isabelle: src/HOL/Ring_and_Field.thy@ee97b6463cb4 (annotated)

14265 95b42e69436c HOL: installation of Ring_and_Field as the basis for Naturals and Reals paulson parents: diff changeset	1	(* Title: HOL/Ring_and_Field.thy
95b42e69436c HOL: installation of Ring_and_Field as the basis for Naturals and Reals paulson parents: diff changeset	2	ID: $Id$
95b42e69436c HOL: installation of Ring_and_Field as the basis for Naturals and Reals paulson parents: diff changeset	3	Author: Gertrud Bauer and Markus Wenzel, TU Muenchen
14269 502a7c95de73 conversion of some Real theories to Isar scripts paulson parents: 14268 diff changeset	4	Lawrence C Paulson, University of Cambridge
14265 95b42e69436c HOL: installation of Ring_and_Field as the basis for Naturals and Reals paulson parents: diff changeset	5	License: GPL (GNU GENERAL PUBLIC LICENSE)
95b42e69436c HOL: installation of Ring_and_Field as the basis for Naturals and Reals paulson parents: diff changeset	6	*)
95b42e69436c HOL: installation of Ring_and_Field as the basis for Naturals and Reals paulson parents: diff changeset	7
95b42e69436c HOL: installation of Ring_and_Field as the basis for Naturals and Reals paulson parents: diff changeset	8	header {*
95b42e69436c HOL: installation of Ring_and_Field as the basis for Naturals and Reals paulson parents: diff changeset	9	\title{Ring and field structures}
14353 79f9fbef9106 Added lemmas to Ring_and_Field with slightly modified simplification rules paulson parents: 14348 diff changeset	10	\author{Gertrud Bauer, L. C. Paulson and Markus Wenzel}
14265 95b42e69436c HOL: installation of Ring_and_Field as the basis for Naturals and Reals paulson parents: diff changeset	11	*}
95b42e69436c HOL: installation of Ring_and_Field as the basis for Naturals and Reals paulson parents: diff changeset	12
95b42e69436c HOL: installation of Ring_and_Field as the basis for Naturals and Reals paulson parents: diff changeset	13	theory Ring_and_Field = Inductive:
95b42e69436c HOL: installation of Ring_and_Field as the basis for Naturals and Reals paulson parents: diff changeset	14
95b42e69436c HOL: installation of Ring_and_Field as the basis for Naturals and Reals paulson parents: diff changeset	15	subsection {* Abstract algebraic structures *}
95b42e69436c HOL: installation of Ring_and_Field as the basis for Naturals and Reals paulson parents: diff changeset	16
14421 ee97b6463cb4 new Ring_and_Field hierarchy, eliminating redundant axioms paulson parents: 14398 diff changeset	17	text{This class underlies both @{text semiring} and @{text ring}}
ee97b6463cb4 new Ring_and_Field hierarchy, eliminating redundant axioms paulson parents: 14398 diff changeset	18	axclass almost_semiring \<subseteq> zero, one, plus, times
14265 95b42e69436c HOL: installation of Ring_and_Field as the basis for Naturals and Reals paulson parents: diff changeset	19	add_assoc: "(a + b) + c = a + (b + c)"
95b42e69436c HOL: installation of Ring_and_Field as the basis for Naturals and Reals paulson parents: diff changeset	20	add_commute: "a + b = b + a"
14288 d149e3cbdb39 Moving some theorems from Real/RealArith0.ML paulson parents: 14284 diff changeset	21	add_0 [simp]: "0 + a = a"
14265 95b42e69436c HOL: installation of Ring_and_Field as the basis for Naturals and Reals paulson parents: diff changeset	22	mult_assoc: "(a * b) * c = a * (b * c)"
95b42e69436c HOL: installation of Ring_and_Field as the basis for Naturals and Reals paulson parents: diff changeset	23	mult_commute: "a * b = b * a"
14267 b963e9cee2a0 More refinements to Ring_and_Field and numerics. Conversion of Divides_lemmas paulson parents: 14266 diff changeset	24	mult_1 [simp]: "1 * a = a"
14265 95b42e69436c HOL: installation of Ring_and_Field as the basis for Naturals and Reals paulson parents: diff changeset	25
95b42e69436c HOL: installation of Ring_and_Field as the basis for Naturals and Reals paulson parents: diff changeset	26	left_distrib: "(a + b) * c = a * c + b * c"
95b42e69436c HOL: installation of Ring_and_Field as the basis for Naturals and Reals paulson parents: diff changeset	27	zero_neq_one [simp]: "0 \<noteq> 1"
95b42e69436c HOL: installation of Ring_and_Field as the basis for Naturals and Reals paulson parents: diff changeset	28
14421 ee97b6463cb4 new Ring_and_Field hierarchy, eliminating redundant axioms paulson parents: 14398 diff changeset	29	axclass semiring \<subseteq> almost_semiring
ee97b6463cb4 new Ring_and_Field hierarchy, eliminating redundant axioms paulson parents: 14398 diff changeset	30	add_left_imp_eq: "a + b = a + c ==> b=c"
ee97b6463cb4 new Ring_and_Field hierarchy, eliminating redundant axioms paulson parents: 14398 diff changeset	31	--{*This axiom is needed for semirings only: for rings, etc., it is
ee97b6463cb4 new Ring_and_Field hierarchy, eliminating redundant axioms paulson parents: 14398 diff changeset	32	redundant. Including it allows many more of the following results
ee97b6463cb4 new Ring_and_Field hierarchy, eliminating redundant axioms paulson parents: 14398 diff changeset	33	to be proved for semirings too.*}
ee97b6463cb4 new Ring_and_Field hierarchy, eliminating redundant axioms paulson parents: 14398 diff changeset	34
ee97b6463cb4 new Ring_and_Field hierarchy, eliminating redundant axioms paulson parents: 14398 diff changeset	35	axclass ring \<subseteq> almost_semiring, minus
14265 95b42e69436c HOL: installation of Ring_and_Field as the basis for Naturals and Reals paulson parents: diff changeset	36	left_minus [simp]: "- a + a = 0"
95b42e69436c HOL: installation of Ring_and_Field as the basis for Naturals and Reals paulson parents: diff changeset	37	diff_minus: "a - b = a + (-b)"
95b42e69436c HOL: installation of Ring_and_Field as the basis for Naturals and Reals paulson parents: diff changeset	38
14421 ee97b6463cb4 new Ring_and_Field hierarchy, eliminating redundant axioms paulson parents: 14398 diff changeset	39	text{*Proving axiom @{text add_left_imp_eq} makes all @{text semiring}
ee97b6463cb4 new Ring_and_Field hierarchy, eliminating redundant axioms paulson parents: 14398 diff changeset	40	theorems available to members of @{term ring} *}
ee97b6463cb4 new Ring_and_Field hierarchy, eliminating redundant axioms paulson parents: 14398 diff changeset	41	instance ring \<subseteq> semiring
ee97b6463cb4 new Ring_and_Field hierarchy, eliminating redundant axioms paulson parents: 14398 diff changeset	42	proof
ee97b6463cb4 new Ring_and_Field hierarchy, eliminating redundant axioms paulson parents: 14398 diff changeset	43	fix a b c :: 'a
ee97b6463cb4 new Ring_and_Field hierarchy, eliminating redundant axioms paulson parents: 14398 diff changeset	44	assume "a + b = a + c"
ee97b6463cb4 new Ring_and_Field hierarchy, eliminating redundant axioms paulson parents: 14398 diff changeset	45	hence "-a + a + b = -a + a + c" by (simp only: add_assoc)
ee97b6463cb4 new Ring_and_Field hierarchy, eliminating redundant axioms paulson parents: 14398 diff changeset	46	thus "b = c" by simp
ee97b6463cb4 new Ring_and_Field hierarchy, eliminating redundant axioms paulson parents: 14398 diff changeset	47	qed
ee97b6463cb4 new Ring_and_Field hierarchy, eliminating redundant axioms paulson parents: 14398 diff changeset	48
ee97b6463cb4 new Ring_and_Field hierarchy, eliminating redundant axioms paulson parents: 14398 diff changeset	49	text{This class underlies @{text ordered_semiring} and @{text ordered_ring}}
ee97b6463cb4 new Ring_and_Field hierarchy, eliminating redundant axioms paulson parents: 14398 diff changeset	50	axclass almost_ordered_semiring \<subseteq> semiring, linorder
14265 95b42e69436c HOL: installation of Ring_and_Field as the basis for Naturals and Reals paulson parents: diff changeset	51	add_left_mono: "a \<le> b ==> c + a \<le> c + b"
95b42e69436c HOL: installation of Ring_and_Field as the basis for Naturals and Reals paulson parents: diff changeset	52	mult_strict_left_mono: "a < b ==> 0 < c ==> c * a < c * b"
95b42e69436c HOL: installation of Ring_and_Field as the basis for Naturals and Reals paulson parents: diff changeset	53
14421 ee97b6463cb4 new Ring_and_Field hierarchy, eliminating redundant axioms paulson parents: 14398 diff changeset	54	axclass ordered_semiring \<subseteq> almost_ordered_semiring
ee97b6463cb4 new Ring_and_Field hierarchy, eliminating redundant axioms paulson parents: 14398 diff changeset	55	zero_less_one [simp]: "0 < 1" --{This too is needed for semirings only.}
ee97b6463cb4 new Ring_and_Field hierarchy, eliminating redundant axioms paulson parents: 14398 diff changeset	56
ee97b6463cb4 new Ring_and_Field hierarchy, eliminating redundant axioms paulson parents: 14398 diff changeset	57	axclass ordered_ring \<subseteq> almost_ordered_semiring, ring
14265 95b42e69436c HOL: installation of Ring_and_Field as the basis for Naturals and Reals paulson parents: diff changeset	58	abs_if: "\<bar>a\<bar> = (if a < 0 then -a else a)"
95b42e69436c HOL: installation of Ring_and_Field as the basis for Naturals and Reals paulson parents: diff changeset	59
95b42e69436c HOL: installation of Ring_and_Field as the basis for Naturals and Reals paulson parents: diff changeset	60	axclass field \<subseteq> ring, inverse
95b42e69436c HOL: installation of Ring_and_Field as the basis for Naturals and Reals paulson parents: diff changeset	61	left_inverse [simp]: "a \<noteq> 0 ==> inverse a * a = 1"
95b42e69436c HOL: installation of Ring_and_Field as the basis for Naturals and Reals paulson parents: diff changeset	62	divide_inverse: "b \<noteq> 0 ==> a / b = a * inverse b"
95b42e69436c HOL: installation of Ring_and_Field as the basis for Naturals and Reals paulson parents: diff changeset	63
95b42e69436c HOL: installation of Ring_and_Field as the basis for Naturals and Reals paulson parents: diff changeset	64	axclass ordered_field \<subseteq> ordered_ring, field
95b42e69436c HOL: installation of Ring_and_Field as the basis for Naturals and Reals paulson parents: diff changeset	65
95b42e69436c HOL: installation of Ring_and_Field as the basis for Naturals and Reals paulson parents: diff changeset	66	axclass division_by_zero \<subseteq> zero, inverse
14268 5cf13e80be0e Removal of Hyperreal/ExtraThms2.ML, sending the material to the correct files. paulson parents: 14267 diff changeset	67	inverse_zero [simp]: "inverse 0 = 0"
5cf13e80be0e Removal of Hyperreal/ExtraThms2.ML, sending the material to the correct files. paulson parents: 14267 diff changeset	68	divide_zero [simp]: "a / 0 = 0"
14265 95b42e69436c HOL: installation of Ring_and_Field as the basis for Naturals and Reals paulson parents: diff changeset	69
95b42e69436c HOL: installation of Ring_and_Field as the basis for Naturals and Reals paulson parents: diff changeset	70
14270 342451d763f9 More re-organising of numerical theorems paulson parents: 14269 diff changeset	71	subsection {* Derived Rules for Addition *}
14265 95b42e69436c HOL: installation of Ring_and_Field as the basis for Naturals and Reals paulson parents: diff changeset	72
14421 ee97b6463cb4 new Ring_and_Field hierarchy, eliminating redundant axioms paulson parents: 14398 diff changeset	73	lemma add_0_right [simp]: "a + 0 = (a::'a::almost_semiring)"
14265 95b42e69436c HOL: installation of Ring_and_Field as the basis for Naturals and Reals paulson parents: diff changeset	74	proof -
95b42e69436c HOL: installation of Ring_and_Field as the basis for Naturals and Reals paulson parents: diff changeset	75	have "a + 0 = 0 + a" by (simp only: add_commute)
95b42e69436c HOL: installation of Ring_and_Field as the basis for Naturals and Reals paulson parents: diff changeset	76	also have "... = a" by simp
95b42e69436c HOL: installation of Ring_and_Field as the basis for Naturals and Reals paulson parents: diff changeset	77	finally show ?thesis .
95b42e69436c HOL: installation of Ring_and_Field as the basis for Naturals and Reals paulson parents: diff changeset	78	qed
95b42e69436c HOL: installation of Ring_and_Field as the basis for Naturals and Reals paulson parents: diff changeset	79
14421 ee97b6463cb4 new Ring_and_Field hierarchy, eliminating redundant axioms paulson parents: 14398 diff changeset	80	lemma add_left_commute: "a + (b + c) = b + (a + (c::'a::almost_semiring))"
14265 95b42e69436c HOL: installation of Ring_and_Field as the basis for Naturals and Reals paulson parents: diff changeset	81	by (rule mk_left_commute [of "op +", OF add_assoc add_commute])
95b42e69436c HOL: installation of Ring_and_Field as the basis for Naturals and Reals paulson parents: diff changeset	82
95b42e69436c HOL: installation of Ring_and_Field as the basis for Naturals and Reals paulson parents: diff changeset	83	theorems add_ac = add_assoc add_commute add_left_commute
95b42e69436c HOL: installation of Ring_and_Field as the basis for Naturals and Reals paulson parents: diff changeset	84
95b42e69436c HOL: installation of Ring_and_Field as the basis for Naturals and Reals paulson parents: diff changeset	85	lemma right_minus [simp]: "a + -(a::'a::ring) = 0"
95b42e69436c HOL: installation of Ring_and_Field as the basis for Naturals and Reals paulson parents: diff changeset	86	proof -
95b42e69436c HOL: installation of Ring_and_Field as the basis for Naturals and Reals paulson parents: diff changeset	87	have "a + -a = -a + a" by (simp add: add_ac)
95b42e69436c HOL: installation of Ring_and_Field as the basis for Naturals and Reals paulson parents: diff changeset	88	also have "... = 0" by simp
95b42e69436c HOL: installation of Ring_and_Field as the basis for Naturals and Reals paulson parents: diff changeset	89	finally show ?thesis .
95b42e69436c HOL: installation of Ring_and_Field as the basis for Naturals and Reals paulson parents: diff changeset	90	qed
95b42e69436c HOL: installation of Ring_and_Field as the basis for Naturals and Reals paulson parents: diff changeset	91
95b42e69436c HOL: installation of Ring_and_Field as the basis for Naturals and Reals paulson parents: diff changeset	92	lemma right_minus_eq: "(a - b = 0) = (a = (b::'a::ring))"
95b42e69436c HOL: installation of Ring_and_Field as the basis for Naturals and Reals paulson parents: diff changeset	93	proof
95b42e69436c HOL: installation of Ring_and_Field as the basis for Naturals and Reals paulson parents: diff changeset	94	have "a = a - b + b" by (simp add: diff_minus add_ac)
95b42e69436c HOL: installation of Ring_and_Field as the basis for Naturals and Reals paulson parents: diff changeset	95	also assume "a - b = 0"
95b42e69436c HOL: installation of Ring_and_Field as the basis for Naturals and Reals paulson parents: diff changeset	96	finally show "a = b" by simp
95b42e69436c HOL: installation of Ring_and_Field as the basis for Naturals and Reals paulson parents: diff changeset	97	next
95b42e69436c HOL: installation of Ring_and_Field as the basis for Naturals and Reals paulson parents: diff changeset	98	assume "a = b"
95b42e69436c HOL: installation of Ring_and_Field as the basis for Naturals and Reals paulson parents: diff changeset	99	thus "a - b = 0" by (simp add: diff_minus)
95b42e69436c HOL: installation of Ring_and_Field as the basis for Naturals and Reals paulson parents: diff changeset	100	qed
95b42e69436c HOL: installation of Ring_and_Field as the basis for Naturals and Reals paulson parents: diff changeset	101
95b42e69436c HOL: installation of Ring_and_Field as the basis for Naturals and Reals paulson parents: diff changeset	102	lemma add_left_cancel [simp]:
14341 a09441bd4f1e Ring_and_Field now requires axiom add_left_imp_eq for semirings. paulson parents: 14334 diff changeset	103	"(a + b = a + c) = (b = (c::'a::semiring))"
a09441bd4f1e Ring_and_Field now requires axiom add_left_imp_eq for semirings. paulson parents: 14334 diff changeset	104	by (blast dest: add_left_imp_eq)
14265 95b42e69436c HOL: installation of Ring_and_Field as the basis for Naturals and Reals paulson parents: diff changeset	105
95b42e69436c HOL: installation of Ring_and_Field as the basis for Naturals and Reals paulson parents: diff changeset	106	lemma add_right_cancel [simp]:
14341 a09441bd4f1e Ring_and_Field now requires axiom add_left_imp_eq for semirings. paulson parents: 14334 diff changeset	107	"(b + a = c + a) = (b = (c::'a::semiring))"
14265 95b42e69436c HOL: installation of Ring_and_Field as the basis for Naturals and Reals paulson parents: diff changeset	108	by (simp add: add_commute)
95b42e69436c HOL: installation of Ring_and_Field as the basis for Naturals and Reals paulson parents: diff changeset	109
95b42e69436c HOL: installation of Ring_and_Field as the basis for Naturals and Reals paulson parents: diff changeset	110	lemma minus_minus [simp]: "- (- (a::'a::ring)) = a"
14377 f454b3004f8f tidying up, especially the Complex numbers paulson parents: 14370 diff changeset	111	proof (rule add_left_cancel [of "-a", THEN iffD1])
f454b3004f8f tidying up, especially the Complex numbers paulson parents: 14370 diff changeset	112	show "(-a + -(-a) = -a + a)"
f454b3004f8f tidying up, especially the Complex numbers paulson parents: 14370 diff changeset	113	by simp
f454b3004f8f tidying up, especially the Complex numbers paulson parents: 14370 diff changeset	114	qed
14265 95b42e69436c HOL: installation of Ring_and_Field as the basis for Naturals and Reals paulson parents: diff changeset	115
95b42e69436c HOL: installation of Ring_and_Field as the basis for Naturals and Reals paulson parents: diff changeset	116	lemma equals_zero_I: "a+b = 0 ==> -a = (b::'a::ring)"
95b42e69436c HOL: installation of Ring_and_Field as the basis for Naturals and Reals paulson parents: diff changeset	117	apply (rule right_minus_eq [THEN iffD1, symmetric])
95b42e69436c HOL: installation of Ring_and_Field as the basis for Naturals and Reals paulson parents: diff changeset	118	apply (simp add: diff_minus add_commute)
95b42e69436c HOL: installation of Ring_and_Field as the basis for Naturals and Reals paulson parents: diff changeset	119	done
95b42e69436c HOL: installation of Ring_and_Field as the basis for Naturals and Reals paulson parents: diff changeset	120
95b42e69436c HOL: installation of Ring_and_Field as the basis for Naturals and Reals paulson parents: diff changeset	121	lemma minus_zero [simp]: "- 0 = (0::'a::ring)"
95b42e69436c HOL: installation of Ring_and_Field as the basis for Naturals and Reals paulson parents: diff changeset	122	by (simp add: equals_zero_I)
95b42e69436c HOL: installation of Ring_and_Field as the basis for Naturals and Reals paulson parents: diff changeset	123
14270 342451d763f9 More re-organising of numerical theorems paulson parents: 14269 diff changeset	124	lemma diff_self [simp]: "a - (a::'a::ring) = 0"
342451d763f9 More re-organising of numerical theorems paulson parents: 14269 diff changeset	125	by (simp add: diff_minus)
342451d763f9 More re-organising of numerical theorems paulson parents: 14269 diff changeset	126
342451d763f9 More re-organising of numerical theorems paulson parents: 14269 diff changeset	127	lemma diff_0 [simp]: "(0::'a::ring) - a = -a"
342451d763f9 More re-organising of numerical theorems paulson parents: 14269 diff changeset	128	by (simp add: diff_minus)
342451d763f9 More re-organising of numerical theorems paulson parents: 14269 diff changeset	129
342451d763f9 More re-organising of numerical theorems paulson parents: 14269 diff changeset	130	lemma diff_0_right [simp]: "a - (0::'a::ring) = a"
342451d763f9 More re-organising of numerical theorems paulson parents: 14269 diff changeset	131	by (simp add: diff_minus)
342451d763f9 More re-organising of numerical theorems paulson parents: 14269 diff changeset	132
14288 d149e3cbdb39 Moving some theorems from Real/RealArith0.ML paulson parents: 14284 diff changeset	133	lemma diff_minus_eq_add [simp]: "a - - b = a + (b::'a::ring)"
d149e3cbdb39 Moving some theorems from Real/RealArith0.ML paulson parents: 14284 diff changeset	134	by (simp add: diff_minus)
d149e3cbdb39 Moving some theorems from Real/RealArith0.ML paulson parents: 14284 diff changeset	135
14265 95b42e69436c HOL: installation of Ring_and_Field as the basis for Naturals and Reals paulson parents: diff changeset	136	lemma neg_equal_iff_equal [simp]: "(-a = -b) = (a = (b::'a::ring))"
14377 f454b3004f8f tidying up, especially the Complex numbers paulson parents: 14370 diff changeset	137	proof
f454b3004f8f tidying up, especially the Complex numbers paulson parents: 14370 diff changeset	138	assume "- a = - b"
f454b3004f8f tidying up, especially the Complex numbers paulson parents: 14370 diff changeset	139	hence "- (- a) = - (- b)"
f454b3004f8f tidying up, especially the Complex numbers paulson parents: 14370 diff changeset	140	by simp
f454b3004f8f tidying up, especially the Complex numbers paulson parents: 14370 diff changeset	141	thus "a=b" by simp
f454b3004f8f tidying up, especially the Complex numbers paulson parents: 14370 diff changeset	142	next
f454b3004f8f tidying up, especially the Complex numbers paulson parents: 14370 diff changeset	143	assume "a=b"
f454b3004f8f tidying up, especially the Complex numbers paulson parents: 14370 diff changeset	144	thus "-a = -b" by simp
f454b3004f8f tidying up, especially the Complex numbers paulson parents: 14370 diff changeset	145	qed
14265 95b42e69436c HOL: installation of Ring_and_Field as the basis for Naturals and Reals paulson parents: diff changeset	146
95b42e69436c HOL: installation of Ring_and_Field as the basis for Naturals and Reals paulson parents: diff changeset	147	lemma neg_equal_0_iff_equal [simp]: "(-a = 0) = (a = (0::'a::ring))"
95b42e69436c HOL: installation of Ring_and_Field as the basis for Naturals and Reals paulson parents: diff changeset	148	by (subst neg_equal_iff_equal [symmetric], simp)
95b42e69436c HOL: installation of Ring_and_Field as the basis for Naturals and Reals paulson parents: diff changeset	149
95b42e69436c HOL: installation of Ring_and_Field as the basis for Naturals and Reals paulson parents: diff changeset	150	lemma neg_0_equal_iff_equal [simp]: "(0 = -a) = (0 = (a::'a::ring))"
95b42e69436c HOL: installation of Ring_and_Field as the basis for Naturals and Reals paulson parents: diff changeset	151	by (subst neg_equal_iff_equal [symmetric], simp)
95b42e69436c HOL: installation of Ring_and_Field as the basis for Naturals and Reals paulson parents: diff changeset	152
14272 5efbb548107d Tidying of the integer development; towards removing the paulson parents: 14270 diff changeset	153	text{The next two equations can make the simplifier loop!}
5efbb548107d Tidying of the integer development; towards removing the paulson parents: 14270 diff changeset	154
5efbb548107d Tidying of the integer development; towards removing the paulson parents: 14270 diff changeset	155	lemma equation_minus_iff: "(a = - b) = (b = - (a::'a::ring))"
14377 f454b3004f8f tidying up, especially the Complex numbers paulson parents: 14370 diff changeset	156	proof -
14272 5efbb548107d Tidying of the integer development; towards removing the paulson parents: 14270 diff changeset	157	have "(- (-a) = - b) = (- a = b)" by (rule neg_equal_iff_equal)
5efbb548107d Tidying of the integer development; towards removing the paulson parents: 14270 diff changeset	158	thus ?thesis by (simp add: eq_commute)
14377 f454b3004f8f tidying up, especially the Complex numbers paulson parents: 14370 diff changeset	159	qed
14272 5efbb548107d Tidying of the integer development; towards removing the paulson parents: 14270 diff changeset	160
5efbb548107d Tidying of the integer development; towards removing the paulson parents: 14270 diff changeset	161	lemma minus_equation_iff: "(- a = b) = (- (b::'a::ring) = a)"
14377 f454b3004f8f tidying up, especially the Complex numbers paulson parents: 14370 diff changeset	162	proof -
14272 5efbb548107d Tidying of the integer development; towards removing the paulson parents: 14270 diff changeset	163	have "(- a = - (-b)) = (a = -b)" by (rule neg_equal_iff_equal)
5efbb548107d Tidying of the integer development; towards removing the paulson parents: 14270 diff changeset	164	thus ?thesis by (simp add: eq_commute)
14377 f454b3004f8f tidying up, especially the Complex numbers paulson parents: 14370 diff changeset	165	qed
14272 5efbb548107d Tidying of the integer development; towards removing the paulson parents: 14270 diff changeset	166
14265 95b42e69436c HOL: installation of Ring_and_Field as the basis for Naturals and Reals paulson parents: diff changeset	167
95b42e69436c HOL: installation of Ring_and_Field as the basis for Naturals and Reals paulson parents: diff changeset	168	subsection {* Derived rules for multiplication *}
95b42e69436c HOL: installation of Ring_and_Field as the basis for Naturals and Reals paulson parents: diff changeset	169
14421 ee97b6463cb4 new Ring_and_Field hierarchy, eliminating redundant axioms paulson parents: 14398 diff changeset	170	lemma mult_1_right [simp]: "a * (1::'a::almost_semiring) = a"
14265 95b42e69436c HOL: installation of Ring_and_Field as the basis for Naturals and Reals paulson parents: diff changeset	171	proof -
14267 b963e9cee2a0 More refinements to Ring_and_Field and numerics. Conversion of Divides_lemmas paulson parents: 14266 diff changeset	172	have "a * 1 = 1 * a" by (simp add: mult_commute)
b963e9cee2a0 More refinements to Ring_and_Field and numerics. Conversion of Divides_lemmas paulson parents: 14266 diff changeset	173	also have "... = a" by simp
14265 95b42e69436c HOL: installation of Ring_and_Field as the basis for Naturals and Reals paulson parents: diff changeset	174	finally show ?thesis .
95b42e69436c HOL: installation of Ring_and_Field as the basis for Naturals and Reals paulson parents: diff changeset	175	qed
95b42e69436c HOL: installation of Ring_and_Field as the basis for Naturals and Reals paulson parents: diff changeset	176
14421 ee97b6463cb4 new Ring_and_Field hierarchy, eliminating redundant axioms paulson parents: 14398 diff changeset	177	lemma mult_left_commute: "a * (b * c) = b * (a * (c::'a::almost_semiring))"
14265 95b42e69436c HOL: installation of Ring_and_Field as the basis for Naturals and Reals paulson parents: diff changeset	178	by (rule mk_left_commute [of "op *", OF mult_assoc mult_commute])
95b42e69436c HOL: installation of Ring_and_Field as the basis for Naturals and Reals paulson parents: diff changeset	179
95b42e69436c HOL: installation of Ring_and_Field as the basis for Naturals and Reals paulson parents: diff changeset	180	theorems mult_ac = mult_assoc mult_commute mult_left_commute
95b42e69436c HOL: installation of Ring_and_Field as the basis for Naturals and Reals paulson parents: diff changeset	181
14353 79f9fbef9106 Added lemmas to Ring_and_Field with slightly modified simplification rules paulson parents: 14348 diff changeset	182	lemma mult_zero_left [simp]: "0 * a = (0::'a::semiring)"
14265 95b42e69436c HOL: installation of Ring_and_Field as the basis for Naturals and Reals paulson parents: diff changeset	183	proof -
95b42e69436c HOL: installation of Ring_and_Field as the basis for Naturals and Reals paulson parents: diff changeset	184	have "0a + 0a = 0*a + 0"
95b42e69436c HOL: installation of Ring_and_Field as the basis for Naturals and Reals paulson parents: diff changeset	185	by (simp add: left_distrib [symmetric])
14266 08b34c902618 conversion of integers to use Ring_and_Field; paulson parents: 14265 diff changeset	186	thus ?thesis by (simp only: add_left_cancel)
14265 95b42e69436c HOL: installation of Ring_and_Field as the basis for Naturals and Reals paulson parents: diff changeset	187	qed
95b42e69436c HOL: installation of Ring_and_Field as the basis for Naturals and Reals paulson parents: diff changeset	188
14353 79f9fbef9106 Added lemmas to Ring_and_Field with slightly modified simplification rules paulson parents: 14348 diff changeset	189	lemma mult_zero_right [simp]: "a * 0 = (0::'a::semiring)"
14265 95b42e69436c HOL: installation of Ring_and_Field as the basis for Naturals and Reals paulson parents: diff changeset	190	by (simp add: mult_commute)
95b42e69436c HOL: installation of Ring_and_Field as the basis for Naturals and Reals paulson parents: diff changeset	191
95b42e69436c HOL: installation of Ring_and_Field as the basis for Naturals and Reals paulson parents: diff changeset	192
95b42e69436c HOL: installation of Ring_and_Field as the basis for Naturals and Reals paulson parents: diff changeset	193	subsection {* Distribution rules *}
95b42e69436c HOL: installation of Ring_and_Field as the basis for Naturals and Reals paulson parents: diff changeset	194
14421 ee97b6463cb4 new Ring_and_Field hierarchy, eliminating redundant axioms paulson parents: 14398 diff changeset	195	lemma right_distrib: "a * (b + c) = a * b + a * (c::'a::almost_semiring)"
14265 95b42e69436c HOL: installation of Ring_and_Field as the basis for Naturals and Reals paulson parents: diff changeset	196	proof -
95b42e69436c HOL: installation of Ring_and_Field as the basis for Naturals and Reals paulson parents: diff changeset	197	have "a * (b + c) = (b + c) * a" by (simp add: mult_ac)
95b42e69436c HOL: installation of Ring_and_Field as the basis for Naturals and Reals paulson parents: diff changeset	198	also have "... = b * a + c * a" by (simp only: left_distrib)
95b42e69436c HOL: installation of Ring_and_Field as the basis for Naturals and Reals paulson parents: diff changeset	199	also have "... = a * b + a * c" by (simp add: mult_ac)
95b42e69436c HOL: installation of Ring_and_Field as the basis for Naturals and Reals paulson parents: diff changeset	200	finally show ?thesis .
95b42e69436c HOL: installation of Ring_and_Field as the basis for Naturals and Reals paulson parents: diff changeset	201	qed
95b42e69436c HOL: installation of Ring_and_Field as the basis for Naturals and Reals paulson parents: diff changeset	202
95b42e69436c HOL: installation of Ring_and_Field as the basis for Naturals and Reals paulson parents: diff changeset	203	theorems ring_distrib = right_distrib left_distrib
95b42e69436c HOL: installation of Ring_and_Field as the basis for Naturals and Reals paulson parents: diff changeset	204
14272 5efbb548107d Tidying of the integer development; towards removing the paulson parents: 14270 diff changeset	205	text{For the @{text combine_numerals} simproc}
14421 ee97b6463cb4 new Ring_and_Field hierarchy, eliminating redundant axioms paulson parents: 14398 diff changeset	206	lemma combine_common_factor:
ee97b6463cb4 new Ring_and_Field hierarchy, eliminating redundant axioms paulson parents: 14398 diff changeset	207	"ae + (be + c) = (a+b)*e + (c::'a::almost_semiring)"
14272 5efbb548107d Tidying of the integer development; towards removing the paulson parents: 14270 diff changeset	208	by (simp add: left_distrib add_ac)
5efbb548107d Tidying of the integer development; towards removing the paulson parents: 14270 diff changeset	209
14265 95b42e69436c HOL: installation of Ring_and_Field as the basis for Naturals and Reals paulson parents: diff changeset	210	lemma minus_add_distrib [simp]: "- (a + b) = -a + -(b::'a::ring)"
95b42e69436c HOL: installation of Ring_and_Field as the basis for Naturals and Reals paulson parents: diff changeset	211	apply (rule equals_zero_I)
95b42e69436c HOL: installation of Ring_and_Field as the basis for Naturals and Reals paulson parents: diff changeset	212	apply (simp add: add_ac)
95b42e69436c HOL: installation of Ring_and_Field as the basis for Naturals and Reals paulson parents: diff changeset	213	done
95b42e69436c HOL: installation of Ring_and_Field as the basis for Naturals and Reals paulson parents: diff changeset	214
95b42e69436c HOL: installation of Ring_and_Field as the basis for Naturals and Reals paulson parents: diff changeset	215	lemma minus_mult_left: "- (a * b) = (-a) * (b::'a::ring)"
95b42e69436c HOL: installation of Ring_and_Field as the basis for Naturals and Reals paulson parents: diff changeset	216	apply (rule equals_zero_I)
95b42e69436c HOL: installation of Ring_and_Field as the basis for Naturals and Reals paulson parents: diff changeset	217	apply (simp add: left_distrib [symmetric])
95b42e69436c HOL: installation of Ring_and_Field as the basis for Naturals and Reals paulson parents: diff changeset	218	done
95b42e69436c HOL: installation of Ring_and_Field as the basis for Naturals and Reals paulson parents: diff changeset	219
95b42e69436c HOL: installation of Ring_and_Field as the basis for Naturals and Reals paulson parents: diff changeset	220	lemma minus_mult_right: "- (a * b) = a * -(b::'a::ring)"
95b42e69436c HOL: installation of Ring_and_Field as the basis for Naturals and Reals paulson parents: diff changeset	221	apply (rule equals_zero_I)
95b42e69436c HOL: installation of Ring_and_Field as the basis for Naturals and Reals paulson parents: diff changeset	222	apply (simp add: right_distrib [symmetric])
95b42e69436c HOL: installation of Ring_and_Field as the basis for Naturals and Reals paulson parents: diff changeset	223	done
95b42e69436c HOL: installation of Ring_and_Field as the basis for Naturals and Reals paulson parents: diff changeset	224
14268 5cf13e80be0e Removal of Hyperreal/ExtraThms2.ML, sending the material to the correct files. paulson parents: 14267 diff changeset	225	lemma minus_mult_minus [simp]: "(- a) * (- b) = a * (b::'a::ring)"
5cf13e80be0e Removal of Hyperreal/ExtraThms2.ML, sending the material to the correct files. paulson parents: 14267 diff changeset	226	by (simp add: minus_mult_left [symmetric] minus_mult_right [symmetric])
5cf13e80be0e Removal of Hyperreal/ExtraThms2.ML, sending the material to the correct files. paulson parents: 14267 diff changeset	227
14365 3d4df8c166ae replacing HOL/Real/PRat, PNat by the rational number development paulson parents: 14353 diff changeset	228	lemma minus_mult_commute: "(- a) * b = a * (- b::'a::ring)"
3d4df8c166ae replacing HOL/Real/PRat, PNat by the rational number development paulson parents: 14353 diff changeset	229	by (simp add: minus_mult_left [symmetric] minus_mult_right [symmetric])
3d4df8c166ae replacing HOL/Real/PRat, PNat by the rational number development paulson parents: 14353 diff changeset	230
14265 95b42e69436c HOL: installation of Ring_and_Field as the basis for Naturals and Reals paulson parents: diff changeset	231	lemma right_diff_distrib: "a * (b - c) = a * b - a * (c::'a::ring)"
95b42e69436c HOL: installation of Ring_and_Field as the basis for Naturals and Reals paulson parents: diff changeset	232	by (simp add: right_distrib diff_minus
95b42e69436c HOL: installation of Ring_and_Field as the basis for Naturals and Reals paulson parents: diff changeset	233	minus_mult_left [symmetric] minus_mult_right [symmetric])
95b42e69436c HOL: installation of Ring_and_Field as the basis for Naturals and Reals paulson parents: diff changeset	234
14272 5efbb548107d Tidying of the integer development; towards removing the paulson parents: 14270 diff changeset	235	lemma left_diff_distrib: "(a - b) * c = a * c - b * (c::'a::ring)"
5efbb548107d Tidying of the integer development; towards removing the paulson parents: 14270 diff changeset	236	by (simp add: mult_commute [of _ c] right_diff_distrib)
5efbb548107d Tidying of the integer development; towards removing the paulson parents: 14270 diff changeset	237
14270 342451d763f9 More re-organising of numerical theorems paulson parents: 14269 diff changeset	238	lemma minus_diff_eq [simp]: "- (a - b) = b - (a::'a::ring)"
342451d763f9 More re-organising of numerical theorems paulson parents: 14269 diff changeset	239	by (simp add: diff_minus add_commute)
14265 95b42e69436c HOL: installation of Ring_and_Field as the basis for Naturals and Reals paulson parents: diff changeset	240
14270 342451d763f9 More re-organising of numerical theorems paulson parents: 14269 diff changeset	241
342451d763f9 More re-organising of numerical theorems paulson parents: 14269 diff changeset	242	subsection {* Ordering Rules for Addition *}
14265 95b42e69436c HOL: installation of Ring_and_Field as the basis for Naturals and Reals paulson parents: diff changeset	243
14421 ee97b6463cb4 new Ring_and_Field hierarchy, eliminating redundant axioms paulson parents: 14398 diff changeset	244	lemma add_right_mono: "a \<le> (b::'a::almost_ordered_semiring) ==> a + c \<le> b + c"
14265 95b42e69436c HOL: installation of Ring_and_Field as the basis for Naturals and Reals paulson parents: diff changeset	245	by (simp add: add_commute [of _ c] add_left_mono)
95b42e69436c HOL: installation of Ring_and_Field as the basis for Naturals and Reals paulson parents: diff changeset	246
14267 b963e9cee2a0 More refinements to Ring_and_Field and numerics. Conversion of Divides_lemmas paulson parents: 14266 diff changeset	247	text {* non-strict, in both arguments *}
14421 ee97b6463cb4 new Ring_and_Field hierarchy, eliminating redundant axioms paulson parents: 14398 diff changeset	248	lemma add_mono:
ee97b6463cb4 new Ring_and_Field hierarchy, eliminating redundant axioms paulson parents: 14398 diff changeset	249	"[\|a \<le> b; c \<le> d\|] ==> a + c \<le> b + (d::'a::almost_ordered_semiring)"
14267 b963e9cee2a0 More refinements to Ring_and_Field and numerics. Conversion of Divides_lemmas paulson parents: 14266 diff changeset	250	apply (erule add_right_mono [THEN order_trans])
b963e9cee2a0 More refinements to Ring_and_Field and numerics. Conversion of Divides_lemmas paulson parents: 14266 diff changeset	251	apply (simp add: add_commute add_left_mono)
b963e9cee2a0 More refinements to Ring_and_Field and numerics. Conversion of Divides_lemmas paulson parents: 14266 diff changeset	252	done
b963e9cee2a0 More refinements to Ring_and_Field and numerics. Conversion of Divides_lemmas paulson parents: 14266 diff changeset	253
14268 5cf13e80be0e Removal of Hyperreal/ExtraThms2.ML, sending the material to the correct files. paulson parents: 14267 diff changeset	254	lemma add_strict_left_mono:
14421 ee97b6463cb4 new Ring_and_Field hierarchy, eliminating redundant axioms paulson parents: 14398 diff changeset	255	"a < b ==> c + a < c + (b::'a::almost_ordered_semiring)"
14268 5cf13e80be0e Removal of Hyperreal/ExtraThms2.ML, sending the material to the correct files. paulson parents: 14267 diff changeset	256	by (simp add: order_less_le add_left_mono)
5cf13e80be0e Removal of Hyperreal/ExtraThms2.ML, sending the material to the correct files. paulson parents: 14267 diff changeset	257
5cf13e80be0e Removal of Hyperreal/ExtraThms2.ML, sending the material to the correct files. paulson parents: 14267 diff changeset	258	lemma add_strict_right_mono:
14421 ee97b6463cb4 new Ring_and_Field hierarchy, eliminating redundant axioms paulson parents: 14398 diff changeset	259	"a < b ==> a + c < b + (c::'a::almost_ordered_semiring)"
14268 5cf13e80be0e Removal of Hyperreal/ExtraThms2.ML, sending the material to the correct files. paulson parents: 14267 diff changeset	260	by (simp add: add_commute [of _ c] add_strict_left_mono)
5cf13e80be0e Removal of Hyperreal/ExtraThms2.ML, sending the material to the correct files. paulson parents: 14267 diff changeset	261
5cf13e80be0e Removal of Hyperreal/ExtraThms2.ML, sending the material to the correct files. paulson parents: 14267 diff changeset	262	text{Strict monotonicity in both arguments}
14421 ee97b6463cb4 new Ring_and_Field hierarchy, eliminating redundant axioms paulson parents: 14398 diff changeset	263	lemma add_strict_mono: "[\|a<b; c<d\|] ==> a + c < b + (d::'a::almost_ordered_semiring)"
14268 5cf13e80be0e Removal of Hyperreal/ExtraThms2.ML, sending the material to the correct files. paulson parents: 14267 diff changeset	264	apply (erule add_strict_right_mono [THEN order_less_trans])
5cf13e80be0e Removal of Hyperreal/ExtraThms2.ML, sending the material to the correct files. paulson parents: 14267 diff changeset	265	apply (erule add_strict_left_mono)
5cf13e80be0e Removal of Hyperreal/ExtraThms2.ML, sending the material to the correct files. paulson parents: 14267 diff changeset	266	done
5cf13e80be0e Removal of Hyperreal/ExtraThms2.ML, sending the material to the correct files. paulson parents: 14267 diff changeset	267
14370 b0064703967b simplifications in the hyperreals paulson parents: 14368 diff changeset	268	lemma add_less_le_mono:
14421 ee97b6463cb4 new Ring_and_Field hierarchy, eliminating redundant axioms paulson parents: 14398 diff changeset	269	"[\| a<b; c\<le>d \|] ==> a + c < b + (d::'a::almost_ordered_semiring)"
14341 a09441bd4f1e Ring_and_Field now requires axiom add_left_imp_eq for semirings. paulson parents: 14334 diff changeset	270	apply (erule add_strict_right_mono [THEN order_less_le_trans])
a09441bd4f1e Ring_and_Field now requires axiom add_left_imp_eq for semirings. paulson parents: 14334 diff changeset	271	apply (erule add_left_mono)
a09441bd4f1e Ring_and_Field now requires axiom add_left_imp_eq for semirings. paulson parents: 14334 diff changeset	272	done
a09441bd4f1e Ring_and_Field now requires axiom add_left_imp_eq for semirings. paulson parents: 14334 diff changeset	273
a09441bd4f1e Ring_and_Field now requires axiom add_left_imp_eq for semirings. paulson parents: 14334 diff changeset	274	lemma add_le_less_mono:
14421 ee97b6463cb4 new Ring_and_Field hierarchy, eliminating redundant axioms paulson parents: 14398 diff changeset	275	"[\| a\<le>b; c<d \|] ==> a + c < b + (d::'a::almost_ordered_semiring)"
14341 a09441bd4f1e Ring_and_Field now requires axiom add_left_imp_eq for semirings. paulson parents: 14334 diff changeset	276	apply (erule add_right_mono [THEN order_le_less_trans])
a09441bd4f1e Ring_and_Field now requires axiom add_left_imp_eq for semirings. paulson parents: 14334 diff changeset	277	apply (erule add_strict_left_mono)
a09441bd4f1e Ring_and_Field now requires axiom add_left_imp_eq for semirings. paulson parents: 14334 diff changeset	278	done
a09441bd4f1e Ring_and_Field now requires axiom add_left_imp_eq for semirings. paulson parents: 14334 diff changeset	279
14270 342451d763f9 More re-organising of numerical theorems paulson parents: 14269 diff changeset	280	lemma add_less_imp_less_left:
14421 ee97b6463cb4 new Ring_and_Field hierarchy, eliminating redundant axioms paulson parents: 14398 diff changeset	281	assumes less: "c + a < c + b" shows "a < (b::'a::almost_ordered_semiring)"
14377 f454b3004f8f tidying up, especially the Complex numbers paulson parents: 14370 diff changeset	282	proof (rule ccontr)
f454b3004f8f tidying up, especially the Complex numbers paulson parents: 14370 diff changeset	283	assume "~ a < b"
f454b3004f8f tidying up, especially the Complex numbers paulson parents: 14370 diff changeset	284	hence "b \<le> a" by (simp add: linorder_not_less)
f454b3004f8f tidying up, especially the Complex numbers paulson parents: 14370 diff changeset	285	hence "c+b \<le> c+a" by (rule add_left_mono)
f454b3004f8f tidying up, especially the Complex numbers paulson parents: 14370 diff changeset	286	with this and less show False
f454b3004f8f tidying up, especially the Complex numbers paulson parents: 14370 diff changeset	287	by (simp add: linorder_not_less [symmetric])
f454b3004f8f tidying up, especially the Complex numbers paulson parents: 14370 diff changeset	288	qed
14270 342451d763f9 More re-organising of numerical theorems paulson parents: 14269 diff changeset	289
342451d763f9 More re-organising of numerical theorems paulson parents: 14269 diff changeset	290	lemma add_less_imp_less_right:
14421 ee97b6463cb4 new Ring_and_Field hierarchy, eliminating redundant axioms paulson parents: 14398 diff changeset	291	"a + c < b + c ==> a < (b::'a::almost_ordered_semiring)"
14270 342451d763f9 More re-organising of numerical theorems paulson parents: 14269 diff changeset	292	apply (rule add_less_imp_less_left [of c])
342451d763f9 More re-organising of numerical theorems paulson parents: 14269 diff changeset	293	apply (simp add: add_commute)
342451d763f9 More re-organising of numerical theorems paulson parents: 14269 diff changeset	294	done
342451d763f9 More re-organising of numerical theorems paulson parents: 14269 diff changeset	295
342451d763f9 More re-organising of numerical theorems paulson parents: 14269 diff changeset	296	lemma add_less_cancel_left [simp]:
14421 ee97b6463cb4 new Ring_and_Field hierarchy, eliminating redundant axioms paulson parents: 14398 diff changeset	297	"(c+a < c+b) = (a < (b::'a::almost_ordered_semiring))"
14270 342451d763f9 More re-organising of numerical theorems paulson parents: 14269 diff changeset	298	by (blast intro: add_less_imp_less_left add_strict_left_mono)
342451d763f9 More re-organising of numerical theorems paulson parents: 14269 diff changeset	299
342451d763f9 More re-organising of numerical theorems paulson parents: 14269 diff changeset	300	lemma add_less_cancel_right [simp]:
14421 ee97b6463cb4 new Ring_and_Field hierarchy, eliminating redundant axioms paulson parents: 14398 diff changeset	301	"(a+c < b+c) = (a < (b::'a::almost_ordered_semiring))"
14270 342451d763f9 More re-organising of numerical theorems paulson parents: 14269 diff changeset	302	by (blast intro: add_less_imp_less_right add_strict_right_mono)
342451d763f9 More re-organising of numerical theorems paulson parents: 14269 diff changeset	303
342451d763f9 More re-organising of numerical theorems paulson parents: 14269 diff changeset	304	lemma add_le_cancel_left [simp]:
14421 ee97b6463cb4 new Ring_and_Field hierarchy, eliminating redundant axioms paulson parents: 14398 diff changeset	305	"(c+a \<le> c+b) = (a \<le> (b::'a::almost_ordered_semiring))"
14270 342451d763f9 More re-organising of numerical theorems paulson parents: 14269 diff changeset	306	by (simp add: linorder_not_less [symmetric])
342451d763f9 More re-organising of numerical theorems paulson parents: 14269 diff changeset	307
342451d763f9 More re-organising of numerical theorems paulson parents: 14269 diff changeset	308	lemma add_le_cancel_right [simp]:
14421 ee97b6463cb4 new Ring_and_Field hierarchy, eliminating redundant axioms paulson parents: 14398 diff changeset	309	"(a+c \<le> b+c) = (a \<le> (b::'a::almost_ordered_semiring))"
14270 342451d763f9 More re-organising of numerical theorems paulson parents: 14269 diff changeset	310	by (simp add: linorder_not_less [symmetric])
342451d763f9 More re-organising of numerical theorems paulson parents: 14269 diff changeset	311
342451d763f9 More re-organising of numerical theorems paulson parents: 14269 diff changeset	312	lemma add_le_imp_le_left:
14421 ee97b6463cb4 new Ring_and_Field hierarchy, eliminating redundant axioms paulson parents: 14398 diff changeset	313	"c + a \<le> c + b ==> a \<le> (b::'a::almost_ordered_semiring)"
14270 342451d763f9 More re-organising of numerical theorems paulson parents: 14269 diff changeset	314	by simp
342451d763f9 More re-organising of numerical theorems paulson parents: 14269 diff changeset	315
342451d763f9 More re-organising of numerical theorems paulson parents: 14269 diff changeset	316	lemma add_le_imp_le_right:
14421 ee97b6463cb4 new Ring_and_Field hierarchy, eliminating redundant axioms paulson parents: 14398 diff changeset	317	"a + c \<le> b + c ==> a \<le> (b::'a::almost_ordered_semiring)"
14270 342451d763f9 More re-organising of numerical theorems paulson parents: 14269 diff changeset	318	by simp
342451d763f9 More re-organising of numerical theorems paulson parents: 14269 diff changeset	319
14421 ee97b6463cb4 new Ring_and_Field hierarchy, eliminating redundant axioms paulson parents: 14398 diff changeset	320	lemma add_increasing: "[\|0\<le>a; b\<le>c\|] ==> b \<le> a + (c::'a::almost_ordered_semiring)"
14387 e96d5c42c4b0 Polymorphic treatment of binary arithmetic using axclasses paulson parents: 14377 diff changeset	321	by (insert add_mono [of 0 a b c], simp)
e96d5c42c4b0 Polymorphic treatment of binary arithmetic using axclasses paulson parents: 14377 diff changeset	322
14270 342451d763f9 More re-organising of numerical theorems paulson parents: 14269 diff changeset	323
342451d763f9 More re-organising of numerical theorems paulson parents: 14269 diff changeset	324	subsection {* Ordering Rules for Unary Minus *}
342451d763f9 More re-organising of numerical theorems paulson parents: 14269 diff changeset	325
14265 95b42e69436c HOL: installation of Ring_and_Field as the basis for Naturals and Reals paulson parents: diff changeset	326	lemma le_imp_neg_le:
14269 502a7c95de73 conversion of some Real theories to Isar scripts paulson parents: 14268 diff changeset	327	assumes "a \<le> (b::'a::ordered_ring)" shows "-b \<le> -a"
14377 f454b3004f8f tidying up, especially the Complex numbers paulson parents: 14370 diff changeset	328	proof -
14265 95b42e69436c HOL: installation of Ring_and_Field as the basis for Naturals and Reals paulson parents: diff changeset	329	have "-a+a \<le> -a+b"
95b42e69436c HOL: installation of Ring_and_Field as the basis for Naturals and Reals paulson parents: diff changeset	330	by (rule add_left_mono)
14268 5cf13e80be0e Removal of Hyperreal/ExtraThms2.ML, sending the material to the correct files. paulson parents: 14267 diff changeset	331	hence "0 \<le> -a+b"
14265 95b42e69436c HOL: installation of Ring_and_Field as the basis for Naturals and Reals paulson parents: diff changeset	332	by simp
14268 5cf13e80be0e Removal of Hyperreal/ExtraThms2.ML, sending the material to the correct files. paulson parents: 14267 diff changeset	333	hence "0 + (-b) \<le> (-a + b) + (-b)"
14265 95b42e69436c HOL: installation of Ring_and_Field as the basis for Naturals and Reals paulson parents: diff changeset	334	by (rule add_right_mono)
14266 08b34c902618 conversion of integers to use Ring_and_Field; paulson parents: 14265 diff changeset	335	thus ?thesis
14265 95b42e69436c HOL: installation of Ring_and_Field as the basis for Naturals and Reals paulson parents: diff changeset	336	by (simp add: add_assoc)
14377 f454b3004f8f tidying up, especially the Complex numbers paulson parents: 14370 diff changeset	337	qed
14265 95b42e69436c HOL: installation of Ring_and_Field as the basis for Naturals and Reals paulson parents: diff changeset	338
95b42e69436c HOL: installation of Ring_and_Field as the basis for Naturals and Reals paulson parents: diff changeset	339	lemma neg_le_iff_le [simp]: "(-b \<le> -a) = (a \<le> (b::'a::ordered_ring))"
14377 f454b3004f8f tidying up, especially the Complex numbers paulson parents: 14370 diff changeset	340	proof
f454b3004f8f tidying up, especially the Complex numbers paulson parents: 14370 diff changeset	341	assume "- b \<le> - a"
f454b3004f8f tidying up, especially the Complex numbers paulson parents: 14370 diff changeset	342	hence "- (- a) \<le> - (- b)"
f454b3004f8f tidying up, especially the Complex numbers paulson parents: 14370 diff changeset	343	by (rule le_imp_neg_le)
f454b3004f8f tidying up, especially the Complex numbers paulson parents: 14370 diff changeset	344	thus "a\<le>b" by simp
f454b3004f8f tidying up, especially the Complex numbers paulson parents: 14370 diff changeset	345	next
f454b3004f8f tidying up, especially the Complex numbers paulson parents: 14370 diff changeset	346	assume "a\<le>b"
f454b3004f8f tidying up, especially the Complex numbers paulson parents: 14370 diff changeset	347	thus "-b \<le> -a" by (rule le_imp_neg_le)
f454b3004f8f tidying up, especially the Complex numbers paulson parents: 14370 diff changeset	348	qed
14265 95b42e69436c HOL: installation of Ring_and_Field as the basis for Naturals and Reals paulson parents: diff changeset	349
95b42e69436c HOL: installation of Ring_and_Field as the basis for Naturals and Reals paulson parents: diff changeset	350	lemma neg_le_0_iff_le [simp]: "(-a \<le> 0) = (0 \<le> (a::'a::ordered_ring))"
95b42e69436c HOL: installation of Ring_and_Field as the basis for Naturals and Reals paulson parents: diff changeset	351	by (subst neg_le_iff_le [symmetric], simp)
95b42e69436c HOL: installation of Ring_and_Field as the basis for Naturals and Reals paulson parents: diff changeset	352
95b42e69436c HOL: installation of Ring_and_Field as the basis for Naturals and Reals paulson parents: diff changeset	353	lemma neg_0_le_iff_le [simp]: "(0 \<le> -a) = (a \<le> (0::'a::ordered_ring))"
95b42e69436c HOL: installation of Ring_and_Field as the basis for Naturals and Reals paulson parents: diff changeset	354	by (subst neg_le_iff_le [symmetric], simp)
95b42e69436c HOL: installation of Ring_and_Field as the basis for Naturals and Reals paulson parents: diff changeset	355
95b42e69436c HOL: installation of Ring_and_Field as the basis for Naturals and Reals paulson parents: diff changeset	356	lemma neg_less_iff_less [simp]: "(-b < -a) = (a < (b::'a::ordered_ring))"
95b42e69436c HOL: installation of Ring_and_Field as the basis for Naturals and Reals paulson parents: diff changeset	357	by (force simp add: order_less_le)
95b42e69436c HOL: installation of Ring_and_Field as the basis for Naturals and Reals paulson parents: diff changeset	358
95b42e69436c HOL: installation of Ring_and_Field as the basis for Naturals and Reals paulson parents: diff changeset	359	lemma neg_less_0_iff_less [simp]: "(-a < 0) = (0 < (a::'a::ordered_ring))"
95b42e69436c HOL: installation of Ring_and_Field as the basis for Naturals and Reals paulson parents: diff changeset	360	by (subst neg_less_iff_less [symmetric], simp)
95b42e69436c HOL: installation of Ring_and_Field as the basis for Naturals and Reals paulson parents: diff changeset	361
95b42e69436c HOL: installation of Ring_and_Field as the basis for Naturals and Reals paulson parents: diff changeset	362	lemma neg_0_less_iff_less [simp]: "(0 < -a) = (a < (0::'a::ordered_ring))"
95b42e69436c HOL: installation of Ring_and_Field as the basis for Naturals and Reals paulson parents: diff changeset	363	by (subst neg_less_iff_less [symmetric], simp)
95b42e69436c HOL: installation of Ring_and_Field as the basis for Naturals and Reals paulson parents: diff changeset	364
14272 5efbb548107d Tidying of the integer development; towards removing the paulson parents: 14270 diff changeset	365	text{The next several equations can make the simplifier loop!}
5efbb548107d Tidying of the integer development; towards removing the paulson parents: 14270 diff changeset	366
5efbb548107d Tidying of the integer development; towards removing the paulson parents: 14270 diff changeset	367	lemma less_minus_iff: "(a < - b) = (b < - (a::'a::ordered_ring))"
14377 f454b3004f8f tidying up, especially the Complex numbers paulson parents: 14370 diff changeset	368	proof -
14272 5efbb548107d Tidying of the integer development; towards removing the paulson parents: 14270 diff changeset	369	have "(- (-a) < - b) = (b < - a)" by (rule neg_less_iff_less)
5efbb548107d Tidying of the integer development; towards removing the paulson parents: 14270 diff changeset	370	thus ?thesis by simp
14377 f454b3004f8f tidying up, especially the Complex numbers paulson parents: 14370 diff changeset	371	qed
14272 5efbb548107d Tidying of the integer development; towards removing the paulson parents: 14270 diff changeset	372
5efbb548107d Tidying of the integer development; towards removing the paulson parents: 14270 diff changeset	373	lemma minus_less_iff: "(- a < b) = (- b < (a::'a::ordered_ring))"
14377 f454b3004f8f tidying up, especially the Complex numbers paulson parents: 14370 diff changeset	374	proof -
14272 5efbb548107d Tidying of the integer development; towards removing the paulson parents: 14270 diff changeset	375	have "(- a < - (-b)) = (- b < a)" by (rule neg_less_iff_less)
5efbb548107d Tidying of the integer development; towards removing the paulson parents: 14270 diff changeset	376	thus ?thesis by simp
14377 f454b3004f8f tidying up, especially the Complex numbers paulson parents: 14370 diff changeset	377	qed
14272 5efbb548107d Tidying of the integer development; towards removing the paulson parents: 14270 diff changeset	378
5efbb548107d Tidying of the integer development; towards removing the paulson parents: 14270 diff changeset	379	lemma le_minus_iff: "(a \<le> - b) = (b \<le> - (a::'a::ordered_ring))"
5efbb548107d Tidying of the integer development; towards removing the paulson parents: 14270 diff changeset	380	apply (simp add: linorder_not_less [symmetric])
5efbb548107d Tidying of the integer development; towards removing the paulson parents: 14270 diff changeset	381	apply (rule minus_less_iff)
5efbb548107d Tidying of the integer development; towards removing the paulson parents: 14270 diff changeset	382	done
5efbb548107d Tidying of the integer development; towards removing the paulson parents: 14270 diff changeset	383
5efbb548107d Tidying of the integer development; towards removing the paulson parents: 14270 diff changeset	384	lemma minus_le_iff: "(- a \<le> b) = (- b \<le> (a::'a::ordered_ring))"
5efbb548107d Tidying of the integer development; towards removing the paulson parents: 14270 diff changeset	385	apply (simp add: linorder_not_less [symmetric])
5efbb548107d Tidying of the integer development; towards removing the paulson parents: 14270 diff changeset	386	apply (rule less_minus_iff)
5efbb548107d Tidying of the integer development; towards removing the paulson parents: 14270 diff changeset	387	done
5efbb548107d Tidying of the integer development; towards removing the paulson parents: 14270 diff changeset	388
14270 342451d763f9 More re-organising of numerical theorems paulson parents: 14269 diff changeset	389
342451d763f9 More re-organising of numerical theorems paulson parents: 14269 diff changeset	390	subsection{Subtraction Laws}
342451d763f9 More re-organising of numerical theorems paulson parents: 14269 diff changeset	391
342451d763f9 More re-organising of numerical theorems paulson parents: 14269 diff changeset	392	lemma add_diff_eq: "a + (b - c) = (a + b) - (c::'a::ring)"
342451d763f9 More re-organising of numerical theorems paulson parents: 14269 diff changeset	393	by (simp add: diff_minus add_ac)
342451d763f9 More re-organising of numerical theorems paulson parents: 14269 diff changeset	394
342451d763f9 More re-organising of numerical theorems paulson parents: 14269 diff changeset	395	lemma diff_add_eq: "(a - b) + c = (a + c) - (b::'a::ring)"
342451d763f9 More re-organising of numerical theorems paulson parents: 14269 diff changeset	396	by (simp add: diff_minus add_ac)
342451d763f9 More re-organising of numerical theorems paulson parents: 14269 diff changeset	397
342451d763f9 More re-organising of numerical theorems paulson parents: 14269 diff changeset	398	lemma diff_eq_eq: "(a-b = c) = (a = c + (b::'a::ring))"
342451d763f9 More re-organising of numerical theorems paulson parents: 14269 diff changeset	399	by (auto simp add: diff_minus add_assoc)
342451d763f9 More re-organising of numerical theorems paulson parents: 14269 diff changeset	400
342451d763f9 More re-organising of numerical theorems paulson parents: 14269 diff changeset	401	lemma eq_diff_eq: "(a = c-b) = (a + (b::'a::ring) = c)"
342451d763f9 More re-organising of numerical theorems paulson parents: 14269 diff changeset	402	by (auto simp add: diff_minus add_assoc)
342451d763f9 More re-organising of numerical theorems paulson parents: 14269 diff changeset	403
342451d763f9 More re-organising of numerical theorems paulson parents: 14269 diff changeset	404	lemma diff_diff_eq: "(a - b) - c = a - (b + (c::'a::ring))"
342451d763f9 More re-organising of numerical theorems paulson parents: 14269 diff changeset	405	by (simp add: diff_minus add_ac)
342451d763f9 More re-organising of numerical theorems paulson parents: 14269 diff changeset	406
342451d763f9 More re-organising of numerical theorems paulson parents: 14269 diff changeset	407	lemma diff_diff_eq2: "a - (b - c) = (a + c) - (b::'a::ring)"
342451d763f9 More re-organising of numerical theorems paulson parents: 14269 diff changeset	408	by (simp add: diff_minus add_ac)
342451d763f9 More re-organising of numerical theorems paulson parents: 14269 diff changeset	409
342451d763f9 More re-organising of numerical theorems paulson parents: 14269 diff changeset	410	text{Further subtraction laws for ordered rings}
342451d763f9 More re-organising of numerical theorems paulson parents: 14269 diff changeset	411
14272 5efbb548107d Tidying of the integer development; towards removing the paulson parents: 14270 diff changeset	412	lemma less_iff_diff_less_0: "(a < b) = (a - b < (0::'a::ordered_ring))"
14270 342451d763f9 More re-organising of numerical theorems paulson parents: 14269 diff changeset	413	proof -
342451d763f9 More re-organising of numerical theorems paulson parents: 14269 diff changeset	414	have "(a < b) = (a + (- b) < b + (-b))"
342451d763f9 More re-organising of numerical theorems paulson parents: 14269 diff changeset	415	by (simp only: add_less_cancel_right)
342451d763f9 More re-organising of numerical theorems paulson parents: 14269 diff changeset	416	also have "... = (a - b < 0)" by (simp add: diff_minus)
342451d763f9 More re-organising of numerical theorems paulson parents: 14269 diff changeset	417	finally show ?thesis .
342451d763f9 More re-organising of numerical theorems paulson parents: 14269 diff changeset	418	qed
342451d763f9 More re-organising of numerical theorems paulson parents: 14269 diff changeset	419
342451d763f9 More re-organising of numerical theorems paulson parents: 14269 diff changeset	420	lemma diff_less_eq: "(a-b < c) = (a < c + (b::'a::ordered_ring))"
14272 5efbb548107d Tidying of the integer development; towards removing the paulson parents: 14270 diff changeset	421	apply (subst less_iff_diff_less_0)
5efbb548107d Tidying of the integer development; towards removing the paulson parents: 14270 diff changeset	422	apply (rule less_iff_diff_less_0 [of _ c, THEN ssubst])
14270 342451d763f9 More re-organising of numerical theorems paulson parents: 14269 diff changeset	423	apply (simp add: diff_minus add_ac)
342451d763f9 More re-organising of numerical theorems paulson parents: 14269 diff changeset	424	done
342451d763f9 More re-organising of numerical theorems paulson parents: 14269 diff changeset	425
342451d763f9 More re-organising of numerical theorems paulson parents: 14269 diff changeset	426	lemma less_diff_eq: "(a < c-b) = (a + (b::'a::ordered_ring) < c)"
14272 5efbb548107d Tidying of the integer development; towards removing the paulson parents: 14270 diff changeset	427	apply (subst less_iff_diff_less_0)
5efbb548107d Tidying of the integer development; towards removing the paulson parents: 14270 diff changeset	428	apply (rule less_iff_diff_less_0 [of _ "c-b", THEN ssubst])
14270 342451d763f9 More re-organising of numerical theorems paulson parents: 14269 diff changeset	429	apply (simp add: diff_minus add_ac)
342451d763f9 More re-organising of numerical theorems paulson parents: 14269 diff changeset	430	done
342451d763f9 More re-organising of numerical theorems paulson parents: 14269 diff changeset	431
342451d763f9 More re-organising of numerical theorems paulson parents: 14269 diff changeset	432	lemma diff_le_eq: "(a-b \<le> c) = (a \<le> c + (b::'a::ordered_ring))"
342451d763f9 More re-organising of numerical theorems paulson parents: 14269 diff changeset	433	by (simp add: linorder_not_less [symmetric] less_diff_eq)
342451d763f9 More re-organising of numerical theorems paulson parents: 14269 diff changeset	434
342451d763f9 More re-organising of numerical theorems paulson parents: 14269 diff changeset	435	lemma le_diff_eq: "(a \<le> c-b) = (a + (b::'a::ordered_ring) \<le> c)"
342451d763f9 More re-organising of numerical theorems paulson parents: 14269 diff changeset	436	by (simp add: linorder_not_less [symmetric] diff_less_eq)
342451d763f9 More re-organising of numerical theorems paulson parents: 14269 diff changeset	437
342451d763f9 More re-organising of numerical theorems paulson parents: 14269 diff changeset	438	text{*This list of rewrites simplifies (in)equalities by bringing subtractions
342451d763f9 More re-organising of numerical theorems paulson parents: 14269 diff changeset	439	to the top and then moving negative terms to the other side.
342451d763f9 More re-organising of numerical theorems paulson parents: 14269 diff changeset	440	Use with @{text add_ac}*}
342451d763f9 More re-organising of numerical theorems paulson parents: 14269 diff changeset	441	lemmas compare_rls =
342451d763f9 More re-organising of numerical theorems paulson parents: 14269 diff changeset	442	diff_minus [symmetric]
342451d763f9 More re-organising of numerical theorems paulson parents: 14269 diff changeset	443	add_diff_eq diff_add_eq diff_diff_eq diff_diff_eq2
342451d763f9 More re-organising of numerical theorems paulson parents: 14269 diff changeset	444	diff_less_eq less_diff_eq diff_le_eq le_diff_eq
342451d763f9 More re-organising of numerical theorems paulson parents: 14269 diff changeset	445	diff_eq_eq eq_diff_eq
342451d763f9 More re-organising of numerical theorems paulson parents: 14269 diff changeset	446
342451d763f9 More re-organising of numerical theorems paulson parents: 14269 diff changeset	447
14272 5efbb548107d Tidying of the integer development; towards removing the paulson parents: 14270 diff changeset	448	subsection{Lemmas for the @{text cancel_numerals} simproc}
5efbb548107d Tidying of the integer development; towards removing the paulson parents: 14270 diff changeset	449
5efbb548107d Tidying of the integer development; towards removing the paulson parents: 14270 diff changeset	450	lemma eq_iff_diff_eq_0: "(a = b) = (a-b = (0::'a::ring))"
5efbb548107d Tidying of the integer development; towards removing the paulson parents: 14270 diff changeset	451	by (simp add: compare_rls)
5efbb548107d Tidying of the integer development; towards removing the paulson parents: 14270 diff changeset	452
5efbb548107d Tidying of the integer development; towards removing the paulson parents: 14270 diff changeset	453	lemma le_iff_diff_le_0: "(a \<le> b) = (a-b \<le> (0::'a::ordered_ring))"
5efbb548107d Tidying of the integer development; towards removing the paulson parents: 14270 diff changeset	454	by (simp add: compare_rls)
5efbb548107d Tidying of the integer development; towards removing the paulson parents: 14270 diff changeset	455
5efbb548107d Tidying of the integer development; towards removing the paulson parents: 14270 diff changeset	456	lemma eq_add_iff1:
5efbb548107d Tidying of the integer development; towards removing the paulson parents: 14270 diff changeset	457	"(ae + c = be + d) = ((a-b)*e + c = (d::'a::ring))"
5efbb548107d Tidying of the integer development; towards removing the paulson parents: 14270 diff changeset	458	apply (simp add: diff_minus left_distrib add_ac)
5efbb548107d Tidying of the integer development; towards removing the paulson parents: 14270 diff changeset	459	apply (simp add: compare_rls minus_mult_left [symmetric])
5efbb548107d Tidying of the integer development; towards removing the paulson parents: 14270 diff changeset	460	done
5efbb548107d Tidying of the integer development; towards removing the paulson parents: 14270 diff changeset	461
5efbb548107d Tidying of the integer development; towards removing the paulson parents: 14270 diff changeset	462	lemma eq_add_iff2:
5efbb548107d Tidying of the integer development; towards removing the paulson parents: 14270 diff changeset	463	"(ae + c = be + d) = (c = (b-a)*e + (d::'a::ring))"
5efbb548107d Tidying of the integer development; towards removing the paulson parents: 14270 diff changeset	464	apply (simp add: diff_minus left_distrib add_ac)
5efbb548107d Tidying of the integer development; towards removing the paulson parents: 14270 diff changeset	465	apply (simp add: compare_rls minus_mult_left [symmetric])
5efbb548107d Tidying of the integer development; towards removing the paulson parents: 14270 diff changeset	466	done
5efbb548107d Tidying of the integer development; towards removing the paulson parents: 14270 diff changeset	467
5efbb548107d Tidying of the integer development; towards removing the paulson parents: 14270 diff changeset	468	lemma less_add_iff1:
5efbb548107d Tidying of the integer development; towards removing the paulson parents: 14270 diff changeset	469	"(ae + c < be + d) = ((a-b)*e + c < (d::'a::ordered_ring))"
5efbb548107d Tidying of the integer development; towards removing the paulson parents: 14270 diff changeset	470	apply (simp add: diff_minus left_distrib add_ac)
5efbb548107d Tidying of the integer development; towards removing the paulson parents: 14270 diff changeset	471	apply (simp add: compare_rls minus_mult_left [symmetric])
5efbb548107d Tidying of the integer development; towards removing the paulson parents: 14270 diff changeset	472	done
5efbb548107d Tidying of the integer development; towards removing the paulson parents: 14270 diff changeset	473
5efbb548107d Tidying of the integer development; towards removing the paulson parents: 14270 diff changeset	474	lemma less_add_iff2:
5efbb548107d Tidying of the integer development; towards removing the paulson parents: 14270 diff changeset	475	"(ae + c < be + d) = (c < (b-a)*e + (d::'a::ordered_ring))"
5efbb548107d Tidying of the integer development; towards removing the paulson parents: 14270 diff changeset	476	apply (simp add: diff_minus left_distrib add_ac)
5efbb548107d Tidying of the integer development; towards removing the paulson parents: 14270 diff changeset	477	apply (simp add: compare_rls minus_mult_left [symmetric])
5efbb548107d Tidying of the integer development; towards removing the paulson parents: 14270 diff changeset	478	done
5efbb548107d Tidying of the integer development; towards removing the paulson parents: 14270 diff changeset	479
5efbb548107d Tidying of the integer development; towards removing the paulson parents: 14270 diff changeset	480	lemma le_add_iff1:
5efbb548107d Tidying of the integer development; towards removing the paulson parents: 14270 diff changeset	481	"(ae + c \<le> be + d) = ((a-b)*e + c \<le> (d::'a::ordered_ring))"
5efbb548107d Tidying of the integer development; towards removing the paulson parents: 14270 diff changeset	482	apply (simp add: diff_minus left_distrib add_ac)
5efbb548107d Tidying of the integer development; towards removing the paulson parents: 14270 diff changeset	483	apply (simp add: compare_rls minus_mult_left [symmetric])
5efbb548107d Tidying of the integer development; towards removing the paulson parents: 14270 diff changeset	484	done
5efbb548107d Tidying of the integer development; towards removing the paulson parents: 14270 diff changeset	485
5efbb548107d Tidying of the integer development; towards removing the paulson parents: 14270 diff changeset	486	lemma le_add_iff2:
5efbb548107d Tidying of the integer development; towards removing the paulson parents: 14270 diff changeset	487	"(ae + c \<le> be + d) = (c \<le> (b-a)*e + (d::'a::ordered_ring))"
5efbb548107d Tidying of the integer development; towards removing the paulson parents: 14270 diff changeset	488	apply (simp add: diff_minus left_distrib add_ac)
5efbb548107d Tidying of the integer development; towards removing the paulson parents: 14270 diff changeset	489	apply (simp add: compare_rls minus_mult_left [symmetric])
5efbb548107d Tidying of the integer development; towards removing the paulson parents: 14270 diff changeset	490	done
5efbb548107d Tidying of the integer development; towards removing the paulson parents: 14270 diff changeset	491
5efbb548107d Tidying of the integer development; towards removing the paulson parents: 14270 diff changeset	492
14270 342451d763f9 More re-organising of numerical theorems paulson parents: 14269 diff changeset	493	subsection {* Ordering Rules for Multiplication *}
342451d763f9 More re-organising of numerical theorems paulson parents: 14269 diff changeset	494
14265 95b42e69436c HOL: installation of Ring_and_Field as the basis for Naturals and Reals paulson parents: diff changeset	495	lemma mult_strict_right_mono:
14421 ee97b6463cb4 new Ring_and_Field hierarchy, eliminating redundant axioms paulson parents: 14398 diff changeset	496	"[\|a < b; 0 < c\|] ==> a * c < b * (c::'a::almost_ordered_semiring)"
14265 95b42e69436c HOL: installation of Ring_and_Field as the basis for Naturals and Reals paulson parents: diff changeset	497	by (simp add: mult_commute [of _ c] mult_strict_left_mono)
95b42e69436c HOL: installation of Ring_and_Field as the basis for Naturals and Reals paulson parents: diff changeset	498
95b42e69436c HOL: installation of Ring_and_Field as the basis for Naturals and Reals paulson parents: diff changeset	499	lemma mult_left_mono:
14421 ee97b6463cb4 new Ring_and_Field hierarchy, eliminating redundant axioms paulson parents: 14398 diff changeset	500	"[\|a \<le> b; 0 \<le> c\|] ==> c * a \<le> c * (b::'a::almost_ordered_semiring)"
14267 b963e9cee2a0 More refinements to Ring_and_Field and numerics. Conversion of Divides_lemmas paulson parents: 14266 diff changeset	501	apply (case_tac "c=0", simp)
b963e9cee2a0 More refinements to Ring_and_Field and numerics. Conversion of Divides_lemmas paulson parents: 14266 diff changeset	502	apply (force simp add: mult_strict_left_mono order_le_less)
b963e9cee2a0 More refinements to Ring_and_Field and numerics. Conversion of Divides_lemmas paulson parents: 14266 diff changeset	503	done
14265 95b42e69436c HOL: installation of Ring_and_Field as the basis for Naturals and Reals paulson parents: diff changeset	504
95b42e69436c HOL: installation of Ring_and_Field as the basis for Naturals and Reals paulson parents: diff changeset	505	lemma mult_right_mono:
14421 ee97b6463cb4 new Ring_and_Field hierarchy, eliminating redundant axioms paulson parents: 14398 diff changeset	506	"[\|a \<le> b; 0 \<le> c\|] ==> ac \<le> b (c::'a::almost_ordered_semiring)"
14267 b963e9cee2a0 More refinements to Ring_and_Field and numerics. Conversion of Divides_lemmas paulson parents: 14266 diff changeset	507	by (simp add: mult_left_mono mult_commute [of _ c])
14265 95b42e69436c HOL: installation of Ring_and_Field as the basis for Naturals and Reals paulson parents: diff changeset	508
14348 744c868ee0b7 Defining the type class "ringpower" and deleting superseded theorems for paulson parents: 14341 diff changeset	509	lemma mult_left_le_imp_le:
14421 ee97b6463cb4 new Ring_and_Field hierarchy, eliminating redundant axioms paulson parents: 14398 diff changeset	510	"[\|ca \<le> cb; 0 < c\|] ==> a \<le> (b::'a::almost_ordered_semiring)"
14348 744c868ee0b7 Defining the type class "ringpower" and deleting superseded theorems for paulson parents: 14341 diff changeset	511	by (force simp add: mult_strict_left_mono linorder_not_less [symmetric])
744c868ee0b7 Defining the type class "ringpower" and deleting superseded theorems for paulson parents: 14341 diff changeset	512
744c868ee0b7 Defining the type class "ringpower" and deleting superseded theorems for paulson parents: 14341 diff changeset	513	lemma mult_right_le_imp_le:
14421 ee97b6463cb4 new Ring_and_Field hierarchy, eliminating redundant axioms paulson parents: 14398 diff changeset	514	"[\|ac \<le> bc; 0 < c\|] ==> a \<le> (b::'a::almost_ordered_semiring)"
14348 744c868ee0b7 Defining the type class "ringpower" and deleting superseded theorems for paulson parents: 14341 diff changeset	515	by (force simp add: mult_strict_right_mono linorder_not_less [symmetric])
744c868ee0b7 Defining the type class "ringpower" and deleting superseded theorems for paulson parents: 14341 diff changeset	516
744c868ee0b7 Defining the type class "ringpower" and deleting superseded theorems for paulson parents: 14341 diff changeset	517	lemma mult_left_less_imp_less:
14421 ee97b6463cb4 new Ring_and_Field hierarchy, eliminating redundant axioms paulson parents: 14398 diff changeset	518	"[\|ca < cb; 0 \<le> c\|] ==> a < (b::'a::almost_ordered_semiring)"
14348 744c868ee0b7 Defining the type class "ringpower" and deleting superseded theorems for paulson parents: 14341 diff changeset	519	by (force simp add: mult_left_mono linorder_not_le [symmetric])
744c868ee0b7 Defining the type class "ringpower" and deleting superseded theorems for paulson parents: 14341 diff changeset	520
744c868ee0b7 Defining the type class "ringpower" and deleting superseded theorems for paulson parents: 14341 diff changeset	521	lemma mult_right_less_imp_less:
14421 ee97b6463cb4 new Ring_and_Field hierarchy, eliminating redundant axioms paulson parents: 14398 diff changeset	522	"[\|ac < bc; 0 \<le> c\|] ==> a < (b::'a::almost_ordered_semiring)"
14348 744c868ee0b7 Defining the type class "ringpower" and deleting superseded theorems for paulson parents: 14341 diff changeset	523	by (force simp add: mult_right_mono linorder_not_le [symmetric])
744c868ee0b7 Defining the type class "ringpower" and deleting superseded theorems for paulson parents: 14341 diff changeset	524
14265 95b42e69436c HOL: installation of Ring_and_Field as the basis for Naturals and Reals paulson parents: diff changeset	525	lemma mult_strict_left_mono_neg:
95b42e69436c HOL: installation of Ring_and_Field as the basis for Naturals and Reals paulson parents: diff changeset	526	"[\|b < a; c < 0\|] ==> c * a < c * (b::'a::ordered_ring)"
95b42e69436c HOL: installation of Ring_and_Field as the basis for Naturals and Reals paulson parents: diff changeset	527	apply (drule mult_strict_left_mono [of _ _ "-c"])
95b42e69436c HOL: installation of Ring_and_Field as the basis for Naturals and Reals paulson parents: diff changeset	528	apply (simp_all add: minus_mult_left [symmetric])
95b42e69436c HOL: installation of Ring_and_Field as the basis for Naturals and Reals paulson parents: diff changeset	529	done
95b42e69436c HOL: installation of Ring_and_Field as the basis for Naturals and Reals paulson parents: diff changeset	530
95b42e69436c HOL: installation of Ring_and_Field as the basis for Naturals and Reals paulson parents: diff changeset	531	lemma mult_strict_right_mono_neg:
95b42e69436c HOL: installation of Ring_and_Field as the basis for Naturals and Reals paulson parents: diff changeset	532	"[\|b < a; c < 0\|] ==> a * c < b * (c::'a::ordered_ring)"
95b42e69436c HOL: installation of Ring_and_Field as the basis for Naturals and Reals paulson parents: diff changeset	533	apply (drule mult_strict_right_mono [of _ _ "-c"])
95b42e69436c HOL: installation of Ring_and_Field as the basis for Naturals and Reals paulson parents: diff changeset	534	apply (simp_all add: minus_mult_right [symmetric])
95b42e69436c HOL: installation of Ring_and_Field as the basis for Naturals and Reals paulson parents: diff changeset	535	done
95b42e69436c HOL: installation of Ring_and_Field as the basis for Naturals and Reals paulson parents: diff changeset	536
95b42e69436c HOL: installation of Ring_and_Field as the basis for Naturals and Reals paulson parents: diff changeset	537
95b42e69436c HOL: installation of Ring_and_Field as the basis for Naturals and Reals paulson parents: diff changeset	538	subsection{* Products of Signs *}
95b42e69436c HOL: installation of Ring_and_Field as the basis for Naturals and Reals paulson parents: diff changeset	539
14421 ee97b6463cb4 new Ring_and_Field hierarchy, eliminating redundant axioms paulson parents: 14398 diff changeset	540	lemma mult_pos: "[\| (0::'a::almost_ordered_semiring) < a; 0 < b \|] ==> 0 < a*b"
14265 95b42e69436c HOL: installation of Ring_and_Field as the basis for Naturals and Reals paulson parents: diff changeset	541	by (drule mult_strict_left_mono [of 0 b], auto)
95b42e69436c HOL: installation of Ring_and_Field as the basis for Naturals and Reals paulson parents: diff changeset	542
14421 ee97b6463cb4 new Ring_and_Field hierarchy, eliminating redundant axioms paulson parents: 14398 diff changeset	543	lemma mult_pos_neg: "[\| (0::'a::almost_ordered_semiring) < a; b < 0 \|] ==> a*b < 0"
14265 95b42e69436c HOL: installation of Ring_and_Field as the basis for Naturals and Reals paulson parents: diff changeset	544	by (drule mult_strict_left_mono [of b 0], auto)
95b42e69436c HOL: installation of Ring_and_Field as the basis for Naturals and Reals paulson parents: diff changeset	545
95b42e69436c HOL: installation of Ring_and_Field as the basis for Naturals and Reals paulson parents: diff changeset	546	lemma mult_neg: "[\| a < (0::'a::ordered_ring); b < 0 \|] ==> 0 < a*b"
95b42e69436c HOL: installation of Ring_and_Field as the basis for Naturals and Reals paulson parents: diff changeset	547	by (drule mult_strict_right_mono_neg, auto)
95b42e69436c HOL: installation of Ring_and_Field as the basis for Naturals and Reals paulson parents: diff changeset	548
14341 a09441bd4f1e Ring_and_Field now requires axiom add_left_imp_eq for semirings. paulson parents: 14334 diff changeset	549	lemma zero_less_mult_pos:
14421 ee97b6463cb4 new Ring_and_Field hierarchy, eliminating redundant axioms paulson parents: 14398 diff changeset	550	"[\| 0 < a*b; 0 < a\|] ==> 0 < (b::'a::almost_ordered_semiring)"
14265 95b42e69436c HOL: installation of Ring_and_Field as the basis for Naturals and Reals paulson parents: diff changeset	551	apply (case_tac "b\<le>0")
95b42e69436c HOL: installation of Ring_and_Field as the basis for Naturals and Reals paulson parents: diff changeset	552	apply (auto simp add: order_le_less linorder_not_less)
95b42e69436c HOL: installation of Ring_and_Field as the basis for Naturals and Reals paulson parents: diff changeset	553	apply (drule_tac mult_pos_neg [of a b])
95b42e69436c HOL: installation of Ring_and_Field as the basis for Naturals and Reals paulson parents: diff changeset	554	apply (auto dest: order_less_not_sym)
95b42e69436c HOL: installation of Ring_and_Field as the basis for Naturals and Reals paulson parents: diff changeset	555	done
95b42e69436c HOL: installation of Ring_and_Field as the basis for Naturals and Reals paulson parents: diff changeset	556
95b42e69436c HOL: installation of Ring_and_Field as the basis for Naturals and Reals paulson parents: diff changeset	557	lemma zero_less_mult_iff:
95b42e69436c HOL: installation of Ring_and_Field as the basis for Naturals and Reals paulson parents: diff changeset	558	"((0::'a::ordered_ring) < a*b) = (0 < a & 0 < b \| a < 0 & b < 0)"
95b42e69436c HOL: installation of Ring_and_Field as the basis for Naturals and Reals paulson parents: diff changeset	559	apply (auto simp add: order_le_less linorder_not_less mult_pos mult_neg)
95b42e69436c HOL: installation of Ring_and_Field as the basis for Naturals and Reals paulson parents: diff changeset	560	apply (blast dest: zero_less_mult_pos)
95b42e69436c HOL: installation of Ring_and_Field as the basis for Naturals and Reals paulson parents: diff changeset	561	apply (simp add: mult_commute [of a b])
95b42e69436c HOL: installation of Ring_and_Field as the basis for Naturals and Reals paulson parents: diff changeset	562	apply (blast dest: zero_less_mult_pos)
95b42e69436c HOL: installation of Ring_and_Field as the basis for Naturals and Reals paulson parents: diff changeset	563	done
95b42e69436c HOL: installation of Ring_and_Field as the basis for Naturals and Reals paulson parents: diff changeset	564
14341 a09441bd4f1e Ring_and_Field now requires axiom add_left_imp_eq for semirings. paulson parents: 14334 diff changeset	565	text{*A field has no "zero divisors", and this theorem holds without the
14277 ad66687ece6e more field division lemmas transferred from Real to Ring_and_Field paulson parents: 14272 diff changeset	566	assumption of an ordering. See @{text field_mult_eq_0_iff} below.*}
14266 08b34c902618 conversion of integers to use Ring_and_Field; paulson parents: 14265 diff changeset	567	lemma mult_eq_0_iff [simp]: "(a*b = (0::'a::ordered_ring)) = (a = 0 \| b = 0)"
14265 95b42e69436c HOL: installation of Ring_and_Field as the basis for Naturals and Reals paulson parents: diff changeset	568	apply (case_tac "a < 0")
95b42e69436c HOL: installation of Ring_and_Field as the basis for Naturals and Reals paulson parents: diff changeset	569	apply (auto simp add: linorder_not_less order_le_less linorder_neq_iff)
95b42e69436c HOL: installation of Ring_and_Field as the basis for Naturals and Reals paulson parents: diff changeset	570	apply (force dest: mult_strict_right_mono_neg mult_strict_right_mono)+
95b42e69436c HOL: installation of Ring_and_Field as the basis for Naturals and Reals paulson parents: diff changeset	571	done
95b42e69436c HOL: installation of Ring_and_Field as the basis for Naturals and Reals paulson parents: diff changeset	572
95b42e69436c HOL: installation of Ring_and_Field as the basis for Naturals and Reals paulson parents: diff changeset	573	lemma zero_le_mult_iff:
95b42e69436c HOL: installation of Ring_and_Field as the basis for Naturals and Reals paulson parents: diff changeset	574	"((0::'a::ordered_ring) \<le> a*b) = (0 \<le> a & 0 \<le> b \| a \<le> 0 & b \<le> 0)"
95b42e69436c HOL: installation of Ring_and_Field as the basis for Naturals and Reals paulson parents: diff changeset	575	by (auto simp add: eq_commute [of 0] order_le_less linorder_not_less
95b42e69436c HOL: installation of Ring_and_Field as the basis for Naturals and Reals paulson parents: diff changeset	576	zero_less_mult_iff)
95b42e69436c HOL: installation of Ring_and_Field as the basis for Naturals and Reals paulson parents: diff changeset	577
95b42e69436c HOL: installation of Ring_and_Field as the basis for Naturals and Reals paulson parents: diff changeset	578	lemma mult_less_0_iff:
95b42e69436c HOL: installation of Ring_and_Field as the basis for Naturals and Reals paulson parents: diff changeset	579	"(a*b < (0::'a::ordered_ring)) = (0 < a & b < 0 \| a < 0 & 0 < b)"
95b42e69436c HOL: installation of Ring_and_Field as the basis for Naturals and Reals paulson parents: diff changeset	580	apply (insert zero_less_mult_iff [of "-a" b])
95b42e69436c HOL: installation of Ring_and_Field as the basis for Naturals and Reals paulson parents: diff changeset	581	apply (force simp add: minus_mult_left[symmetric])
95b42e69436c HOL: installation of Ring_and_Field as the basis for Naturals and Reals paulson parents: diff changeset	582	done
95b42e69436c HOL: installation of Ring_and_Field as the basis for Naturals and Reals paulson parents: diff changeset	583
95b42e69436c HOL: installation of Ring_and_Field as the basis for Naturals and Reals paulson parents: diff changeset	584	lemma mult_le_0_iff:
95b42e69436c HOL: installation of Ring_and_Field as the basis for Naturals and Reals paulson parents: diff changeset	585	"(a*b \<le> (0::'a::ordered_ring)) = (0 \<le> a & b \<le> 0 \| a \<le> 0 & 0 \<le> b)"
95b42e69436c HOL: installation of Ring_and_Field as the basis for Naturals and Reals paulson parents: diff changeset	586	apply (insert zero_le_mult_iff [of "-a" b])
95b42e69436c HOL: installation of Ring_and_Field as the basis for Naturals and Reals paulson parents: diff changeset	587	apply (force simp add: minus_mult_left[symmetric])
95b42e69436c HOL: installation of Ring_and_Field as the basis for Naturals and Reals paulson parents: diff changeset	588	done
95b42e69436c HOL: installation of Ring_and_Field as the basis for Naturals and Reals paulson parents: diff changeset	589
95b42e69436c HOL: installation of Ring_and_Field as the basis for Naturals and Reals paulson parents: diff changeset	590	lemma zero_le_square: "(0::'a::ordered_ring) \<le> a*a"
95b42e69436c HOL: installation of Ring_and_Field as the basis for Naturals and Reals paulson parents: diff changeset	591	by (simp add: zero_le_mult_iff linorder_linear)
95b42e69436c HOL: installation of Ring_and_Field as the basis for Naturals and Reals paulson parents: diff changeset	592
14421 ee97b6463cb4 new Ring_and_Field hierarchy, eliminating redundant axioms paulson parents: 14398 diff changeset	593	text{*Proving axiom @{text zero_less_one} makes all @{text ordered_semiring}
ee97b6463cb4 new Ring_and_Field hierarchy, eliminating redundant axioms paulson parents: 14398 diff changeset	594	theorems available to members of @{term ordered_ring} *}
ee97b6463cb4 new Ring_and_Field hierarchy, eliminating redundant axioms paulson parents: 14398 diff changeset	595	instance ordered_ring \<subseteq> ordered_semiring
ee97b6463cb4 new Ring_and_Field hierarchy, eliminating redundant axioms paulson parents: 14398 diff changeset	596	proof
ee97b6463cb4 new Ring_and_Field hierarchy, eliminating redundant axioms paulson parents: 14398 diff changeset	597	have "(0::'a) \<le> 1*1" by (rule zero_le_square)
ee97b6463cb4 new Ring_and_Field hierarchy, eliminating redundant axioms paulson parents: 14398 diff changeset	598	thus "(0::'a) < 1" by (simp add: order_le_less )
ee97b6463cb4 new Ring_and_Field hierarchy, eliminating redundant axioms paulson parents: 14398 diff changeset	599	qed
ee97b6463cb4 new Ring_and_Field hierarchy, eliminating redundant axioms paulson parents: 14398 diff changeset	600
14387 e96d5c42c4b0 Polymorphic treatment of binary arithmetic using axclasses paulson parents: 14377 diff changeset	601	text{All three types of comparision involving 0 and 1 are covered.}
e96d5c42c4b0 Polymorphic treatment of binary arithmetic using axclasses paulson parents: 14377 diff changeset	602
e96d5c42c4b0 Polymorphic treatment of binary arithmetic using axclasses paulson parents: 14377 diff changeset	603	declare zero_neq_one [THEN not_sym, simp]
e96d5c42c4b0 Polymorphic treatment of binary arithmetic using axclasses paulson parents: 14377 diff changeset	604
e96d5c42c4b0 Polymorphic treatment of binary arithmetic using axclasses paulson parents: 14377 diff changeset	605	lemma zero_le_one [simp]: "(0::'a::ordered_semiring) \<le> 1"
14268 5cf13e80be0e Removal of Hyperreal/ExtraThms2.ML, sending the material to the correct files. paulson parents: 14267 diff changeset	606	by (rule zero_less_one [THEN order_less_imp_le])
5cf13e80be0e Removal of Hyperreal/ExtraThms2.ML, sending the material to the correct files. paulson parents: 14267 diff changeset	607
14387 e96d5c42c4b0 Polymorphic treatment of binary arithmetic using axclasses paulson parents: 14377 diff changeset	608	lemma not_one_le_zero [simp]: "~ (1::'a::ordered_semiring) \<le> 0"
e96d5c42c4b0 Polymorphic treatment of binary arithmetic using axclasses paulson parents: 14377 diff changeset	609	by (simp add: linorder_not_le zero_less_one)
e96d5c42c4b0 Polymorphic treatment of binary arithmetic using axclasses paulson parents: 14377 diff changeset	610
e96d5c42c4b0 Polymorphic treatment of binary arithmetic using axclasses paulson parents: 14377 diff changeset	611	lemma not_one_less_zero [simp]: "~ (1::'a::ordered_semiring) < 0"
e96d5c42c4b0 Polymorphic treatment of binary arithmetic using axclasses paulson parents: 14377 diff changeset	612	by (simp add: linorder_not_less zero_le_one)
e96d5c42c4b0 Polymorphic treatment of binary arithmetic using axclasses paulson parents: 14377 diff changeset	613
14268 5cf13e80be0e Removal of Hyperreal/ExtraThms2.ML, sending the material to the correct files. paulson parents: 14267 diff changeset	614
5cf13e80be0e Removal of Hyperreal/ExtraThms2.ML, sending the material to the correct files. paulson parents: 14267 diff changeset	615	subsection{More Monotonicity}
5cf13e80be0e Removal of Hyperreal/ExtraThms2.ML, sending the material to the correct files. paulson parents: 14267 diff changeset	616
5cf13e80be0e Removal of Hyperreal/ExtraThms2.ML, sending the material to the correct files. paulson parents: 14267 diff changeset	617	lemma mult_left_mono_neg:
5cf13e80be0e Removal of Hyperreal/ExtraThms2.ML, sending the material to the correct files. paulson parents: 14267 diff changeset	618	"[\|b \<le> a; c \<le> 0\|] ==> c * a \<le> c * (b::'a::ordered_ring)"
5cf13e80be0e Removal of Hyperreal/ExtraThms2.ML, sending the material to the correct files. paulson parents: 14267 diff changeset	619	apply (drule mult_left_mono [of _ _ "-c"])
5cf13e80be0e Removal of Hyperreal/ExtraThms2.ML, sending the material to the correct files. paulson parents: 14267 diff changeset	620	apply (simp_all add: minus_mult_left [symmetric])
5cf13e80be0e Removal of Hyperreal/ExtraThms2.ML, sending the material to the correct files. paulson parents: 14267 diff changeset	621	done
5cf13e80be0e Removal of Hyperreal/ExtraThms2.ML, sending the material to the correct files. paulson parents: 14267 diff changeset	622
5cf13e80be0e Removal of Hyperreal/ExtraThms2.ML, sending the material to the correct files. paulson parents: 14267 diff changeset	623	lemma mult_right_mono_neg:
5cf13e80be0e Removal of Hyperreal/ExtraThms2.ML, sending the material to the correct files. paulson parents: 14267 diff changeset	624	"[\|b \<le> a; c \<le> 0\|] ==> a * c \<le> b * (c::'a::ordered_ring)"
5cf13e80be0e Removal of Hyperreal/ExtraThms2.ML, sending the material to the correct files. paulson parents: 14267 diff changeset	625	by (simp add: mult_left_mono_neg mult_commute [of _ c])
5cf13e80be0e Removal of Hyperreal/ExtraThms2.ML, sending the material to the correct files. paulson parents: 14267 diff changeset	626
5cf13e80be0e Removal of Hyperreal/ExtraThms2.ML, sending the material to the correct files. paulson parents: 14267 diff changeset	627	text{Strict monotonicity in both arguments}
5cf13e80be0e Removal of Hyperreal/ExtraThms2.ML, sending the material to the correct files. paulson parents: 14267 diff changeset	628	lemma mult_strict_mono:
14341 a09441bd4f1e Ring_and_Field now requires axiom add_left_imp_eq for semirings. paulson parents: 14334 diff changeset	629	"[\|a<b; c<d; 0<b; 0\<le>c\|] ==> a * c < b * (d::'a::ordered_semiring)"
14268 5cf13e80be0e Removal of Hyperreal/ExtraThms2.ML, sending the material to the correct files. paulson parents: 14267 diff changeset	630	apply (case_tac "c=0")
5cf13e80be0e Removal of Hyperreal/ExtraThms2.ML, sending the material to the correct files. paulson parents: 14267 diff changeset	631	apply (simp add: mult_pos)
5cf13e80be0e Removal of Hyperreal/ExtraThms2.ML, sending the material to the correct files. paulson parents: 14267 diff changeset	632	apply (erule mult_strict_right_mono [THEN order_less_trans])
5cf13e80be0e Removal of Hyperreal/ExtraThms2.ML, sending the material to the correct files. paulson parents: 14267 diff changeset	633	apply (force simp add: order_le_less)
5cf13e80be0e Removal of Hyperreal/ExtraThms2.ML, sending the material to the correct files. paulson parents: 14267 diff changeset	634	apply (erule mult_strict_left_mono, assumption)
5cf13e80be0e Removal of Hyperreal/ExtraThms2.ML, sending the material to the correct files. paulson parents: 14267 diff changeset	635	done
5cf13e80be0e Removal of Hyperreal/ExtraThms2.ML, sending the material to the correct files. paulson parents: 14267 diff changeset	636
5cf13e80be0e Removal of Hyperreal/ExtraThms2.ML, sending the material to the correct files. paulson parents: 14267 diff changeset	637	text{This weaker variant has more natural premises}
5cf13e80be0e Removal of Hyperreal/ExtraThms2.ML, sending the material to the correct files. paulson parents: 14267 diff changeset	638	lemma mult_strict_mono':
14341 a09441bd4f1e Ring_and_Field now requires axiom add_left_imp_eq for semirings. paulson parents: 14334 diff changeset	639	"[\| a<b; c<d; 0 \<le> a; 0 \<le> c\|] ==> a * c < b * (d::'a::ordered_semiring)"
14268 5cf13e80be0e Removal of Hyperreal/ExtraThms2.ML, sending the material to the correct files. paulson parents: 14267 diff changeset	640	apply (rule mult_strict_mono)
5cf13e80be0e Removal of Hyperreal/ExtraThms2.ML, sending the material to the correct files. paulson parents: 14267 diff changeset	641	apply (blast intro: order_le_less_trans)+
5cf13e80be0e Removal of Hyperreal/ExtraThms2.ML, sending the material to the correct files. paulson parents: 14267 diff changeset	642	done
5cf13e80be0e Removal of Hyperreal/ExtraThms2.ML, sending the material to the correct files. paulson parents: 14267 diff changeset	643
5cf13e80be0e Removal of Hyperreal/ExtraThms2.ML, sending the material to the correct files. paulson parents: 14267 diff changeset	644	lemma mult_mono:
5cf13e80be0e Removal of Hyperreal/ExtraThms2.ML, sending the material to the correct files. paulson parents: 14267 diff changeset	645	"[\|a \<le> b; c \<le> d; 0 \<le> b; 0 \<le> c\|]
14341 a09441bd4f1e Ring_and_Field now requires axiom add_left_imp_eq for semirings. paulson parents: 14334 diff changeset	646	==> a * c \<le> b * (d::'a::ordered_semiring)"
14268 5cf13e80be0e Removal of Hyperreal/ExtraThms2.ML, sending the material to the correct files. paulson parents: 14267 diff changeset	647	apply (erule mult_right_mono [THEN order_trans], assumption)
5cf13e80be0e Removal of Hyperreal/ExtraThms2.ML, sending the material to the correct files. paulson parents: 14267 diff changeset	648	apply (erule mult_left_mono, assumption)
5cf13e80be0e Removal of Hyperreal/ExtraThms2.ML, sending the material to the correct files. paulson parents: 14267 diff changeset	649	done
5cf13e80be0e Removal of Hyperreal/ExtraThms2.ML, sending the material to the correct files. paulson parents: 14267 diff changeset	650
14387 e96d5c42c4b0 Polymorphic treatment of binary arithmetic using axclasses paulson parents: 14377 diff changeset	651	lemma less_1_mult: "[\| 1 < m; 1 < n \|] ==> 1 < m*(n::'a::ordered_semiring)"
e96d5c42c4b0 Polymorphic treatment of binary arithmetic using axclasses paulson parents: 14377 diff changeset	652	apply (insert mult_strict_mono [of 1 m 1 n])
e96d5c42c4b0 Polymorphic treatment of binary arithmetic using axclasses paulson parents: 14377 diff changeset	653	apply (simp add: order_less_trans [OF zero_less_one]);
e96d5c42c4b0 Polymorphic treatment of binary arithmetic using axclasses paulson parents: 14377 diff changeset	654	done
e96d5c42c4b0 Polymorphic treatment of binary arithmetic using axclasses paulson parents: 14377 diff changeset	655
14268 5cf13e80be0e Removal of Hyperreal/ExtraThms2.ML, sending the material to the correct files. paulson parents: 14267 diff changeset	656
5cf13e80be0e Removal of Hyperreal/ExtraThms2.ML, sending the material to the correct files. paulson parents: 14267 diff changeset	657	subsection{Cancellation Laws for Relationships With a Common Factor}
5cf13e80be0e Removal of Hyperreal/ExtraThms2.ML, sending the material to the correct files. paulson parents: 14267 diff changeset	658
5cf13e80be0e Removal of Hyperreal/ExtraThms2.ML, sending the material to the correct files. paulson parents: 14267 diff changeset	659	text{Cancellation laws for @{term "ca < cb"} and @{term "ac < b*c"},
5cf13e80be0e Removal of Hyperreal/ExtraThms2.ML, sending the material to the correct files. paulson parents: 14267 diff changeset	660	also with the relations @{text "\<le>"} and equality.*}
5cf13e80be0e Removal of Hyperreal/ExtraThms2.ML, sending the material to the correct files. paulson parents: 14267 diff changeset	661
5cf13e80be0e Removal of Hyperreal/ExtraThms2.ML, sending the material to the correct files. paulson parents: 14267 diff changeset	662	lemma mult_less_cancel_right:
5cf13e80be0e Removal of Hyperreal/ExtraThms2.ML, sending the material to the correct files. paulson parents: 14267 diff changeset	663	"(ac < bc) = ((0 < c & a < b) \| (c < 0 & b < (a::'a::ordered_ring)))"
5cf13e80be0e Removal of Hyperreal/ExtraThms2.ML, sending the material to the correct files. paulson parents: 14267 diff changeset	664	apply (case_tac "c = 0")
5cf13e80be0e Removal of Hyperreal/ExtraThms2.ML, sending the material to the correct files. paulson parents: 14267 diff changeset	665	apply (auto simp add: linorder_neq_iff mult_strict_right_mono
5cf13e80be0e Removal of Hyperreal/ExtraThms2.ML, sending the material to the correct files. paulson parents: 14267 diff changeset	666	mult_strict_right_mono_neg)
5cf13e80be0e Removal of Hyperreal/ExtraThms2.ML, sending the material to the correct files. paulson parents: 14267 diff changeset	667	apply (auto simp add: linorder_not_less
5cf13e80be0e Removal of Hyperreal/ExtraThms2.ML, sending the material to the correct files. paulson parents: 14267 diff changeset	668	linorder_not_le [symmetric, of "a*c"]
5cf13e80be0e Removal of Hyperreal/ExtraThms2.ML, sending the material to the correct files. paulson parents: 14267 diff changeset	669	linorder_not_le [symmetric, of a])
5cf13e80be0e Removal of Hyperreal/ExtraThms2.ML, sending the material to the correct files. paulson parents: 14267 diff changeset	670	apply (erule_tac [!] notE)
5cf13e80be0e Removal of Hyperreal/ExtraThms2.ML, sending the material to the correct files. paulson parents: 14267 diff changeset	671	apply (auto simp add: order_less_imp_le mult_right_mono
5cf13e80be0e Removal of Hyperreal/ExtraThms2.ML, sending the material to the correct files. paulson parents: 14267 diff changeset	672	mult_right_mono_neg)
5cf13e80be0e Removal of Hyperreal/ExtraThms2.ML, sending the material to the correct files. paulson parents: 14267 diff changeset	673	done
5cf13e80be0e Removal of Hyperreal/ExtraThms2.ML, sending the material to the correct files. paulson parents: 14267 diff changeset	674
5cf13e80be0e Removal of Hyperreal/ExtraThms2.ML, sending the material to the correct files. paulson parents: 14267 diff changeset	675	lemma mult_less_cancel_left:
5cf13e80be0e Removal of Hyperreal/ExtraThms2.ML, sending the material to the correct files. paulson parents: 14267 diff changeset	676	"(ca < cb) = ((0 < c & a < b) \| (c < 0 & b < (a::'a::ordered_ring)))"
5cf13e80be0e Removal of Hyperreal/ExtraThms2.ML, sending the material to the correct files. paulson parents: 14267 diff changeset	677	by (simp add: mult_commute [of c] mult_less_cancel_right)
5cf13e80be0e Removal of Hyperreal/ExtraThms2.ML, sending the material to the correct files. paulson parents: 14267 diff changeset	678
5cf13e80be0e Removal of Hyperreal/ExtraThms2.ML, sending the material to the correct files. paulson parents: 14267 diff changeset	679	lemma mult_le_cancel_right:
5cf13e80be0e Removal of Hyperreal/ExtraThms2.ML, sending the material to the correct files. paulson parents: 14267 diff changeset	680	"(ac \<le> bc) = ((0<c --> a\<le>b) & (c<0 --> b \<le> (a::'a::ordered_ring)))"
5cf13e80be0e Removal of Hyperreal/ExtraThms2.ML, sending the material to the correct files. paulson parents: 14267 diff changeset	681	by (simp add: linorder_not_less [symmetric] mult_less_cancel_right)
5cf13e80be0e Removal of Hyperreal/ExtraThms2.ML, sending the material to the correct files. paulson parents: 14267 diff changeset	682
5cf13e80be0e Removal of Hyperreal/ExtraThms2.ML, sending the material to the correct files. paulson parents: 14267 diff changeset	683	lemma mult_le_cancel_left:
5cf13e80be0e Removal of Hyperreal/ExtraThms2.ML, sending the material to the correct files. paulson parents: 14267 diff changeset	684	"(ca \<le> cb) = ((0<c --> a\<le>b) & (c<0 --> b \<le> (a::'a::ordered_ring)))"
5cf13e80be0e Removal of Hyperreal/ExtraThms2.ML, sending the material to the correct files. paulson parents: 14267 diff changeset	685	by (simp add: mult_commute [of c] mult_le_cancel_right)
5cf13e80be0e Removal of Hyperreal/ExtraThms2.ML, sending the material to the correct files. paulson parents: 14267 diff changeset	686
5cf13e80be0e Removal of Hyperreal/ExtraThms2.ML, sending the material to the correct files. paulson parents: 14267 diff changeset	687	lemma mult_less_imp_less_left:
14341 a09441bd4f1e Ring_and_Field now requires axiom add_left_imp_eq for semirings. paulson parents: 14334 diff changeset	688	assumes less: "ca < cb" and nonneg: "0 \<le> c"
a09441bd4f1e Ring_and_Field now requires axiom add_left_imp_eq for semirings. paulson parents: 14334 diff changeset	689	shows "a < (b::'a::ordered_semiring)"
14377 f454b3004f8f tidying up, especially the Complex numbers paulson parents: 14370 diff changeset	690	proof (rule ccontr)
f454b3004f8f tidying up, especially the Complex numbers paulson parents: 14370 diff changeset	691	assume "~ a < b"
f454b3004f8f tidying up, especially the Complex numbers paulson parents: 14370 diff changeset	692	hence "b \<le> a" by (simp add: linorder_not_less)
f454b3004f8f tidying up, especially the Complex numbers paulson parents: 14370 diff changeset	693	hence "cb \<le> ca" by (rule mult_left_mono)
f454b3004f8f tidying up, especially the Complex numbers paulson parents: 14370 diff changeset	694	with this and less show False
f454b3004f8f tidying up, especially the Complex numbers paulson parents: 14370 diff changeset	695	by (simp add: linorder_not_less [symmetric])
f454b3004f8f tidying up, especially the Complex numbers paulson parents: 14370 diff changeset	696	qed
14268 5cf13e80be0e Removal of Hyperreal/ExtraThms2.ML, sending the material to the correct files. paulson parents: 14267 diff changeset	697
5cf13e80be0e Removal of Hyperreal/ExtraThms2.ML, sending the material to the correct files. paulson parents: 14267 diff changeset	698	lemma mult_less_imp_less_right:
14341 a09441bd4f1e Ring_and_Field now requires axiom add_left_imp_eq for semirings. paulson parents: 14334 diff changeset	699	"[\|ac < bc; 0 \<le> c\|] ==> a < (b::'a::ordered_semiring)"
a09441bd4f1e Ring_and_Field now requires axiom add_left_imp_eq for semirings. paulson parents: 14334 diff changeset	700	by (rule mult_less_imp_less_left, simp add: mult_commute)
14268 5cf13e80be0e Removal of Hyperreal/ExtraThms2.ML, sending the material to the correct files. paulson parents: 14267 diff changeset	701
5cf13e80be0e Removal of Hyperreal/ExtraThms2.ML, sending the material to the correct files. paulson parents: 14267 diff changeset	702	text{Cancellation of equalities with a common factor}
5cf13e80be0e Removal of Hyperreal/ExtraThms2.ML, sending the material to the correct files. paulson parents: 14267 diff changeset	703	lemma mult_cancel_right [simp]:
5cf13e80be0e Removal of Hyperreal/ExtraThms2.ML, sending the material to the correct files. paulson parents: 14267 diff changeset	704	"(ac = bc) = (c = (0::'a::ordered_ring) \| a=b)"
5cf13e80be0e Removal of Hyperreal/ExtraThms2.ML, sending the material to the correct files. paulson parents: 14267 diff changeset	705	apply (cut_tac linorder_less_linear [of 0 c])
5cf13e80be0e Removal of Hyperreal/ExtraThms2.ML, sending the material to the correct files. paulson parents: 14267 diff changeset	706	apply (force dest: mult_strict_right_mono_neg mult_strict_right_mono
5cf13e80be0e Removal of Hyperreal/ExtraThms2.ML, sending the material to the correct files. paulson parents: 14267 diff changeset	707	simp add: linorder_neq_iff)
5cf13e80be0e Removal of Hyperreal/ExtraThms2.ML, sending the material to the correct files. paulson parents: 14267 diff changeset	708	done
5cf13e80be0e Removal of Hyperreal/ExtraThms2.ML, sending the material to the correct files. paulson parents: 14267 diff changeset	709
5cf13e80be0e Removal of Hyperreal/ExtraThms2.ML, sending the material to the correct files. paulson parents: 14267 diff changeset	710	text{*These cancellation theorems require an ordering. Versions are proved
5cf13e80be0e Removal of Hyperreal/ExtraThms2.ML, sending the material to the correct files. paulson parents: 14267 diff changeset	711	below that work for fields without an ordering.*}
5cf13e80be0e Removal of Hyperreal/ExtraThms2.ML, sending the material to the correct files. paulson parents: 14267 diff changeset	712	lemma mult_cancel_left [simp]:
5cf13e80be0e Removal of Hyperreal/ExtraThms2.ML, sending the material to the correct files. paulson parents: 14267 diff changeset	713	"(ca = cb) = (c = (0::'a::ordered_ring) \| a=b)"
5cf13e80be0e Removal of Hyperreal/ExtraThms2.ML, sending the material to the correct files. paulson parents: 14267 diff changeset	714	by (simp add: mult_commute [of c] mult_cancel_right)
5cf13e80be0e Removal of Hyperreal/ExtraThms2.ML, sending the material to the correct files. paulson parents: 14267 diff changeset	715
14265 95b42e69436c HOL: installation of Ring_and_Field as the basis for Naturals and Reals paulson parents: diff changeset	716
95b42e69436c HOL: installation of Ring_and_Field as the basis for Naturals and Reals paulson parents: diff changeset	717	subsection {* Fields *}
95b42e69436c HOL: installation of Ring_and_Field as the basis for Naturals and Reals paulson parents: diff changeset	718
14288 d149e3cbdb39 Moving some theorems from Real/RealArith0.ML paulson parents: 14284 diff changeset	719	lemma right_inverse [simp]:
d149e3cbdb39 Moving some theorems from Real/RealArith0.ML paulson parents: 14284 diff changeset	720	assumes not0: "a \<noteq> 0" shows "a * inverse (a::'a::field) = 1"
d149e3cbdb39 Moving some theorems from Real/RealArith0.ML paulson parents: 14284 diff changeset	721	proof -
d149e3cbdb39 Moving some theorems from Real/RealArith0.ML paulson parents: 14284 diff changeset	722	have "a * inverse a = inverse a * a" by (simp add: mult_ac)
d149e3cbdb39 Moving some theorems from Real/RealArith0.ML paulson parents: 14284 diff changeset	723	also have "... = 1" using not0 by simp
d149e3cbdb39 Moving some theorems from Real/RealArith0.ML paulson parents: 14284 diff changeset	724	finally show ?thesis .
d149e3cbdb39 Moving some theorems from Real/RealArith0.ML paulson parents: 14284 diff changeset	725	qed
d149e3cbdb39 Moving some theorems from Real/RealArith0.ML paulson parents: 14284 diff changeset	726
d149e3cbdb39 Moving some theorems from Real/RealArith0.ML paulson parents: 14284 diff changeset	727	lemma right_inverse_eq: "b \<noteq> 0 ==> (a / b = 1) = (a = (b::'a::field))"
d149e3cbdb39 Moving some theorems from Real/RealArith0.ML paulson parents: 14284 diff changeset	728	proof
d149e3cbdb39 Moving some theorems from Real/RealArith0.ML paulson parents: 14284 diff changeset	729	assume neq: "b \<noteq> 0"
d149e3cbdb39 Moving some theorems from Real/RealArith0.ML paulson parents: 14284 diff changeset	730	{
d149e3cbdb39 Moving some theorems from Real/RealArith0.ML paulson parents: 14284 diff changeset	731	hence "a = (a / b) * b" by (simp add: divide_inverse mult_ac)
d149e3cbdb39 Moving some theorems from Real/RealArith0.ML paulson parents: 14284 diff changeset	732	also assume "a / b = 1"
d149e3cbdb39 Moving some theorems from Real/RealArith0.ML paulson parents: 14284 diff changeset	733	finally show "a = b" by simp
d149e3cbdb39 Moving some theorems from Real/RealArith0.ML paulson parents: 14284 diff changeset	734	next
d149e3cbdb39 Moving some theorems from Real/RealArith0.ML paulson parents: 14284 diff changeset	735	assume "a = b"
d149e3cbdb39 Moving some theorems from Real/RealArith0.ML paulson parents: 14284 diff changeset	736	with neq show "a / b = 1" by (simp add: divide_inverse)
d149e3cbdb39 Moving some theorems from Real/RealArith0.ML paulson parents: 14284 diff changeset	737	}
d149e3cbdb39 Moving some theorems from Real/RealArith0.ML paulson parents: 14284 diff changeset	738	qed
d149e3cbdb39 Moving some theorems from Real/RealArith0.ML paulson parents: 14284 diff changeset	739
d149e3cbdb39 Moving some theorems from Real/RealArith0.ML paulson parents: 14284 diff changeset	740	lemma nonzero_inverse_eq_divide: "a \<noteq> 0 ==> inverse (a::'a::field) = 1/a"
d149e3cbdb39 Moving some theorems from Real/RealArith0.ML paulson parents: 14284 diff changeset	741	by (simp add: divide_inverse)
d149e3cbdb39 Moving some theorems from Real/RealArith0.ML paulson parents: 14284 diff changeset	742
d149e3cbdb39 Moving some theorems from Real/RealArith0.ML paulson parents: 14284 diff changeset	743	lemma divide_self [simp]: "a \<noteq> 0 ==> a / (a::'a::field) = 1"
d149e3cbdb39 Moving some theorems from Real/RealArith0.ML paulson parents: 14284 diff changeset	744	by (simp add: divide_inverse)
d149e3cbdb39 Moving some theorems from Real/RealArith0.ML paulson parents: 14284 diff changeset	745
14277 ad66687ece6e more field division lemmas transferred from Real to Ring_and_Field paulson parents: 14272 diff changeset	746	lemma divide_inverse_zero: "a/b = a * inverse(b::'a::{field,division_by_zero})"
ad66687ece6e more field division lemmas transferred from Real to Ring_and_Field paulson parents: 14272 diff changeset	747	apply (case_tac "b = 0")
ad66687ece6e more field division lemmas transferred from Real to Ring_and_Field paulson parents: 14272 diff changeset	748	apply (simp_all add: divide_inverse)
ad66687ece6e more field division lemmas transferred from Real to Ring_and_Field paulson parents: 14272 diff changeset	749	done
ad66687ece6e more field division lemmas transferred from Real to Ring_and_Field paulson parents: 14272 diff changeset	750
ad66687ece6e more field division lemmas transferred from Real to Ring_and_Field paulson parents: 14272 diff changeset	751	lemma divide_zero_left [simp]: "0/a = (0::'a::{field,division_by_zero})"
ad66687ece6e more field division lemmas transferred from Real to Ring_and_Field paulson parents: 14272 diff changeset	752	by (simp add: divide_inverse_zero)
ad66687ece6e more field division lemmas transferred from Real to Ring_and_Field paulson parents: 14272 diff changeset	753
ad66687ece6e more field division lemmas transferred from Real to Ring_and_Field paulson parents: 14272 diff changeset	754	lemma inverse_eq_divide: "inverse (a::'a::{field,division_by_zero}) = 1/a"
ad66687ece6e more field division lemmas transferred from Real to Ring_and_Field paulson parents: 14272 diff changeset	755	by (simp add: divide_inverse_zero)
ad66687ece6e more field division lemmas transferred from Real to Ring_and_Field paulson parents: 14272 diff changeset	756
14293 22542982bffd moving some division theorems to Ring_and_Field paulson parents: 14288 diff changeset	757	lemma nonzero_add_divide_distrib: "c \<noteq> 0 ==> (a+b)/(c::'a::field) = a/c + b/c"
22542982bffd moving some division theorems to Ring_and_Field paulson parents: 14288 diff changeset	758	by (simp add: divide_inverse left_distrib)
22542982bffd moving some division theorems to Ring_and_Field paulson parents: 14288 diff changeset	759
22542982bffd moving some division theorems to Ring_and_Field paulson parents: 14288 diff changeset	760	lemma add_divide_distrib: "(a+b)/(c::'a::{field,division_by_zero}) = a/c + b/c"
22542982bffd moving some division theorems to Ring_and_Field paulson parents: 14288 diff changeset	761	apply (case_tac "c=0", simp)
22542982bffd moving some division theorems to Ring_and_Field paulson parents: 14288 diff changeset	762	apply (simp add: nonzero_add_divide_distrib)
22542982bffd moving some division theorems to Ring_and_Field paulson parents: 14288 diff changeset	763	done
22542982bffd moving some division theorems to Ring_and_Field paulson parents: 14288 diff changeset	764
14270 342451d763f9 More re-organising of numerical theorems paulson parents: 14269 diff changeset	765	text{*Compared with @{text mult_eq_0_iff}, this version removes the requirement
342451d763f9 More re-organising of numerical theorems paulson parents: 14269 diff changeset	766	of an ordering.*}
14348 744c868ee0b7 Defining the type class "ringpower" and deleting superseded theorems for paulson parents: 14341 diff changeset	767	lemma field_mult_eq_0_iff [simp]: "(a*b = (0::'a::field)) = (a = 0 \| b = 0)"
14377 f454b3004f8f tidying up, especially the Complex numbers paulson parents: 14370 diff changeset	768	proof cases
f454b3004f8f tidying up, especially the Complex numbers paulson parents: 14370 diff changeset	769	assume "a=0" thus ?thesis by simp
f454b3004f8f tidying up, especially the Complex numbers paulson parents: 14370 diff changeset	770	next
f454b3004f8f tidying up, especially the Complex numbers paulson parents: 14370 diff changeset	771	assume anz [simp]: "a\<noteq>0"
f454b3004f8f tidying up, especially the Complex numbers paulson parents: 14370 diff changeset	772	{ assume "a * b = 0"
f454b3004f8f tidying up, especially the Complex numbers paulson parents: 14370 diff changeset	773	hence "inverse a * (a * b) = 0" by simp
f454b3004f8f tidying up, especially the Complex numbers paulson parents: 14370 diff changeset	774	hence "b = 0" by (simp (no_asm_use) add: mult_assoc [symmetric])}
f454b3004f8f tidying up, especially the Complex numbers paulson parents: 14370 diff changeset	775	thus ?thesis by force
f454b3004f8f tidying up, especially the Complex numbers paulson parents: 14370 diff changeset	776	qed
14270 342451d763f9 More re-organising of numerical theorems paulson parents: 14269 diff changeset	777
14268 5cf13e80be0e Removal of Hyperreal/ExtraThms2.ML, sending the material to the correct files. paulson parents: 14267 diff changeset	778	text{Cancellation of equalities with a common factor}
5cf13e80be0e Removal of Hyperreal/ExtraThms2.ML, sending the material to the correct files. paulson parents: 14267 diff changeset	779	lemma field_mult_cancel_right_lemma:
14269 502a7c95de73 conversion of some Real theories to Isar scripts paulson parents: 14268 diff changeset	780	assumes cnz: "c \<noteq> (0::'a::field)"
502a7c95de73 conversion of some Real theories to Isar scripts paulson parents: 14268 diff changeset	781	and eq: "ac = bc"
502a7c95de73 conversion of some Real theories to Isar scripts paulson parents: 14268 diff changeset	782	shows "a=b"
14377 f454b3004f8f tidying up, especially the Complex numbers paulson parents: 14370 diff changeset	783	proof -
14268 5cf13e80be0e Removal of Hyperreal/ExtraThms2.ML, sending the material to the correct files. paulson parents: 14267 diff changeset	784	have "(a * c) * inverse c = (b * c) * inverse c"
5cf13e80be0e Removal of Hyperreal/ExtraThms2.ML, sending the material to the correct files. paulson parents: 14267 diff changeset	785	by (simp add: eq)
5cf13e80be0e Removal of Hyperreal/ExtraThms2.ML, sending the material to the correct files. paulson parents: 14267 diff changeset	786	thus "a=b"
5cf13e80be0e Removal of Hyperreal/ExtraThms2.ML, sending the material to the correct files. paulson parents: 14267 diff changeset	787	by (simp add: mult_assoc cnz)
14377 f454b3004f8f tidying up, especially the Complex numbers paulson parents: 14370 diff changeset	788	qed
14268 5cf13e80be0e Removal of Hyperreal/ExtraThms2.ML, sending the material to the correct files. paulson parents: 14267 diff changeset	789
14348 744c868ee0b7 Defining the type class "ringpower" and deleting superseded theorems for paulson parents: 14341 diff changeset	790	lemma field_mult_cancel_right [simp]:
14268 5cf13e80be0e Removal of Hyperreal/ExtraThms2.ML, sending the material to the correct files. paulson parents: 14267 diff changeset	791	"(ac = bc) = (c = (0::'a::field) \| a=b)"
14377 f454b3004f8f tidying up, especially the Complex numbers paulson parents: 14370 diff changeset	792	proof cases
f454b3004f8f tidying up, especially the Complex numbers paulson parents: 14370 diff changeset	793	assume "c=0" thus ?thesis by simp
f454b3004f8f tidying up, especially the Complex numbers paulson parents: 14370 diff changeset	794	next
f454b3004f8f tidying up, especially the Complex numbers paulson parents: 14370 diff changeset	795	assume "c\<noteq>0"
f454b3004f8f tidying up, especially the Complex numbers paulson parents: 14370 diff changeset	796	thus ?thesis by (force dest: field_mult_cancel_right_lemma)
f454b3004f8f tidying up, especially the Complex numbers paulson parents: 14370 diff changeset	797	qed
14268 5cf13e80be0e Removal of Hyperreal/ExtraThms2.ML, sending the material to the correct files. paulson parents: 14267 diff changeset	798
14348 744c868ee0b7 Defining the type class "ringpower" and deleting superseded theorems for paulson parents: 14341 diff changeset	799	lemma field_mult_cancel_left [simp]:
14268 5cf13e80be0e Removal of Hyperreal/ExtraThms2.ML, sending the material to the correct files. paulson parents: 14267 diff changeset	800	"(ca = cb) = (c = (0::'a::field) \| a=b)"
5cf13e80be0e Removal of Hyperreal/ExtraThms2.ML, sending the material to the correct files. paulson parents: 14267 diff changeset	801	by (simp add: mult_commute [of c] field_mult_cancel_right)
5cf13e80be0e Removal of Hyperreal/ExtraThms2.ML, sending the material to the correct files. paulson parents: 14267 diff changeset	802
5cf13e80be0e Removal of Hyperreal/ExtraThms2.ML, sending the material to the correct files. paulson parents: 14267 diff changeset	803	lemma nonzero_imp_inverse_nonzero: "a \<noteq> 0 ==> inverse a \<noteq> (0::'a::field)"
14377 f454b3004f8f tidying up, especially the Complex numbers paulson parents: 14370 diff changeset	804	proof
14268 5cf13e80be0e Removal of Hyperreal/ExtraThms2.ML, sending the material to the correct files. paulson parents: 14267 diff changeset	805	assume ianz: "inverse a = 0"
5cf13e80be0e Removal of Hyperreal/ExtraThms2.ML, sending the material to the correct files. paulson parents: 14267 diff changeset	806	assume "a \<noteq> 0"
5cf13e80be0e Removal of Hyperreal/ExtraThms2.ML, sending the material to the correct files. paulson parents: 14267 diff changeset	807	hence "1 = a * inverse a" by simp
5cf13e80be0e Removal of Hyperreal/ExtraThms2.ML, sending the material to the correct files. paulson parents: 14267 diff changeset	808	also have "... = 0" by (simp add: ianz)
5cf13e80be0e Removal of Hyperreal/ExtraThms2.ML, sending the material to the correct files. paulson parents: 14267 diff changeset	809	finally have "1 = (0::'a::field)" .
5cf13e80be0e Removal of Hyperreal/ExtraThms2.ML, sending the material to the correct files. paulson parents: 14267 diff changeset	810	thus False by (simp add: eq_commute)
14377 f454b3004f8f tidying up, especially the Complex numbers paulson parents: 14370 diff changeset	811	qed
14268 5cf13e80be0e Removal of Hyperreal/ExtraThms2.ML, sending the material to the correct files. paulson parents: 14267 diff changeset	812
14277 ad66687ece6e more field division lemmas transferred from Real to Ring_and_Field paulson parents: 14272 diff changeset	813
ad66687ece6e more field division lemmas transferred from Real to Ring_and_Field paulson parents: 14272 diff changeset	814	subsection{Basic Properties of @{term inverse}}
ad66687ece6e more field division lemmas transferred from Real to Ring_and_Field paulson parents: 14272 diff changeset	815
14268 5cf13e80be0e Removal of Hyperreal/ExtraThms2.ML, sending the material to the correct files. paulson parents: 14267 diff changeset	816	lemma inverse_zero_imp_zero: "inverse a = 0 ==> a = (0::'a::field)"
5cf13e80be0e Removal of Hyperreal/ExtraThms2.ML, sending the material to the correct files. paulson parents: 14267 diff changeset	817	apply (rule ccontr)
5cf13e80be0e Removal of Hyperreal/ExtraThms2.ML, sending the material to the correct files. paulson parents: 14267 diff changeset	818	apply (blast dest: nonzero_imp_inverse_nonzero)
5cf13e80be0e Removal of Hyperreal/ExtraThms2.ML, sending the material to the correct files. paulson parents: 14267 diff changeset	819	done
5cf13e80be0e Removal of Hyperreal/ExtraThms2.ML, sending the material to the correct files. paulson parents: 14267 diff changeset	820
5cf13e80be0e Removal of Hyperreal/ExtraThms2.ML, sending the material to the correct files. paulson parents: 14267 diff changeset	821	lemma inverse_nonzero_imp_nonzero:
5cf13e80be0e Removal of Hyperreal/ExtraThms2.ML, sending the material to the correct files. paulson parents: 14267 diff changeset	822	"inverse a = 0 ==> a = (0::'a::field)"
5cf13e80be0e Removal of Hyperreal/ExtraThms2.ML, sending the material to the correct files. paulson parents: 14267 diff changeset	823	apply (rule ccontr)
5cf13e80be0e Removal of Hyperreal/ExtraThms2.ML, sending the material to the correct files. paulson parents: 14267 diff changeset	824	apply (blast dest: nonzero_imp_inverse_nonzero)
5cf13e80be0e Removal of Hyperreal/ExtraThms2.ML, sending the material to the correct files. paulson parents: 14267 diff changeset	825	done
5cf13e80be0e Removal of Hyperreal/ExtraThms2.ML, sending the material to the correct files. paulson parents: 14267 diff changeset	826
5cf13e80be0e Removal of Hyperreal/ExtraThms2.ML, sending the material to the correct files. paulson parents: 14267 diff changeset	827	lemma inverse_nonzero_iff_nonzero [simp]:
5cf13e80be0e Removal of Hyperreal/ExtraThms2.ML, sending the material to the correct files. paulson parents: 14267 diff changeset	828	"(inverse a = 0) = (a = (0::'a::{field,division_by_zero}))"
5cf13e80be0e Removal of Hyperreal/ExtraThms2.ML, sending the material to the correct files. paulson parents: 14267 diff changeset	829	by (force dest: inverse_nonzero_imp_nonzero)
5cf13e80be0e Removal of Hyperreal/ExtraThms2.ML, sending the material to the correct files. paulson parents: 14267 diff changeset	830
5cf13e80be0e Removal of Hyperreal/ExtraThms2.ML, sending the material to the correct files. paulson parents: 14267 diff changeset	831	lemma nonzero_inverse_minus_eq:
14269 502a7c95de73 conversion of some Real theories to Isar scripts paulson parents: 14268 diff changeset	832	assumes [simp]: "a\<noteq>0" shows "inverse(-a) = -inverse(a::'a::field)"
14377 f454b3004f8f tidying up, especially the Complex numbers paulson parents: 14370 diff changeset	833	proof -
f454b3004f8f tidying up, especially the Complex numbers paulson parents: 14370 diff changeset	834	have "-a * inverse (- a) = -a * - inverse a"
f454b3004f8f tidying up, especially the Complex numbers paulson parents: 14370 diff changeset	835	by simp
f454b3004f8f tidying up, especially the Complex numbers paulson parents: 14370 diff changeset	836	thus ?thesis
f454b3004f8f tidying up, especially the Complex numbers paulson parents: 14370 diff changeset	837	by (simp only: field_mult_cancel_left, simp)
f454b3004f8f tidying up, especially the Complex numbers paulson parents: 14370 diff changeset	838	qed
14268 5cf13e80be0e Removal of Hyperreal/ExtraThms2.ML, sending the material to the correct files. paulson parents: 14267 diff changeset	839
5cf13e80be0e Removal of Hyperreal/ExtraThms2.ML, sending the material to the correct files. paulson parents: 14267 diff changeset	840	lemma inverse_minus_eq [simp]:
14377 f454b3004f8f tidying up, especially the Complex numbers paulson parents: 14370 diff changeset	841	"inverse(-a) = -inverse(a::'a::{field,division_by_zero})";
f454b3004f8f tidying up, especially the Complex numbers paulson parents: 14370 diff changeset	842	proof cases
f454b3004f8f tidying up, especially the Complex numbers paulson parents: 14370 diff changeset	843	assume "a=0" thus ?thesis by (simp add: inverse_zero)
f454b3004f8f tidying up, especially the Complex numbers paulson parents: 14370 diff changeset	844	next
f454b3004f8f tidying up, especially the Complex numbers paulson parents: 14370 diff changeset	845	assume "a\<noteq>0"
f454b3004f8f tidying up, especially the Complex numbers paulson parents: 14370 diff changeset	846	thus ?thesis by (simp add: nonzero_inverse_minus_eq)
f454b3004f8f tidying up, especially the Complex numbers paulson parents: 14370 diff changeset	847	qed
14268 5cf13e80be0e Removal of Hyperreal/ExtraThms2.ML, sending the material to the correct files. paulson parents: 14267 diff changeset	848
5cf13e80be0e Removal of Hyperreal/ExtraThms2.ML, sending the material to the correct files. paulson parents: 14267 diff changeset	849	lemma nonzero_inverse_eq_imp_eq:
14269 502a7c95de73 conversion of some Real theories to Isar scripts paulson parents: 14268 diff changeset	850	assumes inveq: "inverse a = inverse b"
502a7c95de73 conversion of some Real theories to Isar scripts paulson parents: 14268 diff changeset	851	and anz: "a \<noteq> 0"
502a7c95de73 conversion of some Real theories to Isar scripts paulson parents: 14268 diff changeset	852	and bnz: "b \<noteq> 0"
502a7c95de73 conversion of some Real theories to Isar scripts paulson parents: 14268 diff changeset	853	shows "a = (b::'a::field)"
14377 f454b3004f8f tidying up, especially the Complex numbers paulson parents: 14370 diff changeset	854	proof -
14268 5cf13e80be0e Removal of Hyperreal/ExtraThms2.ML, sending the material to the correct files. paulson parents: 14267 diff changeset	855	have "a * inverse b = a * inverse a"
5cf13e80be0e Removal of Hyperreal/ExtraThms2.ML, sending the material to the correct files. paulson parents: 14267 diff changeset	856	by (simp add: inveq)
5cf13e80be0e Removal of Hyperreal/ExtraThms2.ML, sending the material to the correct files. paulson parents: 14267 diff changeset	857	hence "(a * inverse b) * b = (a * inverse a) * b"
5cf13e80be0e Removal of Hyperreal/ExtraThms2.ML, sending the material to the correct files. paulson parents: 14267 diff changeset	858	by simp
5cf13e80be0e Removal of Hyperreal/ExtraThms2.ML, sending the material to the correct files. paulson parents: 14267 diff changeset	859	thus "a = b"
5cf13e80be0e Removal of Hyperreal/ExtraThms2.ML, sending the material to the correct files. paulson parents: 14267 diff changeset	860	by (simp add: mult_assoc anz bnz)
14377 f454b3004f8f tidying up, especially the Complex numbers paulson parents: 14370 diff changeset	861	qed
14268 5cf13e80be0e Removal of Hyperreal/ExtraThms2.ML, sending the material to the correct files. paulson parents: 14267 diff changeset	862
5cf13e80be0e Removal of Hyperreal/ExtraThms2.ML, sending the material to the correct files. paulson parents: 14267 diff changeset	863	lemma inverse_eq_imp_eq:
5cf13e80be0e Removal of Hyperreal/ExtraThms2.ML, sending the material to the correct files. paulson parents: 14267 diff changeset	864	"inverse a = inverse b ==> a = (b::'a::{field,division_by_zero})"
5cf13e80be0e Removal of Hyperreal/ExtraThms2.ML, sending the material to the correct files. paulson parents: 14267 diff changeset	865	apply (case_tac "a=0 \| b=0")
5cf13e80be0e Removal of Hyperreal/ExtraThms2.ML, sending the material to the correct files. paulson parents: 14267 diff changeset	866	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	867	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	868	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	869	done
5cf13e80be0e Removal of Hyperreal/ExtraThms2.ML, sending the material to the correct files. paulson parents: 14267 diff changeset	870
5cf13e80be0e Removal of Hyperreal/ExtraThms2.ML, sending the material to the correct files. paulson parents: 14267 diff changeset	871	lemma inverse_eq_iff_eq [simp]:
5cf13e80be0e Removal of Hyperreal/ExtraThms2.ML, sending the material to the correct files. paulson parents: 14267 diff changeset	872	"(inverse a = inverse b) = (a = (b::'a::{field,division_by_zero}))"
5cf13e80be0e Removal of Hyperreal/ExtraThms2.ML, sending the material to the correct files. paulson parents: 14267 diff changeset	873	by (force dest!: inverse_eq_imp_eq)
5cf13e80be0e Removal of Hyperreal/ExtraThms2.ML, sending the material to the correct files. paulson parents: 14267 diff changeset	874
14270 342451d763f9 More re-organising of numerical theorems paulson parents: 14269 diff changeset	875	lemma nonzero_inverse_inverse_eq:
342451d763f9 More re-organising of numerical theorems paulson parents: 14269 diff changeset	876	assumes [simp]: "a \<noteq> 0" shows "inverse(inverse (a::'a::field)) = a"
342451d763f9 More re-organising of numerical theorems paulson parents: 14269 diff changeset	877	proof -
342451d763f9 More re-organising of numerical theorems paulson parents: 14269 diff changeset	878	have "(inverse (inverse a) * inverse a) * a = a"
342451d763f9 More re-organising of numerical theorems paulson parents: 14269 diff changeset	879	by (simp add: nonzero_imp_inverse_nonzero)
342451d763f9 More re-organising of numerical theorems paulson parents: 14269 diff changeset	880	thus ?thesis
342451d763f9 More re-organising of numerical theorems paulson parents: 14269 diff changeset	881	by (simp add: mult_assoc)
342451d763f9 More re-organising of numerical theorems paulson parents: 14269 diff changeset	882	qed
342451d763f9 More re-organising of numerical theorems paulson parents: 14269 diff changeset	883
342451d763f9 More re-organising of numerical theorems paulson parents: 14269 diff changeset	884	lemma inverse_inverse_eq [simp]:
342451d763f9 More re-organising of numerical theorems paulson parents: 14269 diff changeset	885	"inverse(inverse (a::'a::{field,division_by_zero})) = a"
342451d763f9 More re-organising of numerical theorems paulson parents: 14269 diff changeset	886	proof cases
342451d763f9 More re-organising of numerical theorems paulson parents: 14269 diff changeset	887	assume "a=0" thus ?thesis by simp
342451d763f9 More re-organising of numerical theorems paulson parents: 14269 diff changeset	888	next
342451d763f9 More re-organising of numerical theorems paulson parents: 14269 diff changeset	889	assume "a\<noteq>0"
342451d763f9 More re-organising of numerical theorems paulson parents: 14269 diff changeset	890	thus ?thesis by (simp add: nonzero_inverse_inverse_eq)
342451d763f9 More re-organising of numerical theorems paulson parents: 14269 diff changeset	891	qed
342451d763f9 More re-organising of numerical theorems paulson parents: 14269 diff changeset	892
342451d763f9 More re-organising of numerical theorems paulson parents: 14269 diff changeset	893	lemma inverse_1 [simp]: "inverse 1 = (1::'a::field)"
342451d763f9 More re-organising of numerical theorems paulson parents: 14269 diff changeset	894	proof -
342451d763f9 More re-organising of numerical theorems paulson parents: 14269 diff changeset	895	have "inverse 1 * 1 = (1::'a::field)"
342451d763f9 More re-organising of numerical theorems paulson parents: 14269 diff changeset	896	by (rule left_inverse [OF zero_neq_one [symmetric]])
342451d763f9 More re-organising of numerical theorems paulson parents: 14269 diff changeset	897	thus ?thesis by simp
342451d763f9 More re-organising of numerical theorems paulson parents: 14269 diff changeset	898	qed
342451d763f9 More re-organising of numerical theorems paulson parents: 14269 diff changeset	899
342451d763f9 More re-organising of numerical theorems paulson parents: 14269 diff changeset	900	lemma nonzero_inverse_mult_distrib:
342451d763f9 More re-organising of numerical theorems paulson parents: 14269 diff changeset	901	assumes anz: "a \<noteq> 0"
342451d763f9 More re-organising of numerical theorems paulson parents: 14269 diff changeset	902	and bnz: "b \<noteq> 0"
342451d763f9 More re-organising of numerical theorems paulson parents: 14269 diff changeset	903	shows "inverse(ab) = inverse(b) inverse(a::'a::field)"
342451d763f9 More re-organising of numerical theorems paulson parents: 14269 diff changeset	904	proof -
342451d763f9 More re-organising of numerical theorems paulson parents: 14269 diff changeset	905	have "inverse(ab) (a * b) * inverse(b) = inverse(b)"
342451d763f9 More re-organising of numerical theorems paulson parents: 14269 diff changeset	906	by (simp add: field_mult_eq_0_iff anz bnz)
342451d763f9 More re-organising of numerical theorems paulson parents: 14269 diff changeset	907	hence "inverse(ab) a = inverse(b)"
342451d763f9 More re-organising of numerical theorems paulson parents: 14269 diff changeset	908	by (simp add: mult_assoc bnz)
342451d763f9 More re-organising of numerical theorems paulson parents: 14269 diff changeset	909	hence "inverse(ab) a * inverse(a) = inverse(b) * inverse(a)"
342451d763f9 More re-organising of numerical theorems paulson parents: 14269 diff changeset	910	by simp
342451d763f9 More re-organising of numerical theorems paulson parents: 14269 diff changeset	911	thus ?thesis
342451d763f9 More re-organising of numerical theorems paulson parents: 14269 diff changeset	912	by (simp add: mult_assoc anz)
342451d763f9 More re-organising of numerical theorems paulson parents: 14269 diff changeset	913	qed
342451d763f9 More re-organising of numerical theorems paulson parents: 14269 diff changeset	914
342451d763f9 More re-organising of numerical theorems paulson parents: 14269 diff changeset	915	text{*This version builds in division by zero while also re-orienting
342451d763f9 More re-organising of numerical theorems paulson parents: 14269 diff changeset	916	the right-hand side.*}
342451d763f9 More re-organising of numerical theorems paulson parents: 14269 diff changeset	917	lemma inverse_mult_distrib [simp]:
342451d763f9 More re-organising of numerical theorems paulson parents: 14269 diff changeset	918	"inverse(ab) = inverse(a) inverse(b::'a::{field,division_by_zero})"
342451d763f9 More re-organising of numerical theorems paulson parents: 14269 diff changeset	919	proof cases
342451d763f9 More re-organising of numerical theorems paulson parents: 14269 diff changeset	920	assume "a \<noteq> 0 & b \<noteq> 0"
342451d763f9 More re-organising of numerical theorems paulson parents: 14269 diff changeset	921	thus ?thesis by (simp add: nonzero_inverse_mult_distrib mult_commute)
342451d763f9 More re-organising of numerical theorems paulson parents: 14269 diff changeset	922	next
342451d763f9 More re-organising of numerical theorems paulson parents: 14269 diff changeset	923	assume "~ (a \<noteq> 0 & b \<noteq> 0)"
342451d763f9 More re-organising of numerical theorems paulson parents: 14269 diff changeset	924	thus ?thesis by force
342451d763f9 More re-organising of numerical theorems paulson parents: 14269 diff changeset	925	qed
342451d763f9 More re-organising of numerical theorems paulson parents: 14269 diff changeset	926
342451d763f9 More re-organising of numerical theorems paulson parents: 14269 diff changeset	927	text{There is no slick version using division by zero.}
342451d763f9 More re-organising of numerical theorems paulson parents: 14269 diff changeset	928	lemma inverse_add:
342451d763f9 More re-organising of numerical theorems paulson parents: 14269 diff changeset	929	"[\|a \<noteq> 0; b \<noteq> 0\|]
342451d763f9 More re-organising of numerical theorems paulson parents: 14269 diff changeset	930	==> inverse a + inverse b = (a+b) * inverse a * inverse (b::'a::field)"
342451d763f9 More re-organising of numerical theorems paulson parents: 14269 diff changeset	931	apply (simp add: left_distrib mult_assoc)
342451d763f9 More re-organising of numerical theorems paulson parents: 14269 diff changeset	932	apply (simp add: mult_commute [of "inverse a"])
342451d763f9 More re-organising of numerical theorems paulson parents: 14269 diff changeset	933	apply (simp add: mult_assoc [symmetric] add_commute)
342451d763f9 More re-organising of numerical theorems paulson parents: 14269 diff changeset	934	done
342451d763f9 More re-organising of numerical theorems paulson parents: 14269 diff changeset	935
14365 3d4df8c166ae replacing HOL/Real/PRat, PNat by the rational number development paulson parents: 14353 diff changeset	936	lemma inverse_divide [simp]:
3d4df8c166ae replacing HOL/Real/PRat, PNat by the rational number development paulson parents: 14353 diff changeset	937	"inverse (a/b) = b / (a::'a::{field,division_by_zero})"
3d4df8c166ae replacing HOL/Real/PRat, PNat by the rational number development paulson parents: 14353 diff changeset	938	by (simp add: divide_inverse_zero mult_commute)
3d4df8c166ae replacing HOL/Real/PRat, PNat by the rational number development paulson parents: 14353 diff changeset	939
14277 ad66687ece6e more field division lemmas transferred from Real to Ring_and_Field paulson parents: 14272 diff changeset	940	lemma nonzero_mult_divide_cancel_left:
ad66687ece6e more field division lemmas transferred from Real to Ring_and_Field paulson parents: 14272 diff changeset	941	assumes [simp]: "b\<noteq>0" and [simp]: "c\<noteq>0"
ad66687ece6e more field division lemmas transferred from Real to Ring_and_Field paulson parents: 14272 diff changeset	942	shows "(ca)/(cb) = a/(b::'a::field)"
ad66687ece6e more field division lemmas transferred from Real to Ring_and_Field paulson parents: 14272 diff changeset	943	proof -
ad66687ece6e more field division lemmas transferred from Real to Ring_and_Field paulson parents: 14272 diff changeset	944	have "(ca)/(cb) = c * a * (inverse b * inverse c)"
ad66687ece6e more field division lemmas transferred from Real to Ring_and_Field paulson parents: 14272 diff changeset	945	by (simp add: field_mult_eq_0_iff divide_inverse
ad66687ece6e more field division lemmas transferred from Real to Ring_and_Field paulson parents: 14272 diff changeset	946	nonzero_inverse_mult_distrib)
ad66687ece6e more field division lemmas transferred from Real to Ring_and_Field paulson parents: 14272 diff changeset	947	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	948	by (simp only: mult_ac)
ad66687ece6e more field division lemmas transferred from Real to Ring_and_Field paulson parents: 14272 diff changeset	949	also have "... = a * inverse b"
ad66687ece6e more field division lemmas transferred from Real to Ring_and_Field paulson parents: 14272 diff changeset	950	by simp
ad66687ece6e more field division lemmas transferred from Real to Ring_and_Field paulson parents: 14272 diff changeset	951	finally show ?thesis
ad66687ece6e more field division lemmas transferred from Real to Ring_and_Field paulson parents: 14272 diff changeset	952	by (simp add: divide_inverse)
ad66687ece6e more field division lemmas transferred from Real to Ring_and_Field paulson parents: 14272 diff changeset	953	qed
ad66687ece6e more field division lemmas transferred from Real to Ring_and_Field paulson parents: 14272 diff changeset	954
ad66687ece6e more field division lemmas transferred from Real to Ring_and_Field paulson parents: 14272 diff changeset	955	lemma mult_divide_cancel_left:
ad66687ece6e more field division lemmas transferred from Real to Ring_and_Field paulson parents: 14272 diff changeset	956	"c\<noteq>0 ==> (ca) / (cb) = a / (b::'a::{field,division_by_zero})"
ad66687ece6e more field division lemmas transferred from Real to Ring_and_Field paulson parents: 14272 diff changeset	957	apply (case_tac "b = 0")
ad66687ece6e more field division lemmas transferred from Real to Ring_and_Field paulson parents: 14272 diff changeset	958	apply (simp_all add: nonzero_mult_divide_cancel_left)
ad66687ece6e more field division lemmas transferred from Real to Ring_and_Field paulson parents: 14272 diff changeset	959	done
ad66687ece6e more field division lemmas transferred from Real to Ring_and_Field paulson parents: 14272 diff changeset	960
14321 55c688d2eefa new theorems paulson parents: 14305 diff changeset	961	lemma nonzero_mult_divide_cancel_right:
55c688d2eefa new theorems paulson parents: 14305 diff changeset	962	"[\|b\<noteq>0; c\<noteq>0\|] ==> (ac) / (bc) = a/(b::'a::field)"
55c688d2eefa new theorems paulson parents: 14305 diff changeset	963	by (simp add: mult_commute [of _ c] nonzero_mult_divide_cancel_left)
55c688d2eefa new theorems paulson parents: 14305 diff changeset	964
55c688d2eefa new theorems paulson parents: 14305 diff changeset	965	lemma mult_divide_cancel_right:
55c688d2eefa new theorems paulson parents: 14305 diff changeset	966	"c\<noteq>0 ==> (ac) / (bc) = a / (b::'a::{field,division_by_zero})"
55c688d2eefa new theorems paulson parents: 14305 diff changeset	967	apply (case_tac "b = 0")
55c688d2eefa new theorems paulson parents: 14305 diff changeset	968	apply (simp_all add: nonzero_mult_divide_cancel_right)
55c688d2eefa new theorems paulson parents: 14305 diff changeset	969	done
55c688d2eefa new theorems paulson parents: 14305 diff changeset	970
14277 ad66687ece6e more field division lemmas transferred from Real to Ring_and_Field paulson parents: 14272 diff changeset	971	(For ExtractCommonTerm)
ad66687ece6e more field division lemmas transferred from Real to Ring_and_Field paulson parents: 14272 diff changeset	972	lemma mult_divide_cancel_eq_if:
ad66687ece6e more field division lemmas transferred from Real to Ring_and_Field paulson parents: 14272 diff changeset	973	"(ca) / (cb) =
ad66687ece6e more field division lemmas transferred from Real to Ring_and_Field paulson parents: 14272 diff changeset	974	(if c=0 then 0 else a / (b::'a::{field,division_by_zero}))"
ad66687ece6e more field division lemmas transferred from Real to Ring_and_Field paulson parents: 14272 diff changeset	975	by (simp add: mult_divide_cancel_left)
ad66687ece6e more field division lemmas transferred from Real to Ring_and_Field paulson parents: 14272 diff changeset	976
14284 f1abe67c448a re-organisation of Real/RealArith0.ML; more `Isar scripts paulson parents: 14277 diff changeset	977	lemma divide_1 [simp]: "a/1 = (a::'a::field)"
f1abe67c448a re-organisation of Real/RealArith0.ML; more `Isar scripts paulson parents: 14277 diff changeset	978	by (simp add: divide_inverse [OF not_sym])
f1abe67c448a re-organisation of Real/RealArith0.ML; more `Isar scripts paulson parents: 14277 diff changeset	979
14288 d149e3cbdb39 Moving some theorems from Real/RealArith0.ML paulson parents: 14284 diff changeset	980	lemma times_divide_eq_right [simp]:
d149e3cbdb39 Moving some theorems from Real/RealArith0.ML paulson parents: 14284 diff changeset	981	"a * (b/c) = (a*b) / (c::'a::{field,division_by_zero})"
d149e3cbdb39 Moving some theorems from Real/RealArith0.ML paulson parents: 14284 diff changeset	982	by (simp add: divide_inverse_zero mult_assoc)
d149e3cbdb39 Moving some theorems from Real/RealArith0.ML paulson parents: 14284 diff changeset	983
d149e3cbdb39 Moving some theorems from Real/RealArith0.ML paulson parents: 14284 diff changeset	984	lemma times_divide_eq_left [simp]:
d149e3cbdb39 Moving some theorems from Real/RealArith0.ML paulson parents: 14284 diff changeset	985	"(b/c) * a = (b*a) / (c::'a::{field,division_by_zero})"
d149e3cbdb39 Moving some theorems from Real/RealArith0.ML paulson parents: 14284 diff changeset	986	by (simp add: divide_inverse_zero mult_ac)
d149e3cbdb39 Moving some theorems from Real/RealArith0.ML paulson parents: 14284 diff changeset	987
d149e3cbdb39 Moving some theorems from Real/RealArith0.ML paulson parents: 14284 diff changeset	988	lemma divide_divide_eq_right [simp]:
d149e3cbdb39 Moving some theorems from Real/RealArith0.ML paulson parents: 14284 diff changeset	989	"a / (b/c) = (a*c) / (b::'a::{field,division_by_zero})"
d149e3cbdb39 Moving some theorems from Real/RealArith0.ML paulson parents: 14284 diff changeset	990	by (simp add: divide_inverse_zero mult_ac)
d149e3cbdb39 Moving some theorems from Real/RealArith0.ML paulson parents: 14284 diff changeset	991
d149e3cbdb39 Moving some theorems from Real/RealArith0.ML paulson parents: 14284 diff changeset	992	lemma divide_divide_eq_left [simp]:
d149e3cbdb39 Moving some theorems from Real/RealArith0.ML paulson parents: 14284 diff changeset	993	"(a / b) / (c::'a::{field,division_by_zero}) = a / (b*c)"
d149e3cbdb39 Moving some theorems from Real/RealArith0.ML paulson parents: 14284 diff changeset	994	by (simp add: divide_inverse_zero mult_assoc)
d149e3cbdb39 Moving some theorems from Real/RealArith0.ML paulson parents: 14284 diff changeset	995
14268 5cf13e80be0e Removal of Hyperreal/ExtraThms2.ML, sending the material to the correct files. paulson parents: 14267 diff changeset	996
14293 22542982bffd moving some division theorems to Ring_and_Field paulson parents: 14288 diff changeset	997	subsection {* Division and Unary Minus *}
22542982bffd moving some division theorems to Ring_and_Field paulson parents: 14288 diff changeset	998
22542982bffd moving some division theorems to Ring_and_Field paulson parents: 14288 diff changeset	999	lemma nonzero_minus_divide_left: "b \<noteq> 0 ==> - (a/b) = (-a) / (b::'a::field)"
22542982bffd moving some division theorems to Ring_and_Field paulson parents: 14288 diff changeset	1000	by (simp add: divide_inverse minus_mult_left)
22542982bffd moving some division theorems to Ring_and_Field paulson parents: 14288 diff changeset	1001
22542982bffd moving some division theorems to Ring_and_Field paulson parents: 14288 diff changeset	1002	lemma nonzero_minus_divide_right: "b \<noteq> 0 ==> - (a/b) = a / -(b::'a::field)"
22542982bffd moving some division theorems to Ring_and_Field paulson parents: 14288 diff changeset	1003	by (simp add: divide_inverse nonzero_inverse_minus_eq minus_mult_right)
22542982bffd moving some division theorems to Ring_and_Field paulson parents: 14288 diff changeset	1004
22542982bffd moving some division theorems to Ring_and_Field paulson parents: 14288 diff changeset	1005	lemma nonzero_minus_divide_divide: "b \<noteq> 0 ==> (-a)/(-b) = a / (b::'a::field)"
22542982bffd moving some division theorems to Ring_and_Field paulson parents: 14288 diff changeset	1006	by (simp add: divide_inverse nonzero_inverse_minus_eq)
22542982bffd moving some division theorems to Ring_and_Field paulson parents: 14288 diff changeset	1007
22542982bffd moving some division theorems to Ring_and_Field paulson parents: 14288 diff changeset	1008	lemma minus_divide_left: "- (a/b) = (-a) / (b::'a::{field,division_by_zero})"
22542982bffd moving some division theorems to Ring_and_Field paulson parents: 14288 diff changeset	1009	apply (case_tac "b=0", simp)
22542982bffd moving some division theorems to Ring_and_Field paulson parents: 14288 diff changeset	1010	apply (simp add: nonzero_minus_divide_left)
22542982bffd moving some division theorems to Ring_and_Field paulson parents: 14288 diff changeset	1011	done
22542982bffd moving some division theorems to Ring_and_Field paulson parents: 14288 diff changeset	1012
22542982bffd moving some division theorems to Ring_and_Field paulson parents: 14288 diff changeset	1013	lemma minus_divide_right: "- (a/b) = a / -(b::'a::{field,division_by_zero})"
22542982bffd moving some division theorems to Ring_and_Field paulson parents: 14288 diff changeset	1014	apply (case_tac "b=0", simp)
22542982bffd moving some division theorems to Ring_and_Field paulson parents: 14288 diff changeset	1015	by (rule nonzero_minus_divide_right)
22542982bffd moving some division theorems to Ring_and_Field paulson parents: 14288 diff changeset	1016
22542982bffd moving some division theorems to Ring_and_Field paulson parents: 14288 diff changeset	1017	text{The effect is to extract signs from divisions}
22542982bffd moving some division theorems to Ring_and_Field paulson parents: 14288 diff changeset	1018	declare minus_divide_left [symmetric, simp]
22542982bffd moving some division theorems to Ring_and_Field paulson parents: 14288 diff changeset	1019	declare minus_divide_right [symmetric, simp]
22542982bffd moving some division theorems to Ring_and_Field paulson parents: 14288 diff changeset	1020
14387 e96d5c42c4b0 Polymorphic treatment of binary arithmetic using axclasses paulson parents: 14377 diff changeset	1021	text{Also, extract signs from products}
e96d5c42c4b0 Polymorphic treatment of binary arithmetic using axclasses paulson parents: 14377 diff changeset	1022	declare minus_mult_left [symmetric, simp]
e96d5c42c4b0 Polymorphic treatment of binary arithmetic using axclasses paulson parents: 14377 diff changeset	1023	declare minus_mult_right [symmetric, simp]
e96d5c42c4b0 Polymorphic treatment of binary arithmetic using axclasses paulson parents: 14377 diff changeset	1024
14293 22542982bffd moving some division theorems to Ring_and_Field paulson parents: 14288 diff changeset	1025	lemma minus_divide_divide [simp]:
22542982bffd moving some division theorems to Ring_and_Field paulson parents: 14288 diff changeset	1026	"(-a)/(-b) = a / (b::'a::{field,division_by_zero})"
22542982bffd moving some division theorems to Ring_and_Field paulson parents: 14288 diff changeset	1027	apply (case_tac "b=0", simp)
22542982bffd moving some division theorems to Ring_and_Field paulson parents: 14288 diff changeset	1028	apply (simp add: nonzero_minus_divide_divide)
22542982bffd moving some division theorems to Ring_and_Field paulson parents: 14288 diff changeset	1029	done
22542982bffd moving some division theorems to Ring_and_Field paulson parents: 14288 diff changeset	1030
14387 e96d5c42c4b0 Polymorphic treatment of binary arithmetic using axclasses paulson parents: 14377 diff changeset	1031	lemma diff_divide_distrib:
e96d5c42c4b0 Polymorphic treatment of binary arithmetic using axclasses paulson parents: 14377 diff changeset	1032	"(a-b)/(c::'a::{field,division_by_zero}) = a/c - b/c"
e96d5c42c4b0 Polymorphic treatment of binary arithmetic using axclasses paulson parents: 14377 diff changeset	1033	by (simp add: diff_minus add_divide_distrib)
e96d5c42c4b0 Polymorphic treatment of binary arithmetic using axclasses paulson parents: 14377 diff changeset	1034
14293 22542982bffd moving some division theorems to Ring_and_Field paulson parents: 14288 diff changeset	1035
14268 5cf13e80be0e Removal of Hyperreal/ExtraThms2.ML, sending the material to the correct files. paulson parents: 14267 diff changeset	1036	subsection {* Ordered Fields *}
5cf13e80be0e Removal of Hyperreal/ExtraThms2.ML, sending the material to the correct files. paulson parents: 14267 diff changeset	1037
14277 ad66687ece6e more field division lemmas transferred from Real to Ring_and_Field paulson parents: 14272 diff changeset	1038	lemma positive_imp_inverse_positive:
14269 502a7c95de73 conversion of some Real theories to Isar scripts paulson parents: 14268 diff changeset	1039	assumes a_gt_0: "0 < a" shows "0 < inverse (a::'a::ordered_field)"
14268 5cf13e80be0e Removal of Hyperreal/ExtraThms2.ML, sending the material to the correct files. paulson parents: 14267 diff changeset	1040	proof -
5cf13e80be0e Removal of Hyperreal/ExtraThms2.ML, sending the material to the correct files. paulson parents: 14267 diff changeset	1041	have "0 < a * inverse a"
5cf13e80be0e Removal of Hyperreal/ExtraThms2.ML, sending the material to the correct files. paulson parents: 14267 diff changeset	1042	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	1043	thus "0 < inverse a"
5cf13e80be0e Removal of Hyperreal/ExtraThms2.ML, sending the material to the correct files. paulson parents: 14267 diff changeset	1044	by (simp add: a_gt_0 [THEN order_less_not_sym] zero_less_mult_iff)
5cf13e80be0e Removal of Hyperreal/ExtraThms2.ML, sending the material to the correct files. paulson parents: 14267 diff changeset	1045	qed
5cf13e80be0e Removal of Hyperreal/ExtraThms2.ML, sending the material to the correct files. paulson parents: 14267 diff changeset	1046
14277 ad66687ece6e more field division lemmas transferred from Real to Ring_and_Field paulson parents: 14272 diff changeset	1047	lemma negative_imp_inverse_negative:
14268 5cf13e80be0e Removal of Hyperreal/ExtraThms2.ML, sending the material to the correct files. paulson parents: 14267 diff changeset	1048	"a < 0 ==> inverse a < (0::'a::ordered_field)"
14277 ad66687ece6e more field division lemmas transferred from Real to Ring_and_Field paulson parents: 14272 diff changeset	1049	by (insert positive_imp_inverse_positive [of "-a"],
14268 5cf13e80be0e Removal of Hyperreal/ExtraThms2.ML, sending the material to the correct files. paulson parents: 14267 diff changeset	1050	simp add: nonzero_inverse_minus_eq order_less_imp_not_eq)
5cf13e80be0e Removal of Hyperreal/ExtraThms2.ML, sending the material to the correct files. paulson parents: 14267 diff changeset	1051
5cf13e80be0e Removal of Hyperreal/ExtraThms2.ML, sending the material to the correct files. paulson parents: 14267 diff changeset	1052	lemma inverse_le_imp_le:
14269 502a7c95de73 conversion of some Real theories to Isar scripts paulson parents: 14268 diff changeset	1053	assumes invle: "inverse a \<le> inverse b"
502a7c95de73 conversion of some Real theories to Isar scripts paulson parents: 14268 diff changeset	1054	and apos: "0 < a"
502a7c95de73 conversion of some Real theories to Isar scripts paulson parents: 14268 diff changeset	1055	shows "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	1056	proof (rule classical)
5cf13e80be0e Removal of Hyperreal/ExtraThms2.ML, sending the material to the correct files. paulson parents: 14267 diff changeset	1057	assume "~ b \<le> a"
5cf13e80be0e Removal of Hyperreal/ExtraThms2.ML, sending the material to the correct files. paulson parents: 14267 diff changeset	1058	hence "a < b"
5cf13e80be0e Removal of Hyperreal/ExtraThms2.ML, sending the material to the correct files. paulson parents: 14267 diff changeset	1059	by (simp add: linorder_not_le)
5cf13e80be0e Removal of Hyperreal/ExtraThms2.ML, sending the material to the correct files. paulson parents: 14267 diff changeset	1060	hence bpos: "0 < b"
5cf13e80be0e Removal of Hyperreal/ExtraThms2.ML, sending the material to the correct files. paulson parents: 14267 diff changeset	1061	by (blast intro: apos order_less_trans)
5cf13e80be0e Removal of Hyperreal/ExtraThms2.ML, sending the material to the correct files. paulson parents: 14267 diff changeset	1062	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	1063	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	1064	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	1065	by (simp add: bpos order_less_imp_le mult_right_mono)
5cf13e80be0e Removal of Hyperreal/ExtraThms2.ML, sending the material to the correct files. paulson parents: 14267 diff changeset	1066	thus "b \<le> a"
5cf13e80be0e Removal of Hyperreal/ExtraThms2.ML, sending the material to the correct files. paulson parents: 14267 diff changeset	1067	by (simp add: mult_assoc apos bpos order_less_imp_not_eq2)
5cf13e80be0e Removal of Hyperreal/ExtraThms2.ML, sending the material to the correct files. paulson parents: 14267 diff changeset	1068	qed
5cf13e80be0e Removal of Hyperreal/ExtraThms2.ML, sending the material to the correct files. paulson parents: 14267 diff changeset	1069
14277 ad66687ece6e more field division lemmas transferred from Real to Ring_and_Field paulson parents: 14272 diff changeset	1070	lemma inverse_positive_imp_positive:
ad66687ece6e more field division lemmas transferred from Real to Ring_and_Field paulson parents: 14272 diff changeset	1071	assumes inv_gt_0: "0 < inverse a"
ad66687ece6e more field division lemmas transferred from Real to Ring_and_Field paulson parents: 14272 diff changeset	1072	and [simp]: "a \<noteq> 0"
ad66687ece6e more field division lemmas transferred from Real to Ring_and_Field paulson parents: 14272 diff changeset	1073	shows "0 < (a::'a::ordered_field)"
ad66687ece6e more field division lemmas transferred from Real to Ring_and_Field paulson parents: 14272 diff changeset	1074	proof -
ad66687ece6e more field division lemmas transferred from Real to Ring_and_Field paulson parents: 14272 diff changeset	1075	have "0 < inverse (inverse a)"
ad66687ece6e more field division lemmas transferred from Real to Ring_and_Field paulson parents: 14272 diff changeset	1076	by (rule positive_imp_inverse_positive)
ad66687ece6e more field division lemmas transferred from Real to Ring_and_Field paulson parents: 14272 diff changeset	1077	thus "0 < a"
ad66687ece6e more field division lemmas transferred from Real to Ring_and_Field paulson parents: 14272 diff changeset	1078	by (simp add: nonzero_inverse_inverse_eq)
ad66687ece6e more field division lemmas transferred from Real to Ring_and_Field paulson parents: 14272 diff changeset	1079	qed
ad66687ece6e more field division lemmas transferred from Real to Ring_and_Field paulson parents: 14272 diff changeset	1080
ad66687ece6e more field division lemmas transferred from Real to Ring_and_Field paulson parents: 14272 diff changeset	1081	lemma inverse_positive_iff_positive [simp]:
ad66687ece6e more field division lemmas transferred from Real to Ring_and_Field paulson parents: 14272 diff changeset	1082	"(0 < inverse a) = (0 < (a::'a::{ordered_field,division_by_zero}))"
ad66687ece6e more field division lemmas transferred from Real to Ring_and_Field paulson parents: 14272 diff changeset	1083	apply (case_tac "a = 0", simp)
ad66687ece6e more field division lemmas transferred from Real to Ring_and_Field paulson parents: 14272 diff changeset	1084	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	1085	done
ad66687ece6e more field division lemmas transferred from Real to Ring_and_Field paulson parents: 14272 diff changeset	1086
ad66687ece6e more field division lemmas transferred from Real to Ring_and_Field paulson parents: 14272 diff changeset	1087	lemma inverse_negative_imp_negative:
ad66687ece6e more field division lemmas transferred from Real to Ring_and_Field paulson parents: 14272 diff changeset	1088	assumes inv_less_0: "inverse a < 0"
ad66687ece6e more field division lemmas transferred from Real to Ring_and_Field paulson parents: 14272 diff changeset	1089	and [simp]: "a \<noteq> 0"
ad66687ece6e more field division lemmas transferred from Real to Ring_and_Field paulson parents: 14272 diff changeset	1090	shows "a < (0::'a::ordered_field)"
ad66687ece6e more field division lemmas transferred from Real to Ring_and_Field paulson parents: 14272 diff changeset	1091	proof -
ad66687ece6e more field division lemmas transferred from Real to Ring_and_Field paulson parents: 14272 diff changeset	1092	have "inverse (inverse a) < 0"
ad66687ece6e more field division lemmas transferred from Real to Ring_and_Field paulson parents: 14272 diff changeset	1093	by (rule negative_imp_inverse_negative)
ad66687ece6e more field division lemmas transferred from Real to Ring_and_Field paulson parents: 14272 diff changeset	1094	thus "a < 0"
ad66687ece6e more field division lemmas transferred from Real to Ring_and_Field paulson parents: 14272 diff changeset	1095	by (simp add: nonzero_inverse_inverse_eq)
ad66687ece6e more field division lemmas transferred from Real to Ring_and_Field paulson parents: 14272 diff changeset	1096	qed
ad66687ece6e more field division lemmas transferred from Real to Ring_and_Field paulson parents: 14272 diff changeset	1097
ad66687ece6e more field division lemmas transferred from Real to Ring_and_Field paulson parents: 14272 diff changeset	1098	lemma inverse_negative_iff_negative [simp]:
ad66687ece6e more field division lemmas transferred from Real to Ring_and_Field paulson parents: 14272 diff changeset	1099	"(inverse a < 0) = (a < (0::'a::{ordered_field,division_by_zero}))"
ad66687ece6e more field division lemmas transferred from Real to Ring_and_Field paulson parents: 14272 diff changeset	1100	apply (case_tac "a = 0", simp)
ad66687ece6e more field division lemmas transferred from Real to Ring_and_Field paulson parents: 14272 diff changeset	1101	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	1102	done
ad66687ece6e more field division lemmas transferred from Real to Ring_and_Field paulson parents: 14272 diff changeset	1103
ad66687ece6e more field division lemmas transferred from Real to Ring_and_Field paulson parents: 14272 diff changeset	1104	lemma inverse_nonnegative_iff_nonnegative [simp]:
ad66687ece6e more field division lemmas transferred from Real to Ring_and_Field paulson parents: 14272 diff changeset	1105	"(0 \<le> inverse a) = (0 \<le> (a::'a::{ordered_field,division_by_zero}))"
ad66687ece6e more field division lemmas transferred from Real to Ring_and_Field paulson parents: 14272 diff changeset	1106	by (simp add: linorder_not_less [symmetric])
ad66687ece6e more field division lemmas transferred from Real to Ring_and_Field paulson parents: 14272 diff changeset	1107
ad66687ece6e more field division lemmas transferred from Real to Ring_and_Field paulson parents: 14272 diff changeset	1108	lemma inverse_nonpositive_iff_nonpositive [simp]:
ad66687ece6e more field division lemmas transferred from Real to Ring_and_Field paulson parents: 14272 diff changeset	1109	"(inverse a \<le> 0) = (a \<le> (0::'a::{ordered_field,division_by_zero}))"
ad66687ece6e more field division lemmas transferred from Real to Ring_and_Field paulson parents: 14272 diff changeset	1110	by (simp add: linorder_not_less [symmetric])
ad66687ece6e more field division lemmas transferred from Real to Ring_and_Field paulson parents: 14272 diff changeset	1111
ad66687ece6e more field division lemmas transferred from Real to Ring_and_Field paulson parents: 14272 diff changeset	1112
ad66687ece6e more field division lemmas transferred from Real to Ring_and_Field paulson parents: 14272 diff changeset	1113	subsection{Anti-Monotonicity of @{term inverse}}
ad66687ece6e more field division lemmas transferred from Real to Ring_and_Field paulson parents: 14272 diff changeset	1114
14268 5cf13e80be0e Removal of Hyperreal/ExtraThms2.ML, sending the material to the correct files. paulson parents: 14267 diff changeset	1115	lemma less_imp_inverse_less:
14269 502a7c95de73 conversion of some Real theories to Isar scripts paulson parents: 14268 diff changeset	1116	assumes less: "a < b"
502a7c95de73 conversion of some Real theories to Isar scripts paulson parents: 14268 diff changeset	1117	and apos: "0 < a"
502a7c95de73 conversion of some Real theories to Isar scripts paulson parents: 14268 diff changeset	1118	shows "inverse b < inverse (a::'a::ordered_field)"
14268 5cf13e80be0e Removal of Hyperreal/ExtraThms2.ML, sending the material to the correct files. paulson parents: 14267 diff changeset	1119	proof (rule ccontr)
5cf13e80be0e Removal of Hyperreal/ExtraThms2.ML, sending the material to the correct files. paulson parents: 14267 diff changeset	1120	assume "~ inverse b < inverse a"
5cf13e80be0e Removal of Hyperreal/ExtraThms2.ML, sending the material to the correct files. paulson parents: 14267 diff changeset	1121	hence "inverse a \<le> inverse b"
5cf13e80be0e Removal of Hyperreal/ExtraThms2.ML, sending the material to the correct files. paulson parents: 14267 diff changeset	1122	by (simp add: linorder_not_less)
5cf13e80be0e Removal of Hyperreal/ExtraThms2.ML, sending the material to the correct files. paulson parents: 14267 diff changeset	1123	hence "~ (a < b)"
5cf13e80be0e Removal of Hyperreal/ExtraThms2.ML, sending the material to the correct files. paulson parents: 14267 diff changeset	1124	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	1125	thus False
5cf13e80be0e Removal of Hyperreal/ExtraThms2.ML, sending the material to the correct files. paulson parents: 14267 diff changeset	1126	by (rule notE [OF _ less])
5cf13e80be0e Removal of Hyperreal/ExtraThms2.ML, sending the material to the correct files. paulson parents: 14267 diff changeset	1127	qed
5cf13e80be0e Removal of Hyperreal/ExtraThms2.ML, sending the material to the correct files. paulson parents: 14267 diff changeset	1128
5cf13e80be0e Removal of Hyperreal/ExtraThms2.ML, sending the material to the correct files. paulson parents: 14267 diff changeset	1129	lemma inverse_less_imp_less:
5cf13e80be0e Removal of Hyperreal/ExtraThms2.ML, sending the material to the correct files. paulson parents: 14267 diff changeset	1130	"[\|inverse a < inverse b; 0 < a\|] ==> b < (a::'a::ordered_field)"
5cf13e80be0e Removal of Hyperreal/ExtraThms2.ML, sending the material to the correct files. paulson parents: 14267 diff changeset	1131	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	1132	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	1133	done
5cf13e80be0e Removal of Hyperreal/ExtraThms2.ML, sending the material to the correct files. paulson parents: 14267 diff changeset	1134
5cf13e80be0e Removal of Hyperreal/ExtraThms2.ML, sending the material to the correct files. paulson parents: 14267 diff changeset	1135	text{Both premises are essential. Consider -1 and 1.}
5cf13e80be0e Removal of Hyperreal/ExtraThms2.ML, sending the material to the correct files. paulson parents: 14267 diff changeset	1136	lemma inverse_less_iff_less [simp]:
5cf13e80be0e Removal of Hyperreal/ExtraThms2.ML, sending the material to the correct files. paulson parents: 14267 diff changeset	1137	"[\|0 < a; 0 < b\|]
5cf13e80be0e Removal of Hyperreal/ExtraThms2.ML, sending the material to the correct files. paulson parents: 14267 diff changeset	1138	==> (inverse a < inverse b) = (b < (a::'a::ordered_field))"
5cf13e80be0e Removal of Hyperreal/ExtraThms2.ML, sending the material to the correct files. paulson parents: 14267 diff changeset	1139	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	1140
5cf13e80be0e Removal of Hyperreal/ExtraThms2.ML, sending the material to the correct files. paulson parents: 14267 diff changeset	1141	lemma le_imp_inverse_le:
5cf13e80be0e Removal of Hyperreal/ExtraThms2.ML, sending the material to the correct files. paulson parents: 14267 diff changeset	1142	"[\|a \<le> b; 0 < a\|] ==> inverse b \<le> inverse (a::'a::ordered_field)"
5cf13e80be0e Removal of Hyperreal/ExtraThms2.ML, sending the material to the correct files. paulson parents: 14267 diff changeset	1143	by (force simp add: order_le_less less_imp_inverse_less)
5cf13e80be0e Removal of Hyperreal/ExtraThms2.ML, sending the material to the correct files. paulson parents: 14267 diff changeset	1144
5cf13e80be0e Removal of Hyperreal/ExtraThms2.ML, sending the material to the correct files. paulson parents: 14267 diff changeset	1145	lemma inverse_le_iff_le [simp]:
5cf13e80be0e Removal of Hyperreal/ExtraThms2.ML, sending the material to the correct files. paulson parents: 14267 diff changeset	1146	"[\|0 < a; 0 < b\|]
5cf13e80be0e Removal of Hyperreal/ExtraThms2.ML, sending the material to the correct files. paulson parents: 14267 diff changeset	1147	==> (inverse a \<le> inverse b) = (b \<le> (a::'a::ordered_field))"
5cf13e80be0e Removal of Hyperreal/ExtraThms2.ML, sending the material to the correct files. paulson parents: 14267 diff changeset	1148	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	1149
5cf13e80be0e Removal of Hyperreal/ExtraThms2.ML, sending the material to the correct files. paulson parents: 14267 diff changeset	1150
5cf13e80be0e Removal of Hyperreal/ExtraThms2.ML, sending the material to the correct files. paulson parents: 14267 diff changeset	1151	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	1152	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	1153	lemma inverse_le_imp_le_neg:
5cf13e80be0e Removal of Hyperreal/ExtraThms2.ML, sending the material to the correct files. paulson parents: 14267 diff changeset	1154	"[\|inverse a \<le> inverse b; b < 0\|] ==> b \<le> (a::'a::ordered_field)"
5cf13e80be0e Removal of Hyperreal/ExtraThms2.ML, sending the material to the correct files. paulson parents: 14267 diff changeset	1155	apply (rule classical)
5cf13e80be0e Removal of Hyperreal/ExtraThms2.ML, sending the material to the correct files. paulson parents: 14267 diff changeset	1156	apply (subgoal_tac "a < 0")
5cf13e80be0e Removal of Hyperreal/ExtraThms2.ML, sending the material to the correct files. paulson parents: 14267 diff changeset	1157	prefer 2 apply (force simp add: linorder_not_le intro: order_less_trans)
5cf13e80be0e Removal of Hyperreal/ExtraThms2.ML, sending the material to the correct files. paulson parents: 14267 diff changeset	1158	apply (insert inverse_le_imp_le [of "-b" "-a"])
5cf13e80be0e Removal of Hyperreal/ExtraThms2.ML, sending the material to the correct files. paulson parents: 14267 diff changeset	1159	apply (simp add: order_less_imp_not_eq nonzero_inverse_minus_eq)
5cf13e80be0e Removal of Hyperreal/ExtraThms2.ML, sending the material to the correct files. paulson parents: 14267 diff changeset	1160	done
5cf13e80be0e Removal of Hyperreal/ExtraThms2.ML, sending the material to the correct files. paulson parents: 14267 diff changeset	1161
5cf13e80be0e Removal of Hyperreal/ExtraThms2.ML, sending the material to the correct files. paulson parents: 14267 diff changeset	1162	lemma less_imp_inverse_less_neg:
5cf13e80be0e Removal of Hyperreal/ExtraThms2.ML, sending the material to the correct files. paulson parents: 14267 diff changeset	1163	"[\|a < b; b < 0\|] ==> inverse b < inverse (a::'a::ordered_field)"
5cf13e80be0e Removal of Hyperreal/ExtraThms2.ML, sending the material to the correct files. paulson parents: 14267 diff changeset	1164	apply (subgoal_tac "a < 0")
5cf13e80be0e Removal of Hyperreal/ExtraThms2.ML, sending the material to the correct files. paulson parents: 14267 diff changeset	1165	prefer 2 apply (blast intro: order_less_trans)
5cf13e80be0e Removal of Hyperreal/ExtraThms2.ML, sending the material to the correct files. paulson parents: 14267 diff changeset	1166	apply (insert less_imp_inverse_less [of "-b" "-a"])
5cf13e80be0e Removal of Hyperreal/ExtraThms2.ML, sending the material to the correct files. paulson parents: 14267 diff changeset	1167	apply (simp add: order_less_imp_not_eq nonzero_inverse_minus_eq)
5cf13e80be0e Removal of Hyperreal/ExtraThms2.ML, sending the material to the correct files. paulson parents: 14267 diff changeset	1168	done
5cf13e80be0e Removal of Hyperreal/ExtraThms2.ML, sending the material to the correct files. paulson parents: 14267 diff changeset	1169
5cf13e80be0e Removal of Hyperreal/ExtraThms2.ML, sending the material to the correct files. paulson parents: 14267 diff changeset	1170	lemma inverse_less_imp_less_neg:
5cf13e80be0e Removal of Hyperreal/ExtraThms2.ML, sending the material to the correct files. paulson parents: 14267 diff changeset	1171	"[\|inverse a < inverse b; b < 0\|] ==> b < (a::'a::ordered_field)"
5cf13e80be0e Removal of Hyperreal/ExtraThms2.ML, sending the material to the correct files. paulson parents: 14267 diff changeset	1172	apply (rule classical)
5cf13e80be0e Removal of Hyperreal/ExtraThms2.ML, sending the material to the correct files. paulson parents: 14267 diff changeset	1173	apply (subgoal_tac "a < 0")
5cf13e80be0e Removal of Hyperreal/ExtraThms2.ML, sending the material to the correct files. paulson parents: 14267 diff changeset	1174	prefer 2
5cf13e80be0e Removal of Hyperreal/ExtraThms2.ML, sending the material to the correct files. paulson parents: 14267 diff changeset	1175	apply (force simp add: linorder_not_less intro: order_le_less_trans)
5cf13e80be0e Removal of Hyperreal/ExtraThms2.ML, sending the material to the correct files. paulson parents: 14267 diff changeset	1176	apply (insert inverse_less_imp_less [of "-b" "-a"])
5cf13e80be0e Removal of Hyperreal/ExtraThms2.ML, sending the material to the correct files. paulson parents: 14267 diff changeset	1177	apply (simp add: order_less_imp_not_eq nonzero_inverse_minus_eq)
5cf13e80be0e Removal of Hyperreal/ExtraThms2.ML, sending the material to the correct files. paulson parents: 14267 diff changeset	1178	done
5cf13e80be0e Removal of Hyperreal/ExtraThms2.ML, sending the material to the correct files. paulson parents: 14267 diff changeset	1179
5cf13e80be0e Removal of Hyperreal/ExtraThms2.ML, sending the material to the correct files. paulson parents: 14267 diff changeset	1180	lemma inverse_less_iff_less_neg [simp]:
5cf13e80be0e Removal of Hyperreal/ExtraThms2.ML, sending the material to the correct files. paulson parents: 14267 diff changeset	1181	"[\|a < 0; b < 0\|]
5cf13e80be0e Removal of Hyperreal/ExtraThms2.ML, sending the material to the correct files. paulson parents: 14267 diff changeset	1182	==> (inverse a < inverse b) = (b < (a::'a::ordered_field))"
5cf13e80be0e Removal of Hyperreal/ExtraThms2.ML, sending the material to the correct files. paulson parents: 14267 diff changeset	1183	apply (insert inverse_less_iff_less [of "-b" "-a"])
5cf13e80be0e Removal of Hyperreal/ExtraThms2.ML, sending the material to the correct files. paulson parents: 14267 diff changeset	1184	apply (simp del: inverse_less_iff_less
5cf13e80be0e Removal of Hyperreal/ExtraThms2.ML, sending the material to the correct files. paulson parents: 14267 diff changeset	1185	add: order_less_imp_not_eq nonzero_inverse_minus_eq)
5cf13e80be0e Removal of Hyperreal/ExtraThms2.ML, sending the material to the correct files. paulson parents: 14267 diff changeset	1186	done
5cf13e80be0e Removal of Hyperreal/ExtraThms2.ML, sending the material to the correct files. paulson parents: 14267 diff changeset	1187
5cf13e80be0e Removal of Hyperreal/ExtraThms2.ML, sending the material to the correct files. paulson parents: 14267 diff changeset	1188	lemma le_imp_inverse_le_neg:
5cf13e80be0e Removal of Hyperreal/ExtraThms2.ML, sending the material to the correct files. paulson parents: 14267 diff changeset	1189	"[\|a \<le> b; b < 0\|] ==> inverse b \<le> inverse (a::'a::ordered_field)"
5cf13e80be0e Removal of Hyperreal/ExtraThms2.ML, sending the material to the correct files. paulson parents: 14267 diff changeset	1190	by (force simp add: order_le_less less_imp_inverse_less_neg)
5cf13e80be0e Removal of Hyperreal/ExtraThms2.ML, sending the material to the correct files. paulson parents: 14267 diff changeset	1191
5cf13e80be0e Removal of Hyperreal/ExtraThms2.ML, sending the material to the correct files. paulson parents: 14267 diff changeset	1192	lemma inverse_le_iff_le_neg [simp]:
5cf13e80be0e Removal of Hyperreal/ExtraThms2.ML, sending the material to the correct files. paulson parents: 14267 diff changeset	1193	"[\|a < 0; b < 0\|]
5cf13e80be0e Removal of Hyperreal/ExtraThms2.ML, sending the material to the correct files. paulson parents: 14267 diff changeset	1194	==> (inverse a \<le> inverse b) = (b \<le> (a::'a::ordered_field))"
5cf13e80be0e Removal of Hyperreal/ExtraThms2.ML, sending the material to the correct files. paulson parents: 14267 diff changeset	1195	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	1196
14277 ad66687ece6e more field division lemmas transferred from Real to Ring_and_Field paulson parents: 14272 diff changeset	1197
14365 3d4df8c166ae replacing HOL/Real/PRat, PNat by the rational number development paulson parents: 14353 diff changeset	1198	subsection{Inverses and the Number One}
3d4df8c166ae replacing HOL/Real/PRat, PNat by the rational number development paulson parents: 14353 diff changeset	1199
3d4df8c166ae replacing HOL/Real/PRat, PNat by the rational number development paulson parents: 14353 diff changeset	1200	lemma one_less_inverse_iff:
3d4df8c166ae replacing HOL/Real/PRat, PNat by the rational number development paulson parents: 14353 diff changeset	1201	"(1 < inverse x) = (0 < x & x < (1::'a::{ordered_field,division_by_zero}))"proof cases
3d4df8c166ae replacing HOL/Real/PRat, PNat by the rational number development paulson parents: 14353 diff changeset	1202	assume "0 < x"
3d4df8c166ae replacing HOL/Real/PRat, PNat by the rational number development paulson parents: 14353 diff changeset	1203	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	1204	show ?thesis by simp
3d4df8c166ae replacing HOL/Real/PRat, PNat by the rational number development paulson parents: 14353 diff changeset	1205	next
3d4df8c166ae replacing HOL/Real/PRat, PNat by the rational number development paulson parents: 14353 diff changeset	1206	assume notless: "~ (0 < x)"
3d4df8c166ae replacing HOL/Real/PRat, PNat by the rational number development paulson parents: 14353 diff changeset	1207	have "~ (1 < inverse x)"
3d4df8c166ae replacing HOL/Real/PRat, PNat by the rational number development paulson parents: 14353 diff changeset	1208	proof
3d4df8c166ae replacing HOL/Real/PRat, PNat by the rational number development paulson parents: 14353 diff changeset	1209	assume "1 < inverse x"
3d4df8c166ae replacing HOL/Real/PRat, PNat by the rational number development paulson parents: 14353 diff changeset	1210	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	1211	also have "... < 1" by (rule zero_less_one)
3d4df8c166ae replacing HOL/Real/PRat, PNat by the rational number development paulson parents: 14353 diff changeset	1212	finally show False by auto
3d4df8c166ae replacing HOL/Real/PRat, PNat by the rational number development paulson parents: 14353 diff changeset	1213	qed
3d4df8c166ae replacing HOL/Real/PRat, PNat by the rational number development paulson parents: 14353 diff changeset	1214	with notless show ?thesis by simp
3d4df8c166ae replacing HOL/Real/PRat, PNat by the rational number development paulson parents: 14353 diff changeset	1215	qed
3d4df8c166ae replacing HOL/Real/PRat, PNat by the rational number development paulson parents: 14353 diff changeset	1216
3d4df8c166ae replacing HOL/Real/PRat, PNat by the rational number development paulson parents: 14353 diff changeset	1217	lemma inverse_eq_1_iff [simp]:
3d4df8c166ae replacing HOL/Real/PRat, PNat by the rational number development paulson parents: 14353 diff changeset	1218	"(inverse x = 1) = (x = (1::'a::{field,division_by_zero}))"
3d4df8c166ae replacing HOL/Real/PRat, PNat by the rational number development paulson parents: 14353 diff changeset	1219	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	1220
3d4df8c166ae replacing HOL/Real/PRat, PNat by the rational number development paulson parents: 14353 diff changeset	1221	lemma one_le_inverse_iff:
3d4df8c166ae replacing HOL/Real/PRat, PNat by the rational number development paulson parents: 14353 diff changeset	1222	"(1 \<le> inverse x) = (0 < x & x \<le> (1::'a::{ordered_field,division_by_zero}))"
3d4df8c166ae replacing HOL/Real/PRat, PNat by the rational number development paulson parents: 14353 diff changeset	1223	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	1224	eq_commute [of 1])
3d4df8c166ae replacing HOL/Real/PRat, PNat by the rational number development paulson parents: 14353 diff changeset	1225
3d4df8c166ae replacing HOL/Real/PRat, PNat by the rational number development paulson parents: 14353 diff changeset	1226	lemma inverse_less_1_iff:
3d4df8c166ae replacing HOL/Real/PRat, PNat by the rational number development paulson parents: 14353 diff changeset	1227	"(inverse x < 1) = (x \<le> 0 \| 1 < (x::'a::{ordered_field,division_by_zero}))"
3d4df8c166ae replacing HOL/Real/PRat, PNat by the rational number development paulson parents: 14353 diff changeset	1228	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	1229
3d4df8c166ae replacing HOL/Real/PRat, PNat by the rational number development paulson parents: 14353 diff changeset	1230	lemma inverse_le_1_iff:
3d4df8c166ae replacing HOL/Real/PRat, PNat by the rational number development paulson parents: 14353 diff changeset	1231	"(inverse x \<le> 1) = (x \<le> 0 \| 1 \<le> (x::'a::{ordered_field,division_by_zero}))"
3d4df8c166ae replacing HOL/Real/PRat, PNat by the rational number development paulson parents: 14353 diff changeset	1232	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	1233
3d4df8c166ae replacing HOL/Real/PRat, PNat by the rational number development paulson parents: 14353 diff changeset	1234
14277 ad66687ece6e more field division lemmas transferred from Real to Ring_and_Field paulson parents: 14272 diff changeset	1235	subsection{Division and Signs}
ad66687ece6e more field division lemmas transferred from Real to Ring_and_Field paulson parents: 14272 diff changeset	1236
ad66687ece6e more field division lemmas transferred from Real to Ring_and_Field paulson parents: 14272 diff changeset	1237	lemma zero_less_divide_iff:
ad66687ece6e more field division lemmas transferred from Real to Ring_and_Field paulson parents: 14272 diff changeset	1238	"((0::'a::{ordered_field,division_by_zero}) < a/b) = (0 < a & 0 < b \| a < 0 & b < 0)"
ad66687ece6e more field division lemmas transferred from Real to Ring_and_Field paulson parents: 14272 diff changeset	1239	by (simp add: divide_inverse_zero zero_less_mult_iff)
ad66687ece6e more field division lemmas transferred from Real to Ring_and_Field paulson parents: 14272 diff changeset	1240
ad66687ece6e more field division lemmas transferred from Real to Ring_and_Field paulson parents: 14272 diff changeset	1241	lemma divide_less_0_iff:
ad66687ece6e more field division lemmas transferred from Real to Ring_and_Field paulson parents: 14272 diff changeset	1242	"(a/b < (0::'a::{ordered_field,division_by_zero})) =
ad66687ece6e more field division lemmas transferred from Real to Ring_and_Field paulson parents: 14272 diff changeset	1243	(0 < a & b < 0 \| a < 0 & 0 < b)"
ad66687ece6e more field division lemmas transferred from Real to Ring_and_Field paulson parents: 14272 diff changeset	1244	by (simp add: divide_inverse_zero mult_less_0_iff)
ad66687ece6e more field division lemmas transferred from Real to Ring_and_Field paulson parents: 14272 diff changeset	1245
ad66687ece6e more field division lemmas transferred from Real to Ring_and_Field paulson parents: 14272 diff changeset	1246	lemma zero_le_divide_iff:
ad66687ece6e more field division lemmas transferred from Real to Ring_and_Field paulson parents: 14272 diff changeset	1247	"((0::'a::{ordered_field,division_by_zero}) \<le> a/b) =
ad66687ece6e more field division lemmas transferred from Real to Ring_and_Field paulson parents: 14272 diff changeset	1248	(0 \<le> a & 0 \<le> b \| a \<le> 0 & b \<le> 0)"
ad66687ece6e more field division lemmas transferred from Real to Ring_and_Field paulson parents: 14272 diff changeset	1249	by (simp add: divide_inverse_zero zero_le_mult_iff)
ad66687ece6e more field division lemmas transferred from Real to Ring_and_Field paulson parents: 14272 diff changeset	1250
ad66687ece6e more field division lemmas transferred from Real to Ring_and_Field paulson parents: 14272 diff changeset	1251	lemma divide_le_0_iff:
14288 d149e3cbdb39 Moving some theorems from Real/RealArith0.ML paulson parents: 14284 diff changeset	1252	"(a/b \<le> (0::'a::{ordered_field,division_by_zero})) =
d149e3cbdb39 Moving some theorems from Real/RealArith0.ML paulson parents: 14284 diff changeset	1253	(0 \<le> a & b \<le> 0 \| a \<le> 0 & 0 \<le> b)"
14277 ad66687ece6e more field division lemmas transferred from Real to Ring_and_Field paulson parents: 14272 diff changeset	1254	by (simp add: divide_inverse_zero mult_le_0_iff)
ad66687ece6e more field division lemmas transferred from Real to Ring_and_Field paulson parents: 14272 diff changeset	1255
ad66687ece6e more field division lemmas transferred from Real to Ring_and_Field paulson parents: 14272 diff changeset	1256	lemma divide_eq_0_iff [simp]:
ad66687ece6e more field division lemmas transferred from Real to Ring_and_Field paulson parents: 14272 diff changeset	1257	"(a/b = 0) = (a=0 \| b=(0::'a::{field,division_by_zero}))"
ad66687ece6e more field division lemmas transferred from Real to Ring_and_Field paulson parents: 14272 diff changeset	1258	by (simp add: divide_inverse_zero field_mult_eq_0_iff)
ad66687ece6e more field division lemmas transferred from Real to Ring_and_Field paulson parents: 14272 diff changeset	1259
14288 d149e3cbdb39 Moving some theorems from Real/RealArith0.ML paulson parents: 14284 diff changeset	1260
d149e3cbdb39 Moving some theorems from Real/RealArith0.ML paulson parents: 14284 diff changeset	1261	subsection{Simplification of Inequalities Involving Literal Divisors}
d149e3cbdb39 Moving some theorems from Real/RealArith0.ML paulson parents: 14284 diff changeset	1262
d149e3cbdb39 Moving some theorems from Real/RealArith0.ML paulson parents: 14284 diff changeset	1263	lemma pos_le_divide_eq: "0 < (c::'a::ordered_field) ==> (a \<le> b/c) = (a*c \<le> b)"
d149e3cbdb39 Moving some theorems from Real/RealArith0.ML paulson parents: 14284 diff changeset	1264	proof -
d149e3cbdb39 Moving some theorems from Real/RealArith0.ML paulson parents: 14284 diff changeset	1265	assume less: "0<c"
d149e3cbdb39 Moving some theorems from Real/RealArith0.ML paulson parents: 14284 diff changeset	1266	hence "(a \<le> b/c) = (ac \<le> (b/c)c)"
d149e3cbdb39 Moving some theorems from Real/RealArith0.ML paulson parents: 14284 diff changeset	1267	by (simp add: mult_le_cancel_right order_less_not_sym [OF less])
d149e3cbdb39 Moving some theorems from Real/RealArith0.ML paulson parents: 14284 diff changeset	1268	also have "... = (a*c \<le> b)"
d149e3cbdb39 Moving some theorems from Real/RealArith0.ML paulson parents: 14284 diff changeset	1269	by (simp add: order_less_imp_not_eq2 [OF less] divide_inverse mult_assoc)
d149e3cbdb39 Moving some theorems from Real/RealArith0.ML paulson parents: 14284 diff changeset	1270	finally show ?thesis .
d149e3cbdb39 Moving some theorems from Real/RealArith0.ML paulson parents: 14284 diff changeset	1271	qed
d149e3cbdb39 Moving some theorems from Real/RealArith0.ML paulson parents: 14284 diff changeset	1272
d149e3cbdb39 Moving some theorems from Real/RealArith0.ML paulson parents: 14284 diff changeset	1273
d149e3cbdb39 Moving some theorems from Real/RealArith0.ML paulson parents: 14284 diff changeset	1274	lemma neg_le_divide_eq: "c < (0::'a::ordered_field) ==> (a \<le> b/c) = (b \<le> a*c)"
d149e3cbdb39 Moving some theorems from Real/RealArith0.ML paulson parents: 14284 diff changeset	1275	proof -
d149e3cbdb39 Moving some theorems from Real/RealArith0.ML paulson parents: 14284 diff changeset	1276	assume less: "c<0"
d149e3cbdb39 Moving some theorems from Real/RealArith0.ML paulson parents: 14284 diff changeset	1277	hence "(a \<le> b/c) = ((b/c)c \<le> ac)"
d149e3cbdb39 Moving some theorems from Real/RealArith0.ML paulson parents: 14284 diff changeset	1278	by (simp add: mult_le_cancel_right order_less_not_sym [OF less])
d149e3cbdb39 Moving some theorems from Real/RealArith0.ML paulson parents: 14284 diff changeset	1279	also have "... = (b \<le> a*c)"
d149e3cbdb39 Moving some theorems from Real/RealArith0.ML paulson parents: 14284 diff changeset	1280	by (simp add: order_less_imp_not_eq [OF less] divide_inverse mult_assoc)
d149e3cbdb39 Moving some theorems from Real/RealArith0.ML paulson parents: 14284 diff changeset	1281	finally show ?thesis .
d149e3cbdb39 Moving some theorems from Real/RealArith0.ML paulson parents: 14284 diff changeset	1282	qed
d149e3cbdb39 Moving some theorems from Real/RealArith0.ML paulson parents: 14284 diff changeset	1283
d149e3cbdb39 Moving some theorems from Real/RealArith0.ML paulson parents: 14284 diff changeset	1284	lemma le_divide_eq:
d149e3cbdb39 Moving some theorems from Real/RealArith0.ML paulson parents: 14284 diff changeset	1285	"(a \<le> b/c) =
d149e3cbdb39 Moving some theorems from Real/RealArith0.ML paulson parents: 14284 diff changeset	1286	(if 0 < c then a*c \<le> b
d149e3cbdb39 Moving some theorems from Real/RealArith0.ML paulson parents: 14284 diff changeset	1287	else if c < 0 then b \<le> a*c
d149e3cbdb39 Moving some theorems from Real/RealArith0.ML paulson parents: 14284 diff changeset	1288	else a \<le> (0::'a::{ordered_field,division_by_zero}))"
d149e3cbdb39 Moving some theorems from Real/RealArith0.ML paulson parents: 14284 diff changeset	1289	apply (case_tac "c=0", simp)
d149e3cbdb39 Moving some theorems from Real/RealArith0.ML paulson parents: 14284 diff changeset	1290	apply (force simp add: pos_le_divide_eq neg_le_divide_eq linorder_neq_iff)
d149e3cbdb39 Moving some theorems from Real/RealArith0.ML paulson parents: 14284 diff changeset	1291	done
d149e3cbdb39 Moving some theorems from Real/RealArith0.ML paulson parents: 14284 diff changeset	1292
d149e3cbdb39 Moving some theorems from Real/RealArith0.ML paulson parents: 14284 diff changeset	1293	lemma pos_divide_le_eq: "0 < (c::'a::ordered_field) ==> (b/c \<le> a) = (b \<le> a*c)"
d149e3cbdb39 Moving some theorems from Real/RealArith0.ML paulson parents: 14284 diff changeset	1294	proof -
d149e3cbdb39 Moving some theorems from Real/RealArith0.ML paulson parents: 14284 diff changeset	1295	assume less: "0<c"
d149e3cbdb39 Moving some theorems from Real/RealArith0.ML paulson parents: 14284 diff changeset	1296	hence "(b/c \<le> a) = ((b/c)c \<le> ac)"
d149e3cbdb39 Moving some theorems from Real/RealArith0.ML paulson parents: 14284 diff changeset	1297	by (simp add: mult_le_cancel_right order_less_not_sym [OF less])
d149e3cbdb39 Moving some theorems from Real/RealArith0.ML paulson parents: 14284 diff changeset	1298	also have "... = (b \<le> a*c)"
d149e3cbdb39 Moving some theorems from Real/RealArith0.ML paulson parents: 14284 diff changeset	1299	by (simp add: order_less_imp_not_eq2 [OF less] divide_inverse mult_assoc)
d149e3cbdb39 Moving some theorems from Real/RealArith0.ML paulson parents: 14284 diff changeset	1300	finally show ?thesis .
d149e3cbdb39 Moving some theorems from Real/RealArith0.ML paulson parents: 14284 diff changeset	1301	qed
d149e3cbdb39 Moving some theorems from Real/RealArith0.ML paulson parents: 14284 diff changeset	1302
d149e3cbdb39 Moving some theorems from Real/RealArith0.ML paulson parents: 14284 diff changeset	1303	lemma neg_divide_le_eq: "c < (0::'a::ordered_field) ==> (b/c \<le> a) = (a*c \<le> b)"
d149e3cbdb39 Moving some theorems from Real/RealArith0.ML paulson parents: 14284 diff changeset	1304	proof -
d149e3cbdb39 Moving some theorems from Real/RealArith0.ML paulson parents: 14284 diff changeset	1305	assume less: "c<0"
d149e3cbdb39 Moving some theorems from Real/RealArith0.ML paulson parents: 14284 diff changeset	1306	hence "(b/c \<le> a) = (ac \<le> (b/c)c)"
d149e3cbdb39 Moving some theorems from Real/RealArith0.ML paulson parents: 14284 diff changeset	1307	by (simp add: mult_le_cancel_right order_less_not_sym [OF less])
d149e3cbdb39 Moving some theorems from Real/RealArith0.ML paulson parents: 14284 diff changeset	1308	also have "... = (a*c \<le> b)"
d149e3cbdb39 Moving some theorems from Real/RealArith0.ML paulson parents: 14284 diff changeset	1309	by (simp add: order_less_imp_not_eq [OF less] divide_inverse mult_assoc)
d149e3cbdb39 Moving some theorems from Real/RealArith0.ML paulson parents: 14284 diff changeset	1310	finally show ?thesis .
d149e3cbdb39 Moving some theorems from Real/RealArith0.ML paulson parents: 14284 diff changeset	1311	qed
d149e3cbdb39 Moving some theorems from Real/RealArith0.ML paulson parents: 14284 diff changeset	1312
d149e3cbdb39 Moving some theorems from Real/RealArith0.ML paulson parents: 14284 diff changeset	1313	lemma divide_le_eq:
d149e3cbdb39 Moving some theorems from Real/RealArith0.ML paulson parents: 14284 diff changeset	1314	"(b/c \<le> a) =
d149e3cbdb39 Moving some theorems from Real/RealArith0.ML paulson parents: 14284 diff changeset	1315	(if 0 < c then b \<le> a*c
d149e3cbdb39 Moving some theorems from Real/RealArith0.ML paulson parents: 14284 diff changeset	1316	else if c < 0 then a*c \<le> b
d149e3cbdb39 Moving some theorems from Real/RealArith0.ML paulson parents: 14284 diff changeset	1317	else 0 \<le> (a::'a::{ordered_field,division_by_zero}))"
d149e3cbdb39 Moving some theorems from Real/RealArith0.ML paulson parents: 14284 diff changeset	1318	apply (case_tac "c=0", simp)
d149e3cbdb39 Moving some theorems from Real/RealArith0.ML paulson parents: 14284 diff changeset	1319	apply (force simp add: pos_divide_le_eq neg_divide_le_eq linorder_neq_iff)
d149e3cbdb39 Moving some theorems from Real/RealArith0.ML paulson parents: 14284 diff changeset	1320	done
d149e3cbdb39 Moving some theorems from Real/RealArith0.ML paulson parents: 14284 diff changeset	1321
d149e3cbdb39 Moving some theorems from Real/RealArith0.ML paulson parents: 14284 diff changeset	1322
d149e3cbdb39 Moving some theorems from Real/RealArith0.ML paulson parents: 14284 diff changeset	1323	lemma pos_less_divide_eq:
d149e3cbdb39 Moving some theorems from Real/RealArith0.ML paulson parents: 14284 diff changeset	1324	"0 < (c::'a::ordered_field) ==> (a < b/c) = (a*c < b)"
d149e3cbdb39 Moving some theorems from Real/RealArith0.ML paulson parents: 14284 diff changeset	1325	proof -
d149e3cbdb39 Moving some theorems from Real/RealArith0.ML paulson parents: 14284 diff changeset	1326	assume less: "0<c"
d149e3cbdb39 Moving some theorems from Real/RealArith0.ML paulson parents: 14284 diff changeset	1327	hence "(a < b/c) = (ac < (b/c)c)"
d149e3cbdb39 Moving some theorems from Real/RealArith0.ML paulson parents: 14284 diff changeset	1328	by (simp add: mult_less_cancel_right order_less_not_sym [OF less])
d149e3cbdb39 Moving some theorems from Real/RealArith0.ML paulson parents: 14284 diff changeset	1329	also have "... = (a*c < b)"
d149e3cbdb39 Moving some theorems from Real/RealArith0.ML paulson parents: 14284 diff changeset	1330	by (simp add: order_less_imp_not_eq2 [OF less] divide_inverse mult_assoc)
d149e3cbdb39 Moving some theorems from Real/RealArith0.ML paulson parents: 14284 diff changeset	1331	finally show ?thesis .
d149e3cbdb39 Moving some theorems from Real/RealArith0.ML paulson parents: 14284 diff changeset	1332	qed
d149e3cbdb39 Moving some theorems from Real/RealArith0.ML paulson parents: 14284 diff changeset	1333
d149e3cbdb39 Moving some theorems from Real/RealArith0.ML paulson parents: 14284 diff changeset	1334	lemma neg_less_divide_eq:
d149e3cbdb39 Moving some theorems from Real/RealArith0.ML paulson parents: 14284 diff changeset	1335	"c < (0::'a::ordered_field) ==> (a < b/c) = (b < a*c)"
d149e3cbdb39 Moving some theorems from Real/RealArith0.ML paulson parents: 14284 diff changeset	1336	proof -
d149e3cbdb39 Moving some theorems from Real/RealArith0.ML paulson parents: 14284 diff changeset	1337	assume less: "c<0"
d149e3cbdb39 Moving some theorems from Real/RealArith0.ML paulson parents: 14284 diff changeset	1338	hence "(a < b/c) = ((b/c)c < ac)"
d149e3cbdb39 Moving some theorems from Real/RealArith0.ML paulson parents: 14284 diff changeset	1339	by (simp add: mult_less_cancel_right order_less_not_sym [OF less])
d149e3cbdb39 Moving some theorems from Real/RealArith0.ML paulson parents: 14284 diff changeset	1340	also have "... = (b < a*c)"
d149e3cbdb39 Moving some theorems from Real/RealArith0.ML paulson parents: 14284 diff changeset	1341	by (simp add: order_less_imp_not_eq [OF less] divide_inverse mult_assoc)
d149e3cbdb39 Moving some theorems from Real/RealArith0.ML paulson parents: 14284 diff changeset	1342	finally show ?thesis .
d149e3cbdb39 Moving some theorems from Real/RealArith0.ML paulson parents: 14284 diff changeset	1343	qed
d149e3cbdb39 Moving some theorems from Real/RealArith0.ML paulson parents: 14284 diff changeset	1344
d149e3cbdb39 Moving some theorems from Real/RealArith0.ML paulson parents: 14284 diff changeset	1345	lemma less_divide_eq:
d149e3cbdb39 Moving some theorems from Real/RealArith0.ML paulson parents: 14284 diff changeset	1346	"(a < b/c) =
d149e3cbdb39 Moving some theorems from Real/RealArith0.ML paulson parents: 14284 diff changeset	1347	(if 0 < c then a*c < b
d149e3cbdb39 Moving some theorems from Real/RealArith0.ML paulson parents: 14284 diff changeset	1348	else if c < 0 then b < a*c
d149e3cbdb39 Moving some theorems from Real/RealArith0.ML paulson parents: 14284 diff changeset	1349	else a < (0::'a::{ordered_field,division_by_zero}))"
d149e3cbdb39 Moving some theorems from Real/RealArith0.ML paulson parents: 14284 diff changeset	1350	apply (case_tac "c=0", simp)
d149e3cbdb39 Moving some theorems from Real/RealArith0.ML paulson parents: 14284 diff changeset	1351	apply (force simp add: pos_less_divide_eq neg_less_divide_eq linorder_neq_iff)
d149e3cbdb39 Moving some theorems from Real/RealArith0.ML paulson parents: 14284 diff changeset	1352	done
d149e3cbdb39 Moving some theorems from Real/RealArith0.ML paulson parents: 14284 diff changeset	1353
d149e3cbdb39 Moving some theorems from Real/RealArith0.ML paulson parents: 14284 diff changeset	1354	lemma pos_divide_less_eq:
d149e3cbdb39 Moving some theorems from Real/RealArith0.ML paulson parents: 14284 diff changeset	1355	"0 < (c::'a::ordered_field) ==> (b/c < a) = (b < a*c)"
d149e3cbdb39 Moving some theorems from Real/RealArith0.ML paulson parents: 14284 diff changeset	1356	proof -
d149e3cbdb39 Moving some theorems from Real/RealArith0.ML paulson parents: 14284 diff changeset	1357	assume less: "0<c"
d149e3cbdb39 Moving some theorems from Real/RealArith0.ML paulson parents: 14284 diff changeset	1358	hence "(b/c < a) = ((b/c)c < ac)"
d149e3cbdb39 Moving some theorems from Real/RealArith0.ML paulson parents: 14284 diff changeset	1359	by (simp add: mult_less_cancel_right order_less_not_sym [OF less])
d149e3cbdb39 Moving some theorems from Real/RealArith0.ML paulson parents: 14284 diff changeset	1360	also have "... = (b < a*c)"
d149e3cbdb39 Moving some theorems from Real/RealArith0.ML paulson parents: 14284 diff changeset	1361	by (simp add: order_less_imp_not_eq2 [OF less] divide_inverse mult_assoc)
d149e3cbdb39 Moving some theorems from Real/RealArith0.ML paulson parents: 14284 diff changeset	1362	finally show ?thesis .
d149e3cbdb39 Moving some theorems from Real/RealArith0.ML paulson parents: 14284 diff changeset	1363	qed
d149e3cbdb39 Moving some theorems from Real/RealArith0.ML paulson parents: 14284 diff changeset	1364
d149e3cbdb39 Moving some theorems from Real/RealArith0.ML paulson parents: 14284 diff changeset	1365	lemma neg_divide_less_eq:
d149e3cbdb39 Moving some theorems from Real/RealArith0.ML paulson parents: 14284 diff changeset	1366	"c < (0::'a::ordered_field) ==> (b/c < a) = (a*c < b)"
d149e3cbdb39 Moving some theorems from Real/RealArith0.ML paulson parents: 14284 diff changeset	1367	proof -
d149e3cbdb39 Moving some theorems from Real/RealArith0.ML paulson parents: 14284 diff changeset	1368	assume less: "c<0"
d149e3cbdb39 Moving some theorems from Real/RealArith0.ML paulson parents: 14284 diff changeset	1369	hence "(b/c < a) = (ac < (b/c)c)"
d149e3cbdb39 Moving some theorems from Real/RealArith0.ML paulson parents: 14284 diff changeset	1370	by (simp add: mult_less_cancel_right order_less_not_sym [OF less])
d149e3cbdb39 Moving some theorems from Real/RealArith0.ML paulson parents: 14284 diff changeset	1371	also have "... = (a*c < b)"
d149e3cbdb39 Moving some theorems from Real/RealArith0.ML paulson parents: 14284 diff changeset	1372	by (simp add: order_less_imp_not_eq [OF less] divide_inverse mult_assoc)
d149e3cbdb39 Moving some theorems from Real/RealArith0.ML paulson parents: 14284 diff changeset	1373	finally show ?thesis .
d149e3cbdb39 Moving some theorems from Real/RealArith0.ML paulson parents: 14284 diff changeset	1374	qed
d149e3cbdb39 Moving some theorems from Real/RealArith0.ML paulson parents: 14284 diff changeset	1375
d149e3cbdb39 Moving some theorems from Real/RealArith0.ML paulson parents: 14284 diff changeset	1376	lemma divide_less_eq:
d149e3cbdb39 Moving some theorems from Real/RealArith0.ML paulson parents: 14284 diff changeset	1377	"(b/c < a) =
d149e3cbdb39 Moving some theorems from Real/RealArith0.ML paulson parents: 14284 diff changeset	1378	(if 0 < c then b < a*c
d149e3cbdb39 Moving some theorems from Real/RealArith0.ML paulson parents: 14284 diff changeset	1379	else if c < 0 then a*c < b
d149e3cbdb39 Moving some theorems from Real/RealArith0.ML paulson parents: 14284 diff changeset	1380	else 0 < (a::'a::{ordered_field,division_by_zero}))"
d149e3cbdb39 Moving some theorems from Real/RealArith0.ML paulson parents: 14284 diff changeset	1381	apply (case_tac "c=0", simp)
d149e3cbdb39 Moving some theorems from Real/RealArith0.ML paulson parents: 14284 diff changeset	1382	apply (force simp add: pos_divide_less_eq neg_divide_less_eq linorder_neq_iff)
d149e3cbdb39 Moving some theorems from Real/RealArith0.ML paulson parents: 14284 diff changeset	1383	done
d149e3cbdb39 Moving some theorems from Real/RealArith0.ML paulson parents: 14284 diff changeset	1384
d149e3cbdb39 Moving some theorems from Real/RealArith0.ML paulson parents: 14284 diff changeset	1385	lemma nonzero_eq_divide_eq: "c\<noteq>0 ==> ((a::'a::field) = b/c) = (a*c = b)"
d149e3cbdb39 Moving some theorems from Real/RealArith0.ML paulson parents: 14284 diff changeset	1386	proof -
d149e3cbdb39 Moving some theorems from Real/RealArith0.ML paulson parents: 14284 diff changeset	1387	assume [simp]: "c\<noteq>0"
d149e3cbdb39 Moving some theorems from Real/RealArith0.ML paulson parents: 14284 diff changeset	1388	have "(a = b/c) = (ac = (b/c)c)"
d149e3cbdb39 Moving some theorems from Real/RealArith0.ML paulson parents: 14284 diff changeset	1389	by (simp add: field_mult_cancel_right)
d149e3cbdb39 Moving some theorems from Real/RealArith0.ML paulson parents: 14284 diff changeset	1390	also have "... = (a*c = b)"
d149e3cbdb39 Moving some theorems from Real/RealArith0.ML paulson parents: 14284 diff changeset	1391	by (simp add: divide_inverse mult_assoc)
d149e3cbdb39 Moving some theorems from Real/RealArith0.ML paulson parents: 14284 diff changeset	1392	finally show ?thesis .
d149e3cbdb39 Moving some theorems from Real/RealArith0.ML paulson parents: 14284 diff changeset	1393	qed
d149e3cbdb39 Moving some theorems from Real/RealArith0.ML paulson parents: 14284 diff changeset	1394
d149e3cbdb39 Moving some theorems from Real/RealArith0.ML paulson parents: 14284 diff changeset	1395	lemma eq_divide_eq:
d149e3cbdb39 Moving some theorems from Real/RealArith0.ML paulson parents: 14284 diff changeset	1396	"((a::'a::{field,division_by_zero}) = b/c) = (if c\<noteq>0 then a*c = b else a=0)"
d149e3cbdb39 Moving some theorems from Real/RealArith0.ML paulson parents: 14284 diff changeset	1397	by (simp add: nonzero_eq_divide_eq)
d149e3cbdb39 Moving some theorems from Real/RealArith0.ML paulson parents: 14284 diff changeset	1398
d149e3cbdb39 Moving some theorems from Real/RealArith0.ML paulson parents: 14284 diff changeset	1399	lemma nonzero_divide_eq_eq: "c\<noteq>0 ==> (b/c = (a::'a::field)) = (b = a*c)"
d149e3cbdb39 Moving some theorems from Real/RealArith0.ML paulson parents: 14284 diff changeset	1400	proof -
d149e3cbdb39 Moving some theorems from Real/RealArith0.ML paulson parents: 14284 diff changeset	1401	assume [simp]: "c\<noteq>0"
d149e3cbdb39 Moving some theorems from Real/RealArith0.ML paulson parents: 14284 diff changeset	1402	have "(b/c = a) = ((b/c)c = ac)"
d149e3cbdb39 Moving some theorems from Real/RealArith0.ML paulson parents: 14284 diff changeset	1403	by (simp add: field_mult_cancel_right)
d149e3cbdb39 Moving some theorems from Real/RealArith0.ML paulson parents: 14284 diff changeset	1404	also have "... = (b = a*c)"
d149e3cbdb39 Moving some theorems from Real/RealArith0.ML paulson parents: 14284 diff changeset	1405	by (simp add: divide_inverse mult_assoc)
d149e3cbdb39 Moving some theorems from Real/RealArith0.ML paulson parents: 14284 diff changeset	1406	finally show ?thesis .
d149e3cbdb39 Moving some theorems from Real/RealArith0.ML paulson parents: 14284 diff changeset	1407	qed
d149e3cbdb39 Moving some theorems from Real/RealArith0.ML paulson parents: 14284 diff changeset	1408
d149e3cbdb39 Moving some theorems from Real/RealArith0.ML paulson parents: 14284 diff changeset	1409	lemma divide_eq_eq:
d149e3cbdb39 Moving some theorems from Real/RealArith0.ML paulson parents: 14284 diff changeset	1410	"(b/c = (a::'a::{field,division_by_zero})) = (if c\<noteq>0 then b = a*c else a=0)"
d149e3cbdb39 Moving some theorems from Real/RealArith0.ML paulson parents: 14284 diff changeset	1411	by (force simp add: nonzero_divide_eq_eq)
d149e3cbdb39 Moving some theorems from Real/RealArith0.ML paulson parents: 14284 diff changeset	1412
d149e3cbdb39 Moving some theorems from Real/RealArith0.ML paulson parents: 14284 diff changeset	1413	subsection{Cancellation Laws for Division}
d149e3cbdb39 Moving some theorems from Real/RealArith0.ML paulson parents: 14284 diff changeset	1414
d149e3cbdb39 Moving some theorems from Real/RealArith0.ML paulson parents: 14284 diff changeset	1415	lemma divide_cancel_right [simp]:
d149e3cbdb39 Moving some theorems from Real/RealArith0.ML paulson parents: 14284 diff changeset	1416	"(a/c = b/c) = (c = 0 \| a = (b::'a::{field,division_by_zero}))"
d149e3cbdb39 Moving some theorems from Real/RealArith0.ML paulson parents: 14284 diff changeset	1417	apply (case_tac "c=0", simp)
d149e3cbdb39 Moving some theorems from Real/RealArith0.ML paulson parents: 14284 diff changeset	1418	apply (simp add: divide_inverse_zero field_mult_cancel_right)
d149e3cbdb39 Moving some theorems from Real/RealArith0.ML paulson parents: 14284 diff changeset	1419	done
d149e3cbdb39 Moving some theorems from Real/RealArith0.ML paulson parents: 14284 diff changeset	1420
d149e3cbdb39 Moving some theorems from Real/RealArith0.ML paulson parents: 14284 diff changeset	1421	lemma divide_cancel_left [simp]:
d149e3cbdb39 Moving some theorems from Real/RealArith0.ML paulson parents: 14284 diff changeset	1422	"(c/a = c/b) = (c = 0 \| a = (b::'a::{field,division_by_zero}))"
d149e3cbdb39 Moving some theorems from Real/RealArith0.ML paulson parents: 14284 diff changeset	1423	apply (case_tac "c=0", simp)
d149e3cbdb39 Moving some theorems from Real/RealArith0.ML paulson parents: 14284 diff changeset	1424	apply (simp add: divide_inverse_zero field_mult_cancel_left)
d149e3cbdb39 Moving some theorems from Real/RealArith0.ML paulson parents: 14284 diff changeset	1425	done
d149e3cbdb39 Moving some theorems from Real/RealArith0.ML paulson parents: 14284 diff changeset	1426
14353 79f9fbef9106 Added lemmas to Ring_and_Field with slightly modified simplification rules paulson parents: 14348 diff changeset	1427	subsection {* Division and the Number One *}
79f9fbef9106 Added lemmas to Ring_and_Field with slightly modified simplification rules paulson parents: 14348 diff changeset	1428
79f9fbef9106 Added lemmas to Ring_and_Field with slightly modified simplification rules paulson parents: 14348 diff changeset	1429	text{Simplify expressions equated with 1}
79f9fbef9106 Added lemmas to Ring_and_Field with slightly modified simplification rules paulson parents: 14348 diff changeset	1430	lemma divide_eq_1_iff [simp]:
79f9fbef9106 Added lemmas to Ring_and_Field with slightly modified simplification rules paulson parents: 14348 diff changeset	1431	"(a/b = 1) = (b \<noteq> 0 & a = (b::'a::{field,division_by_zero}))"
79f9fbef9106 Added lemmas to Ring_and_Field with slightly modified simplification rules paulson parents: 14348 diff changeset	1432	apply (case_tac "b=0", simp)
79f9fbef9106 Added lemmas to Ring_and_Field with slightly modified simplification rules paulson parents: 14348 diff changeset	1433	apply (simp add: right_inverse_eq)
79f9fbef9106 Added lemmas to Ring_and_Field with slightly modified simplification rules paulson parents: 14348 diff changeset	1434	done
79f9fbef9106 Added lemmas to Ring_and_Field with slightly modified simplification rules paulson parents: 14348 diff changeset	1435
79f9fbef9106 Added lemmas to Ring_and_Field with slightly modified simplification rules paulson parents: 14348 diff changeset	1436
79f9fbef9106 Added lemmas to Ring_and_Field with slightly modified simplification rules paulson parents: 14348 diff changeset	1437	lemma one_eq_divide_iff [simp]:
79f9fbef9106 Added lemmas to Ring_and_Field with slightly modified simplification rules paulson parents: 14348 diff changeset	1438	"(1 = a/b) = (b \<noteq> 0 & a = (b::'a::{field,division_by_zero}))"
79f9fbef9106 Added lemmas to Ring_and_Field with slightly modified simplification rules paulson parents: 14348 diff changeset	1439	by (simp add: eq_commute [of 1])
79f9fbef9106 Added lemmas to Ring_and_Field with slightly modified simplification rules paulson parents: 14348 diff changeset	1440
79f9fbef9106 Added lemmas to Ring_and_Field with slightly modified simplification rules paulson parents: 14348 diff changeset	1441	lemma zero_eq_1_divide_iff [simp]:
79f9fbef9106 Added lemmas to Ring_and_Field with slightly modified simplification rules paulson parents: 14348 diff changeset	1442	"((0::'a::{ordered_field,division_by_zero}) = 1/a) = (a = 0)"
79f9fbef9106 Added lemmas to Ring_and_Field with slightly modified simplification rules paulson parents: 14348 diff changeset	1443	apply (case_tac "a=0", simp)
79f9fbef9106 Added lemmas to Ring_and_Field with slightly modified simplification rules paulson parents: 14348 diff changeset	1444	apply (auto simp add: nonzero_eq_divide_eq)
79f9fbef9106 Added lemmas to Ring_and_Field with slightly modified simplification rules paulson parents: 14348 diff changeset	1445	done
79f9fbef9106 Added lemmas to Ring_and_Field with slightly modified simplification rules paulson parents: 14348 diff changeset	1446
79f9fbef9106 Added lemmas to Ring_and_Field with slightly modified simplification rules paulson parents: 14348 diff changeset	1447	lemma one_divide_eq_0_iff [simp]:
79f9fbef9106 Added lemmas to Ring_and_Field with slightly modified simplification rules paulson parents: 14348 diff changeset	1448	"(1/a = (0::'a::{ordered_field,division_by_zero})) = (a = 0)"
79f9fbef9106 Added lemmas to Ring_and_Field with slightly modified simplification rules paulson parents: 14348 diff changeset	1449	apply (case_tac "a=0", simp)
79f9fbef9106 Added lemmas to Ring_and_Field with slightly modified simplification rules paulson parents: 14348 diff changeset	1450	apply (insert zero_neq_one [THEN not_sym])
79f9fbef9106 Added lemmas to Ring_and_Field with slightly modified simplification rules paulson parents: 14348 diff changeset	1451	apply (auto simp add: nonzero_divide_eq_eq)
79f9fbef9106 Added lemmas to Ring_and_Field with slightly modified simplification rules paulson parents: 14348 diff changeset	1452	done
79f9fbef9106 Added lemmas to Ring_and_Field with slightly modified simplification rules paulson parents: 14348 diff changeset	1453
79f9fbef9106 Added lemmas to Ring_and_Field with slightly modified simplification rules paulson parents: 14348 diff changeset	1454	text{Simplify expressions such as @{text "0 < 1/x"} to @{text "0 < x"}}
79f9fbef9106 Added lemmas to Ring_and_Field with slightly modified simplification rules paulson parents: 14348 diff changeset	1455	declare zero_less_divide_iff [of "1", simp]
79f9fbef9106 Added lemmas to Ring_and_Field with slightly modified simplification rules paulson parents: 14348 diff changeset	1456	declare divide_less_0_iff [of "1", simp]
79f9fbef9106 Added lemmas to Ring_and_Field with slightly modified simplification rules paulson parents: 14348 diff changeset	1457	declare zero_le_divide_iff [of "1", simp]
79f9fbef9106 Added lemmas to Ring_and_Field with slightly modified simplification rules paulson parents: 14348 diff changeset	1458	declare divide_le_0_iff [of "1", simp]
79f9fbef9106 Added lemmas to Ring_and_Field with slightly modified simplification rules paulson parents: 14348 diff changeset	1459
14288 d149e3cbdb39 Moving some theorems from Real/RealArith0.ML paulson parents: 14284 diff changeset	1460
14293 22542982bffd moving some division theorems to Ring_and_Field paulson parents: 14288 diff changeset	1461	subsection {* Ordering Rules for Division *}
22542982bffd moving some division theorems to Ring_and_Field paulson parents: 14288 diff changeset	1462
22542982bffd moving some division theorems to Ring_and_Field paulson parents: 14288 diff changeset	1463	lemma divide_strict_right_mono:
22542982bffd moving some division theorems to Ring_and_Field paulson parents: 14288 diff changeset	1464	"[\|a < b; 0 < c\|] ==> a / c < b / (c::'a::ordered_field)"
22542982bffd moving some division theorems to Ring_and_Field paulson parents: 14288 diff changeset	1465	by (simp add: order_less_imp_not_eq2 divide_inverse mult_strict_right_mono
22542982bffd moving some division theorems to Ring_and_Field paulson parents: 14288 diff changeset	1466	positive_imp_inverse_positive)
22542982bffd moving some division theorems to Ring_and_Field paulson parents: 14288 diff changeset	1467
22542982bffd moving some division theorems to Ring_and_Field paulson parents: 14288 diff changeset	1468	lemma divide_right_mono:
22542982bffd moving some division theorems to Ring_and_Field paulson parents: 14288 diff changeset	1469	"[\|a \<le> b; 0 \<le> c\|] ==> a/c \<le> b/(c::'a::{ordered_field,division_by_zero})"
22542982bffd moving some division theorems to Ring_and_Field paulson parents: 14288 diff changeset	1470	by (force simp add: divide_strict_right_mono order_le_less)
22542982bffd moving some division theorems to Ring_and_Field paulson parents: 14288 diff changeset	1471
22542982bffd moving some division theorems to Ring_and_Field paulson parents: 14288 diff changeset	1472
22542982bffd moving some division theorems to Ring_and_Field paulson parents: 14288 diff changeset	1473	text{*The last premise ensures that @{term a} and @{term b}
22542982bffd moving some division theorems to Ring_and_Field paulson parents: 14288 diff changeset	1474	have the same sign*}
22542982bffd moving some division theorems to Ring_and_Field paulson parents: 14288 diff changeset	1475	lemma divide_strict_left_mono:
22542982bffd moving some division theorems to Ring_and_Field paulson parents: 14288 diff changeset	1476	"[\|b < a; 0 < c; 0 < a*b\|] ==> c / a < c / (b::'a::ordered_field)"
22542982bffd moving some division theorems to Ring_and_Field paulson parents: 14288 diff changeset	1477	by (force simp add: zero_less_mult_iff divide_inverse mult_strict_left_mono
22542982bffd moving some division theorems to Ring_and_Field paulson parents: 14288 diff changeset	1478	order_less_imp_not_eq order_less_imp_not_eq2
22542982bffd moving some division theorems to Ring_and_Field paulson parents: 14288 diff changeset	1479	less_imp_inverse_less less_imp_inverse_less_neg)
22542982bffd moving some division theorems to Ring_and_Field paulson parents: 14288 diff changeset	1480
22542982bffd moving some division theorems to Ring_and_Field paulson parents: 14288 diff changeset	1481	lemma divide_left_mono:
22542982bffd moving some division theorems to Ring_and_Field paulson parents: 14288 diff changeset	1482	"[\|b \<le> a; 0 \<le> c; 0 < a*b\|] ==> c / a \<le> c / (b::'a::ordered_field)"
22542982bffd moving some division theorems to Ring_and_Field paulson parents: 14288 diff changeset	1483	apply (subgoal_tac "a \<noteq> 0 & b \<noteq> 0")
22542982bffd moving some division theorems to Ring_and_Field paulson parents: 14288 diff changeset	1484	prefer 2
22542982bffd moving some division theorems to Ring_and_Field paulson parents: 14288 diff changeset	1485	apply (force simp add: zero_less_mult_iff order_less_imp_not_eq)
22542982bffd moving some division theorems to Ring_and_Field paulson parents: 14288 diff changeset	1486	apply (case_tac "c=0", simp add: divide_inverse)
22542982bffd moving some division theorems to Ring_and_Field paulson parents: 14288 diff changeset	1487	apply (force simp add: divide_strict_left_mono order_le_less)
22542982bffd moving some division theorems to Ring_and_Field paulson parents: 14288 diff changeset	1488	done
22542982bffd moving some division theorems to Ring_and_Field paulson parents: 14288 diff changeset	1489
22542982bffd moving some division theorems to Ring_and_Field paulson parents: 14288 diff changeset	1490	lemma divide_strict_left_mono_neg:
22542982bffd moving some division theorems to Ring_and_Field paulson parents: 14288 diff changeset	1491	"[\|a < b; c < 0; 0 < a*b\|] ==> c / a < c / (b::'a::ordered_field)"
22542982bffd moving some division theorems to Ring_and_Field paulson parents: 14288 diff changeset	1492	apply (subgoal_tac "a \<noteq> 0 & b \<noteq> 0")
22542982bffd moving some division theorems to Ring_and_Field paulson parents: 14288 diff changeset	1493	prefer 2
22542982bffd moving some division theorems to Ring_and_Field paulson parents: 14288 diff changeset	1494	apply (force simp add: zero_less_mult_iff order_less_imp_not_eq)
22542982bffd moving some division theorems to Ring_and_Field paulson parents: 14288 diff changeset	1495	apply (drule divide_strict_left_mono [of _ _ "-c"])
22542982bffd moving some division theorems to Ring_and_Field paulson parents: 14288 diff changeset	1496	apply (simp_all add: mult_commute nonzero_minus_divide_left [symmetric])
22542982bffd moving some division theorems to Ring_and_Field paulson parents: 14288 diff changeset	1497	done
22542982bffd moving some division theorems to Ring_and_Field paulson parents: 14288 diff changeset	1498
22542982bffd moving some division theorems to Ring_and_Field paulson parents: 14288 diff changeset	1499	lemma divide_strict_right_mono_neg:
22542982bffd moving some division theorems to Ring_and_Field paulson parents: 14288 diff changeset	1500	"[\|b < a; c < 0\|] ==> a / c < b / (c::'a::ordered_field)"
22542982bffd moving some division theorems to Ring_and_Field paulson parents: 14288 diff changeset	1501	apply (drule divide_strict_right_mono [of _ _ "-c"], simp)
22542982bffd moving some division theorems to Ring_and_Field paulson parents: 14288 diff changeset	1502	apply (simp add: order_less_imp_not_eq nonzero_minus_divide_right [symmetric])
22542982bffd moving some division theorems to Ring_and_Field paulson parents: 14288 diff changeset	1503	done
22542982bffd moving some division theorems to Ring_and_Field paulson parents: 14288 diff changeset	1504
22542982bffd moving some division theorems to Ring_and_Field paulson parents: 14288 diff changeset	1505
22542982bffd moving some division theorems to Ring_and_Field paulson parents: 14288 diff changeset	1506	subsection {* Ordered Fields are Dense *}
22542982bffd moving some division theorems to Ring_and_Field paulson parents: 14288 diff changeset	1507
14365 3d4df8c166ae replacing HOL/Real/PRat, PNat by the rational number development paulson parents: 14353 diff changeset	1508	lemma less_add_one: "a < (a+1::'a::ordered_semiring)"
14293 22542982bffd moving some division theorems to Ring_and_Field paulson parents: 14288 diff changeset	1509	proof -
14365 3d4df8c166ae replacing HOL/Real/PRat, PNat by the rational number development paulson parents: 14353 diff changeset	1510	have "a+0 < (a+1::'a::ordered_semiring)"
3d4df8c166ae replacing HOL/Real/PRat, PNat by the rational number development paulson parents: 14353 diff changeset	1511	by (blast intro: zero_less_one add_strict_left_mono)
14293 22542982bffd moving some division theorems to Ring_and_Field paulson parents: 14288 diff changeset	1512	thus ?thesis by simp
22542982bffd moving some division theorems to Ring_and_Field paulson parents: 14288 diff changeset	1513	qed
22542982bffd moving some division theorems to Ring_and_Field paulson parents: 14288 diff changeset	1514
14365 3d4df8c166ae replacing HOL/Real/PRat, PNat by the rational number development paulson parents: 14353 diff changeset	1515	lemma zero_less_two: "0 < (1+1::'a::ordered_semiring)"
3d4df8c166ae replacing HOL/Real/PRat, PNat by the rational number development paulson parents: 14353 diff changeset	1516	by (blast intro: order_less_trans zero_less_one less_add_one)
3d4df8c166ae replacing HOL/Real/PRat, PNat by the rational number development paulson parents: 14353 diff changeset	1517
14293 22542982bffd moving some division theorems to Ring_and_Field paulson parents: 14288 diff changeset	1518	lemma less_half_sum: "a < b ==> a < (a+b) / (1+1::'a::ordered_field)"
22542982bffd moving some division theorems to Ring_and_Field paulson parents: 14288 diff changeset	1519	by (simp add: zero_less_two pos_less_divide_eq right_distrib)
22542982bffd moving some division theorems to Ring_and_Field paulson parents: 14288 diff changeset	1520
22542982bffd moving some division theorems to Ring_and_Field paulson parents: 14288 diff changeset	1521	lemma gt_half_sum: "a < b ==> (a+b)/(1+1::'a::ordered_field) < b"
22542982bffd moving some division theorems to Ring_and_Field paulson parents: 14288 diff changeset	1522	by (simp add: zero_less_two pos_divide_less_eq right_distrib)
22542982bffd moving some division theorems to Ring_and_Field paulson parents: 14288 diff changeset	1523
22542982bffd moving some division theorems to Ring_and_Field paulson parents: 14288 diff changeset	1524	lemma dense: "a < b ==> \<exists>r::'a::ordered_field. a < r & r < b"
22542982bffd moving some division theorems to Ring_and_Field paulson parents: 14288 diff changeset	1525	by (blast intro!: less_half_sum gt_half_sum)
22542982bffd moving some division theorems to Ring_and_Field paulson parents: 14288 diff changeset	1526
22542982bffd moving some division theorems to Ring_and_Field paulson parents: 14288 diff changeset	1527
22542982bffd moving some division theorems to Ring_and_Field paulson parents: 14288 diff changeset	1528	subsection {* Absolute Value *}
22542982bffd moving some division theorems to Ring_and_Field paulson parents: 14288 diff changeset	1529
22542982bffd moving some division theorems to Ring_and_Field paulson parents: 14288 diff changeset	1530	lemma abs_zero [simp]: "abs 0 = (0::'a::ordered_ring)"
22542982bffd moving some division theorems to Ring_and_Field paulson parents: 14288 diff changeset	1531	by (simp add: abs_if)
22542982bffd moving some division theorems to Ring_and_Field paulson parents: 14288 diff changeset	1532
14294 f4d806fd72ce absolute value theorems moved to HOL/Ring_and_Field paulson parents: 14293 diff changeset	1533	lemma abs_one [simp]: "abs 1 = (1::'a::ordered_ring)"
f4d806fd72ce absolute value theorems moved to HOL/Ring_and_Field paulson parents: 14293 diff changeset	1534	by (simp add: abs_if zero_less_one [THEN order_less_not_sym])
f4d806fd72ce absolute value theorems moved to HOL/Ring_and_Field paulson parents: 14293 diff changeset	1535
f4d806fd72ce absolute value theorems moved to HOL/Ring_and_Field paulson parents: 14293 diff changeset	1536	lemma abs_mult: "abs (a * b) = abs a * abs (b::'a::ordered_ring)"
f4d806fd72ce absolute value theorems moved to HOL/Ring_and_Field paulson parents: 14293 diff changeset	1537	apply (case_tac "a=0 \| b=0", force)
14293 22542982bffd moving some division theorems to Ring_and_Field paulson parents: 14288 diff changeset	1538	apply (auto elim: order_less_asym
22542982bffd moving some division theorems to Ring_and_Field paulson parents: 14288 diff changeset	1539	simp add: abs_if mult_less_0_iff linorder_neq_iff
22542982bffd moving some division theorems to Ring_and_Field paulson parents: 14288 diff changeset	1540	minus_mult_left [symmetric] minus_mult_right [symmetric])
22542982bffd moving some division theorems to Ring_and_Field paulson parents: 14288 diff changeset	1541	done
22542982bffd moving some division theorems to Ring_and_Field paulson parents: 14288 diff changeset	1542
14348 744c868ee0b7 Defining the type class "ringpower" and deleting superseded theorems for paulson parents: 14341 diff changeset	1543	lemma abs_mult_self: "abs a * abs a = a * (a::'a::ordered_ring)"
744c868ee0b7 Defining the type class "ringpower" and deleting superseded theorems for paulson parents: 14341 diff changeset	1544	by (simp add: abs_if)
744c868ee0b7 Defining the type class "ringpower" and deleting superseded theorems for paulson parents: 14341 diff changeset	1545
14294 f4d806fd72ce absolute value theorems moved to HOL/Ring_and_Field paulson parents: 14293 diff changeset	1546	lemma abs_eq_0 [simp]: "(abs a = 0) = (a = (0::'a::ordered_ring))"
f4d806fd72ce absolute value theorems moved to HOL/Ring_and_Field paulson parents: 14293 diff changeset	1547	by (simp add: abs_if)
f4d806fd72ce absolute value theorems moved to HOL/Ring_and_Field paulson parents: 14293 diff changeset	1548
f4d806fd72ce absolute value theorems moved to HOL/Ring_and_Field paulson parents: 14293 diff changeset	1549	lemma zero_less_abs_iff [simp]: "(0 < abs a) = (a \<noteq> (0::'a::ordered_ring))"
f4d806fd72ce absolute value theorems moved to HOL/Ring_and_Field paulson parents: 14293 diff changeset	1550	by (simp add: abs_if linorder_neq_iff)
f4d806fd72ce absolute value theorems moved to HOL/Ring_and_Field paulson parents: 14293 diff changeset	1551
f4d806fd72ce absolute value theorems moved to HOL/Ring_and_Field paulson parents: 14293 diff changeset	1552	lemma abs_not_less_zero [simp]: "~ abs a < (0::'a::ordered_ring)"
14398 c5c47703f763 Efficient, graph-based reasoner for linear and partial orders. ballarin parents: 14387 diff changeset	1553	apply (simp add: abs_if)
14294 f4d806fd72ce absolute value theorems moved to HOL/Ring_and_Field paulson parents: 14293 diff changeset	1554	by (simp add: abs_if order_less_not_sym [of a 0])
f4d806fd72ce absolute value theorems moved to HOL/Ring_and_Field paulson parents: 14293 diff changeset	1555
f4d806fd72ce absolute value theorems moved to HOL/Ring_and_Field paulson parents: 14293 diff changeset	1556	lemma abs_le_zero_iff [simp]: "(abs a \<le> (0::'a::ordered_ring)) = (a = 0)"
f4d806fd72ce absolute value theorems moved to HOL/Ring_and_Field paulson parents: 14293 diff changeset	1557	by (simp add: order_le_less)
f4d806fd72ce absolute value theorems moved to HOL/Ring_and_Field paulson parents: 14293 diff changeset	1558
f4d806fd72ce absolute value theorems moved to HOL/Ring_and_Field paulson parents: 14293 diff changeset	1559	lemma abs_minus_cancel [simp]: "abs (-a) = abs(a::'a::ordered_ring)"
f4d806fd72ce absolute value theorems moved to HOL/Ring_and_Field paulson parents: 14293 diff changeset	1560	apply (auto simp add: abs_if linorder_not_less order_less_not_sym [of 0 a])
f4d806fd72ce absolute value theorems moved to HOL/Ring_and_Field paulson parents: 14293 diff changeset	1561	apply (drule order_antisym, assumption, simp)
f4d806fd72ce absolute value theorems moved to HOL/Ring_and_Field paulson parents: 14293 diff changeset	1562	done
f4d806fd72ce absolute value theorems moved to HOL/Ring_and_Field paulson parents: 14293 diff changeset	1563
f4d806fd72ce absolute value theorems moved to HOL/Ring_and_Field paulson parents: 14293 diff changeset	1564	lemma abs_ge_zero [simp]: "(0::'a::ordered_ring) \<le> abs a"
f4d806fd72ce absolute value theorems moved to HOL/Ring_and_Field paulson parents: 14293 diff changeset	1565	apply (simp add: abs_if order_less_imp_le)
f4d806fd72ce absolute value theorems moved to HOL/Ring_and_Field paulson parents: 14293 diff changeset	1566	apply (simp add: linorder_not_less)
f4d806fd72ce absolute value theorems moved to HOL/Ring_and_Field paulson parents: 14293 diff changeset	1567	done
f4d806fd72ce absolute value theorems moved to HOL/Ring_and_Field paulson parents: 14293 diff changeset	1568
f4d806fd72ce absolute value theorems moved to HOL/Ring_and_Field paulson parents: 14293 diff changeset	1569	lemma abs_idempotent [simp]: "abs (abs a) = abs (a::'a::ordered_ring)"
f4d806fd72ce absolute value theorems moved to HOL/Ring_and_Field paulson parents: 14293 diff changeset	1570	by (force elim: order_less_asym simp add: abs_if)
f4d806fd72ce absolute value theorems moved to HOL/Ring_and_Field paulson parents: 14293 diff changeset	1571
14305 f17ca9f6dc8c tidying first part of HyperArith0.ML, using generic lemmas paulson parents: 14295 diff changeset	1572	lemma abs_zero_iff [simp]: "(abs a = 0) = (a = (0::'a::ordered_ring))"
14293 22542982bffd moving some division theorems to Ring_and_Field paulson parents: 14288 diff changeset	1573	by (simp add: abs_if)
22542982bffd moving some division theorems to Ring_and_Field paulson parents: 14288 diff changeset	1574
14294 f4d806fd72ce absolute value theorems moved to HOL/Ring_and_Field paulson parents: 14293 diff changeset	1575	lemma abs_ge_self: "a \<le> abs (a::'a::ordered_ring)"
f4d806fd72ce absolute value theorems moved to HOL/Ring_and_Field paulson parents: 14293 diff changeset	1576	apply (simp add: abs_if)
f4d806fd72ce absolute value theorems moved to HOL/Ring_and_Field paulson parents: 14293 diff changeset	1577	apply (simp add: order_less_imp_le order_trans [of _ 0])
f4d806fd72ce absolute value theorems moved to HOL/Ring_and_Field paulson parents: 14293 diff changeset	1578	done
f4d806fd72ce absolute value theorems moved to HOL/Ring_and_Field paulson parents: 14293 diff changeset	1579
f4d806fd72ce absolute value theorems moved to HOL/Ring_and_Field paulson parents: 14293 diff changeset	1580	lemma abs_ge_minus_self: "-a \<le> abs (a::'a::ordered_ring)"
f4d806fd72ce absolute value theorems moved to HOL/Ring_and_Field paulson parents: 14293 diff changeset	1581	by (insert abs_ge_self [of "-a"], simp)
f4d806fd72ce absolute value theorems moved to HOL/Ring_and_Field paulson parents: 14293 diff changeset	1582
f4d806fd72ce absolute value theorems moved to HOL/Ring_and_Field paulson parents: 14293 diff changeset	1583	lemma nonzero_abs_inverse:
f4d806fd72ce absolute value theorems moved to HOL/Ring_and_Field paulson parents: 14293 diff changeset	1584	"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	1585	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	1586	negative_imp_inverse_negative)
f4d806fd72ce absolute value theorems moved to HOL/Ring_and_Field paulson parents: 14293 diff changeset	1587	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	1588	done
f4d806fd72ce absolute value theorems moved to HOL/Ring_and_Field paulson parents: 14293 diff changeset	1589
f4d806fd72ce absolute value theorems moved to HOL/Ring_and_Field paulson parents: 14293 diff changeset	1590	lemma abs_inverse [simp]:
f4d806fd72ce absolute value theorems moved to HOL/Ring_and_Field paulson parents: 14293 diff changeset	1591	"abs (inverse (a::'a::{ordered_field,division_by_zero})) =
f4d806fd72ce absolute value theorems moved to HOL/Ring_and_Field paulson parents: 14293 diff changeset	1592	inverse (abs a)"
f4d806fd72ce absolute value theorems moved to HOL/Ring_and_Field paulson parents: 14293 diff changeset	1593	apply (case_tac "a=0", simp)
f4d806fd72ce absolute value theorems moved to HOL/Ring_and_Field paulson parents: 14293 diff changeset	1594	apply (simp add: nonzero_abs_inverse)
f4d806fd72ce absolute value theorems moved to HOL/Ring_and_Field paulson parents: 14293 diff changeset	1595	done
f4d806fd72ce absolute value theorems moved to HOL/Ring_and_Field paulson parents: 14293 diff changeset	1596
f4d806fd72ce absolute value theorems moved to HOL/Ring_and_Field paulson parents: 14293 diff changeset	1597	lemma nonzero_abs_divide:
f4d806fd72ce absolute value theorems moved to HOL/Ring_and_Field paulson parents: 14293 diff changeset	1598	"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	1599	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	1600
f4d806fd72ce absolute value theorems moved to HOL/Ring_and_Field paulson parents: 14293 diff changeset	1601	lemma abs_divide:
f4d806fd72ce absolute value theorems moved to HOL/Ring_and_Field paulson parents: 14293 diff changeset	1602	"abs (a / (b::'a::{ordered_field,division_by_zero})) = abs a / abs b"
f4d806fd72ce absolute value theorems moved to HOL/Ring_and_Field paulson parents: 14293 diff changeset	1603	apply (case_tac "b=0", simp)
f4d806fd72ce absolute value theorems moved to HOL/Ring_and_Field paulson parents: 14293 diff changeset	1604	apply (simp add: nonzero_abs_divide)
f4d806fd72ce absolute value theorems moved to HOL/Ring_and_Field paulson parents: 14293 diff changeset	1605	done
f4d806fd72ce absolute value theorems moved to HOL/Ring_and_Field paulson parents: 14293 diff changeset	1606
14295 7f115e5c5de4 more general lemmas for Ring_and_Field paulson parents: 14294 diff changeset	1607	lemma abs_leI: "[\|a \<le> b; -a \<le> b\|] ==> abs a \<le> (b::'a::ordered_ring)"
7f115e5c5de4 more general lemmas for Ring_and_Field paulson parents: 14294 diff changeset	1608	by (simp add: abs_if)
7f115e5c5de4 more general lemmas for Ring_and_Field paulson parents: 14294 diff changeset	1609
7f115e5c5de4 more general lemmas for Ring_and_Field paulson parents: 14294 diff changeset	1610	lemma le_minus_self_iff: "(a \<le> -a) = (a \<le> (0::'a::ordered_ring))"
7f115e5c5de4 more general lemmas for Ring_and_Field paulson parents: 14294 diff changeset	1611	proof
7f115e5c5de4 more general lemmas for Ring_and_Field paulson parents: 14294 diff changeset	1612	assume ale: "a \<le> -a"
7f115e5c5de4 more general lemmas for Ring_and_Field paulson parents: 14294 diff changeset	1613	show "a\<le>0"
7f115e5c5de4 more general lemmas for Ring_and_Field paulson parents: 14294 diff changeset	1614	apply (rule classical)
7f115e5c5de4 more general lemmas for Ring_and_Field paulson parents: 14294 diff changeset	1615	apply (simp add: linorder_not_le)
7f115e5c5de4 more general lemmas for Ring_and_Field paulson parents: 14294 diff changeset	1616	apply (blast intro: ale order_trans order_less_imp_le
7f115e5c5de4 more general lemmas for Ring_and_Field paulson parents: 14294 diff changeset	1617	neg_0_le_iff_le [THEN iffD1])
7f115e5c5de4 more general lemmas for Ring_and_Field paulson parents: 14294 diff changeset	1618	done
7f115e5c5de4 more general lemmas for Ring_and_Field paulson parents: 14294 diff changeset	1619	next
7f115e5c5de4 more general lemmas for Ring_and_Field paulson parents: 14294 diff changeset	1620	assume "a\<le>0"
7f115e5c5de4 more general lemmas for Ring_and_Field paulson parents: 14294 diff changeset	1621	hence "0 \<le> -a" by (simp only: neg_0_le_iff_le)
7f115e5c5de4 more general lemmas for Ring_and_Field paulson parents: 14294 diff changeset	1622	thus "a \<le> -a" by (blast intro: prems order_trans)
7f115e5c5de4 more general lemmas for Ring_and_Field paulson parents: 14294 diff changeset	1623	qed
7f115e5c5de4 more general lemmas for Ring_and_Field paulson parents: 14294 diff changeset	1624
7f115e5c5de4 more general lemmas for Ring_and_Field paulson parents: 14294 diff changeset	1625	lemma minus_le_self_iff: "(-a \<le> a) = (0 \<le> (a::'a::ordered_ring))"
7f115e5c5de4 more general lemmas for Ring_and_Field paulson parents: 14294 diff changeset	1626	by (insert le_minus_self_iff [of "-a"], simp)
7f115e5c5de4 more general lemmas for Ring_and_Field paulson parents: 14294 diff changeset	1627
7f115e5c5de4 more general lemmas for Ring_and_Field paulson parents: 14294 diff changeset	1628	lemma eq_minus_self_iff: "(a = -a) = (a = (0::'a::ordered_ring))"
7f115e5c5de4 more general lemmas for Ring_and_Field paulson parents: 14294 diff changeset	1629	by (force simp add: order_eq_iff le_minus_self_iff minus_le_self_iff)
7f115e5c5de4 more general lemmas for Ring_and_Field paulson parents: 14294 diff changeset	1630
7f115e5c5de4 more general lemmas for Ring_and_Field paulson parents: 14294 diff changeset	1631	lemma less_minus_self_iff: "(a < -a) = (a < (0::'a::ordered_ring))"
7f115e5c5de4 more general lemmas for Ring_and_Field paulson parents: 14294 diff changeset	1632	by (simp add: order_less_le le_minus_self_iff eq_minus_self_iff)
7f115e5c5de4 more general lemmas for Ring_and_Field paulson parents: 14294 diff changeset	1633
7f115e5c5de4 more general lemmas for Ring_and_Field paulson parents: 14294 diff changeset	1634	lemma abs_le_D1: "abs a \<le> b ==> a \<le> (b::'a::ordered_ring)"
7f115e5c5de4 more general lemmas for Ring_and_Field paulson parents: 14294 diff changeset	1635	apply (simp add: abs_if split: split_if_asm)
7f115e5c5de4 more general lemmas for Ring_and_Field paulson parents: 14294 diff changeset	1636	apply (rule order_trans [of _ "-a"])
7f115e5c5de4 more general lemmas for Ring_and_Field paulson parents: 14294 diff changeset	1637	apply (simp add: less_minus_self_iff order_less_imp_le, assumption)
7f115e5c5de4 more general lemmas for Ring_and_Field paulson parents: 14294 diff changeset	1638	done
7f115e5c5de4 more general lemmas for Ring_and_Field paulson parents: 14294 diff changeset	1639
7f115e5c5de4 more general lemmas for Ring_and_Field paulson parents: 14294 diff changeset	1640	lemma abs_le_D2: "abs a \<le> b ==> -a \<le> (b::'a::ordered_ring)"
7f115e5c5de4 more general lemmas for Ring_and_Field paulson parents: 14294 diff changeset	1641	by (insert abs_le_D1 [of "-a"], simp)
7f115e5c5de4 more general lemmas for Ring_and_Field paulson parents: 14294 diff changeset	1642
7f115e5c5de4 more general lemmas for Ring_and_Field paulson parents: 14294 diff changeset	1643	lemma abs_le_iff: "(abs a \<le> b) = (a \<le> b & -a \<le> (b::'a::ordered_ring))"
7f115e5c5de4 more general lemmas for Ring_and_Field paulson parents: 14294 diff changeset	1644	by (blast intro: abs_leI dest: abs_le_D1 abs_le_D2)
7f115e5c5de4 more general lemmas for Ring_and_Field paulson parents: 14294 diff changeset	1645
7f115e5c5de4 more general lemmas for Ring_and_Field paulson parents: 14294 diff changeset	1646	lemma abs_less_iff: "(abs a < b) = (a < b & -a < (b::'a::ordered_ring))"
7f115e5c5de4 more general lemmas for Ring_and_Field paulson parents: 14294 diff changeset	1647	apply (simp add: order_less_le abs_le_iff)
14398 c5c47703f763 Efficient, graph-based reasoner for linear and partial orders. ballarin parents: 14387 diff changeset	1648	apply (auto simp add: abs_if minus_le_self_iff eq_minus_self_iff)
c5c47703f763 Efficient, graph-based reasoner for linear and partial orders. ballarin parents: 14387 diff changeset	1649	apply (simp add: le_minus_self_iff linorder_neq_iff)
c5c47703f763 Efficient, graph-based reasoner for linear and partial orders. ballarin parents: 14387 diff changeset	1650	done
c5c47703f763 Efficient, graph-based reasoner for linear and partial orders. ballarin parents: 14387 diff changeset	1651	(*
c5c47703f763 Efficient, graph-based reasoner for linear and partial orders. ballarin parents: 14387 diff changeset	1652	apply (simp add: order_less_le abs_le_iff)
14295 7f115e5c5de4 more general lemmas for Ring_and_Field paulson parents: 14294 diff changeset	1653	apply (auto simp add: abs_if minus_le_self_iff eq_minus_self_iff)
14398 c5c47703f763 Efficient, graph-based reasoner for linear and partial orders. ballarin parents: 14387 diff changeset	1654	apply (simp add: linorder_not_less [symmetric])
14295 7f115e5c5de4 more general lemmas for Ring_and_Field paulson parents: 14294 diff changeset	1655	apply (simp add: le_minus_self_iff linorder_neq_iff)
7f115e5c5de4 more general lemmas for Ring_and_Field paulson parents: 14294 diff changeset	1656	apply (simp add: linorder_not_less [symmetric])
7f115e5c5de4 more general lemmas for Ring_and_Field paulson parents: 14294 diff changeset	1657	done
14398 c5c47703f763 Efficient, graph-based reasoner for linear and partial orders. ballarin parents: 14387 diff changeset	1658	*)
14295 7f115e5c5de4 more general lemmas for Ring_and_Field paulson parents: 14294 diff changeset	1659
14294 f4d806fd72ce absolute value theorems moved to HOL/Ring_and_Field paulson parents: 14293 diff changeset	1660	lemma abs_triangle_ineq: "abs (a+b) \<le> abs a + abs (b::'a::ordered_ring)"
14295 7f115e5c5de4 more general lemmas for Ring_and_Field paulson parents: 14294 diff changeset	1661	by (force simp add: abs_le_iff abs_ge_self abs_ge_minus_self add_mono)
14294 f4d806fd72ce absolute value theorems moved to HOL/Ring_and_Field paulson parents: 14293 diff changeset	1662
f4d806fd72ce absolute value theorems moved to HOL/Ring_and_Field paulson parents: 14293 diff changeset	1663	lemma abs_mult_less:
f4d806fd72ce absolute value theorems moved to HOL/Ring_and_Field paulson parents: 14293 diff changeset	1664	"[\| abs a < c; abs b < d \|] ==> abs a * abs b < c*(d::'a::ordered_ring)"
f4d806fd72ce absolute value theorems moved to HOL/Ring_and_Field paulson parents: 14293 diff changeset	1665	proof -
f4d806fd72ce absolute value theorems moved to HOL/Ring_and_Field paulson parents: 14293 diff changeset	1666	assume ac: "abs a < c"
f4d806fd72ce absolute value theorems moved to HOL/Ring_and_Field paulson parents: 14293 diff changeset	1667	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	1668	assume "abs b < d"
f4d806fd72ce absolute value theorems moved to HOL/Ring_and_Field paulson parents: 14293 diff changeset	1669	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	1670	qed
14293 22542982bffd moving some division theorems to Ring_and_Field paulson parents: 14288 diff changeset	1671
14331 8dbbb7cf3637 re-organized numeric lemmas paulson parents: 14321 diff changeset	1672	ML
8dbbb7cf3637 re-organized numeric lemmas paulson parents: 14321 diff changeset	1673	{*
14334 6137d24eef79 tweaking of lemmas in RealDef, RealOrd paulson parents: 14331 diff changeset	1674	val add_assoc = thm"add_assoc";
6137d24eef79 tweaking of lemmas in RealDef, RealOrd paulson parents: 14331 diff changeset	1675	val add_commute = thm"add_commute";
6137d24eef79 tweaking of lemmas in RealDef, RealOrd paulson parents: 14331 diff changeset	1676	val mult_assoc = thm"mult_assoc";
6137d24eef79 tweaking of lemmas in RealDef, RealOrd paulson parents: 14331 diff changeset	1677	val mult_commute = thm"mult_commute";
6137d24eef79 tweaking of lemmas in RealDef, RealOrd paulson parents: 14331 diff changeset	1678	val zero_neq_one = thm"zero_neq_one";
6137d24eef79 tweaking of lemmas in RealDef, RealOrd paulson parents: 14331 diff changeset	1679	val diff_minus = thm"diff_minus";
6137d24eef79 tweaking of lemmas in RealDef, RealOrd paulson parents: 14331 diff changeset	1680	val abs_if = thm"abs_if";
6137d24eef79 tweaking of lemmas in RealDef, RealOrd paulson parents: 14331 diff changeset	1681	val divide_inverse = thm"divide_inverse";
6137d24eef79 tweaking of lemmas in RealDef, RealOrd paulson parents: 14331 diff changeset	1682	val inverse_zero = thm"inverse_zero";
6137d24eef79 tweaking of lemmas in RealDef, RealOrd paulson parents: 14331 diff changeset	1683	val divide_zero = thm"divide_zero";
14368 2763da611ad9 converted Real/Lubs to Isar script. Converting arithmetic setup paulson parents: 14365 diff changeset	1684
14334 6137d24eef79 tweaking of lemmas in RealDef, RealOrd paulson parents: 14331 diff changeset	1685	val add_0 = thm"add_0";
14331 8dbbb7cf3637 re-organized numeric lemmas paulson parents: 14321 diff changeset	1686	val add_0_right = thm"add_0_right";
14368 2763da611ad9 converted Real/Lubs to Isar script. Converting arithmetic setup paulson parents: 14365 diff changeset	1687	val add_zero_left = thm"add_0";
2763da611ad9 converted Real/Lubs to Isar script. Converting arithmetic setup paulson parents: 14365 diff changeset	1688	val add_zero_right = thm"add_0_right";
2763da611ad9 converted Real/Lubs to Isar script. Converting arithmetic setup paulson parents: 14365 diff changeset	1689
14331 8dbbb7cf3637 re-organized numeric lemmas paulson parents: 14321 diff changeset	1690	val add_left_commute = thm"add_left_commute";
14334 6137d24eef79 tweaking of lemmas in RealDef, RealOrd paulson parents: 14331 diff changeset	1691	val left_minus = thm"left_minus";
14331 8dbbb7cf3637 re-organized numeric lemmas paulson parents: 14321 diff changeset	1692	val right_minus = thm"right_minus";
8dbbb7cf3637 re-organized numeric lemmas paulson parents: 14321 diff changeset	1693	val right_minus_eq = thm"right_minus_eq";
8dbbb7cf3637 re-organized numeric lemmas paulson parents: 14321 diff changeset	1694	val add_left_cancel = thm"add_left_cancel";
8dbbb7cf3637 re-organized numeric lemmas paulson parents: 14321 diff changeset	1695	val add_right_cancel = thm"add_right_cancel";
8dbbb7cf3637 re-organized numeric lemmas paulson parents: 14321 diff changeset	1696	val minus_minus = thm"minus_minus";
8dbbb7cf3637 re-organized numeric lemmas paulson parents: 14321 diff changeset	1697	val equals_zero_I = thm"equals_zero_I";
8dbbb7cf3637 re-organized numeric lemmas paulson parents: 14321 diff changeset	1698	val minus_zero = thm"minus_zero";
8dbbb7cf3637 re-organized numeric lemmas paulson parents: 14321 diff changeset	1699	val diff_self = thm"diff_self";
8dbbb7cf3637 re-organized numeric lemmas paulson parents: 14321 diff changeset	1700	val diff_0 = thm"diff_0";
8dbbb7cf3637 re-organized numeric lemmas paulson parents: 14321 diff changeset	1701	val diff_0_right = thm"diff_0_right";
8dbbb7cf3637 re-organized numeric lemmas paulson parents: 14321 diff changeset	1702	val diff_minus_eq_add = thm"diff_minus_eq_add";
8dbbb7cf3637 re-organized numeric lemmas paulson parents: 14321 diff changeset	1703	val neg_equal_iff_equal = thm"neg_equal_iff_equal";
8dbbb7cf3637 re-organized numeric lemmas paulson parents: 14321 diff changeset	1704	val neg_equal_0_iff_equal = thm"neg_equal_0_iff_equal";
8dbbb7cf3637 re-organized numeric lemmas paulson parents: 14321 diff changeset	1705	val neg_0_equal_iff_equal = thm"neg_0_equal_iff_equal";
8dbbb7cf3637 re-organized numeric lemmas paulson parents: 14321 diff changeset	1706	val equation_minus_iff = thm"equation_minus_iff";
8dbbb7cf3637 re-organized numeric lemmas paulson parents: 14321 diff changeset	1707	val minus_equation_iff = thm"minus_equation_iff";
14334 6137d24eef79 tweaking of lemmas in RealDef, RealOrd paulson parents: 14331 diff changeset	1708	val mult_1 = thm"mult_1";
14331 8dbbb7cf3637 re-organized numeric lemmas paulson parents: 14321 diff changeset	1709	val mult_1_right = thm"mult_1_right";
8dbbb7cf3637 re-organized numeric lemmas paulson parents: 14321 diff changeset	1710	val mult_left_commute = thm"mult_left_commute";
14353 79f9fbef9106 Added lemmas to Ring_and_Field with slightly modified simplification rules paulson parents: 14348 diff changeset	1711	val mult_zero_left = thm"mult_zero_left";
79f9fbef9106 Added lemmas to Ring_and_Field with slightly modified simplification rules paulson parents: 14348 diff changeset	1712	val mult_zero_right = thm"mult_zero_right";
14334 6137d24eef79 tweaking of lemmas in RealDef, RealOrd paulson parents: 14331 diff changeset	1713	val left_distrib = thm "left_distrib";
14331 8dbbb7cf3637 re-organized numeric lemmas paulson parents: 14321 diff changeset	1714	val right_distrib = thm"right_distrib";
8dbbb7cf3637 re-organized numeric lemmas paulson parents: 14321 diff changeset	1715	val combine_common_factor = thm"combine_common_factor";
8dbbb7cf3637 re-organized numeric lemmas paulson parents: 14321 diff changeset	1716	val minus_add_distrib = thm"minus_add_distrib";
8dbbb7cf3637 re-organized numeric lemmas paulson parents: 14321 diff changeset	1717	val minus_mult_left = thm"minus_mult_left";
8dbbb7cf3637 re-organized numeric lemmas paulson parents: 14321 diff changeset	1718	val minus_mult_right = thm"minus_mult_right";
8dbbb7cf3637 re-organized numeric lemmas paulson parents: 14321 diff changeset	1719	val minus_mult_minus = thm"minus_mult_minus";
14365 3d4df8c166ae replacing HOL/Real/PRat, PNat by the rational number development paulson parents: 14353 diff changeset	1720	val minus_mult_commute = thm"minus_mult_commute";
14331 8dbbb7cf3637 re-organized numeric lemmas paulson parents: 14321 diff changeset	1721	val right_diff_distrib = thm"right_diff_distrib";
8dbbb7cf3637 re-organized numeric lemmas paulson parents: 14321 diff changeset	1722	val left_diff_distrib = thm"left_diff_distrib";
8dbbb7cf3637 re-organized numeric lemmas paulson parents: 14321 diff changeset	1723	val minus_diff_eq = thm"minus_diff_eq";
14334 6137d24eef79 tweaking of lemmas in RealDef, RealOrd paulson parents: 14331 diff changeset	1724	val add_left_mono = thm"add_left_mono";
14331 8dbbb7cf3637 re-organized numeric lemmas paulson parents: 14321 diff changeset	1725	val add_right_mono = thm"add_right_mono";
8dbbb7cf3637 re-organized numeric lemmas paulson parents: 14321 diff changeset	1726	val add_mono = thm"add_mono";
8dbbb7cf3637 re-organized numeric lemmas paulson parents: 14321 diff changeset	1727	val add_strict_left_mono = thm"add_strict_left_mono";
8dbbb7cf3637 re-organized numeric lemmas paulson parents: 14321 diff changeset	1728	val add_strict_right_mono = thm"add_strict_right_mono";
8dbbb7cf3637 re-organized numeric lemmas paulson parents: 14321 diff changeset	1729	val add_strict_mono = thm"add_strict_mono";
14341 a09441bd4f1e Ring_and_Field now requires axiom add_left_imp_eq for semirings. paulson parents: 14334 diff changeset	1730	val add_less_le_mono = thm"add_less_le_mono";
a09441bd4f1e Ring_and_Field now requires axiom add_left_imp_eq for semirings. paulson parents: 14334 diff changeset	1731	val add_le_less_mono = thm"add_le_less_mono";
14331 8dbbb7cf3637 re-organized numeric lemmas paulson parents: 14321 diff changeset	1732	val add_less_imp_less_left = thm"add_less_imp_less_left";
8dbbb7cf3637 re-organized numeric lemmas paulson parents: 14321 diff changeset	1733	val add_less_imp_less_right = thm"add_less_imp_less_right";
8dbbb7cf3637 re-organized numeric lemmas paulson parents: 14321 diff changeset	1734	val add_less_cancel_left = thm"add_less_cancel_left";
8dbbb7cf3637 re-organized numeric lemmas paulson parents: 14321 diff changeset	1735	val add_less_cancel_right = thm"add_less_cancel_right";
8dbbb7cf3637 re-organized numeric lemmas paulson parents: 14321 diff changeset	1736	val add_le_cancel_left = thm"add_le_cancel_left";
8dbbb7cf3637 re-organized numeric lemmas paulson parents: 14321 diff changeset	1737	val add_le_cancel_right = thm"add_le_cancel_right";
8dbbb7cf3637 re-organized numeric lemmas paulson parents: 14321 diff changeset	1738	val add_le_imp_le_left = thm"add_le_imp_le_left";
8dbbb7cf3637 re-organized numeric lemmas paulson parents: 14321 diff changeset	1739	val add_le_imp_le_right = thm"add_le_imp_le_right";
8dbbb7cf3637 re-organized numeric lemmas paulson parents: 14321 diff changeset	1740	val le_imp_neg_le = thm"le_imp_neg_le";
8dbbb7cf3637 re-organized numeric lemmas paulson parents: 14321 diff changeset	1741	val neg_le_iff_le = thm"neg_le_iff_le";
8dbbb7cf3637 re-organized numeric lemmas paulson parents: 14321 diff changeset	1742	val neg_le_0_iff_le = thm"neg_le_0_iff_le";
8dbbb7cf3637 re-organized numeric lemmas paulson parents: 14321 diff changeset	1743	val neg_0_le_iff_le = thm"neg_0_le_iff_le";
8dbbb7cf3637 re-organized numeric lemmas paulson parents: 14321 diff changeset	1744	val neg_less_iff_less = thm"neg_less_iff_less";
8dbbb7cf3637 re-organized numeric lemmas paulson parents: 14321 diff changeset	1745	val neg_less_0_iff_less = thm"neg_less_0_iff_less";
8dbbb7cf3637 re-organized numeric lemmas paulson parents: 14321 diff changeset	1746	val neg_0_less_iff_less = thm"neg_0_less_iff_less";
8dbbb7cf3637 re-organized numeric lemmas paulson parents: 14321 diff changeset	1747	val less_minus_iff = thm"less_minus_iff";
8dbbb7cf3637 re-organized numeric lemmas paulson parents: 14321 diff changeset	1748	val minus_less_iff = thm"minus_less_iff";
8dbbb7cf3637 re-organized numeric lemmas paulson parents: 14321 diff changeset	1749	val le_minus_iff = thm"le_minus_iff";
8dbbb7cf3637 re-organized numeric lemmas paulson parents: 14321 diff changeset	1750	val minus_le_iff = thm"minus_le_iff";
8dbbb7cf3637 re-organized numeric lemmas paulson parents: 14321 diff changeset	1751	val add_diff_eq = thm"add_diff_eq";
8dbbb7cf3637 re-organized numeric lemmas paulson parents: 14321 diff changeset	1752	val diff_add_eq = thm"diff_add_eq";
8dbbb7cf3637 re-organized numeric lemmas paulson parents: 14321 diff changeset	1753	val diff_eq_eq = thm"diff_eq_eq";
8dbbb7cf3637 re-organized numeric lemmas paulson parents: 14321 diff changeset	1754	val eq_diff_eq = thm"eq_diff_eq";
8dbbb7cf3637 re-organized numeric lemmas paulson parents: 14321 diff changeset	1755	val diff_diff_eq = thm"diff_diff_eq";
8dbbb7cf3637 re-organized numeric lemmas paulson parents: 14321 diff changeset	1756	val diff_diff_eq2 = thm"diff_diff_eq2";
8dbbb7cf3637 re-organized numeric lemmas paulson parents: 14321 diff changeset	1757	val less_iff_diff_less_0 = thm"less_iff_diff_less_0";
8dbbb7cf3637 re-organized numeric lemmas paulson parents: 14321 diff changeset	1758	val diff_less_eq = thm"diff_less_eq";
8dbbb7cf3637 re-organized numeric lemmas paulson parents: 14321 diff changeset	1759	val less_diff_eq = thm"less_diff_eq";
8dbbb7cf3637 re-organized numeric lemmas paulson parents: 14321 diff changeset	1760	val diff_le_eq = thm"diff_le_eq";
8dbbb7cf3637 re-organized numeric lemmas paulson parents: 14321 diff changeset	1761	val le_diff_eq = thm"le_diff_eq";
8dbbb7cf3637 re-organized numeric lemmas paulson parents: 14321 diff changeset	1762	val eq_iff_diff_eq_0 = thm"eq_iff_diff_eq_0";
8dbbb7cf3637 re-organized numeric lemmas paulson parents: 14321 diff changeset	1763	val le_iff_diff_le_0 = thm"le_iff_diff_le_0";
8dbbb7cf3637 re-organized numeric lemmas paulson parents: 14321 diff changeset	1764	val eq_add_iff1 = thm"eq_add_iff1";
8dbbb7cf3637 re-organized numeric lemmas paulson parents: 14321 diff changeset	1765	val eq_add_iff2 = thm"eq_add_iff2";
8dbbb7cf3637 re-organized numeric lemmas paulson parents: 14321 diff changeset	1766	val less_add_iff1 = thm"less_add_iff1";
8dbbb7cf3637 re-organized numeric lemmas paulson parents: 14321 diff changeset	1767	val less_add_iff2 = thm"less_add_iff2";
8dbbb7cf3637 re-organized numeric lemmas paulson parents: 14321 diff changeset	1768	val le_add_iff1 = thm"le_add_iff1";
8dbbb7cf3637 re-organized numeric lemmas paulson parents: 14321 diff changeset	1769	val le_add_iff2 = thm"le_add_iff2";
14334 6137d24eef79 tweaking of lemmas in RealDef, RealOrd paulson parents: 14331 diff changeset	1770	val mult_strict_left_mono = thm"mult_strict_left_mono";
14331 8dbbb7cf3637 re-organized numeric lemmas paulson parents: 14321 diff changeset	1771	val mult_strict_right_mono = thm"mult_strict_right_mono";
8dbbb7cf3637 re-organized numeric lemmas paulson parents: 14321 diff changeset	1772	val mult_left_mono = thm"mult_left_mono";
8dbbb7cf3637 re-organized numeric lemmas paulson parents: 14321 diff changeset	1773	val mult_right_mono = thm"mult_right_mono";
14348 744c868ee0b7 Defining the type class "ringpower" and deleting superseded theorems for paulson parents: 14341 diff changeset	1774	val mult_left_le_imp_le = thm"mult_left_le_imp_le";
744c868ee0b7 Defining the type class "ringpower" and deleting superseded theorems for paulson parents: 14341 diff changeset	1775	val mult_right_le_imp_le = thm"mult_right_le_imp_le";
744c868ee0b7 Defining the type class "ringpower" and deleting superseded theorems for paulson parents: 14341 diff changeset	1776	val mult_left_less_imp_less = thm"mult_left_less_imp_less";
744c868ee0b7 Defining the type class "ringpower" and deleting superseded theorems for paulson parents: 14341 diff changeset	1777	val mult_right_less_imp_less = thm"mult_right_less_imp_less";
14331 8dbbb7cf3637 re-organized numeric lemmas paulson parents: 14321 diff changeset	1778	val mult_strict_left_mono_neg = thm"mult_strict_left_mono_neg";
8dbbb7cf3637 re-organized numeric lemmas paulson parents: 14321 diff changeset	1779	val mult_strict_right_mono_neg = thm"mult_strict_right_mono_neg";
8dbbb7cf3637 re-organized numeric lemmas paulson parents: 14321 diff changeset	1780	val mult_pos = thm"mult_pos";
8dbbb7cf3637 re-organized numeric lemmas paulson parents: 14321 diff changeset	1781	val mult_pos_neg = thm"mult_pos_neg";
8dbbb7cf3637 re-organized numeric lemmas paulson parents: 14321 diff changeset	1782	val mult_neg = thm"mult_neg";
8dbbb7cf3637 re-organized numeric lemmas paulson parents: 14321 diff changeset	1783	val zero_less_mult_pos = thm"zero_less_mult_pos";
8dbbb7cf3637 re-organized numeric lemmas paulson parents: 14321 diff changeset	1784	val zero_less_mult_iff = thm"zero_less_mult_iff";
8dbbb7cf3637 re-organized numeric lemmas paulson parents: 14321 diff changeset	1785	val mult_eq_0_iff = thm"mult_eq_0_iff";
8dbbb7cf3637 re-organized numeric lemmas paulson parents: 14321 diff changeset	1786	val zero_le_mult_iff = thm"zero_le_mult_iff";
8dbbb7cf3637 re-organized numeric lemmas paulson parents: 14321 diff changeset	1787	val mult_less_0_iff = thm"mult_less_0_iff";
8dbbb7cf3637 re-organized numeric lemmas paulson parents: 14321 diff changeset	1788	val mult_le_0_iff = thm"mult_le_0_iff";
8dbbb7cf3637 re-organized numeric lemmas paulson parents: 14321 diff changeset	1789	val zero_le_square = thm"zero_le_square";
8dbbb7cf3637 re-organized numeric lemmas paulson parents: 14321 diff changeset	1790	val zero_less_one = thm"zero_less_one";
8dbbb7cf3637 re-organized numeric lemmas paulson parents: 14321 diff changeset	1791	val zero_le_one = thm"zero_le_one";
14387 e96d5c42c4b0 Polymorphic treatment of binary arithmetic using axclasses paulson parents: 14377 diff changeset	1792	val not_one_less_zero = thm"not_one_less_zero";
e96d5c42c4b0 Polymorphic treatment of binary arithmetic using axclasses paulson parents: 14377 diff changeset	1793	val not_one_le_zero = thm"not_one_le_zero";
14331 8dbbb7cf3637 re-organized numeric lemmas paulson parents: 14321 diff changeset	1794	val mult_left_mono_neg = thm"mult_left_mono_neg";
8dbbb7cf3637 re-organized numeric lemmas paulson parents: 14321 diff changeset	1795	val mult_right_mono_neg = thm"mult_right_mono_neg";
8dbbb7cf3637 re-organized numeric lemmas paulson parents: 14321 diff changeset	1796	val mult_strict_mono = thm"mult_strict_mono";
8dbbb7cf3637 re-organized numeric lemmas paulson parents: 14321 diff changeset	1797	val mult_strict_mono' = thm"mult_strict_mono'";
8dbbb7cf3637 re-organized numeric lemmas paulson parents: 14321 diff changeset	1798	val mult_mono = thm"mult_mono";
8dbbb7cf3637 re-organized numeric lemmas paulson parents: 14321 diff changeset	1799	val mult_less_cancel_right = thm"mult_less_cancel_right";
8dbbb7cf3637 re-organized numeric lemmas paulson parents: 14321 diff changeset	1800	val mult_less_cancel_left = thm"mult_less_cancel_left";
8dbbb7cf3637 re-organized numeric lemmas paulson parents: 14321 diff changeset	1801	val mult_le_cancel_right = thm"mult_le_cancel_right";
8dbbb7cf3637 re-organized numeric lemmas paulson parents: 14321 diff changeset	1802	val mult_le_cancel_left = thm"mult_le_cancel_left";
8dbbb7cf3637 re-organized numeric lemmas paulson parents: 14321 diff changeset	1803	val mult_less_imp_less_left = thm"mult_less_imp_less_left";
8dbbb7cf3637 re-organized numeric lemmas paulson parents: 14321 diff changeset	1804	val mult_less_imp_less_right = thm"mult_less_imp_less_right";
8dbbb7cf3637 re-organized numeric lemmas paulson parents: 14321 diff changeset	1805	val mult_cancel_right = thm"mult_cancel_right";
8dbbb7cf3637 re-organized numeric lemmas paulson parents: 14321 diff changeset	1806	val mult_cancel_left = thm"mult_cancel_left";
8dbbb7cf3637 re-organized numeric lemmas paulson parents: 14321 diff changeset	1807	val left_inverse = thm "left_inverse";
8dbbb7cf3637 re-organized numeric lemmas paulson parents: 14321 diff changeset	1808	val right_inverse = thm"right_inverse";
8dbbb7cf3637 re-organized numeric lemmas paulson parents: 14321 diff changeset	1809	val right_inverse_eq = thm"right_inverse_eq";
8dbbb7cf3637 re-organized numeric lemmas paulson parents: 14321 diff changeset	1810	val nonzero_inverse_eq_divide = thm"nonzero_inverse_eq_divide";
8dbbb7cf3637 re-organized numeric lemmas paulson parents: 14321 diff changeset	1811	val divide_self = thm"divide_self";
8dbbb7cf3637 re-organized numeric lemmas paulson parents: 14321 diff changeset	1812	val divide_inverse_zero = thm"divide_inverse_zero";
14365 3d4df8c166ae replacing HOL/Real/PRat, PNat by the rational number development paulson parents: 14353 diff changeset	1813	val inverse_divide = thm"inverse_divide";
14331 8dbbb7cf3637 re-organized numeric lemmas paulson parents: 14321 diff changeset	1814	val divide_zero_left = thm"divide_zero_left";
8dbbb7cf3637 re-organized numeric lemmas paulson parents: 14321 diff changeset	1815	val inverse_eq_divide = thm"inverse_eq_divide";
8dbbb7cf3637 re-organized numeric lemmas paulson parents: 14321 diff changeset	1816	val nonzero_add_divide_distrib = thm"nonzero_add_divide_distrib";
8dbbb7cf3637 re-organized numeric lemmas paulson parents: 14321 diff changeset	1817	val add_divide_distrib = thm"add_divide_distrib";
8dbbb7cf3637 re-organized numeric lemmas paulson parents: 14321 diff changeset	1818	val field_mult_eq_0_iff = thm"field_mult_eq_0_iff";
8dbbb7cf3637 re-organized numeric lemmas paulson parents: 14321 diff changeset	1819	val field_mult_cancel_right = thm"field_mult_cancel_right";
8dbbb7cf3637 re-organized numeric lemmas paulson parents: 14321 diff changeset	1820	val field_mult_cancel_left = thm"field_mult_cancel_left";
8dbbb7cf3637 re-organized numeric lemmas paulson parents: 14321 diff changeset	1821	val nonzero_imp_inverse_nonzero = thm"nonzero_imp_inverse_nonzero";
8dbbb7cf3637 re-organized numeric lemmas paulson parents: 14321 diff changeset	1822	val inverse_zero_imp_zero = thm"inverse_zero_imp_zero";
8dbbb7cf3637 re-organized numeric lemmas paulson parents: 14321 diff changeset	1823	val inverse_nonzero_imp_nonzero = thm"inverse_nonzero_imp_nonzero";
8dbbb7cf3637 re-organized numeric lemmas paulson parents: 14321 diff changeset	1824	val inverse_nonzero_iff_nonzero = thm"inverse_nonzero_iff_nonzero";
8dbbb7cf3637 re-organized numeric lemmas paulson parents: 14321 diff changeset	1825	val nonzero_inverse_minus_eq = thm"nonzero_inverse_minus_eq";
8dbbb7cf3637 re-organized numeric lemmas paulson parents: 14321 diff changeset	1826	val inverse_minus_eq = thm"inverse_minus_eq";
8dbbb7cf3637 re-organized numeric lemmas paulson parents: 14321 diff changeset	1827	val nonzero_inverse_eq_imp_eq = thm"nonzero_inverse_eq_imp_eq";
8dbbb7cf3637 re-organized numeric lemmas paulson parents: 14321 diff changeset	1828	val inverse_eq_imp_eq = thm"inverse_eq_imp_eq";
8dbbb7cf3637 re-organized numeric lemmas paulson parents: 14321 diff changeset	1829	val inverse_eq_iff_eq = thm"inverse_eq_iff_eq";
8dbbb7cf3637 re-organized numeric lemmas paulson parents: 14321 diff changeset	1830	val nonzero_inverse_inverse_eq = thm"nonzero_inverse_inverse_eq";
8dbbb7cf3637 re-organized numeric lemmas paulson parents: 14321 diff changeset	1831	val inverse_inverse_eq = thm"inverse_inverse_eq";
8dbbb7cf3637 re-organized numeric lemmas paulson parents: 14321 diff changeset	1832	val inverse_1 = thm"inverse_1";
8dbbb7cf3637 re-organized numeric lemmas paulson parents: 14321 diff changeset	1833	val nonzero_inverse_mult_distrib = thm"nonzero_inverse_mult_distrib";
8dbbb7cf3637 re-organized numeric lemmas paulson parents: 14321 diff changeset	1834	val inverse_mult_distrib = thm"inverse_mult_distrib";
8dbbb7cf3637 re-organized numeric lemmas paulson parents: 14321 diff changeset	1835	val inverse_add = thm"inverse_add";
8dbbb7cf3637 re-organized numeric lemmas paulson parents: 14321 diff changeset	1836	val nonzero_mult_divide_cancel_left = thm"nonzero_mult_divide_cancel_left";
8dbbb7cf3637 re-organized numeric lemmas paulson parents: 14321 diff changeset	1837	val mult_divide_cancel_left = thm"mult_divide_cancel_left";
8dbbb7cf3637 re-organized numeric lemmas paulson parents: 14321 diff changeset	1838	val nonzero_mult_divide_cancel_right = thm"nonzero_mult_divide_cancel_right";
8dbbb7cf3637 re-organized numeric lemmas paulson parents: 14321 diff changeset	1839	val mult_divide_cancel_right = thm"mult_divide_cancel_right";
8dbbb7cf3637 re-organized numeric lemmas paulson parents: 14321 diff changeset	1840	val mult_divide_cancel_eq_if = thm"mult_divide_cancel_eq_if";
8dbbb7cf3637 re-organized numeric lemmas paulson parents: 14321 diff changeset	1841	val divide_1 = thm"divide_1";
8dbbb7cf3637 re-organized numeric lemmas paulson parents: 14321 diff changeset	1842	val times_divide_eq_right = thm"times_divide_eq_right";
8dbbb7cf3637 re-organized numeric lemmas paulson parents: 14321 diff changeset	1843	val times_divide_eq_left = thm"times_divide_eq_left";
8dbbb7cf3637 re-organized numeric lemmas paulson parents: 14321 diff changeset	1844	val divide_divide_eq_right = thm"divide_divide_eq_right";
8dbbb7cf3637 re-organized numeric lemmas paulson parents: 14321 diff changeset	1845	val divide_divide_eq_left = thm"divide_divide_eq_left";
8dbbb7cf3637 re-organized numeric lemmas paulson parents: 14321 diff changeset	1846	val nonzero_minus_divide_left = thm"nonzero_minus_divide_left";
8dbbb7cf3637 re-organized numeric lemmas paulson parents: 14321 diff changeset	1847	val nonzero_minus_divide_right = thm"nonzero_minus_divide_right";
8dbbb7cf3637 re-organized numeric lemmas paulson parents: 14321 diff changeset	1848	val nonzero_minus_divide_divide = thm"nonzero_minus_divide_divide";
8dbbb7cf3637 re-organized numeric lemmas paulson parents: 14321 diff changeset	1849	val minus_divide_left = thm"minus_divide_left";
8dbbb7cf3637 re-organized numeric lemmas paulson parents: 14321 diff changeset	1850	val minus_divide_right = thm"minus_divide_right";
8dbbb7cf3637 re-organized numeric lemmas paulson parents: 14321 diff changeset	1851	val minus_divide_divide = thm"minus_divide_divide";
8dbbb7cf3637 re-organized numeric lemmas paulson parents: 14321 diff changeset	1852	val positive_imp_inverse_positive = thm"positive_imp_inverse_positive";
8dbbb7cf3637 re-organized numeric lemmas paulson parents: 14321 diff changeset	1853	val negative_imp_inverse_negative = thm"negative_imp_inverse_negative";
8dbbb7cf3637 re-organized numeric lemmas paulson parents: 14321 diff changeset	1854	val inverse_le_imp_le = thm"inverse_le_imp_le";
8dbbb7cf3637 re-organized numeric lemmas paulson parents: 14321 diff changeset	1855	val inverse_positive_imp_positive = thm"inverse_positive_imp_positive";
8dbbb7cf3637 re-organized numeric lemmas paulson parents: 14321 diff changeset	1856	val inverse_positive_iff_positive = thm"inverse_positive_iff_positive";
8dbbb7cf3637 re-organized numeric lemmas paulson parents: 14321 diff changeset	1857	val inverse_negative_imp_negative = thm"inverse_negative_imp_negative";
8dbbb7cf3637 re-organized numeric lemmas paulson parents: 14321 diff changeset	1858	val inverse_negative_iff_negative = thm"inverse_negative_iff_negative";
8dbbb7cf3637 re-organized numeric lemmas paulson parents: 14321 diff changeset	1859	val inverse_nonnegative_iff_nonnegative = thm"inverse_nonnegative_iff_nonnegative";
8dbbb7cf3637 re-organized numeric lemmas paulson parents: 14321 diff changeset	1860	val inverse_nonpositive_iff_nonpositive = thm"inverse_nonpositive_iff_nonpositive";
8dbbb7cf3637 re-organized numeric lemmas paulson parents: 14321 diff changeset	1861	val less_imp_inverse_less = thm"less_imp_inverse_less";
8dbbb7cf3637 re-organized numeric lemmas paulson parents: 14321 diff changeset	1862	val inverse_less_imp_less = thm"inverse_less_imp_less";
8dbbb7cf3637 re-organized numeric lemmas paulson parents: 14321 diff changeset	1863	val inverse_less_iff_less = thm"inverse_less_iff_less";
8dbbb7cf3637 re-organized numeric lemmas paulson parents: 14321 diff changeset	1864	val le_imp_inverse_le = thm"le_imp_inverse_le";
8dbbb7cf3637 re-organized numeric lemmas paulson parents: 14321 diff changeset	1865	val inverse_le_iff_le = thm"inverse_le_iff_le";
8dbbb7cf3637 re-organized numeric lemmas paulson parents: 14321 diff changeset	1866	val inverse_le_imp_le_neg = thm"inverse_le_imp_le_neg";
8dbbb7cf3637 re-organized numeric lemmas paulson parents: 14321 diff changeset	1867	val less_imp_inverse_less_neg = thm"less_imp_inverse_less_neg";
8dbbb7cf3637 re-organized numeric lemmas paulson parents: 14321 diff changeset	1868	val inverse_less_imp_less_neg = thm"inverse_less_imp_less_neg";
8dbbb7cf3637 re-organized numeric lemmas paulson parents: 14321 diff changeset	1869	val inverse_less_iff_less_neg = thm"inverse_less_iff_less_neg";
8dbbb7cf3637 re-organized numeric lemmas paulson parents: 14321 diff changeset	1870	val le_imp_inverse_le_neg = thm"le_imp_inverse_le_neg";
8dbbb7cf3637 re-organized numeric lemmas paulson parents: 14321 diff changeset	1871	val inverse_le_iff_le_neg = thm"inverse_le_iff_le_neg";
8dbbb7cf3637 re-organized numeric lemmas paulson parents: 14321 diff changeset	1872	val zero_less_divide_iff = thm"zero_less_divide_iff";
8dbbb7cf3637 re-organized numeric lemmas paulson parents: 14321 diff changeset	1873	val divide_less_0_iff = thm"divide_less_0_iff";
8dbbb7cf3637 re-organized numeric lemmas paulson parents: 14321 diff changeset	1874	val zero_le_divide_iff = thm"zero_le_divide_iff";
8dbbb7cf3637 re-organized numeric lemmas paulson parents: 14321 diff changeset	1875	val divide_le_0_iff = thm"divide_le_0_iff";
8dbbb7cf3637 re-organized numeric lemmas paulson parents: 14321 diff changeset	1876	val divide_eq_0_iff = thm"divide_eq_0_iff";
8dbbb7cf3637 re-organized numeric lemmas paulson parents: 14321 diff changeset	1877	val pos_le_divide_eq = thm"pos_le_divide_eq";
8dbbb7cf3637 re-organized numeric lemmas paulson parents: 14321 diff changeset	1878	val neg_le_divide_eq = thm"neg_le_divide_eq";
8dbbb7cf3637 re-organized numeric lemmas paulson parents: 14321 diff changeset	1879	val le_divide_eq = thm"le_divide_eq";
8dbbb7cf3637 re-organized numeric lemmas paulson parents: 14321 diff changeset	1880	val pos_divide_le_eq = thm"pos_divide_le_eq";
8dbbb7cf3637 re-organized numeric lemmas paulson parents: 14321 diff changeset	1881	val neg_divide_le_eq = thm"neg_divide_le_eq";
8dbbb7cf3637 re-organized numeric lemmas paulson parents: 14321 diff changeset	1882	val divide_le_eq = thm"divide_le_eq";
8dbbb7cf3637 re-organized numeric lemmas paulson parents: 14321 diff changeset	1883	val pos_less_divide_eq = thm"pos_less_divide_eq";
8dbbb7cf3637 re-organized numeric lemmas paulson parents: 14321 diff changeset	1884	val neg_less_divide_eq = thm"neg_less_divide_eq";
8dbbb7cf3637 re-organized numeric lemmas paulson parents: 14321 diff changeset	1885	val less_divide_eq = thm"less_divide_eq";
8dbbb7cf3637 re-organized numeric lemmas paulson parents: 14321 diff changeset	1886	val pos_divide_less_eq = thm"pos_divide_less_eq";
8dbbb7cf3637 re-organized numeric lemmas paulson parents: 14321 diff changeset	1887	val neg_divide_less_eq = thm"neg_divide_less_eq";
8dbbb7cf3637 re-organized numeric lemmas paulson parents: 14321 diff changeset	1888	val divide_less_eq = thm"divide_less_eq";
8dbbb7cf3637 re-organized numeric lemmas paulson parents: 14321 diff changeset	1889	val nonzero_eq_divide_eq = thm"nonzero_eq_divide_eq";
8dbbb7cf3637 re-organized numeric lemmas paulson parents: 14321 diff changeset	1890	val eq_divide_eq = thm"eq_divide_eq";
8dbbb7cf3637 re-organized numeric lemmas paulson parents: 14321 diff changeset	1891	val nonzero_divide_eq_eq = thm"nonzero_divide_eq_eq";
8dbbb7cf3637 re-organized numeric lemmas paulson parents: 14321 diff changeset	1892	val divide_eq_eq = thm"divide_eq_eq";
8dbbb7cf3637 re-organized numeric lemmas paulson parents: 14321 diff changeset	1893	val divide_cancel_right = thm"divide_cancel_right";
8dbbb7cf3637 re-organized numeric lemmas paulson parents: 14321 diff changeset	1894	val divide_cancel_left = thm"divide_cancel_left";
8dbbb7cf3637 re-organized numeric lemmas paulson parents: 14321 diff changeset	1895	val divide_strict_right_mono = thm"divide_strict_right_mono";
8dbbb7cf3637 re-organized numeric lemmas paulson parents: 14321 diff changeset	1896	val divide_right_mono = thm"divide_right_mono";
8dbbb7cf3637 re-organized numeric lemmas paulson parents: 14321 diff changeset	1897	val divide_strict_left_mono = thm"divide_strict_left_mono";
8dbbb7cf3637 re-organized numeric lemmas paulson parents: 14321 diff changeset	1898	val divide_left_mono = thm"divide_left_mono";
8dbbb7cf3637 re-organized numeric lemmas paulson parents: 14321 diff changeset	1899	val divide_strict_left_mono_neg = thm"divide_strict_left_mono_neg";
8dbbb7cf3637 re-organized numeric lemmas paulson parents: 14321 diff changeset	1900	val divide_strict_right_mono_neg = thm"divide_strict_right_mono_neg";
8dbbb7cf3637 re-organized numeric lemmas paulson parents: 14321 diff changeset	1901	val zero_less_two = thm"zero_less_two";
8dbbb7cf3637 re-organized numeric lemmas paulson parents: 14321 diff changeset	1902	val less_half_sum = thm"less_half_sum";
8dbbb7cf3637 re-organized numeric lemmas paulson parents: 14321 diff changeset	1903	val gt_half_sum = thm"gt_half_sum";
8dbbb7cf3637 re-organized numeric lemmas paulson parents: 14321 diff changeset	1904	val dense = thm"dense";
8dbbb7cf3637 re-organized numeric lemmas paulson parents: 14321 diff changeset	1905	val abs_zero = thm"abs_zero";
8dbbb7cf3637 re-organized numeric lemmas paulson parents: 14321 diff changeset	1906	val abs_one = thm"abs_one";
8dbbb7cf3637 re-organized numeric lemmas paulson parents: 14321 diff changeset	1907	val abs_mult = thm"abs_mult";
14348 744c868ee0b7 Defining the type class "ringpower" and deleting superseded theorems for paulson parents: 14341 diff changeset	1908	val abs_mult_self = thm"abs_mult_self";
14331 8dbbb7cf3637 re-organized numeric lemmas paulson parents: 14321 diff changeset	1909	val abs_eq_0 = thm"abs_eq_0";
8dbbb7cf3637 re-organized numeric lemmas paulson parents: 14321 diff changeset	1910	val zero_less_abs_iff = thm"zero_less_abs_iff";
8dbbb7cf3637 re-organized numeric lemmas paulson parents: 14321 diff changeset	1911	val abs_not_less_zero = thm"abs_not_less_zero";
8dbbb7cf3637 re-organized numeric lemmas paulson parents: 14321 diff changeset	1912	val abs_le_zero_iff = thm"abs_le_zero_iff";
8dbbb7cf3637 re-organized numeric lemmas paulson parents: 14321 diff changeset	1913	val abs_minus_cancel = thm"abs_minus_cancel";
8dbbb7cf3637 re-organized numeric lemmas paulson parents: 14321 diff changeset	1914	val abs_ge_zero = thm"abs_ge_zero";
8dbbb7cf3637 re-organized numeric lemmas paulson parents: 14321 diff changeset	1915	val abs_idempotent = thm"abs_idempotent";
8dbbb7cf3637 re-organized numeric lemmas paulson parents: 14321 diff changeset	1916	val abs_zero_iff = thm"abs_zero_iff";
8dbbb7cf3637 re-organized numeric lemmas paulson parents: 14321 diff changeset	1917	val abs_ge_self = thm"abs_ge_self";
8dbbb7cf3637 re-organized numeric lemmas paulson parents: 14321 diff changeset	1918	val abs_ge_minus_self = thm"abs_ge_minus_self";
8dbbb7cf3637 re-organized numeric lemmas paulson parents: 14321 diff changeset	1919	val nonzero_abs_inverse = thm"nonzero_abs_inverse";
8dbbb7cf3637 re-organized numeric lemmas paulson parents: 14321 diff changeset	1920	val abs_inverse = thm"abs_inverse";
8dbbb7cf3637 re-organized numeric lemmas paulson parents: 14321 diff changeset	1921	val nonzero_abs_divide = thm"nonzero_abs_divide";
8dbbb7cf3637 re-organized numeric lemmas paulson parents: 14321 diff changeset	1922	val abs_divide = thm"abs_divide";
8dbbb7cf3637 re-organized numeric lemmas paulson parents: 14321 diff changeset	1923	val abs_leI = thm"abs_leI";
8dbbb7cf3637 re-organized numeric lemmas paulson parents: 14321 diff changeset	1924	val le_minus_self_iff = thm"le_minus_self_iff";
8dbbb7cf3637 re-organized numeric lemmas paulson parents: 14321 diff changeset	1925	val minus_le_self_iff = thm"minus_le_self_iff";
8dbbb7cf3637 re-organized numeric lemmas paulson parents: 14321 diff changeset	1926	val eq_minus_self_iff = thm"eq_minus_self_iff";
8dbbb7cf3637 re-organized numeric lemmas paulson parents: 14321 diff changeset	1927	val less_minus_self_iff = thm"less_minus_self_iff";
8dbbb7cf3637 re-organized numeric lemmas paulson parents: 14321 diff changeset	1928	val abs_le_D1 = thm"abs_le_D1";
8dbbb7cf3637 re-organized numeric lemmas paulson parents: 14321 diff changeset	1929	val abs_le_D2 = thm"abs_le_D2";
8dbbb7cf3637 re-organized numeric lemmas paulson parents: 14321 diff changeset	1930	val abs_le_iff = thm"abs_le_iff";
8dbbb7cf3637 re-organized numeric lemmas paulson parents: 14321 diff changeset	1931	val abs_less_iff = thm"abs_less_iff";
8dbbb7cf3637 re-organized numeric lemmas paulson parents: 14321 diff changeset	1932	val abs_triangle_ineq = thm"abs_triangle_ineq";
8dbbb7cf3637 re-organized numeric lemmas paulson parents: 14321 diff changeset	1933	val abs_mult_less = thm"abs_mult_less";
8dbbb7cf3637 re-organized numeric lemmas paulson parents: 14321 diff changeset	1934
8dbbb7cf3637 re-organized numeric lemmas paulson parents: 14321 diff changeset	1935	val compare_rls = thms"compare_rls";
8dbbb7cf3637 re-organized numeric lemmas paulson parents: 14321 diff changeset	1936	*}
8dbbb7cf3637 re-organized numeric lemmas paulson parents: 14321 diff changeset	1937
14293 22542982bffd moving some division theorems to Ring_and_Field paulson parents: 14288 diff changeset	1938
14265 95b42e69436c HOL: installation of Ring_and_Field as the basis for Naturals and Reals paulson parents: diff changeset	1939	end

author	paulson
	Mon, 01 Mar 2004 13:51:21 +0100
changeset 14421	ee97b6463cb4
parent 14398	c5c47703f763
child 14430	5cb24165a2e1
permissions	-rw-r--r--