eq_simps and ring_eq_simps
nipkow
parents:
23413
diff
changeset
|
1235 |
apply assumption |
|
f4b83f03cac9
tuned and renamed group_eq_simps and ring_eq_simps
nipkow
parents:
23413
diff
changeset
|
1236 |
apply (erule nonzero_mult_divide_mult_cancel_right [THEN sym]) |
|
f4b83f03cac9
tuned and renamed group_eq_simps and ring_eq_simps
nipkow
parents:
23413
diff
changeset
|
1237 |
apply assumption |
|
16775
c1b87ef4a1c3
added lemmas to OrderedGroup.thy (reasoning about signs, absolute value, triangle inequalities)
avigad
parents:
16568
diff
changeset
|
1238 |
done |
|
14268
5cf13e80be0e
Removal of Hyperreal/ExtraThms2.ML, sending the material to the correct files.
paulson
parents:
14267
diff
changeset
|
1239 |
|
| 23389 | 1240 |
|
|
15234
ec91a90c604e
simplification tweaks for better arithmetic reasoning
paulson
parents:
15229
diff
changeset
|
1241 |
subsubsection{*Special Cancellation Simprules for Division*}
|
|
ec91a90c604e
simplification tweaks for better arithmetic reasoning
paulson
parents:
15229
diff
changeset
|
1242 |
|
| 24427 | 1243 |
lemma mult_divide_mult_cancel_left_if[simp,noatp]: |
|
23477
f4b83f03cac9
tuned and renamed group_eq_simps and ring_eq_simps
nipkow
parents:
23413
diff
changeset
|
1244 |
fixes c :: "'a :: {field,division_by_zero}"
|
|
f4b83f03cac9
tuned and renamed group_eq_simps and ring_eq_simps
nipkow
parents:
23413
diff
changeset
|
1245 |
shows "(c*a) / (c*b) = (if c=0 then 0 else a/b)" |
|
23413
5caa2710dd5b
tuned laws for cancellation in divisions for fields.
nipkow
parents:
23406
diff
changeset
|
1246 |
by (simp add: mult_divide_mult_cancel_left) |
|
5caa2710dd5b
tuned laws for cancellation in divisions for fields.
nipkow
parents:
23406
diff
changeset
|
1247 |
|
| 24427 | 1248 |
lemma nonzero_mult_divide_cancel_right[simp,noatp]: |
|
23413
5caa2710dd5b
tuned laws for cancellation in divisions for fields.
nipkow
parents:
23406
diff
changeset
|
1249 |
"b \<noteq> 0 \<Longrightarrow> a * b / b = (a::'a::field)" |
|
5caa2710dd5b
tuned laws for cancellation in divisions for fields.
nipkow
parents:
23406
diff
changeset
|
1250 |
using nonzero_mult_divide_mult_cancel_right[of 1 b a] by simp |
|
5caa2710dd5b
tuned laws for cancellation in divisions for fields.
nipkow
parents:
23406
diff
changeset
|
1251 |
|
| 24427 | 1252 |
lemma nonzero_mult_divide_cancel_left[simp,noatp]: |
|
23413
5caa2710dd5b
tuned laws for cancellation in divisions for fields.
nipkow
parents:
23406
diff
changeset
|
1253 |
"a \<noteq> 0 \<Longrightarrow> a * b / a = (b::'a::field)" |
|
5caa2710dd5b
tuned laws for cancellation in divisions for fields.
nipkow
parents:
23406
diff
changeset
|
1254 |
using nonzero_mult_divide_mult_cancel_left[of 1 a b] by simp |
|
5caa2710dd5b
tuned laws for cancellation in divisions for fields.
nipkow
parents:
23406
diff
changeset
|
1255 |
|
|
5caa2710dd5b
tuned laws for cancellation in divisions for fields.
nipkow
parents:
23406
diff
changeset
|
1256 |
|
| 24427 | 1257 |
lemma nonzero_divide_mult_cancel_right[simp,noatp]: |
|
23413
5caa2710dd5b
tuned laws for cancellation in divisions for fields.
nipkow
parents:
23406
diff
changeset
|
1258 |
"\<lbrakk> a\<noteq>0; b\<noteq>0 \<rbrakk> \<Longrightarrow> b / (a * b) = 1/(a::'a::field)" |
|
5caa2710dd5b
tuned laws for cancellation in divisions for fields.
nipkow
parents:
23406
diff
changeset
|
1259 |
using nonzero_mult_divide_mult_cancel_right[of a b 1] by simp |
|
5caa2710dd5b
tuned laws for cancellation in divisions for fields.
nipkow
parents:
23406
diff
changeset
|
1260 |
|
| 24427 | 1261 |
lemma nonzero_divide_mult_cancel_left[simp,noatp]: |
|
23413
5caa2710dd5b
tuned laws for cancellation in divisions for fields.
nipkow
parents:
23406
diff
changeset
|
1262 |
"\<lbrakk> a\<noteq>0; b\<noteq>0 \<rbrakk> \<Longrightarrow> a / (a * b) = 1/(b::'a::field)" |
|
5caa2710dd5b
tuned laws for cancellation in divisions for fields.
nipkow
parents:
23406
diff
changeset
|
1263 |
using nonzero_mult_divide_mult_cancel_left[of b a 1] by simp |
|
5caa2710dd5b
tuned laws for cancellation in divisions for fields.
nipkow
parents:
23406
diff
changeset
|
1264 |
|
|
5caa2710dd5b
tuned laws for cancellation in divisions for fields.
nipkow
parents:
23406
diff
changeset
|
1265 |
|
| 24427 | 1266 |
lemma nonzero_mult_divide_mult_cancel_left2[simp,noatp]: |
|
23477
f4b83f03cac9
tuned and renamed group_eq_simps and ring_eq_simps
nipkow
parents:
23413
diff
changeset
|
1267 |
"[|b\<noteq>0; c\<noteq>0|] ==> (c*a) / (b*c) = a/(b::'a::field)" |
|
23413
5caa2710dd5b
tuned laws for cancellation in divisions for fields.
nipkow
parents:
23406
diff
changeset
|
1268 |
using nonzero_mult_divide_mult_cancel_left[of b c a] by(simp add:mult_ac) |
|
5caa2710dd5b
tuned laws for cancellation in divisions for fields.
nipkow
parents:
23406
diff
changeset
|
1269 |
|
| 24427 | 1270 |
lemma nonzero_mult_divide_mult_cancel_right2[simp,noatp]: |
|
23477
f4b83f03cac9
tuned and renamed group_eq_simps and ring_eq_simps
nipkow
parents:
23413
diff
changeset
|
1271 |
"[|b\<noteq>0; c\<noteq>0|] ==> (a*c) / (c*b) = a/(b::'a::field)" |
|
23413
5caa2710dd5b
tuned laws for cancellation in divisions for fields.
nipkow
parents:
23406
diff
changeset
|
1272 |
using nonzero_mult_divide_mult_cancel_right[of b c a] by(simp add:mult_ac) |
|
5caa2710dd5b
tuned laws for cancellation in divisions for fields.
nipkow
parents:
23406
diff
changeset
|
1273 |
|
|
15234
ec91a90c604e
simplification tweaks for better arithmetic reasoning
paulson
parents:
15229
diff
changeset
|
1274 |
|
| 14293 | 1275 |
subsection {* Division and Unary Minus *}
|
1276 |
||
1277 |
lemma nonzero_minus_divide_left: "b \<noteq> 0 ==> - (a/b) = (-a) / (b::'a::field)" |
|
|
29407
5ef7e97fd9e4
move lemmas mult_minus{left,right} inside class ring
huffman
parents:
29406
diff
changeset
|
1278 |
by (simp add: divide_inverse) |
| 14293 | 1279 |
|
1280 |
lemma nonzero_minus_divide_right: "b \<noteq> 0 ==> - (a/b) = a / -(b::'a::field)" |
|
|
29407
5ef7e97fd9e4
move lemmas mult_minus{left,right} inside class ring
huffman
parents:
29406
diff
changeset
|
1281 |
by (simp add: divide_inverse nonzero_inverse_minus_eq) |
| 14293 | 1282 |
|
1283 |
lemma nonzero_minus_divide_divide: "b \<noteq> 0 ==> (-a)/(-b) = a / (b::'a::field)" |
|
1284 |
by (simp add: divide_inverse nonzero_inverse_minus_eq) |
|
1285 |
||
|
14430
5cb24165a2e1
new material from Avigad, and simplified treatment of division by 0
paulson
parents:
14421
diff
changeset
|
1286 |
lemma minus_divide_left: "- (a/b) = (-a) / (b::'a::field)" |
|
29407
5ef7e97fd9e4
move lemmas mult_minus{left,right} inside class ring
huffman
parents:
29406
diff
changeset
|
1287 |
by (simp add: divide_inverse) |
| 14293 | 1288 |
|
1289 |
lemma minus_divide_right: "- (a/b) = a / -(b::'a::{field,division_by_zero})"
|
|
|
29407
5ef7e97fd9e4
move lemmas mult_minus{left,right} inside class ring
huffman
parents:
29406
diff
changeset
|
1290 |
by (simp add: divide_inverse) |
|
14430
5cb24165a2e1
new material from Avigad, and simplified treatment of division by 0
paulson
parents:
14421
diff
changeset
|
1291 |
|
| 14293 | 1292 |
|
1293 |
text{*The effect is to extract signs from divisions*}
|
|
| 17085 | 1294 |
lemmas divide_minus_left = minus_divide_left [symmetric] |
1295 |
lemmas divide_minus_right = minus_divide_right [symmetric] |
|
1296 |
declare divide_minus_left [simp] divide_minus_right [simp] |
|
| 14293 | 1297 |
|
1298 |
lemma minus_divide_divide [simp]: |
|
|
23477
f4b83f03cac9
tuned and renamed group_eq_simps and ring_eq_simps
nipkow
parents:
23413
diff
changeset
|
1299 |
"(-a)/(-b) = a / (b::'a::{field,division_by_zero})"
|
| 21328 | 1300 |
apply (cases "b=0", simp) |
| 14293 | 1301 |
apply (simp add: nonzero_minus_divide_divide) |
1302 |
done |
|
1303 |
||
|
14430
5cb24165a2e1
new material from Avigad, and simplified treatment of division by 0
paulson
parents:
14421
diff
changeset
|
1304 |
lemma diff_divide_distrib: "(a-b)/(c::'a::field) = a/c - b/c" |
|
14387
e96d5c42c4b0
Polymorphic treatment of binary arithmetic using axclasses
paulson
parents:
14377
diff
changeset
|
1305 |
by (simp add: diff_minus add_divide_distrib) |
|
e96d5c42c4b0
Polymorphic treatment of binary arithmetic using axclasses
paulson
parents:
14377
diff
changeset
|
1306 |
|
| 23482 | 1307 |
lemma add_divide_eq_iff: |
1308 |
"(z::'a::field) \<noteq> 0 \<Longrightarrow> x + y/z = (z*x + y)/z" |
|
1309 |
by(simp add:add_divide_distrib nonzero_mult_divide_cancel_left) |
|
1310 |
||
1311 |
lemma divide_add_eq_iff: |
|
1312 |
"(z::'a::field) \<noteq> 0 \<Longrightarrow> x/z + y = (x + z*y)/z" |
|
1313 |
by(simp add:add_divide_distrib nonzero_mult_divide_cancel_left) |
|
1314 |
||
1315 |
lemma diff_divide_eq_iff: |
|
1316 |
"(z::'a::field) \<noteq> 0 \<Longrightarrow> x - y/z = (z*x - y)/z" |
|
1317 |
by(simp add:diff_divide_distrib nonzero_mult_divide_cancel_left) |
|
1318 |
||
1319 |
lemma divide_diff_eq_iff: |
|
1320 |
"(z::'a::field) \<noteq> 0 \<Longrightarrow> x/z - y = (x - z*y)/z" |
|
1321 |
by(simp add:diff_divide_distrib nonzero_mult_divide_cancel_left) |
|
1322 |
||
1323 |
lemma nonzero_eq_divide_eq: "c\<noteq>0 ==> ((a::'a::field) = b/c) = (a*c = b)" |
|
1324 |
proof - |
|
1325 |
assume [simp]: "c\<noteq>0" |
|
| 23496 | 1326 |
have "(a = b/c) = (a*c = (b/c)*c)" by simp |
1327 |
also have "... = (a*c = b)" by (simp add: divide_inverse mult_assoc) |
|
| 23482 | 1328 |
finally show ?thesis . |
1329 |
qed |
|
1330 |
||
1331 |
lemma nonzero_divide_eq_eq: "c\<noteq>0 ==> (b/c = (a::'a::field)) = (b = a*c)" |
|
1332 |
proof - |
|
1333 |
assume [simp]: "c\<noteq>0" |
|
| 23496 | 1334 |
have "(b/c = a) = ((b/c)*c = a*c)" by simp |
1335 |
also have "... = (b = a*c)" by (simp add: divide_inverse mult_assoc) |
|
| 23482 | 1336 |
finally show ?thesis . |
1337 |
qed |
|
1338 |
||
1339 |
lemma eq_divide_eq: |
|
1340 |
"((a::'a::{field,division_by_zero}) = b/c) = (if c\<noteq>0 then a*c = b else a=0)"
|
|
1341 |
by (simp add: nonzero_eq_divide_eq) |
|
1342 |
||
1343 |
lemma divide_eq_eq: |
|
1344 |
"(b/c = (a::'a::{field,division_by_zero})) = (if c\<noteq>0 then b = a*c else a=0)"
|
|
1345 |
by (force simp add: nonzero_divide_eq_eq) |
|
1346 |
||
1347 |
lemma divide_eq_imp: "(c::'a::{division_by_zero,field}) ~= 0 ==>
|
|
1348 |
b = a * c ==> b / c = a" |
|
1349 |
by (subst divide_eq_eq, simp) |
|
1350 |
||
1351 |
lemma eq_divide_imp: "(c::'a::{division_by_zero,field}) ~= 0 ==>
|
|
1352 |
a * c = b ==> a = b / c" |
|
1353 |
by (subst eq_divide_eq, simp) |
|
1354 |
||
1355 |
||
1356 |
lemmas field_eq_simps = ring_simps |
|
1357 |
(* pull / out*) |
|
1358 |
add_divide_eq_iff divide_add_eq_iff |
|
1359 |
diff_divide_eq_iff divide_diff_eq_iff |
|
1360 |
(* multiply eqn *) |
|
1361 |
nonzero_eq_divide_eq nonzero_divide_eq_eq |
|
1362 |
(* is added later: |
|
1363 |
times_divide_eq_left times_divide_eq_right |
|
1364 |
*) |
|
1365 |
||
1366 |
text{*An example:*}
|
|
1367 |
lemma fixes a b c d e f :: "'a::field" |
|
1368 |
shows "\<lbrakk>a\<noteq>b; c\<noteq>d; e\<noteq>f \<rbrakk> \<Longrightarrow> ((a-b)*(c-d)*(e-f))/((c-d)*(e-f)*(a-b)) = 1" |
|
1369 |
apply(subgoal_tac "(c-d)*(e-f)*(a-b) \<noteq> 0") |
|
1370 |
apply(simp add:field_eq_simps) |
|
1371 |
apply(simp) |
|
1372 |
done |
|
1373 |
||
1374 |
||
|
16775
c1b87ef4a1c3
added lemmas to OrderedGroup.thy (reasoning about signs, absolute value, triangle inequalities)
avigad
parents:
16568
diff
changeset
|
1375 |
lemma diff_frac_eq: "(y::'a::field) ~= 0 ==> z ~= 0 ==> |
|
c1b87ef4a1c3
added lemmas to OrderedGroup.thy (reasoning about signs, absolute value, triangle inequalities)
avigad
parents:
16568
diff
changeset
|
1376 |
x / y - w / z = (x * z - w * y) / (y * z)" |
| 23482 | 1377 |
by (simp add:field_eq_simps times_divide_eq) |
1378 |
||
1379 |
lemma frac_eq_eq: "(y::'a::field) ~= 0 ==> z ~= 0 ==> |
|
1380 |
(x / y = w / z) = (x * z = w * y)" |
|
1381 |
by (simp add:field_eq_simps times_divide_eq) |
|
| 14293 | 1382 |
|
| 23389 | 1383 |
|
|
14268
5cf13e80be0e
Removal of Hyperreal/ExtraThms2.ML, sending the material to the correct files.
paulson
parents:
14267
diff
changeset
|
1384 |
subsection {* Ordered Fields *}
|
|
5cf13e80be0e
Removal of Hyperreal/ExtraThms2.ML, sending the material to the correct files.
paulson
parents:
14267
diff
changeset
|
1385 |
|
|
14277
ad66687ece6e
more field division lemmas transferred from Real to Ring_and_Field
paulson
parents:
14272
diff
changeset
|
1386 |
lemma positive_imp_inverse_positive: |
| 23482 | 1387 |
assumes a_gt_0: "0 < a" shows "0 < inverse (a::'a::ordered_field)" |
1388 |
proof - |
|
|
14268
5cf13e80be0e
Removal of Hyperreal/ExtraThms2.ML, sending the material to the correct files.
paulson
parents:
14267
diff
changeset
|
1389 |
have "0 < a * inverse a" |
|
5cf13e80be0e
Removal of Hyperreal/ExtraThms2.ML, sending the material to the correct files.
paulson
parents:
14267
diff
changeset
|
1390 |
by (simp add: a_gt_0 [THEN order_less_imp_not_eq2] zero_less_one) |
|
5cf13e80be0e
Removal of Hyperreal/ExtraThms2.ML, sending the material to the correct files.
paulson
parents:
14267
diff
changeset
|
1391 |
thus "0 < inverse a" |
|
5cf13e80be0e
Removal of Hyperreal/ExtraThms2.ML, sending the material to the correct files.
paulson
parents:
14267
diff
changeset
|
1392 |
by (simp add: a_gt_0 [THEN order_less_not_sym] zero_less_mult_iff) |
| 23482 | 1393 |
qed |
|
14268
5cf13e80be0e
Removal of Hyperreal/ExtraThms2.ML, sending the material to the correct files.
paulson
parents:
14267
diff
changeset
|
1394 |
|
|
14277
ad66687ece6e
more field division lemmas transferred from Real to Ring_and_Field
paulson
parents:
14272
diff
changeset
|
1395 |
lemma negative_imp_inverse_negative: |
| 23482 | 1396 |
"a < 0 ==> inverse a < (0::'a::ordered_field)" |
1397 |
by (insert positive_imp_inverse_positive [of "-a"], |
|
1398 |
simp add: nonzero_inverse_minus_eq order_less_imp_not_eq) |
|
|
14268
5cf13e80be0e
Removal of Hyperreal/ExtraThms2.ML, sending the material to the correct files.
paulson
parents:
14267
diff
changeset
|
1399 |
|
|
5cf13e80be0e
Removal of Hyperreal/ExtraThms2.ML, sending the material to the correct files.
paulson
parents:
14267
diff
changeset
|
1400 |
lemma inverse_le_imp_le: |
| 23482 | 1401 |
assumes invle: "inverse a \<le> inverse b" and apos: "0 < a" |
1402 |
shows "b \<le> (a::'a::ordered_field)" |
|
1403 |
proof (rule classical) |
|
|
14268
5cf13e80be0e
Removal of Hyperreal/ExtraThms2.ML, sending the material to the correct files.
paulson
parents:
14267
diff
changeset
|
1404 |
assume "~ b \<le> a" |
| 23482 | 1405 |
hence "a < b" by (simp add: linorder_not_le) |
1406 |
hence bpos: "0 < b" by (blast intro: apos order_less_trans) |
|
|
14268
5cf13e80be0e
Removal of Hyperreal/ExtraThms2.ML, sending the material to the correct files.
paulson
parents:
14267
diff
changeset
|
1407 |
hence "a * inverse a \<le> a * inverse b" |
|
5cf13e80be0e
Removal of Hyperreal/ExtraThms2.ML, sending the material to the correct files.
paulson
parents:
14267
diff
changeset
|
1408 |
by (simp add: apos invle order_less_imp_le mult_left_mono) |
|
5cf13e80be0e
Removal of Hyperreal/ExtraThms2.ML, sending the material to the correct files.
paulson
parents:
14267
diff
changeset
|
1409 |
hence "(a * inverse a) * b \<le> (a * inverse b) * b" |
|
5cf13e80be0e
Removal of Hyperreal/ExtraThms2.ML, sending the material to the correct files.
paulson
parents:
14267
diff
changeset
|
1410 |
by (simp add: bpos order_less_imp_le mult_right_mono) |
| 23482 | 1411 |
thus "b \<le> a" by (simp add: mult_assoc apos bpos order_less_imp_not_eq2) |
1412 |
qed |
|
|
14268
5cf13e80be0e
Removal of Hyperreal/ExtraThms2.ML, sending the material to the correct files.
paulson
parents:
14267
diff
changeset
|
1413 |
|
|
14277
ad66687ece6e
more field division lemmas transferred from Real to Ring_and_Field
paulson
parents:
14272
diff
changeset
|
1414 |
lemma inverse_positive_imp_positive: |
| 23482 | 1415 |
assumes inv_gt_0: "0 < inverse a" and nz: "a \<noteq> 0" |
1416 |
shows "0 < (a::'a::ordered_field)" |
|
| 23389 | 1417 |
proof - |
|
14277
ad66687ece6e
more field division lemmas transferred from Real to Ring_and_Field
paulson
parents:
14272
diff
changeset
|
1418 |
have "0 < inverse (inverse a)" |
| 23389 | 1419 |
using inv_gt_0 by (rule positive_imp_inverse_positive) |
|
14277
ad66687ece6e
more field division lemmas transferred from Real to Ring_and_Field
paulson
parents:
14272
diff
changeset
|
1420 |
thus "0 < a" |
| 23389 | 1421 |
using nz by (simp add: nonzero_inverse_inverse_eq) |
1422 |
qed |
|
|
14277
ad66687ece6e
more field division lemmas transferred from Real to Ring_and_Field
paulson
parents:
14272
diff
changeset
|
1423 |
|
|
ad66687ece6e
more field division lemmas transferred from Real to Ring_and_Field
paulson
parents:
14272
diff
changeset
|
1424 |
lemma inverse_positive_iff_positive [simp]: |
| 23482 | 1425 |
"(0 < inverse a) = (0 < (a::'a::{ordered_field,division_by_zero}))"
|
| 21328 | 1426 |
apply (cases "a = 0", simp) |
|
14277
ad66687ece6e
more field division lemmas transferred from Real to Ring_and_Field
paulson
parents:
14272
diff
changeset
|
1427 |
apply (blast intro: inverse_positive_imp_positive positive_imp_inverse_positive) |
|
ad66687ece6e
more field division lemmas transferred from Real to Ring_and_Field
paulson
parents:
14272
diff
changeset
|
1428 |
done |
|
ad66687ece6e
more field division lemmas transferred from Real to Ring_and_Field
paulson
parents:
14272
diff
changeset
|
1429 |
|
|
ad66687ece6e
more field division lemmas transferred from Real to Ring_and_Field
paulson
parents:
14272
diff
changeset
|
1430 |
lemma inverse_negative_imp_negative: |
| 23482 | 1431 |
assumes inv_less_0: "inverse a < 0" and nz: "a \<noteq> 0" |
1432 |
shows "a < (0::'a::ordered_field)" |
|
| 23389 | 1433 |
proof - |
|
14277
ad66687ece6e
more field division lemmas transferred from Real to Ring_and_Field
paulson
parents:
14272
diff
changeset
|
1434 |
have "inverse (inverse a) < 0" |
| 23389 | 1435 |
using inv_less_0 by (rule negative_imp_inverse_negative) |
| 23482 | 1436 |
thus "a < 0" using nz by (simp add: nonzero_inverse_inverse_eq) |
| 23389 | 1437 |
qed |
|
14277
ad66687ece6e
more field division lemmas transferred from Real to Ring_and_Field
paulson
parents:
14272
diff
changeset
|
1438 |
|
|
ad66687ece6e
more field division lemmas transferred from Real to Ring_and_Field
paulson
parents:
14272
diff
changeset
|
1439 |
lemma inverse_negative_iff_negative [simp]: |
| 23482 | 1440 |
"(inverse a < 0) = (a < (0::'a::{ordered_field,division_by_zero}))"
|
| 21328 | 1441 |
apply (cases "a = 0", simp) |
|
14277
ad66687ece6e
more field division lemmas transferred from Real to Ring_and_Field
paulson
parents:
14272
diff
changeset
|
1442 |
apply (blast intro: inverse_negative_imp_negative negative_imp_inverse_negative) |
|
ad66687ece6e
more field division lemmas transferred from Real to Ring_and_Field
paulson
parents:
14272
diff
changeset
|
1443 |
done |
|
ad66687ece6e
more field division lemmas transferred from Real to Ring_and_Field
paulson
parents:
14272
diff
changeset
|
1444 |
|
|
ad66687ece6e
more field division lemmas transferred from Real to Ring_and_Field
paulson
parents:
14272
diff
changeset
|
1445 |
lemma inverse_nonnegative_iff_nonnegative [simp]: |
| 23482 | 1446 |
"(0 \<le> inverse a) = (0 \<le> (a::'a::{ordered_field,division_by_zero}))"
|
|
14277
ad66687ece6e
more field division lemmas transferred from Real to Ring_and_Field
paulson
parents:
14272
diff
changeset
|
1447 |
by (simp add: linorder_not_less [symmetric]) |
|
ad66687ece6e
more field division lemmas transferred from Real to Ring_and_Field
paulson
parents:
14272
diff
changeset
|
1448 |
|
|
ad66687ece6e
more field division lemmas transferred from Real to Ring_and_Field
paulson
parents:
14272
diff
changeset
|
1449 |
lemma inverse_nonpositive_iff_nonpositive [simp]: |
| 23482 | 1450 |
"(inverse a \<le> 0) = (a \<le> (0::'a::{ordered_field,division_by_zero}))"
|
|
14277
ad66687ece6e
more field division lemmas transferred from Real to Ring_and_Field
paulson
parents:
14272
diff
changeset
|
1451 |
by (simp add: linorder_not_less [symmetric]) |
|
ad66687ece6e
more field division lemmas transferred from Real to Ring_and_Field
paulson
parents:
14272
diff
changeset
|
1452 |
|
|
23406
167b53019d6f
added theorems nonzero_mult_divide_cancel_right' nonzero_mult_divide_cancel_left' ordered_field_no_lb ordered_field_no_ub
chaieb
parents:
23400
diff
changeset
|
1453 |
lemma ordered_field_no_lb: "\<forall> x. \<exists>y. y < (x::'a::ordered_field)" |
|
167b53019d6f
added theorems nonzero_mult_divide_cancel_right' nonzero_mult_divide_cancel_left' ordered_field_no_lb ordered_field_no_ub
chaieb
parents:
23400
diff
changeset
|
1454 |
proof |
|
167b53019d6f
added theorems nonzero_mult_divide_cancel_right' nonzero_mult_divide_cancel_left' ordered_field_no_lb ordered_field_no_ub
chaieb
parents:
23400
diff
changeset
|
1455 |
fix x::'a |
|
167b53019d6f
added theorems nonzero_mult_divide_cancel_right' nonzero_mult_divide_cancel_left' ordered_field_no_lb ordered_field_no_ub
chaieb
parents:
23400
diff
changeset
|
1456 |
have m1: "- (1::'a) < 0" by simp |
|
167b53019d6f
added theorems nonzero_mult_divide_cancel_right' nonzero_mult_divide_cancel_left' ordered_field_no_lb ordered_field_no_ub
chaieb
parents:
23400
diff
changeset
|
1457 |
from add_strict_right_mono[OF m1, where c=x] |
|
167b53019d6f
added theorems nonzero_mult_divide_cancel_right' nonzero_mult_divide_cancel_left' ordered_field_no_lb ordered_field_no_ub
chaieb
parents:
23400
diff
changeset
|
1458 |
have "(- 1) + x < x" by simp |
|
167b53019d6f
added theorems nonzero_mult_divide_cancel_right' nonzero_mult_divide_cancel_left' ordered_field_no_lb ordered_field_no_ub
chaieb
parents:
23400
diff
changeset
|
1459 |
thus "\<exists>y. y < x" by blast |
|
167b53019d6f
added theorems nonzero_mult_divide_cancel_right' nonzero_mult_divide_cancel_left' ordered_field_no_lb ordered_field_no_ub
chaieb
parents:
23400
diff
changeset
|
1460 |
qed |
|
167b53019d6f
added theorems nonzero_mult_divide_cancel_right' nonzero_mult_divide_cancel_left' ordered_field_no_lb ordered_field_no_ub
chaieb
parents:
23400
diff
changeset
|
1461 |
|
|
167b53019d6f
added theorems nonzero_mult_divide_cancel_right' nonzero_mult_divide_cancel_left' ordered_field_no_lb ordered_field_no_ub
chaieb
parents:
23400
diff
changeset
|
1462 |
lemma ordered_field_no_ub: "\<forall> x. \<exists>y. y > (x::'a::ordered_field)" |
|
167b53019d6f
added theorems nonzero_mult_divide_cancel_right' nonzero_mult_divide_cancel_left' ordered_field_no_lb ordered_field_no_ub
chaieb
parents:
23400
diff
changeset
|
1463 |
proof |
|
167b53019d6f
added theorems nonzero_mult_divide_cancel_right' nonzero_mult_divide_cancel_left' ordered_field_no_lb ordered_field_no_ub
chaieb
parents:
23400
diff
changeset
|
1464 |
fix x::'a |
|
167b53019d6f
added theorems nonzero_mult_divide_cancel_right' nonzero_mult_divide_cancel_left' ordered_field_no_lb ordered_field_no_ub
chaieb
parents:
23400
diff
changeset
|
1465 |
have m1: " (1::'a) > 0" by simp |
|
167b53019d6f
added theorems nonzero_mult_divide_cancel_right' nonzero_mult_divide_cancel_left' ordered_field_no_lb ordered_field_no_ub
chaieb
parents:
23400
diff
changeset
|
1466 |
from add_strict_right_mono[OF m1, where c=x] |
|
167b53019d6f
added theorems nonzero_mult_divide_cancel_right' nonzero_mult_divide_cancel_left' ordered_field_no_lb ordered_field_no_ub
chaieb
parents:
23400
diff
changeset
|
1467 |
have "1 + x > x" by simp |
|
167b53019d6f
added theorems nonzero_mult_divide_cancel_right' nonzero_mult_divide_cancel_left' ordered_field_no_lb ordered_field_no_ub
chaieb
parents:
23400
diff
changeset
|
1468 |
thus "\<exists>y. y > x" by blast |
|
167b53019d6f
added theorems nonzero_mult_divide_cancel_right' nonzero_mult_divide_cancel_left' ordered_field_no_lb ordered_field_no_ub
chaieb
parents:
23400
diff
changeset
|
1469 |
qed |
|
14277
ad66687ece6e
more field division lemmas transferred from Real to Ring_and_Field
paulson
parents:
14272
diff
changeset
|
1470 |
|
|
ad66687ece6e
more field division lemmas transferred from Real to Ring_and_Field
paulson
parents:
14272
diff
changeset
|
1471 |
subsection{*Anti-Monotonicity of @{term inverse}*}
|
|
ad66687ece6e
more field division lemmas transferred from Real to Ring_and_Field
paulson
parents:
14272
diff
changeset
|
1472 |
|
|
14268
5cf13e80be0e
Removal of Hyperreal/ExtraThms2.ML, sending the material to the correct files.
paulson
parents:
14267
diff
changeset
|
1473 |
lemma less_imp_inverse_less: |
| 23482 | 1474 |
assumes less: "a < b" and apos: "0 < a" |
1475 |
shows "inverse b < inverse (a::'a::ordered_field)" |
|
1476 |
proof (rule ccontr) |
|
|
14268
5cf13e80be0e
Removal of Hyperreal/ExtraThms2.ML, sending the material to the correct files.
paulson
parents:
14267
diff
changeset
|
1477 |
assume "~ inverse b < inverse a" |
|
5cf13e80be0e
Removal of Hyperreal/ExtraThms2.ML, sending the material to the correct files.
paulson
parents:
14267
diff
changeset
|
1478 |
hence "inverse a \<le> inverse b" |
|
5cf13e80be0e
Removal of Hyperreal/ExtraThms2.ML, sending the material to the correct files.
paulson
parents:
14267
diff
changeset
|
1479 |
by (simp add: linorder_not_less) |
|
5cf13e80be0e
Removal of Hyperreal/ExtraThms2.ML, sending the material to the correct files.
paulson
parents:
14267
diff
changeset
|
1480 |
hence "~ (a < b)" |
|
5cf13e80be0e
Removal of Hyperreal/ExtraThms2.ML, sending the material to the correct files.
paulson
parents:
14267
diff
changeset
|
1481 |
by (simp add: linorder_not_less inverse_le_imp_le [OF _ apos]) |
|
5cf13e80be0e
Removal of Hyperreal/ExtraThms2.ML, sending the material to the correct files.
paulson
parents:
14267
diff
changeset
|
1482 |
thus False |
|
5cf13e80be0e
Removal of Hyperreal/ExtraThms2.ML, sending the material to the correct files.
paulson
parents:
14267
diff
changeset
|
1483 |
by (rule notE [OF _ less]) |
| 23482 | 1484 |
qed |
|
14268
5cf13e80be0e
Removal of Hyperreal/ExtraThms2.ML, sending the material to the correct files.
paulson
parents:
14267
diff
changeset
|
1485 |
|
|
5cf13e80be0e
Removal of Hyperreal/ExtraThms2.ML, sending the material to the correct files.
paulson
parents:
14267
diff
changeset
|
1486 |
lemma inverse_less_imp_less: |
| 23482 | 1487 |
"[|inverse a < inverse b; 0 < a|] ==> b < (a::'a::ordered_field)" |
|
14268
5cf13e80be0e
Removal of Hyperreal/ExtraThms2.ML, sending the material to the correct files.
paulson
parents:
14267
diff
changeset
|
1488 |
apply (simp add: order_less_le [of "inverse a"] order_less_le [of "b"]) |
|
5cf13e80be0e
Removal of Hyperreal/ExtraThms2.ML, sending the material to the correct files.
paulson
parents:
14267
diff
changeset
|
1489 |
apply (force dest!: inverse_le_imp_le nonzero_inverse_eq_imp_eq) |
|
5cf13e80be0e
Removal of Hyperreal/ExtraThms2.ML, sending the material to the correct files.
paulson
parents:
14267
diff
changeset
|
1490 |
done |
|
5cf13e80be0e
Removal of Hyperreal/ExtraThms2.ML, sending the material to the correct files.
paulson
parents:
14267
diff
changeset
|
1491 |
|
|
5cf13e80be0e
Removal of Hyperreal/ExtraThms2.ML, sending the material to the correct files.
paulson
parents:
14267
diff
changeset
|
1492 |
text{*Both premises are essential. Consider -1 and 1.*}
|
|
24286
7619080e49f0
ATP blacklisting is now in theory data, attribute noatp
paulson
parents:
23879
diff
changeset
|
1493 |
lemma inverse_less_iff_less [simp,noatp]: |
| 23482 | 1494 |
"[|0 < a; 0 < b|] ==> (inverse a < inverse b) = (b < (a::'a::ordered_field))" |
|
14268
5cf13e80be0e
Removal of Hyperreal/ExtraThms2.ML, sending the material to the correct files.
paulson
parents:
14267
diff
changeset
|
1495 |
by (blast intro: less_imp_inverse_less dest: inverse_less_imp_less) |
|
5cf13e80be0e
Removal of Hyperreal/ExtraThms2.ML, sending the material to the correct files.
paulson
parents:
14267
diff
changeset
|
1496 |
|
|
5cf13e80be0e
Removal of Hyperreal/ExtraThms2.ML, sending the material to the correct files.
paulson
parents:
14267
diff
changeset
|
1497 |
lemma le_imp_inverse_le: |
| 23482 | 1498 |
"[|a \<le> b; 0 < a|] ==> inverse b \<le> inverse (a::'a::ordered_field)" |
1499 |
by (force simp add: order_le_less less_imp_inverse_less) |
|
|
14268
5cf13e80be0e
Removal of Hyperreal/ExtraThms2.ML, sending the material to the correct files.
paulson
parents:
14267
diff
changeset
|
1500 |
|
|
24286
7619080e49f0
ATP blacklisting is now in theory data, attribute noatp
paulson
parents:
23879
diff
changeset
|
1501 |
lemma inverse_le_iff_le [simp,noatp]: |
| 23482 | 1502 |
"[|0 < a; 0 < b|] ==> (inverse a \<le> inverse b) = (b \<le> (a::'a::ordered_field))" |
|
14268
5cf13e80be0e
Removal of Hyperreal/ExtraThms2.ML, sending the material to the correct files.
paulson
parents:
14267
diff
changeset
|
1503 |
by (blast intro: le_imp_inverse_le dest: inverse_le_imp_le) |
|
5cf13e80be0e
Removal of Hyperreal/ExtraThms2.ML, sending the material to the correct files.
paulson
parents:
14267
diff
changeset
|
1504 |
|
|
5cf13e80be0e
Removal of Hyperreal/ExtraThms2.ML, sending the material to the correct files.
paulson
parents:
14267
diff
changeset
|
1505 |
|
|
5cf13e80be0e
Removal of Hyperreal/ExtraThms2.ML, sending the material to the correct files.
paulson
parents:
14267
diff
changeset
|
1506 |
text{*These results refer to both operands being negative. The opposite-sign
|
|
5cf13e80be0e
Removal of Hyperreal/ExtraThms2.ML, sending the material to the correct files.
paulson
parents:
14267
diff
changeset
|
1507 |
case is trivial, since inverse preserves signs.*} |
|
5cf13e80be0e
Removal of Hyperreal/ExtraThms2.ML, sending the material to the correct files.
paulson
parents:
14267
diff
changeset
|
1508 |
lemma inverse_le_imp_le_neg: |
| 23482 | 1509 |
"[|inverse a \<le> inverse b; b < 0|] ==> b \<le> (a::'a::ordered_field)" |
1510 |
apply (rule classical) |
|
1511 |
apply (subgoal_tac "a < 0") |
|
1512 |
prefer 2 apply (force simp add: linorder_not_le intro: order_less_trans) |
|
1513 |
apply (insert inverse_le_imp_le [of "-b" "-a"]) |
|
1514 |
apply (simp add: order_less_imp_not_eq nonzero_inverse_minus_eq) |
|
1515 |
done |
|
|
14268
5cf13e80be0e
Removal of Hyperreal/ExtraThms2.ML, sending the material to the correct files.
paulson
parents:
14267
diff
changeset
|
1516 |
|
|
5cf13e80be0e
Removal of Hyperreal/ExtraThms2.ML, sending the material to the correct files.
paulson
parents:
14267
diff
changeset
|
1517 |
lemma less_imp_inverse_less_neg: |
|
5cf13e80be0e
Removal of Hyperreal/ExtraThms2.ML, sending the material to the correct files.
paulson
parents:
14267
diff
changeset
|
1518 |
"[|a < b; b < 0|] ==> inverse b < inverse (a::'a::ordered_field)" |
| 23482 | 1519 |
apply (subgoal_tac "a < 0") |
1520 |
prefer 2 apply (blast intro: order_less_trans) |
|
1521 |
apply (insert less_imp_inverse_less [of "-b" "-a"]) |
|
1522 |
apply (simp add: order_less_imp_not_eq nonzero_inverse_minus_eq) |
|
1523 |
done |
|
|
14268
5cf13e80be0e
Removal of Hyperreal/ExtraThms2.ML, sending the material to the correct files.
paulson
parents:
14267
diff
changeset
|
1524 |
|
|
5cf13e80be0e
Removal of Hyperreal/ExtraThms2.ML, sending the material to the correct files.
paulson
parents:
14267
diff
changeset
|
1525 |
lemma inverse_less_imp_less_neg: |
|
5cf13e80be0e
Removal of Hyperreal/ExtraThms2.ML, sending the material to the correct files.
paulson
parents:
14267
diff
changeset
|
1526 |
"[|inverse a < inverse b; b < 0|] ==> b < (a::'a::ordered_field)" |
| 23482 | 1527 |
apply (rule classical) |
1528 |
apply (subgoal_tac "a < 0") |
|
1529 |
prefer 2 |
|
1530 |
apply (force simp add: linorder_not_less intro: order_le_less_trans) |
|
1531 |
apply (insert inverse_less_imp_less [of "-b" "-a"]) |
|
1532 |
apply (simp add: order_less_imp_not_eq nonzero_inverse_minus_eq) |
|
1533 |
done |
|
|
14268
5cf13e80be0e
Removal of Hyperreal/ExtraThms2.ML, sending the material to the correct files.
paulson
parents:
14267
diff
changeset
|
1534 |
|
|
24286
7619080e49f0
ATP blacklisting is now in theory data, attribute noatp
paulson
parents:
23879
diff
changeset
|
1535 |
lemma inverse_less_iff_less_neg [simp,noatp]: |
| 23482 | 1536 |
"[|a < 0; b < 0|] ==> (inverse a < inverse b) = (b < (a::'a::ordered_field))" |
1537 |
apply (insert inverse_less_iff_less [of "-b" "-a"]) |
|
1538 |
apply (simp del: inverse_less_iff_less |
|
1539 |
add: order_less_imp_not_eq nonzero_inverse_minus_eq) |
|
1540 |
done |
|
|
14268
5cf13e80be0e
Removal of Hyperreal/ExtraThms2.ML, sending the material to the correct files.
paulson
parents:
14267
diff
changeset
|
1541 |
|
|
5cf13e80be0e
Removal of Hyperreal/ExtraThms2.ML, sending the material to the correct files.
paulson
parents:
14267
diff
changeset
|
1542 |
lemma le_imp_inverse_le_neg: |
| 23482 | 1543 |
"[|a \<le> b; b < 0|] ==> inverse b \<le> inverse (a::'a::ordered_field)" |
1544 |
by (force simp add: order_le_less less_imp_inverse_less_neg) |
|
|
14268
5cf13e80be0e
Removal of Hyperreal/ExtraThms2.ML, sending the material to the correct files.
paulson
parents:
14267
diff
changeset
|
1545 |
|
|
24286
7619080e49f0
ATP blacklisting is now in theory data, attribute noatp
paulson
parents:
23879
diff
changeset
|
1546 |
lemma inverse_le_iff_le_neg [simp,noatp]: |
| 23482 | 1547 |
"[|a < 0; b < 0|] ==> (inverse a \<le> inverse b) = (b \<le> (a::'a::ordered_field))" |
|
14268
5cf13e80be0e
Removal of Hyperreal/ExtraThms2.ML, sending the material to the correct files.
paulson
parents:
14267
diff
changeset
|
1548 |
by (blast intro: le_imp_inverse_le_neg dest: inverse_le_imp_le_neg) |
|
14265
95b42e69436c
HOL: installation of Ring_and_Field as the basis for Naturals and Reals
paulson
parents:
diff
changeset
|
1549 |
|
|
14277
ad66687ece6e
more field division lemmas transferred from Real to Ring_and_Field
paulson
parents:
14272
diff
changeset
|
1550 |
|
|
14365
3d4df8c166ae
replacing HOL/Real/PRat, PNat by the rational number development
paulson
parents:
14353
diff
changeset
|
1551 |
subsection{*Inverses and the Number One*}
|
|
3d4df8c166ae
replacing HOL/Real/PRat, PNat by the rational number development
paulson
parents:
14353
diff
changeset
|
1552 |
|
|
3d4df8c166ae
replacing HOL/Real/PRat, PNat by the rational number development
paulson
parents:
14353
diff
changeset
|
1553 |
lemma one_less_inverse_iff: |
| 23482 | 1554 |
"(1 < inverse x) = (0 < x & x < (1::'a::{ordered_field,division_by_zero}))"
|
1555 |
proof cases |
|
|
14365
3d4df8c166ae
replacing HOL/Real/PRat, PNat by the rational number development
paulson
parents:
14353
diff
changeset
|
1556 |
assume "0 < x" |
|
3d4df8c166ae
replacing HOL/Real/PRat, PNat by the rational number development
paulson
parents:
14353
diff
changeset
|
1557 |
with inverse_less_iff_less [OF zero_less_one, of x] |
|
3d4df8c166ae
replacing HOL/Real/PRat, PNat by the rational number development
paulson
parents:
14353
diff
changeset
|
1558 |
show ?thesis by simp |
|
3d4df8c166ae
replacing HOL/Real/PRat, PNat by the rational number development
paulson
parents:
14353
diff
changeset
|
1559 |
next |
|
3d4df8c166ae
replacing HOL/Real/PRat, PNat by the rational number development
paulson
parents:
14353
diff
changeset
|
1560 |
assume notless: "~ (0 < x)" |
|
3d4df8c166ae
replacing HOL/Real/PRat, PNat by the rational number development
paulson
parents:
14353
diff
changeset
|
1561 |
have "~ (1 < inverse x)" |
|
3d4df8c166ae
replacing HOL/Real/PRat, PNat by the rational number development
paulson
parents:
14353
diff
changeset
|
1562 |
proof |
|
3d4df8c166ae
replacing HOL/Real/PRat, PNat by the rational number development
paulson
parents:
14353
diff
changeset
|
1563 |
assume "1 < inverse x" |
|
3d4df8c166ae
replacing HOL/Real/PRat, PNat by the rational number development
paulson
parents:
14353
diff
changeset
|
1564 |
also with notless have "... \<le> 0" by (simp add: linorder_not_less) |
|
3d4df8c166ae
replacing HOL/Real/PRat, PNat by the rational number development
paulson
parents:
14353
diff
changeset
|
1565 |
also have "... < 1" by (rule zero_less_one) |
|
3d4df8c166ae
replacing HOL/Real/PRat, PNat by the rational number development
paulson
parents:
14353
diff
changeset
|
1566 |
finally show False by auto |
|
3d4df8c166ae
replacing HOL/Real/PRat, PNat by the rational number development
paulson
parents:
14353
diff
changeset
|
1567 |
qed |
|
3d4df8c166ae
replacing HOL/Real/PRat, PNat by the rational number development
paulson
parents:
14353
diff
changeset
|
1568 |
with notless show ?thesis by simp |
|
3d4df8c166ae
replacing HOL/Real/PRat, PNat by the rational number development
paulson
parents:
14353
diff
changeset
|
1569 |
qed |
|
3d4df8c166ae
replacing HOL/Real/PRat, PNat by the rational number development
paulson
parents:
14353
diff
changeset
|
1570 |
|
|
3d4df8c166ae
replacing HOL/Real/PRat, PNat by the rational number development
paulson
parents:
14353
diff
changeset
|
1571 |
lemma inverse_eq_1_iff [simp]: |
| 23482 | 1572 |
"(inverse x = 1) = (x = (1::'a::{field,division_by_zero}))"
|
|
14365
3d4df8c166ae
replacing HOL/Real/PRat, PNat by the rational number development
paulson
parents:
14353
diff
changeset
|
1573 |
by (insert inverse_eq_iff_eq [of x 1], simp) |
|
3d4df8c166ae
replacing HOL/Real/PRat, PNat by the rational number development
paulson
parents:
14353
diff
changeset
|
1574 |
|
|
3d4df8c166ae
replacing HOL/Real/PRat, PNat by the rational number development
paulson
parents:
14353
diff
changeset
|
1575 |
lemma one_le_inverse_iff: |
| 23482 | 1576 |
"(1 \<le> inverse x) = (0 < x & x \<le> (1::'a::{ordered_field,division_by_zero}))"
|
|
14365
3d4df8c166ae
replacing HOL/Real/PRat, PNat by the rational number development
paulson
parents:
14353
diff
changeset
|
1577 |
by (force simp add: order_le_less one_less_inverse_iff zero_less_one |
|
3d4df8c166ae
replacing HOL/Real/PRat, PNat by the rational number development
paulson
parents:
14353
diff
changeset
|
1578 |
eq_commute [of 1]) |
|
3d4df8c166ae
replacing HOL/Real/PRat, PNat by the rational number development
paulson
parents:
14353
diff
changeset
|
1579 |
|
|
3d4df8c166ae
replacing HOL/Real/PRat, PNat by the rational number development
paulson
parents:
14353
diff
changeset
|
1580 |
lemma inverse_less_1_iff: |
| 23482 | 1581 |
"(inverse x < 1) = (x \<le> 0 | 1 < (x::'a::{ordered_field,division_by_zero}))"
|
|
14365
3d4df8c166ae
replacing HOL/Real/PRat, PNat by the rational number development
paulson
parents:
14353
diff
changeset
|
1582 |
by (simp add: linorder_not_le [symmetric] one_le_inverse_iff) |
|
3d4df8c166ae
replacing HOL/Real/PRat, PNat by the rational number development
paulson
parents:
14353
diff
changeset
|
1583 |
|
|
3d4df8c166ae
replacing HOL/Real/PRat, PNat by the rational number development
paulson
parents:
14353
diff
changeset
|
1584 |
lemma inverse_le_1_iff: |
| 23482 | 1585 |
"(inverse x \<le> 1) = (x \<le> 0 | 1 \<le> (x::'a::{ordered_field,division_by_zero}))"
|
|
14365
3d4df8c166ae
replacing HOL/Real/PRat, PNat by the rational number development
paulson
parents:
14353
diff
changeset
|
1586 |
by (simp add: linorder_not_less [symmetric] one_less_inverse_iff) |
|
3d4df8c166ae
replacing HOL/Real/PRat, PNat by the rational number development
paulson
parents:
14353
diff
changeset
|
1587 |
|
| 23389 | 1588 |
|
| 14288 | 1589 |
subsection{*Simplification of Inequalities Involving Literal Divisors*}
|
1590 |
||
1591 |
lemma pos_le_divide_eq: "0 < (c::'a::ordered_field) ==> (a \<le> b/c) = (a*c \<le> b)" |
|
1592 |
proof - |
|
1593 |
assume less: "0<c" |
|
1594 |
hence "(a \<le> b/c) = (a*c \<le> (b/c)*c)" |
|
1595 |
by (simp add: mult_le_cancel_right order_less_not_sym [OF less]) |
|
1596 |
also have "... = (a*c \<le> b)" |
|
1597 |
by (simp add: order_less_imp_not_eq2 [OF less] divide_inverse mult_assoc) |
|
1598 |
finally show ?thesis . |
|
1599 |
qed |
|
1600 |
||
1601 |
lemma neg_le_divide_eq: "c < (0::'a::ordered_field) ==> (a \<le> b/c) = (b \<le> a*c)" |
|
1602 |
proof - |
|
1603 |
assume less: "c<0" |
|
1604 |
hence "(a \<le> b/c) = ((b/c)*c \<le> a*c)" |
|
1605 |
by (simp add: mult_le_cancel_right order_less_not_sym [OF less]) |
|
1606 |
also have "... = (b \<le> a*c)" |
|
1607 |
by (simp add: order_less_imp_not_eq [OF less] divide_inverse mult_assoc) |
|
1608 |
finally show ?thesis . |
|
1609 |
qed |
|
1610 |
||
1611 |
lemma le_divide_eq: |
|
1612 |
"(a \<le> b/c) = |
|
1613 |
(if 0 < c then a*c \<le> b |
|
1614 |
else if c < 0 then b \<le> a*c |
|
1615 |
else a \<le> (0::'a::{ordered_field,division_by_zero}))"
|
|
| 21328 | 1616 |
apply (cases "c=0", simp) |
| 14288 | 1617 |
apply (force simp add: pos_le_divide_eq neg_le_divide_eq linorder_neq_iff) |
1618 |
done |
|
1619 |
||
1620 |
lemma pos_divide_le_eq: "0 < (c::'a::ordered_field) ==> (b/c \<le> a) = (b \<le> a*c)" |
|
1621 |
proof - |
|
1622 |
assume less: "0<c" |
|
1623 |
hence "(b/c \<le> a) = ((b/c)*c \<le> a*c)" |
|
1624 |
by (simp add: mult_le_cancel_right order_less_not_sym [OF less]) |
|
1625 |
also have "... = (b \<le> a*c)" |
|
1626 |
by (simp add: order_less_imp_not_eq2 [OF less] divide_inverse mult_assoc) |
|
1627 |
finally show ?thesis . |
|
1628 |
qed |
|
1629 |
||
1630 |
lemma neg_divide_le_eq: "c < (0::'a::ordered_field) ==> (b/c \<le> a) = (a*c \<le> b)" |
|
1631 |
proof - |
|
1632 |
assume less: "c<0" |
|
1633 |
hence "(b/c \<le> a) = (a*c \<le> (b/c)*c)" |
|
1634 |
by (simp add: mult_le_cancel_right order_less_not_sym [OF less]) |
|
1635 |
also have "... = (a*c \<le> b)" |
|
1636 |
by (simp add: order_less_imp_not_eq [OF less] divide_inverse mult_assoc) |
|
1637 |
finally show ?thesis . |
|
1638 |
qed |
|
1639 |
||
1640 |
lemma divide_le_eq: |
|
1641 |
"(b/c \<le> a) = |
|
1642 |
(if 0 < c then b \<le> a*c |
|
1643 |
else if c < 0 then a*c \<le> b |
|
1644 |
else 0 \<le> (a::'a::{ordered_field,division_by_zero}))"
|
|
| 21328 | 1645 |
apply (cases "c=0", simp) |
| 14288 | 1646 |
apply (force simp add: pos_divide_le_eq neg_divide_le_eq linorder_neq_iff) |
1647 |
done |
|
1648 |
||
1649 |
lemma pos_less_divide_eq: |
|
1650 |
"0 < (c::'a::ordered_field) ==> (a < b/c) = (a*c < b)" |
|
1651 |
proof - |
|
1652 |
assume less: "0<c" |
|
1653 |
hence "(a < b/c) = (a*c < (b/c)*c)" |
|
|
15234
ec91a90c604e
simplification tweaks for better arithmetic reasoning
paulson
parents:
15229
diff
changeset
|
1654 |
by (simp add: mult_less_cancel_right_disj order_less_not_sym [OF less]) |
| 14288 | 1655 |
also have "... = (a*c < b)" |
1656 |
by (simp add: order_less_imp_not_eq2 [OF less] divide_inverse mult_assoc) |
|
1657 |
finally show ?thesis . |
|
1658 |
qed |
|
1659 |
||
1660 |
lemma neg_less_divide_eq: |
|
1661 |
"c < (0::'a::ordered_field) ==> (a < b/c) = (b < a*c)" |
|
1662 |
proof - |
|
1663 |
assume less: "c<0" |
|
1664 |
hence "(a < b/c) = ((b/c)*c < a*c)" |
|
|
15234
ec91a90c604e
simplification tweaks for better arithmetic reasoning
paulson
parents:
15229
diff
changeset
|
1665 |
by (simp add: mult_less_cancel_right_disj order_less_not_sym [OF less]) |
| 14288 | 1666 |
also have "... = (b < a*c)" |
1667 |
by (simp add: order_less_imp_not_eq [OF less] divide_inverse mult_assoc) |
|
1668 |
finally show ?thesis . |
|
1669 |
qed |
|
1670 |
||
1671 |
lemma less_divide_eq: |
|
1672 |
"(a < b/c) = |
|
1673 |
(if 0 < c then a*c < b |
|
1674 |
else if c < 0 then b < a*c |
|
1675 |
else a < (0::'a::{ordered_field,division_by_zero}))"
|
|
| 21328 | 1676 |
apply (cases "c=0", simp) |
| 14288 | 1677 |
apply (force simp add: pos_less_divide_eq neg_less_divide_eq linorder_neq_iff) |
1678 |
done |
|
1679 |
||
1680 |
lemma pos_divide_less_eq: |
|
1681 |
"0 < (c::'a::ordered_field) ==> (b/c < a) = (b < a*c)" |
|
1682 |
proof - |
|
1683 |
assume less: "0<c" |
|
1684 |
hence "(b/c < a) = ((b/c)*c < a*c)" |
|
|
15234
ec91a90c604e
simplification tweaks for better arithmetic reasoning
paulson
parents:
15229
diff
changeset
|
1685 |
by (simp add: mult_less_cancel_right_disj order_less_not_sym [OF less]) |
| 14288 | 1686 |
also have "... = (b < a*c)" |
1687 |
by (simp add: order_less_imp_not_eq2 [OF less] divide_inverse mult_assoc) |
|
1688 |
finally show ?thesis . |
|
1689 |
qed |
|
1690 |
||
1691 |
lemma neg_divide_less_eq: |
|
1692 |
"c < (0::'a::ordered_field) ==> (b/c < a) = (a*c < b)" |
|
1693 |
proof - |
|
1694 |
assume less: "c<0" |
|
1695 |
hence "(b/c < a) = (a*c < (b/c)*c)" |
|
|
15234
ec91a90c604e
simplification tweaks for better arithmetic reasoning
paulson
parents:
15229
diff
changeset
|
1696 |
by (simp add: mult_less_cancel_right_disj order_less_not_sym [OF less]) |
| 14288 | 1697 |
also have "... = (a*c < b)" |
1698 |
by (simp add: order_less_imp_not_eq [OF less] divide_inverse mult_assoc) |
|
1699 |
finally show ?thesis . |
|
1700 |
qed |
|
1701 |
||
1702 |
lemma divide_less_eq: |
|
1703 |
"(b/c < a) = |
|
1704 |
(if 0 < c then b < a*c |
|
1705 |
else if c < 0 then a*c < b |
|
1706 |
else 0 < (a::'a::{ordered_field,division_by_zero}))"
|
|
| 21328 | 1707 |
apply (cases "c=0", simp) |
| 14288 | 1708 |
apply (force simp add: pos_divide_less_eq neg_divide_less_eq linorder_neq_iff) |
1709 |
done |
|
1710 |
||
| 23482 | 1711 |
|
1712 |
subsection{*Field simplification*}
|
|
1713 |
||
1714 |
text{* Lemmas @{text field_simps} multiply with denominators in
|
|
1715 |
in(equations) if they can be proved to be non-zero (for equations) or |
|
1716 |
positive/negative (for inequations). *} |
|
| 14288 | 1717 |
|
| 23482 | 1718 |
lemmas field_simps = field_eq_simps |
1719 |
(* multiply ineqn *) |
|
1720 |
pos_divide_less_eq neg_divide_less_eq |
|
1721 |
pos_less_divide_eq neg_less_divide_eq |
|
1722 |
pos_divide_le_eq neg_divide_le_eq |
|
1723 |
pos_le_divide_eq neg_le_divide_eq |
|
| 14288 | 1724 |
|
| 23482 | 1725 |
text{* Lemmas @{text sign_simps} is a first attempt to automate proofs
|
| 23483 | 1726 |
of positivity/negativity needed for @{text field_simps}. Have not added @{text
|
| 23482 | 1727 |
sign_simps} to @{text field_simps} because the former can lead to case
|
1728 |
explosions. *} |
|
| 14288 | 1729 |
|
| 23482 | 1730 |
lemmas sign_simps = group_simps |
1731 |
zero_less_mult_iff mult_less_0_iff |
|
| 14288 | 1732 |
|
| 23482 | 1733 |
(* Only works once linear arithmetic is installed: |
1734 |
text{*An example:*}
|
|
1735 |
lemma fixes a b c d e f :: "'a::ordered_field" |
|
1736 |
shows "\<lbrakk>a>b; c<d; e<f; 0 < u \<rbrakk> \<Longrightarrow> |
|
1737 |
((a-b)*(c-d)*(e-f))/((c-d)*(e-f)*(a-b)) < |
|
1738 |
((e-f)*(a-b)*(c-d))/((e-f)*(a-b)*(c-d)) + u" |
|
1739 |
apply(subgoal_tac "(c-d)*(e-f)*(a-b) > 0") |
|
1740 |
prefer 2 apply(simp add:sign_simps) |
|
1741 |
apply(subgoal_tac "(c-d)*(e-f)*(a-b)*u > 0") |
|
1742 |
prefer 2 apply(simp add:sign_simps) |
|
1743 |
apply(simp add:field_simps) |
|
|
16775
c1b87ef4a1c3
added lemmas to OrderedGroup.thy (reasoning about signs, absolute value, triangle inequalities)
avigad
parents:
16568
diff
changeset
|
1744 |
done |
| 23482 | 1745 |
*) |
|
16775
c1b87ef4a1c3
added lemmas to OrderedGroup.thy (reasoning about signs, absolute value, triangle inequalities)
avigad
parents:
16568
diff
changeset
|
1746 |
|
| 23389 | 1747 |
|
|
16775
c1b87ef4a1c3
added lemmas to OrderedGroup.thy (reasoning about signs, absolute value, triangle inequalities)
avigad
parents:
16568
diff
changeset
|
1748 |
subsection{*Division and Signs*}
|
|
c1b87ef4a1c3
added lemmas to OrderedGroup.thy (reasoning about signs, absolute value, triangle inequalities)
avigad
parents:
16568
diff
changeset
|
1749 |
|
|
c1b87ef4a1c3
added lemmas to OrderedGroup.thy (reasoning about signs, absolute value, triangle inequalities)
avigad
parents:
16568
diff
changeset
|
1750 |
lemma zero_less_divide_iff: |
|
c1b87ef4a1c3
added lemmas to OrderedGroup.thy (reasoning about signs, absolute value, triangle inequalities)
avigad
parents:
16568
diff
changeset
|
1751 |
"((0::'a::{ordered_field,division_by_zero}) < a/b) = (0 < a & 0 < b | a < 0 & b < 0)"
|
|
c1b87ef4a1c3
added lemmas to OrderedGroup.thy (reasoning about signs, absolute value, triangle inequalities)
avigad
parents:
16568
diff
changeset
|
1752 |
by (simp add: divide_inverse zero_less_mult_iff) |
|
c1b87ef4a1c3
added lemmas to OrderedGroup.thy (reasoning about signs, absolute value, triangle inequalities)
avigad
parents:
16568
diff
changeset
|
1753 |
|
|
c1b87ef4a1c3
added lemmas to OrderedGroup.thy (reasoning about signs, absolute value, triangle inequalities)
avigad
parents:
16568
diff
changeset
|
1754 |
lemma divide_less_0_iff: |
|
c1b87ef4a1c3
added lemmas to OrderedGroup.thy (reasoning about signs, absolute value, triangle inequalities)
avigad
parents:
16568
diff
changeset
|
1755 |
"(a/b < (0::'a::{ordered_field,division_by_zero})) =
|
|
c1b87ef4a1c3
added lemmas to OrderedGroup.thy (reasoning about signs, absolute value, triangle inequalities)
avigad
parents:
16568
diff
changeset
|
1756 |
(0 < a & b < 0 | a < 0 & 0 < b)" |
|
c1b87ef4a1c3
added lemmas to OrderedGroup.thy (reasoning about signs, absolute value, triangle inequalities)
avigad
parents:
16568
diff
changeset
|
1757 |
by (simp add: divide_inverse mult_less_0_iff) |
|
c1b87ef4a1c3
added lemmas to OrderedGroup.thy (reasoning about signs, absolute value, triangle inequalities)
avigad
parents:
16568
diff
changeset
|
1758 |
|
|
c1b87ef4a1c3
added lemmas to OrderedGroup.thy (reasoning about signs, absolute value, triangle inequalities)
avigad
parents:
16568
diff
changeset
|
1759 |
lemma zero_le_divide_iff: |
|
c1b87ef4a1c3
added lemmas to OrderedGroup.thy (reasoning about signs, absolute value, triangle inequalities)
avigad
parents:
16568
diff
changeset
|
1760 |
"((0::'a::{ordered_field,division_by_zero}) \<le> a/b) =
|
|
c1b87ef4a1c3
added lemmas to OrderedGroup.thy (reasoning about signs, absolute value, triangle inequalities)
avigad
parents:
16568
diff
changeset
|
1761 |
(0 \<le> a & 0 \<le> b | a \<le> 0 & b \<le> 0)" |
|
c1b87ef4a1c3
added lemmas to OrderedGroup.thy (reasoning about signs, absolute value, triangle inequalities)
avigad
parents:
16568
diff
changeset
|
1762 |
by (simp add: divide_inverse zero_le_mult_iff) |
|
c1b87ef4a1c3
added lemmas to OrderedGroup.thy (reasoning about signs, absolute value, triangle inequalities)
avigad
parents:
16568
diff
changeset
|
1763 |
|
|
c1b87ef4a1c3
added lemmas to OrderedGroup.thy (reasoning about signs, absolute value, triangle inequalities)
avigad
parents:
16568
diff
changeset
|
1764 |
lemma divide_le_0_iff: |
|
c1b87ef4a1c3
added lemmas to OrderedGroup.thy (reasoning about signs, absolute value, triangle inequalities)
avigad
parents:
16568
diff
changeset
|
1765 |
"(a/b \<le> (0::'a::{ordered_field,division_by_zero})) =
|
|
c1b87ef4a1c3
added lemmas to OrderedGroup.thy (reasoning about signs, absolute value, triangle inequalities)
avigad
parents:
16568
diff
changeset
|
1766 |
(0 \<le> a & b \<le> 0 | a \<le> 0 & 0 \<le> b)" |
|
c1b87ef4a1c3
added lemmas to OrderedGroup.thy (reasoning about signs, absolute value, triangle inequalities)
avigad
parents:
16568
diff
changeset
|
1767 |
by (simp add: divide_inverse mult_le_0_iff) |
|
c1b87ef4a1c3
added lemmas to OrderedGroup.thy (reasoning about signs, absolute value, triangle inequalities)
avigad
parents:
16568
diff
changeset
|
1768 |
|
|
24286
7619080e49f0
ATP blacklisting is now in theory data, attribute noatp
paulson
parents:
23879
diff
changeset
|
1769 |
lemma divide_eq_0_iff [simp,noatp]: |
|
16775
c1b87ef4a1c3
added lemmas to OrderedGroup.thy (reasoning about signs, absolute value, triangle inequalities)
avigad
parents:
16568
diff
changeset
|
1770 |
"(a/b = 0) = (a=0 | b=(0::'a::{field,division_by_zero}))"
|
| 23482 | 1771 |
by (simp add: divide_inverse) |
|
16775
c1b87ef4a1c3
added lemmas to OrderedGroup.thy (reasoning about signs, absolute value, triangle inequalities)
avigad
parents:
16568
diff
changeset
|
1772 |
|
| 23482 | 1773 |
lemma divide_pos_pos: |
1774 |
"0 < (x::'a::ordered_field) ==> 0 < y ==> 0 < x / y" |
|
1775 |
by(simp add:field_simps) |
|
1776 |
||
|
16775
c1b87ef4a1c3
added lemmas to OrderedGroup.thy (reasoning about signs, absolute value, triangle inequalities)
avigad
parents:
16568
diff
changeset
|
1777 |
|
| 23482 | 1778 |
lemma divide_nonneg_pos: |
1779 |
"0 <= (x::'a::ordered_field) ==> 0 < y ==> 0 <= x / y" |
|
1780 |
by(simp add:field_simps) |
|
|
16775
c1b87ef4a1c3
added lemmas to OrderedGroup.thy (reasoning about signs, absolute value, triangle inequalities)
avigad
parents:
16568
diff
changeset
|
1781 |
|
| 23482 | 1782 |
lemma divide_neg_pos: |
1783 |
"(x::'a::ordered_field) < 0 ==> 0 < y ==> x / y < 0" |
|
1784 |
by(simp add:field_simps) |
|
|
16775
c1b87ef4a1c3
added lemmas to OrderedGroup.thy (reasoning about signs, absolute value, triangle inequalities)
avigad
parents:
16568
diff
changeset
|
1785 |
|
| 23482 | 1786 |
lemma divide_nonpos_pos: |
1787 |
"(x::'a::ordered_field) <= 0 ==> 0 < y ==> x / y <= 0" |
|
1788 |
by(simp add:field_simps) |
|
|
16775
c1b87ef4a1c3
added lemmas to OrderedGroup.thy (reasoning about signs, absolute value, triangle inequalities)
avigad
parents:
16568
diff
changeset
|
1789 |
|
| 23482 | 1790 |
lemma divide_pos_neg: |
1791 |
"0 < (x::'a::ordered_field) ==> y < 0 ==> x / y < 0" |
|
1792 |
by(simp add:field_simps) |
|
|
16775
c1b87ef4a1c3
added lemmas to OrderedGroup.thy (reasoning about signs, absolute value, triangle inequalities)
avigad
parents:
16568
diff
changeset
|
1793 |
|
| 23482 | 1794 |
lemma divide_nonneg_neg: |
1795 |
"0 <= (x::'a::ordered_field) ==> y < 0 ==> x / y <= 0" |
|
1796 |
by(simp add:field_simps) |
|
|
16775
c1b87ef4a1c3
added lemmas to OrderedGroup.thy (reasoning about signs, absolute value, triangle inequalities)
avigad
parents:
16568
diff
changeset
|
1797 |
|
| 23482 | 1798 |
lemma divide_neg_neg: |
1799 |
"(x::'a::ordered_field) < 0 ==> y < 0 ==> 0 < x / y" |
|
1800 |
by(simp add:field_simps) |
|
|
16775
c1b87ef4a1c3
added lemmas to OrderedGroup.thy (reasoning about signs, absolute value, triangle inequalities)
avigad
parents:
16568
diff
changeset
|
1801 |
|
| 23482 | 1802 |
lemma divide_nonpos_neg: |
1803 |
"(x::'a::ordered_field) <= 0 ==> y < 0 ==> 0 <= x / y" |
|
1804 |
by(simp add:field_simps) |
|
|
15234
ec91a90c604e
simplification tweaks for better arithmetic reasoning
paulson
parents:
15229
diff
changeset
|
1805 |
|
| 23389 | 1806 |
|
| 14288 | 1807 |
subsection{*Cancellation Laws for Division*}
|
1808 |
||
|
24286
7619080e49f0
ATP blacklisting is now in theory data, attribute noatp
paulson
parents:
23879
diff
changeset
|
1809 |
lemma divide_cancel_right [simp,noatp]: |
| 14288 | 1810 |
"(a/c = b/c) = (c = 0 | a = (b::'a::{field,division_by_zero}))"
|
| 23482 | 1811 |
apply (cases "c=0", simp) |
| 23496 | 1812 |
apply (simp add: divide_inverse) |
| 14288 | 1813 |
done |
1814 |
||
|
24286
7619080e49f0
ATP blacklisting is now in theory data, attribute noatp
paulson
parents:
23879
diff
changeset
|
1815 |
lemma divide_cancel_left [simp,noatp]: |
| 14288 | 1816 |
"(c/a = c/b) = (c = 0 | a = (b::'a::{field,division_by_zero}))"
|
| 23482 | 1817 |
apply (cases "c=0", simp) |
| 23496 | 1818 |
apply (simp add: divide_inverse) |
| 14288 | 1819 |
done |
1820 |
||
| 23389 | 1821 |
|
|
14353
79f9fbef9106
Added lemmas to Ring_and_Field with slightly modified simplification rules
paulson
parents:
14348
diff
changeset
|
1822 |
subsection {* Division and the Number One *}
|
|
79f9fbef9106
Added lemmas to Ring_and_Field with slightly modified simplification rules
paulson
parents:
14348
diff
changeset
|
1823 |
|
|
79f9fbef9106
Added lemmas to Ring_and_Field with slightly modified simplification rules
paulson
parents:
14348
diff
changeset
|
1824 |
text{*Simplify expressions equated with 1*}
|
|
24286
7619080e49f0
ATP blacklisting is now in theory data, attribute noatp
paulson
parents:
23879
diff
changeset
|
1825 |
lemma divide_eq_1_iff [simp,noatp]: |
|
14353
79f9fbef9106
Added lemmas to Ring_and_Field with slightly modified simplification rules
paulson
parents:
14348
diff
changeset
|
1826 |
"(a/b = 1) = (b \<noteq> 0 & a = (b::'a::{field,division_by_zero}))"
|
| 23482 | 1827 |
apply (cases "b=0", simp) |
1828 |
apply (simp add: right_inverse_eq) |
|
|
14353
79f9fbef9106
Added lemmas to Ring_and_Field with slightly modified simplification rules
paulson
parents:
14348
diff
changeset
|
1829 |
done |
|
79f9fbef9106
Added lemmas to Ring_and_Field with slightly modified simplification rules
paulson
parents:
14348
diff
changeset
|
1830 |
|
|
24286
7619080e49f0
ATP blacklisting is now in theory data, attribute noatp
paulson
parents:
23879
diff
changeset
|
1831 |
lemma one_eq_divide_iff [simp,noatp]: |
|
14353
79f9fbef9106
Added lemmas to Ring_and_Field with slightly modified simplification rules
paulson
parents:
14348
diff
changeset
|
1832 |
"(1 = a/b) = (b \<noteq> 0 & a = (b::'a::{field,division_by_zero}))"
|
| 23482 | 1833 |
by (simp add: eq_commute [of 1]) |
|
14353
79f9fbef9106
Added lemmas to Ring_and_Field with slightly modified simplification rules
paulson
parents:
14348
diff
changeset
|
1834 |
|
|
24286
7619080e49f0
ATP blacklisting is now in theory data, attribute noatp
paulson
parents:
23879
diff
changeset
|
1835 |
lemma zero_eq_1_divide_iff [simp,noatp]: |
|
14353
79f9fbef9106
Added lemmas to Ring_and_Field with slightly modified simplification rules
paulson
parents:
14348
diff
changeset
|
1836 |
"((0::'a::{ordered_field,division_by_zero}) = 1/a) = (a = 0)"
|
| 23482 | 1837 |
apply (cases "a=0", simp) |
1838 |
apply (auto simp add: nonzero_eq_divide_eq) |
|
|
14353
79f9fbef9106
Added lemmas to Ring_and_Field with slightly modified simplification rules
paulson
parents:
14348
diff
changeset
|
1839 |
done |
|
79f9fbef9106
Added lemmas to Ring_and_Field with slightly modified simplification rules
paulson
parents:
14348
diff
changeset
|
1840 |
|
|
24286
7619080e49f0
ATP blacklisting is now in theory data, attribute noatp
paulson
parents:
23879
diff
changeset
|
1841 |
lemma one_divide_eq_0_iff [simp,noatp]: |
|
14353
79f9fbef9106
Added lemmas to Ring_and_Field with slightly modified simplification rules
paulson
parents:
14348
diff
changeset
|
1842 |
"(1/a = (0::'a::{ordered_field,division_by_zero})) = (a = 0)"
|
| 23482 | 1843 |
apply (cases "a=0", simp) |
1844 |
apply (insert zero_neq_one [THEN not_sym]) |
|
1845 |
apply (auto simp add: nonzero_divide_eq_eq) |
|
|
14353
79f9fbef9106
Added lemmas to Ring_and_Field with slightly modified simplification rules
paulson
parents:
14348
diff
changeset
|
1846 |
done |
|
79f9fbef9106
Added lemmas to Ring_and_Field with slightly modified simplification rules
paulson
parents:
14348
diff
changeset
|
1847 |
|
|
79f9fbef9106
Added lemmas to Ring_and_Field with slightly modified simplification rules
paulson
parents:
14348
diff
changeset
|
1848 |
text{*Simplify expressions such as @{text "0 < 1/x"} to @{text "0 < x"}*}
|
| 18623 | 1849 |
lemmas zero_less_divide_1_iff = zero_less_divide_iff [of 1, simplified] |
1850 |
lemmas divide_less_0_1_iff = divide_less_0_iff [of 1, simplified] |
|
1851 |
lemmas zero_le_divide_1_iff = zero_le_divide_iff [of 1, simplified] |
|
1852 |
lemmas divide_le_0_1_iff = divide_le_0_iff [of 1, simplified] |
|
| 17085 | 1853 |
|
1854 |
declare zero_less_divide_1_iff [simp] |
|
|
24286
7619080e49f0
ATP blacklisting is now in theory data, attribute noatp
paulson
parents:
23879
diff
changeset
|
1855 |
declare divide_less_0_1_iff [simp,noatp] |
| 17085 | 1856 |
declare zero_le_divide_1_iff [simp] |
|
24286
7619080e49f0
ATP blacklisting is now in theory data, attribute noatp
paulson
parents:
23879
diff
changeset
|
1857 |
declare divide_le_0_1_iff [simp,noatp] |
|
14353
79f9fbef9106
Added lemmas to Ring_and_Field with slightly modified simplification rules
paulson
parents:
14348
diff
changeset
|
1858 |
|
| 23389 | 1859 |
|
| 14293 | 1860 |
subsection {* Ordering Rules for Division *}
|
1861 |
||
1862 |
lemma divide_strict_right_mono: |
|
1863 |
"[|a < b; 0 < c|] ==> a / c < b / (c::'a::ordered_field)" |
|
1864 |
by (simp add: order_less_imp_not_eq2 divide_inverse mult_strict_right_mono |
|
| 23482 | 1865 |
positive_imp_inverse_positive) |
| 14293 | 1866 |
|
1867 |
lemma divide_right_mono: |
|
1868 |
"[|a \<le> b; 0 \<le> c|] ==> a/c \<le> b/(c::'a::{ordered_field,division_by_zero})"
|
|
| 23482 | 1869 |
by (force simp add: divide_strict_right_mono order_le_less) |
| 14293 | 1870 |
|
|
16775
c1b87ef4a1c3
added lemmas to OrderedGroup.thy (reasoning about signs, absolute value, triangle inequalities)
avigad
parents:
16568
diff
changeset
|
1871 |
lemma divide_right_mono_neg: "(a::'a::{division_by_zero,ordered_field}) <= b
|
|
c1b87ef4a1c3
added lemmas to OrderedGroup.thy (reasoning about signs, absolute value, triangle inequalities)
avigad
parents:
16568
diff
changeset
|
1872 |
==> c <= 0 ==> b / c <= a / c" |
| 23482 | 1873 |
apply (drule divide_right_mono [of _ _ "- c"]) |
1874 |
apply auto |
|
|
16775
c1b87ef4a1c3
added lemmas to OrderedGroup.thy (reasoning about signs, absolute value, triangle inequalities)
avigad
parents:
16568
diff
changeset
|
1875 |
done |
|
c1b87ef4a1c3
added lemmas to OrderedGroup.thy (reasoning about signs, absolute value, triangle inequalities)
avigad
parents:
16568
diff
changeset
|
1876 |
|
|
c1b87ef4a1c3
added lemmas to OrderedGroup.thy (reasoning about signs, absolute value, triangle inequalities)
avigad
parents:
16568
diff
changeset
|
1877 |
lemma divide_strict_right_mono_neg: |
|
c1b87ef4a1c3
added lemmas to OrderedGroup.thy (reasoning about signs, absolute value, triangle inequalities)
avigad
parents:
16568
diff
changeset
|
1878 |
"[|b < a; c < 0|] ==> a / c < b / (c::'a::ordered_field)" |
| 23482 | 1879 |
apply (drule divide_strict_right_mono [of _ _ "-c"], simp) |
1880 |
apply (simp add: order_less_imp_not_eq nonzero_minus_divide_right [symmetric]) |
|
|
16775
c1b87ef4a1c3
added lemmas to OrderedGroup.thy (reasoning about signs, absolute value, triangle inequalities)
avigad
parents:
16568
diff
changeset
|
1881 |
done |
| 14293 | 1882 |
|
1883 |
text{*The last premise ensures that @{term a} and @{term b}
|
|
1884 |
have the same sign*} |
|
1885 |
lemma divide_strict_left_mono: |
|
| 23482 | 1886 |
"[|b < a; 0 < c; 0 < a*b|] ==> c / a < c / (b::'a::ordered_field)" |
1887 |
by(auto simp: field_simps times_divide_eq zero_less_mult_iff mult_strict_right_mono) |
|
| 14293 | 1888 |
|
1889 |
lemma divide_left_mono: |
|
| 23482 | 1890 |
"[|b \<le> a; 0 \<le> c; 0 < a*b|] ==> c / a \<le> c / (b::'a::ordered_field)" |
1891 |
by(auto simp: field_simps times_divide_eq zero_less_mult_iff mult_right_mono) |
|
| 14293 | 1892 |
|
|
16775
c1b87ef4a1c3
added lemmas to OrderedGroup.thy (reasoning about signs, absolute value, triangle inequalities)
avigad
parents:
16568
diff
changeset
|
1893 |
lemma divide_left_mono_neg: "(a::'a::{division_by_zero,ordered_field}) <= b
|
|
c1b87ef4a1c3
added lemmas to OrderedGroup.thy (reasoning about signs, absolute value, triangle inequalities)
avigad
parents:
16568
diff
changeset
|
1894 |
==> c <= 0 ==> 0 < a * b ==> c / a <= c / b" |
|
c1b87ef4a1c3
added lemmas to OrderedGroup.thy (reasoning about signs, absolute value, triangle inequalities)
avigad
parents:
16568
diff
changeset
|
1895 |
apply (drule divide_left_mono [of _ _ "- c"]) |
|
c1b87ef4a1c3
added lemmas to OrderedGroup.thy (reasoning about signs, absolute value, triangle inequalities)
avigad
parents:
16568
diff
changeset
|
1896 |
apply (auto simp add: mult_commute) |
|
c1b87ef4a1c3
added lemmas to OrderedGroup.thy (reasoning about signs, absolute value, triangle inequalities)
avigad
parents:
16568
diff
changeset
|
1897 |
done |
|
c1b87ef4a1c3
added lemmas to OrderedGroup.thy (reasoning about signs, absolute value, triangle inequalities)
avigad
parents:
16568
diff
changeset
|
1898 |
|
| 14293 | 1899 |
lemma divide_strict_left_mono_neg: |
| 23482 | 1900 |
"[|a < b; c < 0; 0 < a*b|] ==> c / a < c / (b::'a::ordered_field)" |
1901 |
by(auto simp: field_simps times_divide_eq zero_less_mult_iff mult_strict_right_mono_neg) |
|
1902 |
||
| 14293 | 1903 |
|
|
16775
c1b87ef4a1c3
added lemmas to OrderedGroup.thy (reasoning about signs, absolute value, triangle inequalities)
avigad
parents:
16568
diff
changeset
|
1904 |
text{*Simplify quotients that are compared with the value 1.*}
|
|
c1b87ef4a1c3
added lemmas to OrderedGroup.thy (reasoning about signs, absolute value, triangle inequalities)
avigad
parents:
16568
diff
changeset
|
1905 |
|
|
24286
7619080e49f0
ATP blacklisting is now in theory data, attribute noatp
paulson
parents:
23879
diff
changeset
|
1906 |
lemma le_divide_eq_1 [noatp]: |
|
16775
c1b87ef4a1c3
added lemmas to OrderedGroup.thy (reasoning about signs, absolute value, triangle inequalities)
avigad
parents:
16568
diff
changeset
|
1907 |
fixes a :: "'a :: {ordered_field,division_by_zero}"
|
|
c1b87ef4a1c3
added lemmas to OrderedGroup.thy (reasoning about signs, absolute value, triangle inequalities)
avigad
parents:
16568
diff
changeset
|
1908 |
shows "(1 \<le> b / a) = ((0 < a & a \<le> b) | (a < 0 & b \<le> a))" |
|
c1b87ef4a1c3
added lemmas to OrderedGroup.thy (reasoning about signs, absolute value, triangle inequalities)
avigad
parents:
16568
diff
changeset
|
1909 |
by (auto simp add: le_divide_eq) |
|
c1b87ef4a1c3
added lemmas to OrderedGroup.thy (reasoning about signs, absolute value, triangle inequalities)
avigad
parents:
16568
diff
changeset
|
1910 |
|
|
24286
7619080e49f0
ATP blacklisting is now in theory data, attribute noatp
paulson
parents:
23879
diff
changeset
|
1911 |
lemma divide_le_eq_1 [noatp]: |
|
16775
c1b87ef4a1c3
added lemmas to OrderedGroup.thy (reasoning about signs, absolute value, triangle inequalities)
avigad
parents:
16568
diff
changeset
|
1912 |
fixes a :: "'a :: {ordered_field,division_by_zero}"
|
|
c1b87ef4a1c3
added lemmas to OrderedGroup.thy (reasoning about signs, absolute value, triangle inequalities)
avigad
parents:
16568
diff
changeset
|
1913 |
shows "(b / a \<le> 1) = ((0 < a & b \<le> a) | (a < 0 & a \<le> b) | a=0)" |
|
c1b87ef4a1c3
added lemmas to OrderedGroup.thy (reasoning about signs, absolute value, triangle inequalities)
avigad
parents:
16568
diff
changeset
|
1914 |
by (auto simp add: divide_le_eq) |
|
c1b87ef4a1c3
added lemmas to OrderedGroup.thy (reasoning about signs, absolute value, triangle inequalities)
avigad
parents:
16568
diff
changeset
|
1915 |
|
|
24286
7619080e49f0
ATP blacklisting is now in theory data, attribute noatp
paulson
parents:
23879
diff
changeset
|
1916 |
lemma less_divide_eq_1 [noatp]: |
|
16775
c1b87ef4a1c3
added lemmas to OrderedGroup.thy (reasoning about signs, absolute value, triangle inequalities)
avigad
parents:
16568
diff
changeset
|
1917 |
fixes a :: "'a :: {ordered_field,division_by_zero}"
|
|
c1b87ef4a1c3
added lemmas to OrderedGroup.thy (reasoning about signs, absolute value, triangle inequalities)
avigad
parents:
16568
diff
changeset
|
1918 |
shows "(1 < b / a) = ((0 < a & a < b) | (a < 0 & b < a))" |
|
c1b87ef4a1c3
added lemmas to OrderedGroup.thy (reasoning about signs, absolute value, triangle inequalities)
avigad
parents:
16568
diff
changeset
|
1919 |
by (auto simp add: less_divide_eq) |
|
c1b87ef4a1c3
added lemmas to OrderedGroup.thy (reasoning about signs, absolute value, triangle inequalities)
avigad
parents:
16568
diff
changeset
|
1920 |
|
|
24286
7619080e49f0
ATP blacklisting is now in theory data, attribute noatp
paulson
parents:
23879
diff
changeset
|
1921 |
lemma divide_less_eq_1 [noatp]: |
|
16775
c1b87ef4a1c3
added lemmas to OrderedGroup.thy (reasoning about signs, absolute value, triangle inequalities)
avigad
parents:
16568
diff
changeset
|
1922 |
fixes a :: "'a :: {ordered_field,division_by_zero}"
|
|
c1b87ef4a1c3
added lemmas to OrderedGroup.thy (reasoning about signs, absolute value, triangle inequalities)
avigad
parents:
16568
diff
changeset
|
1923 |
shows "(b / a < 1) = ((0 < a & b < a) | (a < 0 & a < b) | a=0)" |
|
c1b87ef4a1c3
added lemmas to OrderedGroup.thy (reasoning about signs, absolute value, triangle inequalities)
avigad
parents:
16568
diff
changeset
|
1924 |
by (auto simp add: divide_less_eq) |
|
c1b87ef4a1c3
added lemmas to OrderedGroup.thy (reasoning about signs, absolute value, triangle inequalities)
avigad
parents:
16568
diff
changeset
|
1925 |
|
| 23389 | 1926 |
|
|
16775
c1b87ef4a1c3
added lemmas to OrderedGroup.thy (reasoning about signs, absolute value, triangle inequalities)
avigad
parents:
16568
diff
changeset
|
1927 |
subsection{*Conditional Simplification Rules: No Case Splits*}
|
|
c1b87ef4a1c3
added lemmas to OrderedGroup.thy (reasoning about signs, absolute value, triangle inequalities)
avigad
parents:
16568
diff
changeset
|
1928 |
|
|
24286
7619080e49f0
ATP blacklisting is now in theory data, attribute noatp
paulson
parents:
23879
diff
changeset
|
1929 |
lemma le_divide_eq_1_pos [simp,noatp]: |
|
16775
c1b87ef4a1c3
added lemmas to OrderedGroup.thy (reasoning about signs, absolute value, triangle inequalities)
avigad
parents:
16568
diff
changeset
|
1930 |
fixes a :: "'a :: {ordered_field,division_by_zero}"
|
|
18649
bb99c2e705ca
tidied, and added missing thm divide_less_eq_1_neg
paulson
parents:
18623
diff
changeset
|
1931 |
shows "0 < a \<Longrightarrow> (1 \<le> b/a) = (a \<le> b)" |
|
16775
c1b87ef4a1c3
added lemmas to OrderedGroup.thy (reasoning about signs, absolute value, triangle inequalities)
avigad
parents:
16568
diff
changeset
|
1932 |
by (auto simp add: le_divide_eq) |
|
c1b87ef4a1c3
added lemmas to OrderedGroup.thy (reasoning about signs, absolute value, triangle inequalities)
avigad
parents:
16568
diff
changeset
|
1933 |
|
|
24286
7619080e49f0
ATP blacklisting is now in theory data, attribute noatp
paulson
parents:
23879
diff
changeset
|
1934 |
lemma le_divide_eq_1_neg [simp,noatp]: |
|
16775
c1b87ef4a1c3
added lemmas to OrderedGroup.thy (reasoning about signs, absolute value, triangle inequalities)
avigad
parents:
16568
diff
changeset
|
1935 |
fixes a :: "'a :: {ordered_field,division_by_zero}"
|
|
18649
bb99c2e705ca
tidied, and added missing thm divide_less_eq_1_neg
paulson
parents:
18623
diff
changeset
|
1936 |
shows "a < 0 \<Longrightarrow> (1 \<le> b/a) = (b \<le> a)" |
|
16775
c1b87ef4a1c3
added lemmas to OrderedGroup.thy (reasoning about signs, absolute value, triangle inequalities)
avigad
parents:
16568
diff
changeset
|
1937 |
by (auto simp add: le_divide_eq) |
|
c1b87ef4a1c3
added lemmas to OrderedGroup.thy (reasoning about signs, absolute value, triangle inequalities)
avigad
parents:
16568
diff
changeset
|
1938 |
|
|
24286
7619080e49f0
ATP blacklisting is now in theory data, attribute noatp
paulson
parents:
23879
diff
changeset
|
1939 |
lemma divide_le_eq_1_pos [simp,noatp]: |
|
16775
c1b87ef4a1c3
added lemmas to OrderedGroup.thy (reasoning about signs, absolute value, triangle inequalities)
avigad
parents:
16568
diff
changeset
|
1940 |
fixes a :: "'a :: {ordered_field,division_by_zero}"
|
|
18649
bb99c2e705ca
tidied, and added missing thm divide_less_eq_1_neg
paulson
parents:
18623
diff
changeset
|
1941 |
shows "0 < a \<Longrightarrow> (b/a \<le> 1) = (b \<le> a)" |
|
16775
c1b87ef4a1c3
added lemmas to OrderedGroup.thy (reasoning about signs, absolute value, triangle inequalities)
avigad
parents:
16568
diff
changeset
|
1942 |
by (auto simp add: divide_le_eq) |
|
c1b87ef4a1c3
added lemmas to OrderedGroup.thy (reasoning about signs, absolute value, triangle inequalities)
avigad
parents:
16568
diff
changeset
|
1943 |
|
|
24286
7619080e49f0
ATP blacklisting is now in theory data, attribute noatp
paulson
parents:
23879
diff
changeset
|
1944 |
lemma divide_le_eq_1_neg [simp,noatp]: |
|
16775
c1b87ef4a1c3
added lemmas to OrderedGroup.thy (reasoning about signs, absolute value, triangle inequalities)
avigad
parents:
16568
diff
changeset
|
1945 |
fixes a :: "'a :: {ordered_field,division_by_zero}"
|
|
18649
bb99c2e705ca
tidied, and added missing thm divide_less_eq_1_neg
paulson
parents:
18623
diff
changeset
|
1946 |
shows "a < 0 \<Longrightarrow> (b/a \<le> 1) = (a \<le> b)" |
|
16775
c1b87ef4a1c3
added lemmas to OrderedGroup.thy (reasoning about signs, absolute value, triangle inequalities)
avigad
parents:
16568
diff
changeset
|
1947 |
by (auto simp add: divide_le_eq) |
|
c1b87ef4a1c3
added lemmas to OrderedGroup.thy (reasoning about signs, absolute value, triangle inequalities)
avigad
parents:
16568
diff
changeset
|
1948 |
|
|
24286
7619080e49f0
ATP blacklisting is now in theory data, attribute noatp
paulson
parents:
23879
diff
changeset
|
1949 |
lemma less_divide_eq_1_pos [simp,noatp]: |
|
16775
c1b87ef4a1c3
added lemmas to OrderedGroup.thy (reasoning about signs, absolute value, triangle inequalities)
avigad
parents:
16568
diff
changeset
|
1950 |
fixes a :: "'a :: {ordered_field,division_by_zero}"
|
|
18649
bb99c2e705ca
tidied, and added missing thm divide_less_eq_1_neg
paulson
parents:
18623
diff
changeset
|
1951 |
shows "0 < a \<Longrightarrow> (1 < b/a) = (a < b)" |
|
16775
c1b87ef4a1c3
added lemmas to OrderedGroup.thy (reasoning about signs, absolute value, triangle inequalities)
avigad
parents:
16568
diff
changeset
|
1952 |
by (auto simp add: less_divide_eq) |
|
c1b87ef4a1c3
added lemmas to OrderedGroup.thy (reasoning about signs, absolute value, triangle inequalities)
avigad
parents:
16568
diff
changeset
|
1953 |
|
|
24286
7619080e49f0
ATP blacklisting is now in theory data, attribute noatp
paulson
parents:
23879
diff
changeset
|
1954 |
lemma less_divide_eq_1_neg [simp,noatp]: |
|
16775
c1b87ef4a1c3
added lemmas to OrderedGroup.thy (reasoning about signs, absolute value, triangle inequalities)
avigad
parents:
16568
diff
changeset
|
1955 |
fixes a :: "'a :: {ordered_field,division_by_zero}"
|
|
18649
bb99c2e705ca
tidied, and added missing thm divide_less_eq_1_neg
paulson
parents:
18623
diff
changeset
|
1956 |
shows "a < 0 \<Longrightarrow> (1 < b/a) = (b < a)" |
|
16775
c1b87ef4a1c3
added lemmas to OrderedGroup.thy (reasoning about signs, absolute value, triangle inequalities)
avigad
parents:
16568
diff
changeset
|
1957 |
by (auto simp add: less_divide_eq) |
|
c1b87ef4a1c3
added lemmas to OrderedGroup.thy (reasoning about signs, absolute value, triangle inequalities)
avigad
parents:
16568
diff
changeset
|
1958 |
|
|
24286
7619080e49f0
ATP blacklisting is now in theory data, attribute noatp
paulson
parents:
23879
diff
changeset
|
1959 |
lemma divide_less_eq_1_pos [simp,noatp]: |
|
16775
c1b87ef4a1c3
added lemmas to OrderedGroup.thy (reasoning about signs, absolute value, triangle inequalities)
avigad
parents:
16568
diff
changeset
|
1960 |
fixes a :: "'a :: {ordered_field,division_by_zero}"
|
|
18649
bb99c2e705ca
tidied, and added missing thm divide_less_eq_1_neg
paulson
parents:
18623
diff
changeset
|
1961 |
shows "0 < a \<Longrightarrow> (b/a < 1) = (b < a)" |
|
bb99c2e705ca
tidied, and added missing thm divide_less_eq_1_neg
paulson
parents:
18623
diff
changeset
|
1962 |
by (auto simp add: divide_less_eq) |
|
bb99c2e705ca
tidied, and added missing thm divide_less_eq_1_neg
paulson
parents:
18623
diff
changeset
|
1963 |
|
|
24286
7619080e49f0
ATP blacklisting is now in theory data, attribute noatp
paulson
parents:
23879
diff
changeset
|
1964 |
lemma divide_less_eq_1_neg [simp,noatp]: |
|
18649
bb99c2e705ca
tidied, and added missing thm divide_less_eq_1_neg
paulson
parents:
18623
diff
changeset
|
1965 |
fixes a :: "'a :: {ordered_field,division_by_zero}"
|
|
bb99c2e705ca
tidied, and added missing thm divide_less_eq_1_neg
paulson
parents:
18623
diff
changeset
|
1966 |
shows "a < 0 \<Longrightarrow> b/a < 1 <-> a < b" |
|
16775
c1b87ef4a1c3
added lemmas to OrderedGroup.thy (reasoning about signs, absolute value, triangle inequalities)
avigad
parents:
16568
diff
changeset
|
1967 |
by (auto simp add: divide_less_eq) |
|
c1b87ef4a1c3
added lemmas to OrderedGroup.thy (reasoning about signs, absolute value, triangle inequalities)
avigad
parents:
16568
diff
changeset
|
1968 |
|
|
24286
7619080e49f0
ATP blacklisting is now in theory data, attribute noatp
paulson
parents:
23879
diff
changeset
|
1969 |
lemma eq_divide_eq_1 [simp,noatp]: |
|
16775
c1b87ef4a1c3
added lemmas to OrderedGroup.thy (reasoning about signs, absolute value, triangle inequalities)
avigad
parents:
16568
diff
changeset
|
1970 |
fixes a :: "'a :: {ordered_field,division_by_zero}"
|
|
18649
bb99c2e705ca
tidied, and added missing thm divide_less_eq_1_neg
paulson
parents:
18623
diff
changeset
|
1971 |
shows "(1 = b/a) = ((a \<noteq> 0 & a = b))" |
|
16775
c1b87ef4a1c3
added lemmas to OrderedGroup.thy (reasoning about signs, absolute value, triangle inequalities)
avigad
parents:
16568
diff
changeset
|
1972 |
by (auto simp add: eq_divide_eq) |
|
c1b87ef4a1c3
added lemmas to OrderedGroup.thy (reasoning about signs, absolute value, triangle inequalities)
avigad
parents:
16568
diff
changeset
|
1973 |
|
|
24286
7619080e49f0
ATP blacklisting is now in theory data, attribute noatp
paulson
parents:
23879
diff
changeset
|
1974 |
lemma divide_eq_eq_1 [simp,noatp]: |
|
16775
c1b87ef4a1c3
added lemmas to OrderedGroup.thy (reasoning about signs, absolute value, triangle inequalities)
avigad
parents:
16568
diff
changeset
|
1975 |
fixes a :: "'a :: {ordered_field,division_by_zero}"
|
|
18649
bb99c2e705ca
tidied, and added missing thm divide_less_eq_1_neg
paulson
parents:
18623
diff
changeset
|
1976 |
shows "(b/a = 1) = ((a \<noteq> 0 & a = b))" |
|
16775
c1b87ef4a1c3
added lemmas to OrderedGroup.thy (reasoning about signs, absolute value, triangle inequalities)
avigad
parents:
16568
diff
changeset
|
1977 |
by (auto simp add: divide_eq_eq) |
|
c1b87ef4a1c3
added lemmas to OrderedGroup.thy (reasoning about signs, absolute value, triangle inequalities)
avigad
parents:
16568
diff
changeset
|
1978 |
|
| 23389 | 1979 |
|
|
16775
c1b87ef4a1c3
added lemmas to OrderedGroup.thy (reasoning about signs, absolute value, triangle inequalities)
avigad
parents:
16568
diff
changeset
|
1980 |
subsection {* Reasoning about inequalities with division *}
|
|
c1b87ef4a1c3
added lemmas to OrderedGroup.thy (reasoning about signs, absolute value, triangle inequalities)
avigad
parents:
16568
diff
changeset
|
1981 |
|
|
c1b87ef4a1c3
added lemmas to OrderedGroup.thy (reasoning about signs, absolute value, triangle inequalities)
avigad
parents:
16568
diff
changeset
|
1982 |
lemma mult_right_le_one_le: "0 <= (x::'a::ordered_idom) ==> 0 <= y ==> y <= 1 |
|
c1b87ef4a1c3
added lemmas to OrderedGroup.thy (reasoning about signs, absolute value, triangle inequalities)
avigad
parents:
16568
diff
changeset
|
1983 |
==> x * y <= x" |
|
c1b87ef4a1c3
added lemmas to OrderedGroup.thy (reasoning about signs, absolute value, triangle inequalities)
avigad
parents:
16568
diff
changeset
|
1984 |
by (auto simp add: mult_compare_simps); |
|
c1b87ef4a1c3
added lemmas to OrderedGroup.thy (reasoning about signs, absolute value, triangle inequalities)
avigad
parents:
16568
diff
changeset
|
1985 |
|
|
c1b87ef4a1c3
added lemmas to OrderedGroup.thy (reasoning about signs, absolute value, triangle inequalities)
avigad
parents:
16568
diff
changeset
|
1986 |
lemma mult_left_le_one_le: "0 <= (x::'a::ordered_idom) ==> 0 <= y ==> y <= 1 |
|
c1b87ef4a1c3
added lemmas to OrderedGroup.thy (reasoning about signs, absolute value, triangle inequalities)
avigad
parents:
16568
diff
changeset
|
1987 |
==> y * x <= x" |
|
c1b87ef4a1c3
added lemmas to OrderedGroup.thy (reasoning about signs, absolute value, triangle inequalities)
avigad
parents:
16568
diff
changeset
|
1988 |
by (auto simp add: mult_compare_simps); |
|
c1b87ef4a1c3
added lemmas to OrderedGroup.thy (reasoning about signs, absolute value, triangle inequalities)
avigad
parents:
16568
diff
changeset
|
1989 |
|
|
c1b87ef4a1c3
added lemmas to OrderedGroup.thy (reasoning about signs, absolute value, triangle inequalities)
avigad
parents:
16568
diff
changeset
|
1990 |
lemma mult_imp_div_pos_le: "0 < (y::'a::ordered_field) ==> x <= z * y ==> |
|
c1b87ef4a1c3
added lemmas to OrderedGroup.thy (reasoning about signs, absolute value, triangle inequalities)
avigad
parents:
16568
diff
changeset
|
1991 |
x / y <= z"; |
|
c1b87ef4a1c3
added lemmas to OrderedGroup.thy (reasoning about signs, absolute value, triangle inequalities)
avigad
parents:
16568
diff
changeset
|
1992 |
by (subst pos_divide_le_eq, assumption+); |
|
c1b87ef4a1c3
added lemmas to OrderedGroup.thy (reasoning about signs, absolute value, triangle inequalities)
avigad
parents:
16568
diff
changeset
|
1993 |
|
|
c1b87ef4a1c3
added lemmas to OrderedGroup.thy (reasoning about signs, absolute value, triangle inequalities)
avigad
parents:
16568
diff
changeset
|
1994 |
lemma mult_imp_le_div_pos: "0 < (y::'a::ordered_field) ==> z * y <= x ==> |
| 23482 | 1995 |
z <= x / y" |
1996 |
by(simp add:field_simps) |
|
|
16775
c1b87ef4a1c3
added lemmas to OrderedGroup.thy (reasoning about signs, absolute value, triangle inequalities)
avigad
parents:
16568
diff
changeset
|
1997 |
|
|
c1b87ef4a1c3
added lemmas to OrderedGroup.thy (reasoning about signs, absolute value, triangle inequalities)
avigad
parents:
16568
diff
changeset
|
1998 |
lemma mult_imp_div_pos_less: "0 < (y::'a::ordered_field) ==> x < z * y ==> |
|
c1b87ef4a1c3
added lemmas to OrderedGroup.thy (reasoning about signs, absolute value, triangle inequalities)
avigad
parents:
16568
diff
changeset
|
1999 |
x / y < z" |
| 23482 | 2000 |
by(simp add:field_simps) |
|
16775
c1b87ef4a1c3
added lemmas to OrderedGroup.thy (reasoning about signs, absolute value, triangle inequalities)
avigad
parents:
16568
diff
changeset
|
2001 |
|
|
c1b87ef4a1c3
added lemmas to OrderedGroup.thy (reasoning about signs, absolute value, triangle inequalities)
avigad
parents:
16568
diff
changeset
|
2002 |
lemma mult_imp_less_div_pos: "0 < (y::'a::ordered_field) ==> z * y < x ==> |
|
c1b87ef4a1c3
added lemmas to OrderedGroup.thy (reasoning about signs, absolute value, triangle inequalities)
avigad
parents:
16568
diff
changeset
|
2003 |
z < x / y" |
| 23482 | 2004 |
by(simp add:field_simps) |
|
16775
c1b87ef4a1c3
added lemmas to OrderedGroup.thy (reasoning about signs, absolute value, triangle inequalities)
avigad
parents:
16568
diff
changeset
|
2005 |
|
|
c1b87ef4a1c3
added lemmas to OrderedGroup.thy (reasoning about signs, absolute value, triangle inequalities)
avigad
parents:
16568
diff
changeset
|
2006 |
lemma frac_le: "(0::'a::ordered_field) <= x ==> |
|
c1b87ef4a1c3
added lemmas to OrderedGroup.thy (reasoning about signs, absolute value, triangle inequalities)
avigad
parents:
16568
diff
changeset
|
2007 |
x <= y ==> 0 < w ==> w <= z ==> x / z <= y / w" |
|
c1b87ef4a1c3
added lemmas to OrderedGroup.thy (reasoning about signs, absolute value, triangle inequalities)
avigad
parents:
16568
diff
changeset
|
2008 |
apply (rule mult_imp_div_pos_le) |
| 25230 | 2009 |
apply simp |
2010 |
apply (subst times_divide_eq_left) |
|
|
16775
c1b87ef4a1c3
added lemmas to OrderedGroup.thy (reasoning about signs, absolute value, triangle inequalities)
avigad
parents:
16568
diff
changeset
|
2011 |
apply (rule mult_imp_le_div_pos, assumption) |
|
c1b87ef4a1c3
added lemmas to OrderedGroup.thy (reasoning about signs, absolute value, triangle inequalities)
avigad
parents:
16568
diff
changeset
|
2012 |
apply (rule mult_mono) |
|
c1b87ef4a1c3
added lemmas to OrderedGroup.thy (reasoning about signs, absolute value, triangle inequalities)
avigad
parents:
16568
diff
changeset
|
2013 |
apply simp_all |
| 14293 | 2014 |
done |
2015 |
||
|
16775
c1b87ef4a1c3
added lemmas to OrderedGroup.thy (reasoning about signs, absolute value, triangle inequalities)
avigad
parents:
16568
diff
changeset
|
2016 |
lemma frac_less: "(0::'a::ordered_field) <= x ==> |
|
c1b87ef4a1c3
added lemmas to OrderedGroup.thy (reasoning about signs, absolute value, triangle inequalities)
avigad
parents:
16568
diff
changeset
|
2017 |
x < y ==> 0 < w ==> w <= z ==> x / z < y / w" |
|
c1b87ef4a1c3
added lemmas to OrderedGroup.thy (reasoning about signs, absolute value, triangle inequalities)
avigad
parents:
16568
diff
changeset
|
2018 |
apply (rule mult_imp_div_pos_less) |
|
c1b87ef4a1c3
added lemmas to OrderedGroup.thy (reasoning about signs, absolute value, triangle inequalities)
avigad
parents:
16568
diff
changeset
|
2019 |
apply simp; |
|
c1b87ef4a1c3
added lemmas to OrderedGroup.thy (reasoning about signs, absolute value, triangle inequalities)
avigad
parents:
16568
diff
changeset
|
2020 |
apply (subst times_divide_eq_left); |
|
c1b87ef4a1c3
added lemmas to OrderedGroup.thy (reasoning about signs, absolute value, triangle inequalities)
avigad
parents:
16568
diff
changeset
|
2021 |
apply (rule mult_imp_less_div_pos, assumption) |
|
c1b87ef4a1c3
added lemmas to OrderedGroup.thy (reasoning about signs, absolute value, triangle inequalities)
avigad
parents:
16568
diff
changeset
|
2022 |
apply (erule mult_less_le_imp_less) |
|
c1b87ef4a1c3
added lemmas to OrderedGroup.thy (reasoning about signs, absolute value, triangle inequalities)
avigad
parents:
16568
diff
changeset
|
2023 |
apply simp_all |
|
c1b87ef4a1c3
added lemmas to OrderedGroup.thy (reasoning about signs, absolute value, triangle inequalities)
avigad
parents:
16568
diff
changeset
|
2024 |
done |
|
c1b87ef4a1c3
added lemmas to OrderedGroup.thy (reasoning about signs, absolute value, triangle inequalities)
avigad
parents:
16568
diff
changeset
|
2025 |
|
|
c1b87ef4a1c3
added lemmas to OrderedGroup.thy (reasoning about signs, absolute value, triangle inequalities)
avigad
parents:
16568
diff
changeset
|
2026 |
lemma frac_less2: "(0::'a::ordered_field) < x ==> |
|
c1b87ef4a1c3
added lemmas to OrderedGroup.thy (reasoning about signs, absolute value, triangle inequalities)
avigad
parents:
16568
diff
changeset
|
2027 |
x <= y ==> 0 < w ==> w < z ==> x / z < y / w" |
|
c1b87ef4a1c3
added lemmas to OrderedGroup.thy (reasoning about signs, absolute value, triangle inequalities)
avigad
parents:
16568
diff
changeset
|
2028 |
apply (rule mult_imp_div_pos_less) |
|
c1b87ef4a1c3
added lemmas to OrderedGroup.thy (reasoning about signs, absolute value, triangle inequalities)
avigad
parents:
16568
diff
changeset
|
2029 |
apply simp_all |
|
c1b87ef4a1c3
added lemmas to OrderedGroup.thy (reasoning about signs, absolute value, triangle inequalities)
avigad
parents:
16568
diff
changeset
|
2030 |
apply (subst times_divide_eq_left); |
|
c1b87ef4a1c3
added lemmas to OrderedGroup.thy (reasoning about signs, absolute value, triangle inequalities)
avigad
parents:
16568
diff
changeset
|
2031 |
apply (rule mult_imp_less_div_pos, assumption) |
|
c1b87ef4a1c3
added lemmas to OrderedGroup.thy (reasoning about signs, absolute value, triangle inequalities)
avigad
parents:
16568
diff
changeset
|
2032 |
apply (erule mult_le_less_imp_less) |
|
c1b87ef4a1c3
added lemmas to OrderedGroup.thy (reasoning about signs, absolute value, triangle inequalities)
avigad
parents:
16568
diff
changeset
|
2033 |
apply simp_all |
|
c1b87ef4a1c3
added lemmas to OrderedGroup.thy (reasoning about signs, absolute value, triangle inequalities)
avigad
parents:
16568
diff
changeset
|
2034 |
done |
|
c1b87ef4a1c3
added lemmas to OrderedGroup.thy (reasoning about signs, absolute value, triangle inequalities)
avigad
parents:
16568
diff
changeset
|
2035 |
|
|
c1b87ef4a1c3
added lemmas to OrderedGroup.thy (reasoning about signs, absolute value, triangle inequalities)
avigad
parents:
16568
diff
changeset
|
2036 |
text{*It's not obvious whether these should be simprules or not.
|
|
c1b87ef4a1c3
added lemmas to OrderedGroup.thy (reasoning about signs, absolute value, triangle inequalities)
avigad
parents:
16568
diff
changeset
|
2037 |
Their effect is to gather terms into one big fraction, like |
|
c1b87ef4a1c3
added lemmas to OrderedGroup.thy (reasoning about signs, absolute value, triangle inequalities)
avigad
parents:
16568
diff
changeset
|
2038 |
a*b*c / x*y*z. The rationale for that is unclear, but many proofs |
|
c1b87ef4a1c3
added lemmas to OrderedGroup.thy (reasoning about signs, absolute value, triangle inequalities)
avigad
parents:
16568
diff
changeset
|
2039 |
seem to need them.*} |
|
c1b87ef4a1c3
added lemmas to OrderedGroup.thy (reasoning about signs, absolute value, triangle inequalities)
avigad
parents:
16568
diff
changeset
|
2040 |
|
|
c1b87ef4a1c3
added lemmas to OrderedGroup.thy (reasoning about signs, absolute value, triangle inequalities)
avigad
parents:
16568
diff
changeset
|
2041 |
declare times_divide_eq [simp] |
| 14293 | 2042 |
|
| 23389 | 2043 |
|
| 14293 | 2044 |
subsection {* Ordered Fields are Dense *}
|
2045 |
||
| 25193 | 2046 |
context ordered_semidom |
2047 |
begin |
|
2048 |
||
2049 |
lemma less_add_one: "a < a + 1" |
|
| 14293 | 2050 |
proof - |
| 25193 | 2051 |
have "a + 0 < a + 1" |
| 23482 | 2052 |
by (blast intro: zero_less_one add_strict_left_mono) |
| 14293 | 2053 |
thus ?thesis by simp |
2054 |
qed |
|
2055 |
||
| 25193 | 2056 |
lemma zero_less_two: "0 < 1 + 1" |
2057 |
by (blast intro: less_trans zero_less_one less_add_one) |
|
2058 |
||
2059 |
end |
|
|
14365
3d4df8c166ae
replacing HOL/Real/PRat, PNat by the rational number development
paulson
parents:
14353
diff
changeset
|
2060 |
|
| 14293 | 2061 |
lemma less_half_sum: "a < b ==> a < (a+b) / (1+1::'a::ordered_field)" |
| 23482 | 2062 |
by (simp add: field_simps zero_less_two) |
| 14293 | 2063 |
|
2064 |
lemma gt_half_sum: "a < b ==> (a+b)/(1+1::'a::ordered_field) < b" |
|
| 23482 | 2065 |
by (simp add: field_simps zero_less_two) |
| 14293 | 2066 |
|
| 24422 | 2067 |
instance ordered_field < dense_linear_order |
2068 |
proof |
|
2069 |
fix x y :: 'a |
|
2070 |
have "x < x + 1" by simp |
|
2071 |
then show "\<exists>y. x < y" .. |
|
2072 |
have "x - 1 < x" by simp |
|
2073 |
then show "\<exists>y. y < x" .. |
|
2074 |
show "x < y \<Longrightarrow> \<exists>z>x. z < y" by (blast intro!: less_half_sum gt_half_sum) |
|
2075 |
qed |
|
| 14293 | 2076 |
|
|
15234
ec91a90c604e
simplification tweaks for better arithmetic reasoning
paulson
parents:
15229
diff
changeset
|
2077 |
|
| 14293 | 2078 |
subsection {* Absolute Value *}
|
2079 |
||
|
25304
7491c00f0915
removed subclass edge ordered_ring < lordered_ring
haftmann
parents:
25267
diff
changeset
|
2080 |
context ordered_idom |
|
7491c00f0915
removed subclass edge ordered_ring < lordered_ring
haftmann
parents:
25267
diff
changeset
|
2081 |
begin |
|
7491c00f0915
removed subclass edge ordered_ring < lordered_ring
haftmann
parents:
25267
diff
changeset
|
2082 |
|
|
7491c00f0915
removed subclass edge ordered_ring < lordered_ring
haftmann
parents:
25267
diff
changeset
|
2083 |
lemma mult_sgn_abs: "sgn x * abs x = x" |
|
7491c00f0915
removed subclass edge ordered_ring < lordered_ring
haftmann
parents:
25267
diff
changeset
|
2084 |
unfolding abs_if sgn_if by auto |
|
7491c00f0915
removed subclass edge ordered_ring < lordered_ring
haftmann
parents:
25267
diff
changeset
|
2085 |
|
|
7491c00f0915
removed subclass edge ordered_ring < lordered_ring
haftmann
parents:
25267
diff
changeset
|
2086 |
end |
| 24491 | 2087 |
|
| 14738 | 2088 |
lemma abs_one [simp]: "abs 1 = (1::'a::ordered_idom)" |
|
25304
7491c00f0915
removed subclass edge ordered_ring < lordered_ring
haftmann
parents:
25267
diff
changeset
|
2089 |
by (simp add: abs_if zero_less_one [THEN order_less_not_sym]) |
|
7491c00f0915
removed subclass edge ordered_ring < lordered_ring
haftmann
parents:
25267
diff
changeset
|
2090 |
|
|
7491c00f0915
removed subclass edge ordered_ring < lordered_ring
haftmann
parents:
25267
diff
changeset
|
2091 |
class pordered_ring_abs = pordered_ring + pordered_ab_group_add_abs + |
|
7491c00f0915
removed subclass edge ordered_ring < lordered_ring
haftmann
parents:
25267
diff
changeset
|
2092 |
assumes abs_eq_mult: |
|
7491c00f0915
removed subclass edge ordered_ring < lordered_ring
haftmann
parents:
25267
diff
changeset
|
2093 |
"(0 \<le> a \<or> a \<le> 0) \<and> (0 \<le> b \<or> b \<le> 0) \<Longrightarrow> \<bar>a * b\<bar> = \<bar>a\<bar> * \<bar>b\<bar>" |
|
7491c00f0915
removed subclass edge ordered_ring < lordered_ring
haftmann
parents:
25267
diff
changeset
|
2094 |
|
|
7491c00f0915
removed subclass edge ordered_ring < lordered_ring
haftmann
parents:
25267
diff
changeset
|
2095 |
|
|
7491c00f0915
removed subclass edge ordered_ring < lordered_ring
haftmann
parents:
25267
diff
changeset
|
2096 |
class lordered_ring = pordered_ring + lordered_ab_group_add_abs |
|
7491c00f0915
removed subclass edge ordered_ring < lordered_ring
haftmann
parents:
25267
diff
changeset
|
2097 |
begin |
|
7491c00f0915
removed subclass edge ordered_ring < lordered_ring
haftmann
parents:
25267
diff
changeset
|
2098 |
|
| 27516 | 2099 |
subclass lordered_ab_group_add_meet .. |
2100 |
subclass lordered_ab_group_add_join .. |
|
|
25304
7491c00f0915
removed subclass edge ordered_ring < lordered_ring
haftmann
parents:
25267
diff
changeset
|
2101 |
|
|
7491c00f0915
removed subclass edge ordered_ring < lordered_ring
haftmann
parents:
25267
diff
changeset
|
2102 |
end |
|
14294
f4d806fd72ce
absolute value theorems moved to HOL/Ring_and_Field
paulson
parents:
14293
diff
changeset
|
2103 |
|
| 14738 | 2104 |
lemma abs_le_mult: "abs (a * b) \<le> (abs a) * (abs (b::'a::lordered_ring))" |
2105 |
proof - |
|
2106 |
let ?x = "pprt a * pprt b - pprt a * nprt b - nprt a * pprt b + nprt a * nprt b" |
|
2107 |
let ?y = "pprt a * pprt b + pprt a * nprt b + nprt a * pprt b + nprt a * nprt b" |
|
2108 |
have a: "(abs a) * (abs b) = ?x" |
|
|
23477
f4b83f03cac9
tuned and renamed group_eq_simps and ring_eq_simps
nipkow
parents:
23413
diff
changeset
|
2109 |
by (simp only: abs_prts[of a] abs_prts[of b] ring_simps) |
| 14738 | 2110 |
{
|
2111 |
fix u v :: 'a |
|
| 15481 | 2112 |
have bh: "\<lbrakk>u = a; v = b\<rbrakk> \<Longrightarrow> |
2113 |
u * v = pprt a * pprt b + pprt a * nprt b + |
|
2114 |
nprt a * pprt b + nprt a * nprt b" |
|
| 14738 | 2115 |
apply (subst prts[of u], subst prts[of v]) |
|
23477
f4b83f03cac9
tuned and renamed group_eq_simps and ring_eq_simps
nipkow
parents:
23413
diff
changeset
|
2116 |
apply (simp add: ring_simps) |
| 14738 | 2117 |
done |
2118 |
} |
|
2119 |
note b = this[OF refl[of a] refl[of b]] |
|
2120 |
note addm = add_mono[of "0::'a" _ "0::'a", simplified] |
|
2121 |
note addm2 = add_mono[of _ "0::'a" _ "0::'a", simplified] |
|
2122 |
have xy: "- ?x <= ?y" |
|
|
14754
a080eeeaec14
Modification / Installation of Provers/Arith/abel_cancel.ML for OrderedGroup.thy
obua
parents:
14738
diff
changeset
|
2123 |
apply (simp) |
|
a080eeeaec14
Modification / Installation of Provers/Arith/abel_cancel.ML for OrderedGroup.thy
obua
parents:
14738
diff
changeset
|
2124 |
apply (rule_tac y="0::'a" in order_trans) |
| 16568 | 2125 |
apply (rule addm2) |
|
16775
c1b87ef4a1c3
added lemmas to OrderedGroup.thy (reasoning about signs, absolute value, triangle inequalities)
avigad
parents:
16568
diff
changeset
|
2126 |
apply (simp_all add: mult_nonneg_nonneg mult_nonpos_nonpos) |
| 16568 | 2127 |
apply (rule addm) |
|
16775
c1b87ef4a1c3
added lemmas to OrderedGroup.thy (reasoning about signs, absolute value, triangle inequalities)
avigad
parents:
16568
diff
changeset
|
2128 |
apply (simp_all add: mult_nonneg_nonneg mult_nonpos_nonpos) |
|
14754
a080eeeaec14
Modification / Installation of Provers/Arith/abel_cancel.ML for OrderedGroup.thy
obua
parents:
14738
diff
changeset
|
2129 |
done |
| 14738 | 2130 |
have yx: "?y <= ?x" |
| 16568 | 2131 |
apply (simp add:diff_def) |
|
14754
a080eeeaec14
Modification / Installation of Provers/Arith/abel_cancel.ML for OrderedGroup.thy
obua
parents:
14738
diff
changeset
|
2132 |
apply (rule_tac y=0 in order_trans) |
|
16775
c1b87ef4a1c3
added lemmas to OrderedGroup.thy (reasoning about signs, absolute value, triangle inequalities)
avigad
parents:
16568
diff
changeset
|
2133 |
apply (rule addm2, (simp add: mult_nonneg_nonpos mult_nonneg_nonpos2)+) |
|
c1b87ef4a1c3
added lemmas to OrderedGroup.thy (reasoning about signs, absolute value, triangle inequalities)
avigad
parents:
16568
diff
changeset
|
2134 |
apply (rule addm, (simp add: mult_nonneg_nonpos mult_nonneg_nonpos2)+) |
| 14738 | 2135 |
done |
2136 |
have i1: "a*b <= abs a * abs b" by (simp only: a b yx) |
|
2137 |
have i2: "- (abs a * abs b) <= a*b" by (simp only: a b xy) |
|
2138 |
show ?thesis |
|
2139 |
apply (rule abs_leI) |
|
2140 |
apply (simp add: i1) |
|
2141 |
apply (simp add: i2[simplified minus_le_iff]) |
|
2142 |
done |
|
2143 |
qed |
|
|
14294
f4d806fd72ce
absolute value theorems moved to HOL/Ring_and_Field
paulson
parents:
14293
diff
changeset
|
2144 |
|
|
25304
7491c00f0915
removed subclass edge ordered_ring < lordered_ring
haftmann
parents:
25267
diff
changeset
|
2145 |
instance lordered_ring \<subseteq> pordered_ring_abs |
|
7491c00f0915
removed subclass edge ordered_ring < lordered_ring
haftmann
parents:
25267
diff
changeset
|
2146 |
proof |
|
7491c00f0915
removed subclass edge ordered_ring < lordered_ring
haftmann
parents:
25267
diff
changeset
|
2147 |
fix a b :: "'a\<Colon> lordered_ring" |
|
7491c00f0915
removed subclass edge ordered_ring < lordered_ring
haftmann
parents:
25267
diff
changeset
|
2148 |
assume "(0 \<le> a \<or> a \<le> 0) \<and> (0 \<le> b \<or> b \<le> 0)" |
|
7491c00f0915
removed subclass edge ordered_ring < lordered_ring
haftmann
parents:
25267
diff
changeset
|
2149 |
show "abs (a*b) = abs a * abs b" |
| 14738 | 2150 |
proof - |
2151 |
have s: "(0 <= a*b) | (a*b <= 0)" |
|
2152 |
apply (auto) |
|
2153 |
apply (rule_tac split_mult_pos_le) |
|
2154 |
apply (rule_tac contrapos_np[of "a*b <= 0"]) |
|
2155 |
apply (simp) |
|
2156 |
apply (rule_tac split_mult_neg_le) |
|
2157 |
apply (insert prems) |
|
2158 |
apply (blast) |
|
2159 |
done |
|
2160 |
have mulprts: "a * b = (pprt a + nprt a) * (pprt b + nprt b)" |
|
2161 |
by (simp add: prts[symmetric]) |
|
2162 |
show ?thesis |
|
2163 |
proof cases |
|
2164 |
assume "0 <= a * b" |
|
2165 |
then show ?thesis |
|
2166 |
apply (simp_all add: mulprts abs_prts) |
|
2167 |
apply (insert prems) |
|
|
14754
a080eeeaec14
Modification / Installation of Provers/Arith/abel_cancel.ML for OrderedGroup.thy
obua
parents:
14738
diff
changeset
|
2168 |
apply (auto simp add: |
|
23477
f4b83f03cac9
tuned and renamed group_eq_simps and ring_eq_simps
nipkow
parents:
23413
diff
changeset
|
2169 |
ring_simps |
| 25078 | 2170 |
iffD1[OF zero_le_iff_zero_nprt] iffD1[OF le_zero_iff_zero_pprt] |
2171 |
iffD1[OF le_zero_iff_pprt_id] iffD1[OF zero_le_iff_nprt_id]) |
|
|
16775
c1b87ef4a1c3
added lemmas to OrderedGroup.thy (reasoning about signs, absolute value, triangle inequalities)
avigad
parents:
16568
diff
changeset
|
2172 |
apply(drule (1) mult_nonneg_nonpos[of a b], simp) |
|
c1b87ef4a1c3
added lemmas to OrderedGroup.thy (reasoning about signs, absolute value, triangle inequalities)
avigad
parents:
16568
diff
changeset
|
2173 |
apply(drule (1) mult_nonneg_nonpos2[of b a], simp) |
| 14738 | 2174 |
done |
2175 |
next |
|
2176 |
assume "~(0 <= a*b)" |
|
2177 |
with s have "a*b <= 0" by simp |
|
2178 |
then show ?thesis |
|
2179 |
apply (simp_all add: mulprts abs_prts) |
|
2180 |
apply (insert prems) |
|
|
23477
f4b83f03cac9
tuned and renamed group_eq_simps and ring_eq_simps
nipkow
parents:
23413
diff
changeset
|
2181 |
apply (auto simp add: ring_simps) |
|
16775
c1b87ef4a1c3
added lemmas to OrderedGroup.thy (reasoning about signs, absolute value, triangle inequalities)
avigad
parents:
16568
diff
changeset
|
2182 |
apply(drule (1) mult_nonneg_nonneg[of a b],simp) |
|
c1b87ef4a1c3
added lemmas to OrderedGroup.thy (reasoning about signs, absolute value, triangle inequalities)
avigad
parents:
16568
diff
changeset
|
2183 |
apply(drule (1) mult_nonpos_nonpos[of a b],simp) |
| 14738 | 2184 |
done |
2185 |
qed |
|
2186 |
qed |
|
|
25304
7491c00f0915
removed subclass edge ordered_ring < lordered_ring
haftmann
parents:
25267
diff
changeset
|
2187 |
qed |
|
7491c00f0915
removed subclass edge ordered_ring < lordered_ring
haftmann
parents:
25267
diff
changeset
|
2188 |
|
|
7491c00f0915
removed subclass edge ordered_ring < lordered_ring
haftmann
parents:
25267
diff
changeset
|
2189 |
instance ordered_idom \<subseteq> pordered_ring_abs |
|
7491c00f0915
removed subclass edge ordered_ring < lordered_ring
haftmann
parents:
25267
diff
changeset
|
2190 |
by default (auto simp add: abs_if not_less |
|
7491c00f0915
removed subclass edge ordered_ring < lordered_ring
haftmann
parents:
25267
diff
changeset
|
2191 |
equal_neg_zero neg_equal_zero mult_less_0_iff) |
|
14294
f4d806fd72ce
absolute value theorems moved to HOL/Ring_and_Field
paulson
parents:
14293
diff
changeset
|
2192 |
|
| 14738 | 2193 |
lemma abs_mult: "abs (a * b) = abs a * abs (b::'a::ordered_idom)" |
|
25304
7491c00f0915
removed subclass edge ordered_ring < lordered_ring
haftmann
parents:
25267
diff
changeset
|
2194 |
by (simp add: abs_eq_mult linorder_linear) |
| 14293 | 2195 |
|
| 14738 | 2196 |
lemma abs_mult_self: "abs a * abs a = a * (a::'a::ordered_idom)" |
|
25304
7491c00f0915
removed subclass edge ordered_ring < lordered_ring
haftmann
parents:
25267
diff
changeset
|
2197 |
by (simp add: abs_if) |
|
14294
f4d806fd72ce
absolute value theorems moved to HOL/Ring_and_Field
paulson
parents:
14293
diff
changeset
|
2198 |
|
|
f4d806fd72ce
absolute value theorems moved to HOL/Ring_and_Field
paulson
parents:
14293
diff
changeset
|
2199 |
lemma nonzero_abs_inverse: |
|
f4d806fd72ce
absolute value theorems moved to HOL/Ring_and_Field
paulson
parents:
14293
diff
changeset
|
2200 |
"a \<noteq> 0 ==> abs (inverse (a::'a::ordered_field)) = inverse (abs a)" |
|
f4d806fd72ce
absolute value theorems moved to HOL/Ring_and_Field
paulson
parents:
14293
diff
changeset
|
2201 |
apply (auto simp add: linorder_neq_iff abs_if nonzero_inverse_minus_eq |
|
f4d806fd72ce
absolute value theorems moved to HOL/Ring_and_Field
paulson
parents:
14293
diff
changeset
|
2202 |
negative_imp_inverse_negative) |
|
f4d806fd72ce
absolute value theorems moved to HOL/Ring_and_Field
paulson
parents:
14293
diff
changeset
|
2203 |
apply (blast intro: positive_imp_inverse_positive elim: order_less_asym) |
|
f4d806fd72ce
absolute value theorems moved to HOL/Ring_and_Field
paulson
parents:
14293
diff
changeset
|
2204 |
done |
|
f4d806fd72ce
absolute value theorems moved to HOL/Ring_and_Field
paulson
parents:
14293
diff
changeset
|
2205 |
|
|
f4d806fd72ce
absolute value theorems moved to HOL/Ring_and_Field
paulson
parents:
14293
diff
changeset
|
2206 |
lemma abs_inverse [simp]: |
|
f4d806fd72ce
absolute value theorems moved to HOL/Ring_and_Field
paulson
parents:
14293
diff
changeset
|
2207 |
"abs (inverse (a::'a::{ordered_field,division_by_zero})) =
|
|
f4d806fd72ce
absolute value theorems moved to HOL/Ring_and_Field
paulson
parents:
14293
diff
changeset
|
2208 |
inverse (abs a)" |
| 21328 | 2209 |
apply (cases "a=0", simp) |
|
14294
f4d806fd72ce
absolute value theorems moved to HOL/Ring_and_Field
paulson
parents:
14293
diff
changeset
|
2210 |
apply (simp add: nonzero_abs_inverse) |
|
f4d806fd72ce
absolute value theorems moved to HOL/Ring_and_Field
paulson
parents:
14293
diff
changeset
|
2211 |
done |
|
f4d806fd72ce
absolute value theorems moved to HOL/Ring_and_Field
paulson
parents:
14293
diff
changeset
|
2212 |
|
|
f4d806fd72ce
absolute value theorems moved to HOL/Ring_and_Field
paulson
parents:
14293
diff
changeset
|
2213 |
lemma nonzero_abs_divide: |
|
f4d806fd72ce
absolute value theorems moved to HOL/Ring_and_Field
paulson
parents:
14293
diff
changeset
|
2214 |
"b \<noteq> 0 ==> abs (a / (b::'a::ordered_field)) = abs a / abs b" |
|
f4d806fd72ce
absolute value theorems moved to HOL/Ring_and_Field
paulson
parents:
14293
diff
changeset
|
2215 |
by (simp add: divide_inverse abs_mult nonzero_abs_inverse) |
|
f4d806fd72ce
absolute value theorems moved to HOL/Ring_and_Field
paulson
parents:
14293
diff
changeset
|
2216 |
|
|
15234
ec91a90c604e
simplification tweaks for better arithmetic reasoning
paulson
parents:
15229
diff
changeset
|
2217 |
lemma abs_divide [simp]: |
|
14294
f4d806fd72ce
absolute value theorems moved to HOL/Ring_and_Field
paulson
parents:
14293
diff
changeset
|
2218 |
"abs (a / (b::'a::{ordered_field,division_by_zero})) = abs a / abs b"
|
| 21328 | 2219 |
apply (cases "b=0", simp) |
|
14294
f4d806fd72ce
absolute value theorems moved to HOL/Ring_and_Field
paulson
parents:
14293
diff
changeset
|
2220 |
apply (simp add: nonzero_abs_divide) |
|
f4d806fd72ce
absolute value theorems moved to HOL/Ring_and_Field
paulson
parents:
14293
diff
changeset
|
2221 |
done |
|
f4d806fd72ce
absolute value theorems moved to HOL/Ring_and_Field
paulson
parents:
14293
diff
changeset
|
2222 |
|
|
f4d806fd72ce
absolute value theorems moved to HOL/Ring_and_Field
paulson
parents:
14293
diff
changeset
|
2223 |
lemma abs_mult_less: |
| 14738 | 2224 |
"[| abs a < c; abs b < d |] ==> abs a * abs b < c*(d::'a::ordered_idom)" |
|
14294
f4d806fd72ce
absolute value theorems moved to HOL/Ring_and_Field
paulson
parents:
14293
diff
changeset
|
2225 |
proof - |
|
f4d806fd72ce
absolute value theorems moved to HOL/Ring_and_Field
paulson
parents:
14293
diff
changeset
|
2226 |
assume ac: "abs a < c" |
|
f4d806fd72ce
absolute value theorems moved to HOL/Ring_and_Field
paulson
parents:
14293
diff
changeset
|
2227 |
hence cpos: "0<c" by (blast intro: order_le_less_trans abs_ge_zero) |
|
f4d806fd72ce
absolute value theorems moved to HOL/Ring_and_Field
paulson
parents:
14293
diff
changeset
|
2228 |
assume "abs b < d" |
|
f4d806fd72ce
absolute value theorems moved to HOL/Ring_and_Field
paulson
parents:
14293
diff
changeset
|
2229 |
thus ?thesis by (simp add: ac cpos mult_strict_mono) |
|
f4d806fd72ce
absolute value theorems moved to HOL/Ring_and_Field
paulson
parents:
14293
diff
changeset
|
2230 |
qed |
| 14293 | 2231 |
|
|
25304
7491c00f0915
removed subclass edge ordered_ring < lordered_ring
haftmann
parents:
25267
diff
changeset
|
2232 |
lemmas eq_minus_self_iff = equal_neg_zero |
| 14738 | 2233 |
|
2234 |
lemma less_minus_self_iff: "(a < -a) = (a < (0::'a::ordered_idom))" |
|
|
25304
7491c00f0915
removed subclass edge ordered_ring < lordered_ring
haftmann
parents:
25267
diff
changeset
|
2235 |
unfolding order_less_le less_eq_neg_nonpos equal_neg_zero .. |
| 14738 | 2236 |
|
2237 |
lemma abs_less_iff: "(abs a < b) = (a < b & -a < (b::'a::ordered_idom))" |
|
2238 |
apply (simp add: order_less_le abs_le_iff) |
|
|
25304
7491c00f0915
removed subclass edge ordered_ring < lordered_ring
haftmann
parents:
25267
diff
changeset
|
2239 |
apply (auto simp add: abs_if neg_less_eq_nonneg less_eq_neg_nonpos) |
| 14738 | 2240 |
done |
2241 |
||
|
16775
c1b87ef4a1c3
added lemmas to OrderedGroup.thy (reasoning about signs, absolute value, triangle inequalities)
avigad
parents:
16568
diff
changeset
|
2242 |
lemma abs_mult_pos: "(0::'a::ordered_idom) <= x ==> |
|
25304
7491c00f0915
removed subclass edge ordered_ring < lordered_ring
haftmann
parents:
25267
diff
changeset
|
2243 |
(abs y) * x = abs (y * x)" |
|
7491c00f0915
removed subclass edge ordered_ring < lordered_ring
haftmann
parents:
25267
diff
changeset
|
2244 |
apply (subst abs_mult) |
|
7491c00f0915
removed subclass edge ordered_ring < lordered_ring
haftmann
parents:
25267
diff
changeset
|
2245 |
apply simp |
|
7491c00f0915
removed subclass edge ordered_ring < lordered_ring
haftmann
parents:
25267
diff
changeset
|
2246 |
done |
|
16775
c1b87ef4a1c3
added lemmas to OrderedGroup.thy (reasoning about signs, absolute value, triangle inequalities)
avigad
parents:
16568
diff
changeset
|
2247 |
|
|
c1b87ef4a1c3
added lemmas to OrderedGroup.thy (reasoning about signs, absolute value, triangle inequalities)
avigad
parents:
16568
diff
changeset
|
2248 |
lemma abs_div_pos: "(0::'a::{division_by_zero,ordered_field}) < y ==>
|
|
25304
7491c00f0915
removed subclass edge ordered_ring < lordered_ring
haftmann
parents:
25267
diff
changeset
|
2249 |
abs x / y = abs (x / y)" |
|
7491c00f0915
removed subclass edge ordered_ring < lordered_ring
haftmann
parents:
25267
diff
changeset
|
2250 |
apply (subst abs_divide) |
|
7491c00f0915
removed subclass edge ordered_ring < lordered_ring
haftmann
parents:
25267
diff
changeset
|
2251 |
apply (simp add: order_less_imp_le) |
|
7491c00f0915
removed subclass edge ordered_ring < lordered_ring
haftmann
parents:
25267
diff
changeset
|
2252 |
done |
|
16775
c1b87ef4a1c3
added lemmas to OrderedGroup.thy (reasoning about signs, absolute value, triangle inequalities)
avigad
parents:
16568
diff
changeset
|
2253 |
|
| 23389 | 2254 |
|
| 19404 | 2255 |
subsection {* Bounds of products via negative and positive Part *}
|
| 15178 | 2256 |
|
| 15580 | 2257 |
lemma mult_le_prts: |
2258 |
assumes |
|
2259 |
"a1 <= (a::'a::lordered_ring)" |
|
2260 |
"a <= a2" |
|
2261 |
"b1 <= b" |
|
2262 |
"b <= b2" |
|
2263 |
shows |
|
2264 |
"a * b <= pprt a2 * pprt b2 + pprt a1 * nprt b2 + nprt a2 * pprt b1 + nprt a1 * nprt b1" |
|
2265 |
proof - |
|
2266 |
have "a * b = (pprt a + nprt a) * (pprt b + nprt b)" |
|
2267 |
apply (subst prts[symmetric])+ |
|
2268 |
apply simp |
|
2269 |
done |
|
2270 |
then have "a * b = pprt a * pprt b + pprt a * nprt b + nprt a * pprt b + nprt a * nprt b" |
|
|
23477
f4b83f03cac9
tuned and renamed group_eq_simps and ring_eq_simps
nipkow
parents:
23413
diff
changeset
|
2271 |
by (simp add: ring_simps) |
| 15580 | 2272 |
moreover have "pprt a * pprt b <= pprt a2 * pprt b2" |
2273 |
by (simp_all add: prems mult_mono) |
|
2274 |
moreover have "pprt a * nprt b <= pprt a1 * nprt b2" |
|
2275 |
proof - |
|
2276 |
have "pprt a * nprt b <= pprt a * nprt b2" |
|
2277 |
by (simp add: mult_left_mono prems) |
|
2278 |
moreover have "pprt a * nprt b2 <= pprt a1 * nprt b2" |
|
2279 |
by (simp add: mult_right_mono_neg prems) |
|
2280 |
ultimately show ?thesis |
|
2281 |
by simp |
|
2282 |
qed |
|
2283 |
moreover have "nprt a * pprt b <= nprt a2 * pprt b1" |
|
2284 |
proof - |
|
2285 |
have "nprt a * pprt b <= nprt a2 * pprt b" |
|
2286 |
by (simp add: mult_right_mono prems) |
|
2287 |
moreover have "nprt a2 * pprt b <= nprt a2 * pprt b1" |
|
2288 |
by (simp add: mult_left_mono_neg prems) |
|
2289 |
ultimately show ?thesis |
|
2290 |
by simp |
|
2291 |
qed |
|
2292 |
moreover have "nprt a * nprt b <= nprt a1 * nprt b1" |
|
2293 |
proof - |
|
2294 |
have "nprt a * nprt b <= nprt a * nprt b1" |
|
2295 |
by (simp add: mult_left_mono_neg prems) |
|
2296 |
moreover have "nprt a * nprt b1 <= nprt a1 * nprt b1" |
|
2297 |
by (simp add: mult_right_mono_neg prems) |
|
2298 |
ultimately show ?thesis |
|
2299 |
by simp |
|
2300 |
qed |
|
2301 |
ultimately show ?thesis |
|
2302 |
by - (rule add_mono | simp)+ |
|
2303 |
qed |
|
| 19404 | 2304 |
|
2305 |
lemma mult_ge_prts: |
|
| 15178 | 2306 |
assumes |
| 19404 | 2307 |
"a1 <= (a::'a::lordered_ring)" |
2308 |
"a <= a2" |
|
2309 |
"b1 <= b" |
|
2310 |
"b <= b2" |
|
| 15178 | 2311 |
shows |
| 19404 | 2312 |
"a * b >= nprt a1 * pprt b2 + nprt a2 * nprt b2 + pprt a1 * pprt b1 + pprt a2 * nprt b1" |
2313 |
proof - |
|
2314 |
from prems have a1:"- a2 <= -a" by auto |
|
2315 |
from prems have a2: "-a <= -a1" by auto |
|
2316 |
from mult_le_prts[of "-a2" "-a" "-a1" "b1" b "b2", OF a1 a2 prems(3) prems(4), simplified nprt_neg pprt_neg] |
|
2317 |
have le: "- (a * b) <= - nprt a1 * pprt b2 + - nprt a2 * nprt b2 + - pprt a1 * pprt b1 + - pprt a2 * nprt b1" by simp |
|
2318 |
then have "-(- nprt a1 * pprt b2 + - nprt a2 * nprt b2 + - pprt a1 * pprt b1 + - pprt a2 * nprt b1) <= a * b" |
|
2319 |
by (simp only: minus_le_iff) |
|
2320 |
then show ?thesis by simp |
|
| 15178 | 2321 |
qed |
2322 |
||
|
14265
95b42e69436c
HOL: installation of Ring_and_Field as the basis for Naturals and Reals
paulson
parents:
diff
changeset
|
2323 |
end |