isabelle: src/HOL/Groups.thy@561b11865cb5 (annotated)

63588 d0e2bad67bd4 misc tuning and modernization; wenzelm parents: 63456 diff changeset	1	(* Title: HOL/Groups.thy
d0e2bad67bd4 misc tuning and modernization; wenzelm parents: 63456 diff changeset	2	Author: Gertrud Bauer
d0e2bad67bd4 misc tuning and modernization; wenzelm parents: 63456 diff changeset	3	Author: Steven Obua
d0e2bad67bd4 misc tuning and modernization; wenzelm parents: 63456 diff changeset	4	Author: Lawrence C Paulson
d0e2bad67bd4 misc tuning and modernization; wenzelm parents: 63456 diff changeset	5	Author: Markus Wenzel
d0e2bad67bd4 misc tuning and modernization; wenzelm parents: 63456 diff changeset	6	Author: Jeremy Avigad
14738 83f1a514dcb4 changes made due to new Ring_and_Field theory obua parents: diff changeset	7	*)
83f1a514dcb4 changes made due to new Ring_and_Field theory obua parents: diff changeset	8
60758 d8d85a8172b5 isabelle update_cartouches; wenzelm parents: 59815 diff changeset	9	section \<open>Groups, also combined with orderings\<close>
14738 83f1a514dcb4 changes made due to new Ring_and_Field theory obua parents: diff changeset	10
35050 9f841f20dca6 renamed OrderedGroup to Groups; split theory Ring_and_Field into Rings Fields haftmann parents: 35036 diff changeset	11	theory Groups
63588 d0e2bad67bd4 misc tuning and modernization; wenzelm parents: 63456 diff changeset	12	imports Orderings
15131 c69542757a4d New theory header syntax. nipkow parents: 15093 diff changeset	13	begin
14738 83f1a514dcb4 changes made due to new Ring_and_Field theory obua parents: diff changeset	14
60758 d8d85a8172b5 isabelle update_cartouches; wenzelm parents: 59815 diff changeset	15	subsection \<open>Dynamic facts\<close>
35301 90e42f9ba4d1 distributed theory Algebras to theories Groups and Lattices haftmann parents: 35267 diff changeset	16
57950 59c17b0b870d updated to named_theorems; wenzelm parents: 57571 diff changeset	17	named_theorems ac_simps "associativity and commutativity simplification rules"
70347 e5cd5471c18a official fact collection sign_simps haftmann parents: 69605 diff changeset	18	and algebra_simps "algebra simplification rules for rings"
63588 d0e2bad67bd4 misc tuning and modernization; wenzelm parents: 63456 diff changeset	19	and field_simps "algebra simplification rules for fields"
70347 e5cd5471c18a official fact collection sign_simps haftmann parents: 69605 diff changeset	20	and sign_simps "algebra simplification rules for comparision with zero"
36343 30bcceed0dc2 field_simps as named theorems haftmann parents: 36302 diff changeset	21
63325 1086d56cde86 misc tuning and modernization; wenzelm parents: 63290 diff changeset	22	text \<open>
63588 d0e2bad67bd4 misc tuning and modernization; wenzelm parents: 63456 diff changeset	23	The rewrites accumulated in \<open>algebra_simps\<close> deal with the classical
d0e2bad67bd4 misc tuning and modernization; wenzelm parents: 63456 diff changeset	24	algebraic structures of groups, rings and family. They simplify terms by
d0e2bad67bd4 misc tuning and modernization; wenzelm parents: 63456 diff changeset	25	multiplying everything out (in case of a ring) and bringing sums and
d0e2bad67bd4 misc tuning and modernization; wenzelm parents: 63456 diff changeset	26	products into a canonical form (by ordered rewriting). As a result it
d0e2bad67bd4 misc tuning and modernization; wenzelm parents: 63456 diff changeset	27	decides group and ring equalities but also helps with inequalities.
36348 89c54f51f55a dropped group_simps, ring_simps, field_eq_simps; classes division_ring_inverse_zero, field_inverse_zero, linordered_field_inverse_zero haftmann parents: 36343 diff changeset	28
63588 d0e2bad67bd4 misc tuning and modernization; wenzelm parents: 63456 diff changeset	29	Of course it also works for fields, but it knows nothing about
d0e2bad67bd4 misc tuning and modernization; wenzelm parents: 63456 diff changeset	30	multiplicative inverses or division. This is catered for by \<open>field_simps\<close>.
35301 90e42f9ba4d1 distributed theory Algebras to theories Groups and Lattices haftmann parents: 35267 diff changeset	31
63588 d0e2bad67bd4 misc tuning and modernization; wenzelm parents: 63456 diff changeset	32	Facts in \<open>field_simps\<close> multiply with denominators in (in)equations if they
d0e2bad67bd4 misc tuning and modernization; wenzelm parents: 63456 diff changeset	33	can be proved to be non-zero (for equations) or positive/negative (for
d0e2bad67bd4 misc tuning and modernization; wenzelm parents: 63456 diff changeset	34	inequalities). Can be too aggressive and is therefore separate from the more
d0e2bad67bd4 misc tuning and modernization; wenzelm parents: 63456 diff changeset	35	benign \<open>algebra_simps\<close>.
70347 e5cd5471c18a official fact collection sign_simps haftmann parents: 69605 diff changeset	36
e5cd5471c18a official fact collection sign_simps haftmann parents: 69605 diff changeset	37	Lemmas \<open>sign_simps\<close> is a first attempt to automate proofs
e5cd5471c18a official fact collection sign_simps haftmann parents: 69605 diff changeset	38	of positivity/negativity needed for \<open>field_simps\<close>. Have not added \<open>sign_simps\<close> to \<open>field_simps\<close>
e5cd5471c18a official fact collection sign_simps haftmann parents: 69605 diff changeset	39	because the former can lead to case explosions.
63325 1086d56cde86 misc tuning and modernization; wenzelm parents: 63290 diff changeset	40	\<close>
35301 90e42f9ba4d1 distributed theory Algebras to theories Groups and Lattices haftmann parents: 35267 diff changeset	41
90e42f9ba4d1 distributed theory Algebras to theories Groups and Lattices haftmann parents: 35267 diff changeset	42
60758 d8d85a8172b5 isabelle update_cartouches; wenzelm parents: 59815 diff changeset	43	subsection \<open>Abstract structures\<close>
35301 90e42f9ba4d1 distributed theory Algebras to theories Groups and Lattices haftmann parents: 35267 diff changeset	44
60758 d8d85a8172b5 isabelle update_cartouches; wenzelm parents: 59815 diff changeset	45	text \<open>
63588 d0e2bad67bd4 misc tuning and modernization; wenzelm parents: 63456 diff changeset	46	These locales provide basic structures for interpretation into bigger
d0e2bad67bd4 misc tuning and modernization; wenzelm parents: 63456 diff changeset	47	structures; extensions require careful thinking, otherwise undesired effects
d0e2bad67bd4 misc tuning and modernization; wenzelm parents: 63456 diff changeset	48	may occur due to interpretation.
60758 d8d85a8172b5 isabelle update_cartouches; wenzelm parents: 59815 diff changeset	49	\<close>
35301 90e42f9ba4d1 distributed theory Algebras to theories Groups and Lattices haftmann parents: 35267 diff changeset	50
90e42f9ba4d1 distributed theory Algebras to theories Groups and Lattices haftmann parents: 35267 diff changeset	51	locale semigroup =
63325 1086d56cde86 misc tuning and modernization; wenzelm parents: 63290 diff changeset	52	fixes f :: "'a \<Rightarrow> 'a \<Rightarrow> 'a" (infixl "\<^bold>*" 70)
63290 9ac558ab0906 boldify syntax in abstract algebraic structures, to avoid clashes with concrete syntax in corresponding type classes haftmann parents: 63145 diff changeset	53	assumes assoc [ac_simps]: "a \<^bold>* b \<^bold>* c = a \<^bold>* (b \<^bold>* c)"
35301 90e42f9ba4d1 distributed theory Algebras to theories Groups and Lattices haftmann parents: 35267 diff changeset	54
90e42f9ba4d1 distributed theory Algebras to theories Groups and Lattices haftmann parents: 35267 diff changeset	55	locale abel_semigroup = semigroup +
63290 9ac558ab0906 boldify syntax in abstract algebraic structures, to avoid clashes with concrete syntax in corresponding type classes haftmann parents: 63145 diff changeset	56	assumes commute [ac_simps]: "a \<^bold>* b = b \<^bold>* a"
35301 90e42f9ba4d1 distributed theory Algebras to theories Groups and Lattices haftmann parents: 35267 diff changeset	57	begin
90e42f9ba4d1 distributed theory Algebras to theories Groups and Lattices haftmann parents: 35267 diff changeset	58
63325 1086d56cde86 misc tuning and modernization; wenzelm parents: 63290 diff changeset	59	lemma left_commute [ac_simps]: "b \<^bold>* (a \<^bold>* c) = a \<^bold>* (b \<^bold>* c)"
35301 90e42f9ba4d1 distributed theory Algebras to theories Groups and Lattices haftmann parents: 35267 diff changeset	60	proof -
63290 9ac558ab0906 boldify syntax in abstract algebraic structures, to avoid clashes with concrete syntax in corresponding type classes haftmann parents: 63145 diff changeset	61	have "(b \<^bold>* a) \<^bold>* c = (a \<^bold>* b) \<^bold>* c"
35301 90e42f9ba4d1 distributed theory Algebras to theories Groups and Lattices haftmann parents: 35267 diff changeset	62	by (simp only: commute)
90e42f9ba4d1 distributed theory Algebras to theories Groups and Lattices haftmann parents: 35267 diff changeset	63	then show ?thesis
90e42f9ba4d1 distributed theory Algebras to theories Groups and Lattices haftmann parents: 35267 diff changeset	64	by (simp only: assoc)
90e42f9ba4d1 distributed theory Algebras to theories Groups and Lattices haftmann parents: 35267 diff changeset	65	qed
90e42f9ba4d1 distributed theory Algebras to theories Groups and Lattices haftmann parents: 35267 diff changeset	66
90e42f9ba4d1 distributed theory Algebras to theories Groups and Lattices haftmann parents: 35267 diff changeset	67	end
90e42f9ba4d1 distributed theory Algebras to theories Groups and Lattices haftmann parents: 35267 diff changeset	68
35720 3fc79186a2f6 added locales for monoids haftmann parents: 35408 diff changeset	69	locale monoid = semigroup +
63290 9ac558ab0906 boldify syntax in abstract algebraic structures, to avoid clashes with concrete syntax in corresponding type classes haftmann parents: 63145 diff changeset	70	fixes z :: 'a ("\<^bold>1")
9ac558ab0906 boldify syntax in abstract algebraic structures, to avoid clashes with concrete syntax in corresponding type classes haftmann parents: 63145 diff changeset	71	assumes left_neutral [simp]: "\<^bold>1 \<^bold>* a = a"
9ac558ab0906 boldify syntax in abstract algebraic structures, to avoid clashes with concrete syntax in corresponding type classes haftmann parents: 63145 diff changeset	72	assumes right_neutral [simp]: "a \<^bold>* \<^bold>1 = a"
35720 3fc79186a2f6 added locales for monoids haftmann parents: 35408 diff changeset	73
3fc79186a2f6 added locales for monoids haftmann parents: 35408 diff changeset	74	locale comm_monoid = abel_semigroup +
63290 9ac558ab0906 boldify syntax in abstract algebraic structures, to avoid clashes with concrete syntax in corresponding type classes haftmann parents: 63145 diff changeset	75	fixes z :: 'a ("\<^bold>1")
9ac558ab0906 boldify syntax in abstract algebraic structures, to avoid clashes with concrete syntax in corresponding type classes haftmann parents: 63145 diff changeset	76	assumes comm_neutral: "a \<^bold>* \<^bold>1 = a"
54868 bab6cade3cc5 prefer target-style syntaxx for sublocale haftmann parents: 54703 diff changeset	77	begin
35720 3fc79186a2f6 added locales for monoids haftmann parents: 35408 diff changeset	78
54868 bab6cade3cc5 prefer target-style syntaxx for sublocale haftmann parents: 54703 diff changeset	79	sublocale monoid
61169 4de9ff3ea29a tuned proofs -- less legacy; wenzelm parents: 61076 diff changeset	80	by standard (simp_all add: commute comm_neutral)
35720 3fc79186a2f6 added locales for monoids haftmann parents: 35408 diff changeset	81
54868 bab6cade3cc5 prefer target-style syntaxx for sublocale haftmann parents: 54703 diff changeset	82	end
bab6cade3cc5 prefer target-style syntaxx for sublocale haftmann parents: 54703 diff changeset	83
63364 4fa441c2f20c abstract and concrete multiplicative groups haftmann parents: 63325 diff changeset	84	locale group = semigroup +
4fa441c2f20c abstract and concrete multiplicative groups haftmann parents: 63325 diff changeset	85	fixes z :: 'a ("\<^bold>1")
4fa441c2f20c abstract and concrete multiplicative groups haftmann parents: 63325 diff changeset	86	fixes inverse :: "'a \<Rightarrow> 'a"
4fa441c2f20c abstract and concrete multiplicative groups haftmann parents: 63325 diff changeset	87	assumes group_left_neutral: "\<^bold>1 \<^bold>* a = a"
4fa441c2f20c abstract and concrete multiplicative groups haftmann parents: 63325 diff changeset	88	assumes left_inverse [simp]: "inverse a \<^bold>* a = \<^bold>1"
4fa441c2f20c abstract and concrete multiplicative groups haftmann parents: 63325 diff changeset	89	begin
4fa441c2f20c abstract and concrete multiplicative groups haftmann parents: 63325 diff changeset	90
4fa441c2f20c abstract and concrete multiplicative groups haftmann parents: 63325 diff changeset	91	lemma left_cancel: "a \<^bold>* b = a \<^bold>* c \<longleftrightarrow> b = c"
4fa441c2f20c abstract and concrete multiplicative groups haftmann parents: 63325 diff changeset	92	proof
4fa441c2f20c abstract and concrete multiplicative groups haftmann parents: 63325 diff changeset	93	assume "a \<^bold>* b = a \<^bold>* c"
4fa441c2f20c abstract and concrete multiplicative groups haftmann parents: 63325 diff changeset	94	then have "inverse a \<^bold>* (a \<^bold>* b) = inverse a \<^bold>* (a \<^bold>* c)" by simp
4fa441c2f20c abstract and concrete multiplicative groups haftmann parents: 63325 diff changeset	95	then have "(inverse a \<^bold>* a) \<^bold>* b = (inverse a \<^bold>* a) \<^bold>* c"
4fa441c2f20c abstract and concrete multiplicative groups haftmann parents: 63325 diff changeset	96	by (simp only: assoc)
4fa441c2f20c abstract and concrete multiplicative groups haftmann parents: 63325 diff changeset	97	then show "b = c" by (simp add: group_left_neutral)
4fa441c2f20c abstract and concrete multiplicative groups haftmann parents: 63325 diff changeset	98	qed simp
4fa441c2f20c abstract and concrete multiplicative groups haftmann parents: 63325 diff changeset	99
4fa441c2f20c abstract and concrete multiplicative groups haftmann parents: 63325 diff changeset	100	sublocale monoid
4fa441c2f20c abstract and concrete multiplicative groups haftmann parents: 63325 diff changeset	101	proof
4fa441c2f20c abstract and concrete multiplicative groups haftmann parents: 63325 diff changeset	102	fix a
4fa441c2f20c abstract and concrete multiplicative groups haftmann parents: 63325 diff changeset	103	have "inverse a \<^bold>* a = \<^bold>1" by simp
4fa441c2f20c abstract and concrete multiplicative groups haftmann parents: 63325 diff changeset	104	then have "inverse a \<^bold>* (a \<^bold>* \<^bold>1) = inverse a \<^bold>* a"
4fa441c2f20c abstract and concrete multiplicative groups haftmann parents: 63325 diff changeset	105	by (simp add: group_left_neutral assoc [symmetric])
4fa441c2f20c abstract and concrete multiplicative groups haftmann parents: 63325 diff changeset	106	with left_cancel show "a \<^bold>* \<^bold>1 = a"
4fa441c2f20c abstract and concrete multiplicative groups haftmann parents: 63325 diff changeset	107	by (simp only: left_cancel)
4fa441c2f20c abstract and concrete multiplicative groups haftmann parents: 63325 diff changeset	108	qed (fact group_left_neutral)
4fa441c2f20c abstract and concrete multiplicative groups haftmann parents: 63325 diff changeset	109
4fa441c2f20c abstract and concrete multiplicative groups haftmann parents: 63325 diff changeset	110	lemma inverse_unique:
4fa441c2f20c abstract and concrete multiplicative groups haftmann parents: 63325 diff changeset	111	assumes "a \<^bold>* b = \<^bold>1"
4fa441c2f20c abstract and concrete multiplicative groups haftmann parents: 63325 diff changeset	112	shows "inverse a = b"
4fa441c2f20c abstract and concrete multiplicative groups haftmann parents: 63325 diff changeset	113	proof -
4fa441c2f20c abstract and concrete multiplicative groups haftmann parents: 63325 diff changeset	114	from assms have "inverse a \<^bold>* (a \<^bold>* b) = inverse a"
4fa441c2f20c abstract and concrete multiplicative groups haftmann parents: 63325 diff changeset	115	by simp
4fa441c2f20c abstract and concrete multiplicative groups haftmann parents: 63325 diff changeset	116	then show ?thesis
4fa441c2f20c abstract and concrete multiplicative groups haftmann parents: 63325 diff changeset	117	by (simp add: assoc [symmetric])
4fa441c2f20c abstract and concrete multiplicative groups haftmann parents: 63325 diff changeset	118	qed
4fa441c2f20c abstract and concrete multiplicative groups haftmann parents: 63325 diff changeset	119
63588 d0e2bad67bd4 misc tuning and modernization; wenzelm parents: 63456 diff changeset	120	lemma inverse_neutral [simp]: "inverse \<^bold>1 = \<^bold>1"
63364 4fa441c2f20c abstract and concrete multiplicative groups haftmann parents: 63325 diff changeset	121	by (rule inverse_unique) simp
4fa441c2f20c abstract and concrete multiplicative groups haftmann parents: 63325 diff changeset	122
63588 d0e2bad67bd4 misc tuning and modernization; wenzelm parents: 63456 diff changeset	123	lemma inverse_inverse [simp]: "inverse (inverse a) = a"
63364 4fa441c2f20c abstract and concrete multiplicative groups haftmann parents: 63325 diff changeset	124	by (rule inverse_unique) simp
4fa441c2f20c abstract and concrete multiplicative groups haftmann parents: 63325 diff changeset	125
63588 d0e2bad67bd4 misc tuning and modernization; wenzelm parents: 63456 diff changeset	126	lemma right_inverse [simp]: "a \<^bold>* inverse a = \<^bold>1"
63364 4fa441c2f20c abstract and concrete multiplicative groups haftmann parents: 63325 diff changeset	127	proof -
4fa441c2f20c abstract and concrete multiplicative groups haftmann parents: 63325 diff changeset	128	have "a \<^bold>* inverse a = inverse (inverse a) \<^bold>* inverse a"
4fa441c2f20c abstract and concrete multiplicative groups haftmann parents: 63325 diff changeset	129	by simp
4fa441c2f20c abstract and concrete multiplicative groups haftmann parents: 63325 diff changeset	130	also have "\<dots> = \<^bold>1"
4fa441c2f20c abstract and concrete multiplicative groups haftmann parents: 63325 diff changeset	131	by (rule left_inverse)
4fa441c2f20c abstract and concrete multiplicative groups haftmann parents: 63325 diff changeset	132	then show ?thesis by simp
4fa441c2f20c abstract and concrete multiplicative groups haftmann parents: 63325 diff changeset	133	qed
4fa441c2f20c abstract and concrete multiplicative groups haftmann parents: 63325 diff changeset	134
63588 d0e2bad67bd4 misc tuning and modernization; wenzelm parents: 63456 diff changeset	135	lemma inverse_distrib_swap: "inverse (a \<^bold>* b) = inverse b \<^bold>* inverse a"
63364 4fa441c2f20c abstract and concrete multiplicative groups haftmann parents: 63325 diff changeset	136	proof (rule inverse_unique)
4fa441c2f20c abstract and concrete multiplicative groups haftmann parents: 63325 diff changeset	137	have "a \<^bold>* b \<^bold>* (inverse b \<^bold>* inverse a) =
4fa441c2f20c abstract and concrete multiplicative groups haftmann parents: 63325 diff changeset	138	a \<^bold>* (b \<^bold>* inverse b) \<^bold>* inverse a"
4fa441c2f20c abstract and concrete multiplicative groups haftmann parents: 63325 diff changeset	139	by (simp only: assoc)
4fa441c2f20c abstract and concrete multiplicative groups haftmann parents: 63325 diff changeset	140	also have "\<dots> = \<^bold>1"
4fa441c2f20c abstract and concrete multiplicative groups haftmann parents: 63325 diff changeset	141	by simp
4fa441c2f20c abstract and concrete multiplicative groups haftmann parents: 63325 diff changeset	142	finally show "a \<^bold>* b \<^bold>* (inverse b \<^bold>* inverse a) = \<^bold>1" .
4fa441c2f20c abstract and concrete multiplicative groups haftmann parents: 63325 diff changeset	143	qed
4fa441c2f20c abstract and concrete multiplicative groups haftmann parents: 63325 diff changeset	144
63588 d0e2bad67bd4 misc tuning and modernization; wenzelm parents: 63456 diff changeset	145	lemma right_cancel: "b \<^bold>* a = c \<^bold>* a \<longleftrightarrow> b = c"
63364 4fa441c2f20c abstract and concrete multiplicative groups haftmann parents: 63325 diff changeset	146	proof
4fa441c2f20c abstract and concrete multiplicative groups haftmann parents: 63325 diff changeset	147	assume "b \<^bold>* a = c \<^bold>* a"
4fa441c2f20c abstract and concrete multiplicative groups haftmann parents: 63325 diff changeset	148	then have "b \<^bold>* a \<^bold>* inverse a= c \<^bold>* a \<^bold>* inverse a"
4fa441c2f20c abstract and concrete multiplicative groups haftmann parents: 63325 diff changeset	149	by simp
4fa441c2f20c abstract and concrete multiplicative groups haftmann parents: 63325 diff changeset	150	then show "b = c"
4fa441c2f20c abstract and concrete multiplicative groups haftmann parents: 63325 diff changeset	151	by (simp add: assoc)
4fa441c2f20c abstract and concrete multiplicative groups haftmann parents: 63325 diff changeset	152	qed simp
4fa441c2f20c abstract and concrete multiplicative groups haftmann parents: 63325 diff changeset	153
4fa441c2f20c abstract and concrete multiplicative groups haftmann parents: 63325 diff changeset	154	end
4fa441c2f20c abstract and concrete multiplicative groups haftmann parents: 63325 diff changeset	155
35301 90e42f9ba4d1 distributed theory Algebras to theories Groups and Lattices haftmann parents: 35267 diff changeset	156
60758 d8d85a8172b5 isabelle update_cartouches; wenzelm parents: 59815 diff changeset	157	subsection \<open>Generic operations\<close>
35267 8dfd816713c6 moved remaning class operations from Algebras.thy to Groups.thy haftmann parents: 35216 diff changeset	158
62376 85f38d5f8807 Rename ordered_comm_monoid_add to ordered_cancel_comm_monoid_add. Introduce ordreed_comm_monoid_add, canonically_ordered_comm_monoid and dioid. Setup nat, entat and ennreal as dioids. hoelzl parents: 62348 diff changeset	159	class zero =
35267 8dfd816713c6 moved remaning class operations from Algebras.thy to Groups.thy haftmann parents: 35216 diff changeset	160	fixes zero :: 'a ("0")
8dfd816713c6 moved remaning class operations from Algebras.thy to Groups.thy haftmann parents: 35216 diff changeset	161
8dfd816713c6 moved remaning class operations from Algebras.thy to Groups.thy haftmann parents: 35216 diff changeset	162	class one =
8dfd816713c6 moved remaning class operations from Algebras.thy to Groups.thy haftmann parents: 35216 diff changeset	163	fixes one :: 'a ("1")
8dfd816713c6 moved remaning class operations from Algebras.thy to Groups.thy haftmann parents: 35216 diff changeset	164
36176 3fe7e97ccca8 replaced generic 'hide' command by more conventional 'hide_class', 'hide_type', 'hide_const', 'hide_fact' -- frees some popular keywords; wenzelm parents: 35828 diff changeset	165	hide_const (open) zero one
35267 8dfd816713c6 moved remaning class operations from Algebras.thy to Groups.thy haftmann parents: 35216 diff changeset	166
8dfd816713c6 moved remaning class operations from Algebras.thy to Groups.thy haftmann parents: 35216 diff changeset	167	lemma Let_0 [simp]: "Let 0 f = f 0"
8dfd816713c6 moved remaning class operations from Algebras.thy to Groups.thy haftmann parents: 35216 diff changeset	168	unfolding Let_def ..
8dfd816713c6 moved remaning class operations from Algebras.thy to Groups.thy haftmann parents: 35216 diff changeset	169
8dfd816713c6 moved remaning class operations from Algebras.thy to Groups.thy haftmann parents: 35216 diff changeset	170	lemma Let_1 [simp]: "Let 1 f = f 1"
8dfd816713c6 moved remaning class operations from Algebras.thy to Groups.thy haftmann parents: 35216 diff changeset	171	unfolding Let_def ..
8dfd816713c6 moved remaning class operations from Algebras.thy to Groups.thy haftmann parents: 35216 diff changeset	172
60758 d8d85a8172b5 isabelle update_cartouches; wenzelm parents: 59815 diff changeset	173	setup \<open>
35267 8dfd816713c6 moved remaning class operations from Algebras.thy to Groups.thy haftmann parents: 35216 diff changeset	174	Reorient_Proc.add
69593 3dda49e08b9d isabelle update -u control_cartouches; wenzelm parents: 69216 diff changeset	175	(fn Const(\<^const_name>\<open>Groups.zero\<close>, _) => true
3dda49e08b9d isabelle update -u control_cartouches; wenzelm parents: 69216 diff changeset	176	\| Const(\<^const_name>\<open>Groups.one\<close>, _) => true
35267 8dfd816713c6 moved remaning class operations from Algebras.thy to Groups.thy haftmann parents: 35216 diff changeset	177	\| _ => false)
60758 d8d85a8172b5 isabelle update_cartouches; wenzelm parents: 59815 diff changeset	178	\<close>
35267 8dfd816713c6 moved remaning class operations from Algebras.thy to Groups.thy haftmann parents: 35216 diff changeset	179
8dfd816713c6 moved remaning class operations from Algebras.thy to Groups.thy haftmann parents: 35216 diff changeset	180	simproc_setup reorient_zero ("0 = x") = Reorient_Proc.proc
8dfd816713c6 moved remaning class operations from Algebras.thy to Groups.thy haftmann parents: 35216 diff changeset	181	simproc_setup reorient_one ("1 = x") = Reorient_Proc.proc
8dfd816713c6 moved remaning class operations from Algebras.thy to Groups.thy haftmann parents: 35216 diff changeset	182
60758 d8d85a8172b5 isabelle update_cartouches; wenzelm parents: 59815 diff changeset	183	typed_print_translation \<open>
42247 12fe41a92cd5 typed_print_translation: discontinued show_sorts argument; wenzelm parents: 42245 diff changeset	184	let
12fe41a92cd5 typed_print_translation: discontinued show_sorts argument; wenzelm parents: 42245 diff changeset	185	fun tr' c = (c, fn ctxt => fn T => fn ts =>
52210 0226035df99d more explicit Printer.type_emphasis, depending on show_type_emphasis; wenzelm parents: 52143 diff changeset	186	if null ts andalso Printer.type_emphasis ctxt T then
69593 3dda49e08b9d isabelle update -u control_cartouches; wenzelm parents: 69216 diff changeset	187	Syntax.const \<^syntax_const>\<open>_constrain\<close> $ Syntax.const c $
52210 0226035df99d more explicit Printer.type_emphasis, depending on show_type_emphasis; wenzelm parents: 52143 diff changeset	188	Syntax_Phases.term_of_typ ctxt T
0226035df99d more explicit Printer.type_emphasis, depending on show_type_emphasis; wenzelm parents: 52143 diff changeset	189	else raise Match);
69593 3dda49e08b9d isabelle update -u control_cartouches; wenzelm parents: 69216 diff changeset	190	in map tr' [\<^const_syntax>\<open>Groups.one\<close>, \<^const_syntax>\<open>Groups.zero\<close>] end
61799 4cf66f21b764 isabelle update_cartouches -c -t; wenzelm parents: 61762 diff changeset	191	\<close> \<comment> \<open>show types that are presumably too general\<close>
35267 8dfd816713c6 moved remaning class operations from Algebras.thy to Groups.thy haftmann parents: 35216 diff changeset	192
8dfd816713c6 moved remaning class operations from Algebras.thy to Groups.thy haftmann parents: 35216 diff changeset	193	class plus =
8dfd816713c6 moved remaning class operations from Algebras.thy to Groups.thy haftmann parents: 35216 diff changeset	194	fixes plus :: "'a \<Rightarrow> 'a \<Rightarrow> 'a" (infixl "+" 65)
8dfd816713c6 moved remaning class operations from Algebras.thy to Groups.thy haftmann parents: 35216 diff changeset	195
8dfd816713c6 moved remaning class operations from Algebras.thy to Groups.thy haftmann parents: 35216 diff changeset	196	class minus =
8dfd816713c6 moved remaning class operations from Algebras.thy to Groups.thy haftmann parents: 35216 diff changeset	197	fixes minus :: "'a \<Rightarrow> 'a \<Rightarrow> 'a" (infixl "-" 65)
8dfd816713c6 moved remaning class operations from Algebras.thy to Groups.thy haftmann parents: 35216 diff changeset	198
8dfd816713c6 moved remaning class operations from Algebras.thy to Groups.thy haftmann parents: 35216 diff changeset	199	class uminus =
8dfd816713c6 moved remaning class operations from Algebras.thy to Groups.thy haftmann parents: 35216 diff changeset	200	fixes uminus :: "'a \<Rightarrow> 'a" ("- _" [81] 80)
8dfd816713c6 moved remaning class operations from Algebras.thy to Groups.thy haftmann parents: 35216 diff changeset	201
8dfd816713c6 moved remaning class operations from Algebras.thy to Groups.thy haftmann parents: 35216 diff changeset	202	class times =
8dfd816713c6 moved remaning class operations from Algebras.thy to Groups.thy haftmann parents: 35216 diff changeset	203	fixes times :: "'a \<Rightarrow> 'a \<Rightarrow> 'a" (infixl "*" 70)
8dfd816713c6 moved remaning class operations from Algebras.thy to Groups.thy haftmann parents: 35216 diff changeset	204
35092 cfe605c54e50 moved less_eq, less to Orderings.thy; moved abs, sgn to Groups.thy haftmann parents: 35050 diff changeset	205
60758 d8d85a8172b5 isabelle update_cartouches; wenzelm parents: 59815 diff changeset	206	subsection \<open>Semigroups and Monoids\<close>
14738 83f1a514dcb4 changes made due to new Ring_and_Field theory obua parents: diff changeset	207
22390 378f34b1e380 now using "class" haftmann parents: 21382 diff changeset	208	class semigroup_add = plus +
36348 89c54f51f55a dropped group_simps, ring_simps, field_eq_simps; classes division_ring_inverse_zero, field_inverse_zero, linordered_field_inverse_zero haftmann parents: 36343 diff changeset	209	assumes add_assoc [algebra_simps, field_simps]: "(a + b) + c = a + (b + c)"
54868 bab6cade3cc5 prefer target-style syntaxx for sublocale haftmann parents: 54703 diff changeset	210	begin
34973 ae634fad947e dropped mk_left_commute; use interpretation of locale abel_semigroup instead haftmann parents: 34147 diff changeset	211
61605 1bf7b186542e qualifier is mandatory by default; wenzelm parents: 61378 diff changeset	212	sublocale add: semigroup plus
61169 4de9ff3ea29a tuned proofs -- less legacy; wenzelm parents: 61076 diff changeset	213	by standard (fact add_assoc)
22390 378f34b1e380 now using "class" haftmann parents: 21382 diff changeset	214
54868 bab6cade3cc5 prefer target-style syntaxx for sublocale haftmann parents: 54703 diff changeset	215	end
bab6cade3cc5 prefer target-style syntaxx for sublocale haftmann parents: 54703 diff changeset	216
57512 cc97b347b301 reduced name variants for assoc and commute on plus and mult haftmann parents: 56950 diff changeset	217	hide_fact add_assoc
cc97b347b301 reduced name variants for assoc and commute on plus and mult haftmann parents: 56950 diff changeset	218
22390 378f34b1e380 now using "class" haftmann parents: 21382 diff changeset	219	class ab_semigroup_add = semigroup_add +
36348 89c54f51f55a dropped group_simps, ring_simps, field_eq_simps; classes division_ring_inverse_zero, field_inverse_zero, linordered_field_inverse_zero haftmann parents: 36343 diff changeset	220	assumes add_commute [algebra_simps, field_simps]: "a + b = b + a"
54868 bab6cade3cc5 prefer target-style syntaxx for sublocale haftmann parents: 54703 diff changeset	221	begin
34973 ae634fad947e dropped mk_left_commute; use interpretation of locale abel_semigroup instead haftmann parents: 34147 diff changeset	222
61605 1bf7b186542e qualifier is mandatory by default; wenzelm parents: 61378 diff changeset	223	sublocale add: abel_semigroup plus
61169 4de9ff3ea29a tuned proofs -- less legacy; wenzelm parents: 61076 diff changeset	224	by standard (fact add_commute)
34973 ae634fad947e dropped mk_left_commute; use interpretation of locale abel_semigroup instead haftmann parents: 34147 diff changeset	225
57512 cc97b347b301 reduced name variants for assoc and commute on plus and mult haftmann parents: 56950 diff changeset	226	declare add.left_commute [algebra_simps, field_simps]
25062 af5ef0d4d655 global class syntax haftmann parents: 24748 diff changeset	227
61337 4645502c3c64 fewer aliases for toplevel theorem statements; wenzelm parents: 61169 diff changeset	228	lemmas add_ac = add.assoc add.commute add.left_commute
57571 d38a98f496dd reinstated popular add_ac and mult_ac to avoid needless incompatibilities in user space nipkow parents: 57514 diff changeset	229
25062 af5ef0d4d655 global class syntax haftmann parents: 24748 diff changeset	230	end
14738 83f1a514dcb4 changes made due to new Ring_and_Field theory obua parents: diff changeset	231
57512 cc97b347b301 reduced name variants for assoc and commute on plus and mult haftmann parents: 56950 diff changeset	232	hide_fact add_commute
cc97b347b301 reduced name variants for assoc and commute on plus and mult haftmann parents: 56950 diff changeset	233
61337 4645502c3c64 fewer aliases for toplevel theorem statements; wenzelm parents: 61169 diff changeset	234	lemmas add_ac = add.assoc add.commute add.left_commute
57571 d38a98f496dd reinstated popular add_ac and mult_ac to avoid needless incompatibilities in user space nipkow parents: 57514 diff changeset	235
22390 378f34b1e380 now using "class" haftmann parents: 21382 diff changeset	236	class semigroup_mult = times +
36348 89c54f51f55a dropped group_simps, ring_simps, field_eq_simps; classes division_ring_inverse_zero, field_inverse_zero, linordered_field_inverse_zero haftmann parents: 36343 diff changeset	237	assumes mult_assoc [algebra_simps, field_simps]: "(a * b) * c = a * (b * c)"
54868 bab6cade3cc5 prefer target-style syntaxx for sublocale haftmann parents: 54703 diff changeset	238	begin
34973 ae634fad947e dropped mk_left_commute; use interpretation of locale abel_semigroup instead haftmann parents: 34147 diff changeset	239
61605 1bf7b186542e qualifier is mandatory by default; wenzelm parents: 61378 diff changeset	240	sublocale mult: semigroup times
61169 4de9ff3ea29a tuned proofs -- less legacy; wenzelm parents: 61076 diff changeset	241	by standard (fact mult_assoc)
14738 83f1a514dcb4 changes made due to new Ring_and_Field theory obua parents: diff changeset	242
54868 bab6cade3cc5 prefer target-style syntaxx for sublocale haftmann parents: 54703 diff changeset	243	end
bab6cade3cc5 prefer target-style syntaxx for sublocale haftmann parents: 54703 diff changeset	244
57512 cc97b347b301 reduced name variants for assoc and commute on plus and mult haftmann parents: 56950 diff changeset	245	hide_fact mult_assoc
cc97b347b301 reduced name variants for assoc and commute on plus and mult haftmann parents: 56950 diff changeset	246
22390 378f34b1e380 now using "class" haftmann parents: 21382 diff changeset	247	class ab_semigroup_mult = semigroup_mult +
36348 89c54f51f55a dropped group_simps, ring_simps, field_eq_simps; classes division_ring_inverse_zero, field_inverse_zero, linordered_field_inverse_zero haftmann parents: 36343 diff changeset	248	assumes mult_commute [algebra_simps, field_simps]: "a * b = b * a"
54868 bab6cade3cc5 prefer target-style syntaxx for sublocale haftmann parents: 54703 diff changeset	249	begin
34973 ae634fad947e dropped mk_left_commute; use interpretation of locale abel_semigroup instead haftmann parents: 34147 diff changeset	250
61605 1bf7b186542e qualifier is mandatory by default; wenzelm parents: 61378 diff changeset	251	sublocale mult: abel_semigroup times
61169 4de9ff3ea29a tuned proofs -- less legacy; wenzelm parents: 61076 diff changeset	252	by standard (fact mult_commute)
34973 ae634fad947e dropped mk_left_commute; use interpretation of locale abel_semigroup instead haftmann parents: 34147 diff changeset	253
57512 cc97b347b301 reduced name variants for assoc and commute on plus and mult haftmann parents: 56950 diff changeset	254	declare mult.left_commute [algebra_simps, field_simps]
25062 af5ef0d4d655 global class syntax haftmann parents: 24748 diff changeset	255
61337 4645502c3c64 fewer aliases for toplevel theorem statements; wenzelm parents: 61169 diff changeset	256	lemmas mult_ac = mult.assoc mult.commute mult.left_commute
57571 d38a98f496dd reinstated popular add_ac and mult_ac to avoid needless incompatibilities in user space nipkow parents: 57514 diff changeset	257
23181 f52b555f8141 localized haftmann parents: 23085 diff changeset	258	end
14738 83f1a514dcb4 changes made due to new Ring_and_Field theory obua parents: diff changeset	259
57512 cc97b347b301 reduced name variants for assoc and commute on plus and mult haftmann parents: 56950 diff changeset	260	hide_fact mult_commute
cc97b347b301 reduced name variants for assoc and commute on plus and mult haftmann parents: 56950 diff changeset	261
61337 4645502c3c64 fewer aliases for toplevel theorem statements; wenzelm parents: 61169 diff changeset	262	lemmas mult_ac = mult.assoc mult.commute mult.left_commute
57571 d38a98f496dd reinstated popular add_ac and mult_ac to avoid needless incompatibilities in user space nipkow parents: 57514 diff changeset	263
23085 fd30d75a6614 Introduced new classes monoid_add and group_add nipkow parents: 22997 diff changeset	264	class monoid_add = zero + semigroup_add +
35720 3fc79186a2f6 added locales for monoids haftmann parents: 35408 diff changeset	265	assumes add_0_left: "0 + a = a"
3fc79186a2f6 added locales for monoids haftmann parents: 35408 diff changeset	266	and add_0_right: "a + 0 = a"
54868 bab6cade3cc5 prefer target-style syntaxx for sublocale haftmann parents: 54703 diff changeset	267	begin
35720 3fc79186a2f6 added locales for monoids haftmann parents: 35408 diff changeset	268
61605 1bf7b186542e qualifier is mandatory by default; wenzelm parents: 61378 diff changeset	269	sublocale add: monoid plus 0
61169 4de9ff3ea29a tuned proofs -- less legacy; wenzelm parents: 61076 diff changeset	270	by standard (fact add_0_left add_0_right)+
23085 fd30d75a6614 Introduced new classes monoid_add and group_add nipkow parents: 22997 diff changeset	271
54868 bab6cade3cc5 prefer target-style syntaxx for sublocale haftmann parents: 54703 diff changeset	272	end
bab6cade3cc5 prefer target-style syntaxx for sublocale haftmann parents: 54703 diff changeset	273
26071 046fe7ddfc4b moved _reorient lemmas here haftmann* parents: 26015 diff changeset	274	lemma zero_reorient: "0 = x \<longleftrightarrow> x = 0"
54868 bab6cade3cc5 prefer target-style syntaxx for sublocale haftmann parents: 54703 diff changeset	275	by (fact eq_commute)
26071 046fe7ddfc4b moved _reorient lemmas here haftmann* parents: 26015 diff changeset	276
22390 378f34b1e380 now using "class" haftmann parents: 21382 diff changeset	277	class comm_monoid_add = zero + ab_semigroup_add +
25062 af5ef0d4d655 global class syntax haftmann parents: 24748 diff changeset	278	assumes add_0: "0 + a = a"
54868 bab6cade3cc5 prefer target-style syntaxx for sublocale haftmann parents: 54703 diff changeset	279	begin
23085 fd30d75a6614 Introduced new classes monoid_add and group_add nipkow parents: 22997 diff changeset	280
59559 35da1bbf234e more canonical order of subscriptions avoids superfluous facts haftmann parents: 59557 diff changeset	281	subclass monoid_add
61169 4de9ff3ea29a tuned proofs -- less legacy; wenzelm parents: 61076 diff changeset	282	by standard (simp_all add: add_0 add.commute [of _ 0])
25062 af5ef0d4d655 global class syntax haftmann parents: 24748 diff changeset	283
61605 1bf7b186542e qualifier is mandatory by default; wenzelm parents: 61378 diff changeset	284	sublocale add: comm_monoid plus 0
61169 4de9ff3ea29a tuned proofs -- less legacy; wenzelm parents: 61076 diff changeset	285	by standard (simp add: ac_simps)
14738 83f1a514dcb4 changes made due to new Ring_and_Field theory obua parents: diff changeset	286
54868 bab6cade3cc5 prefer target-style syntaxx for sublocale haftmann parents: 54703 diff changeset	287	end
bab6cade3cc5 prefer target-style syntaxx for sublocale haftmann parents: 54703 diff changeset	288
22390 378f34b1e380 now using "class" haftmann parents: 21382 diff changeset	289	class monoid_mult = one + semigroup_mult +
35720 3fc79186a2f6 added locales for monoids haftmann parents: 35408 diff changeset	290	assumes mult_1_left: "1 * a = a"
3fc79186a2f6 added locales for monoids haftmann parents: 35408 diff changeset	291	and mult_1_right: "a * 1 = a"
54868 bab6cade3cc5 prefer target-style syntaxx for sublocale haftmann parents: 54703 diff changeset	292	begin
35720 3fc79186a2f6 added locales for monoids haftmann parents: 35408 diff changeset	293
61605 1bf7b186542e qualifier is mandatory by default; wenzelm parents: 61378 diff changeset	294	sublocale mult: monoid times 1
61169 4de9ff3ea29a tuned proofs -- less legacy; wenzelm parents: 61076 diff changeset	295	by standard (fact mult_1_left mult_1_right)+
14738 83f1a514dcb4 changes made due to new Ring_and_Field theory obua parents: diff changeset	296
54868 bab6cade3cc5 prefer target-style syntaxx for sublocale haftmann parents: 54703 diff changeset	297	end
bab6cade3cc5 prefer target-style syntaxx for sublocale haftmann parents: 54703 diff changeset	298
26071 046fe7ddfc4b moved _reorient lemmas here haftmann* parents: 26015 diff changeset	299	lemma one_reorient: "1 = x \<longleftrightarrow> x = 1"
54868 bab6cade3cc5 prefer target-style syntaxx for sublocale haftmann parents: 54703 diff changeset	300	by (fact eq_commute)
26071 046fe7ddfc4b moved _reorient lemmas here haftmann* parents: 26015 diff changeset	301
22390 378f34b1e380 now using "class" haftmann parents: 21382 diff changeset	302	class comm_monoid_mult = one + ab_semigroup_mult +
25062 af5ef0d4d655 global class syntax haftmann parents: 24748 diff changeset	303	assumes mult_1: "1 * a = a"
54868 bab6cade3cc5 prefer target-style syntaxx for sublocale haftmann parents: 54703 diff changeset	304	begin
14738 83f1a514dcb4 changes made due to new Ring_and_Field theory obua parents: diff changeset	305
59559 35da1bbf234e more canonical order of subscriptions avoids superfluous facts haftmann parents: 59557 diff changeset	306	subclass monoid_mult
61169 4de9ff3ea29a tuned proofs -- less legacy; wenzelm parents: 61076 diff changeset	307	by standard (simp_all add: mult_1 mult.commute [of _ 1])
25062 af5ef0d4d655 global class syntax haftmann parents: 24748 diff changeset	308
61605 1bf7b186542e qualifier is mandatory by default; wenzelm parents: 61378 diff changeset	309	sublocale mult: comm_monoid times 1
61169 4de9ff3ea29a tuned proofs -- less legacy; wenzelm parents: 61076 diff changeset	310	by standard (simp add: ac_simps)
14738 83f1a514dcb4 changes made due to new Ring_and_Field theory obua parents: diff changeset	311
54868 bab6cade3cc5 prefer target-style syntaxx for sublocale haftmann parents: 54703 diff changeset	312	end
bab6cade3cc5 prefer target-style syntaxx for sublocale haftmann parents: 54703 diff changeset	313
22390 378f34b1e380 now using "class" haftmann parents: 21382 diff changeset	314	class cancel_semigroup_add = semigroup_add +
25062 af5ef0d4d655 global class syntax haftmann parents: 24748 diff changeset	315	assumes add_left_imp_eq: "a + b = a + c \<Longrightarrow> b = c"
af5ef0d4d655 global class syntax haftmann parents: 24748 diff changeset	316	assumes add_right_imp_eq: "b + a = c + a \<Longrightarrow> b = c"
27474 a89d755b029d move proofs of add_left_cancel and add_right_cancel into the correct locale huffman parents: 27250 diff changeset	317	begin
a89d755b029d move proofs of add_left_cancel and add_right_cancel into the correct locale huffman parents: 27250 diff changeset	318
63325 1086d56cde86 misc tuning and modernization; wenzelm parents: 63290 diff changeset	319	lemma add_left_cancel [simp]: "a + b = a + c \<longleftrightarrow> b = c"
1086d56cde86 misc tuning and modernization; wenzelm parents: 63290 diff changeset	320	by (blast dest: add_left_imp_eq)
27474 a89d755b029d move proofs of add_left_cancel and add_right_cancel into the correct locale huffman parents: 27250 diff changeset	321
63325 1086d56cde86 misc tuning and modernization; wenzelm parents: 63290 diff changeset	322	lemma add_right_cancel [simp]: "b + a = c + a \<longleftrightarrow> b = c"
1086d56cde86 misc tuning and modernization; wenzelm parents: 63290 diff changeset	323	by (blast dest: add_right_imp_eq)
27474 a89d755b029d move proofs of add_left_cancel and add_right_cancel into the correct locale huffman parents: 27250 diff changeset	324
a89d755b029d move proofs of add_left_cancel and add_right_cancel into the correct locale huffman parents: 27250 diff changeset	325	end
14738 83f1a514dcb4 changes made due to new Ring_and_Field theory obua parents: diff changeset	326
59815 cce82e360c2f explicit commutative additive inverse operation; haftmann parents: 59559 diff changeset	327	class cancel_ab_semigroup_add = ab_semigroup_add + minus +
cce82e360c2f explicit commutative additive inverse operation; haftmann parents: 59559 diff changeset	328	assumes add_diff_cancel_left' [simp]: "(a + b) - a = b"
cce82e360c2f explicit commutative additive inverse operation; haftmann parents: 59559 diff changeset	329	assumes diff_diff_add [algebra_simps, field_simps]: "a - b - c = a - (b + c)"
25267 1f745c599b5c proper reinitialisation after subclass haftmann parents: 25230 diff changeset	330	begin
14738 83f1a514dcb4 changes made due to new Ring_and_Field theory obua parents: diff changeset	331
63325 1086d56cde86 misc tuning and modernization; wenzelm parents: 63290 diff changeset	332	lemma add_diff_cancel_right' [simp]: "(a + b) - b = a"
59815 cce82e360c2f explicit commutative additive inverse operation; haftmann parents: 59559 diff changeset	333	using add_diff_cancel_left' [of b a] by (simp add: ac_simps)
cce82e360c2f explicit commutative additive inverse operation; haftmann parents: 59559 diff changeset	334
25267 1f745c599b5c proper reinitialisation after subclass haftmann parents: 25230 diff changeset	335	subclass cancel_semigroup_add
28823 dcbef866c9e2 tuned unfold_locales invocation haftmann parents: 28262 diff changeset	336	proof
22390 378f34b1e380 now using "class" haftmann parents: 21382 diff changeset	337	fix a b c :: 'a
59815 cce82e360c2f explicit commutative additive inverse operation; haftmann parents: 59559 diff changeset	338	assume "a + b = a + c"
cce82e360c2f explicit commutative additive inverse operation; haftmann parents: 59559 diff changeset	339	then have "a + b - a = a + c - a"
cce82e360c2f explicit commutative additive inverse operation; haftmann parents: 59559 diff changeset	340	by simp
cce82e360c2f explicit commutative additive inverse operation; haftmann parents: 59559 diff changeset	341	then show "b = c"
cce82e360c2f explicit commutative additive inverse operation; haftmann parents: 59559 diff changeset	342	by simp
22390 378f34b1e380 now using "class" haftmann parents: 21382 diff changeset	343	next
14738 83f1a514dcb4 changes made due to new Ring_and_Field theory obua parents: diff changeset	344	fix a b c :: 'a
83f1a514dcb4 changes made due to new Ring_and_Field theory obua parents: diff changeset	345	assume "b + a = c + a"
59815 cce82e360c2f explicit commutative additive inverse operation; haftmann parents: 59559 diff changeset	346	then have "b + a - a = c + a - a"
cce82e360c2f explicit commutative additive inverse operation; haftmann parents: 59559 diff changeset	347	by simp
cce82e360c2f explicit commutative additive inverse operation; haftmann parents: 59559 diff changeset	348	then show "b = c"
cce82e360c2f explicit commutative additive inverse operation; haftmann parents: 59559 diff changeset	349	by simp
14738 83f1a514dcb4 changes made due to new Ring_and_Field theory obua parents: diff changeset	350	qed
83f1a514dcb4 changes made due to new Ring_and_Field theory obua parents: diff changeset	351
63325 1086d56cde86 misc tuning and modernization; wenzelm parents: 63290 diff changeset	352	lemma add_diff_cancel_left [simp]: "(c + a) - (c + b) = a - b"
59815 cce82e360c2f explicit commutative additive inverse operation; haftmann parents: 59559 diff changeset	353	unfolding diff_diff_add [symmetric] by simp
cce82e360c2f explicit commutative additive inverse operation; haftmann parents: 59559 diff changeset	354
63325 1086d56cde86 misc tuning and modernization; wenzelm parents: 63290 diff changeset	355	lemma add_diff_cancel_right [simp]: "(a + c) - (b + c) = a - b"
59815 cce82e360c2f explicit commutative additive inverse operation; haftmann parents: 59559 diff changeset	356	using add_diff_cancel_left [symmetric] by (simp add: ac_simps)
cce82e360c2f explicit commutative additive inverse operation; haftmann parents: 59559 diff changeset	357
63325 1086d56cde86 misc tuning and modernization; wenzelm parents: 63290 diff changeset	358	lemma diff_right_commute: "a - c - b = a - b - c"
59815 cce82e360c2f explicit commutative additive inverse operation; haftmann parents: 59559 diff changeset	359	by (simp add: diff_diff_add add.commute)
cce82e360c2f explicit commutative additive inverse operation; haftmann parents: 59559 diff changeset	360
25267 1f745c599b5c proper reinitialisation after subclass haftmann parents: 25230 diff changeset	361	end
1f745c599b5c proper reinitialisation after subclass haftmann parents: 25230 diff changeset	362
29904 856f16a3b436 add class cancel_comm_monoid_add huffman parents: 29886 diff changeset	363	class cancel_comm_monoid_add = cancel_ab_semigroup_add + comm_monoid_add
59322 8ccecf1415b0 tuned order haftmann parents: 58889 diff changeset	364	begin
8ccecf1415b0 tuned order haftmann parents: 58889 diff changeset	365
63325 1086d56cde86 misc tuning and modernization; wenzelm parents: 63290 diff changeset	366	lemma diff_zero [simp]: "a - 0 = a"
59815 cce82e360c2f explicit commutative additive inverse operation; haftmann parents: 59559 diff changeset	367	using add_diff_cancel_right' [of a 0] by simp
59322 8ccecf1415b0 tuned order haftmann parents: 58889 diff changeset	368
63325 1086d56cde86 misc tuning and modernization; wenzelm parents: 63290 diff changeset	369	lemma diff_cancel [simp]: "a - a = 0"
59322 8ccecf1415b0 tuned order haftmann parents: 58889 diff changeset	370	proof -
63325 1086d56cde86 misc tuning and modernization; wenzelm parents: 63290 diff changeset	371	have "(a + 0) - (a + 0) = 0"
1086d56cde86 misc tuning and modernization; wenzelm parents: 63290 diff changeset	372	by (simp only: add_diff_cancel_left diff_zero)
59322 8ccecf1415b0 tuned order haftmann parents: 58889 diff changeset	373	then show ?thesis by simp
8ccecf1415b0 tuned order haftmann parents: 58889 diff changeset	374	qed
8ccecf1415b0 tuned order haftmann parents: 58889 diff changeset	375
8ccecf1415b0 tuned order haftmann parents: 58889 diff changeset	376	lemma add_implies_diff:
8ccecf1415b0 tuned order haftmann parents: 58889 diff changeset	377	assumes "c + b = a"
8ccecf1415b0 tuned order haftmann parents: 58889 diff changeset	378	shows "c = a - b"
8ccecf1415b0 tuned order haftmann parents: 58889 diff changeset	379	proof -
63325 1086d56cde86 misc tuning and modernization; wenzelm parents: 63290 diff changeset	380	from assms have "(b + c) - (b + 0) = a - b"
1086d56cde86 misc tuning and modernization; wenzelm parents: 63290 diff changeset	381	by (simp add: add.commute)
59322 8ccecf1415b0 tuned order haftmann parents: 58889 diff changeset	382	then show "c = a - b" by simp
8ccecf1415b0 tuned order haftmann parents: 58889 diff changeset	383	qed
8ccecf1415b0 tuned order haftmann parents: 58889 diff changeset	384
63325 1086d56cde86 misc tuning and modernization; wenzelm parents: 63290 diff changeset	385	lemma add_cancel_right_right [simp]: "a = a + b \<longleftrightarrow> b = 0"
1086d56cde86 misc tuning and modernization; wenzelm parents: 63290 diff changeset	386	(is "?P \<longleftrightarrow> ?Q")
62608 19f87fa0cfcb more theorems on orderings haftmann parents: 62379 diff changeset	387	proof
63325 1086d56cde86 misc tuning and modernization; wenzelm parents: 63290 diff changeset	388	assume ?Q
1086d56cde86 misc tuning and modernization; wenzelm parents: 63290 diff changeset	389	then show ?P by simp
62608 19f87fa0cfcb more theorems on orderings haftmann parents: 62379 diff changeset	390	next
63325 1086d56cde86 misc tuning and modernization; wenzelm parents: 63290 diff changeset	391	assume ?P
1086d56cde86 misc tuning and modernization; wenzelm parents: 63290 diff changeset	392	then have "a - a = a + b - a" by simp
62608 19f87fa0cfcb more theorems on orderings haftmann parents: 62379 diff changeset	393	then show ?Q by simp
19f87fa0cfcb more theorems on orderings haftmann parents: 62379 diff changeset	394	qed
19f87fa0cfcb more theorems on orderings haftmann parents: 62379 diff changeset	395
63325 1086d56cde86 misc tuning and modernization; wenzelm parents: 63290 diff changeset	396	lemma add_cancel_right_left [simp]: "a = b + a \<longleftrightarrow> b = 0"
62608 19f87fa0cfcb more theorems on orderings haftmann parents: 62379 diff changeset	397	using add_cancel_right_right [of a b] by (simp add: ac_simps)
19f87fa0cfcb more theorems on orderings haftmann parents: 62379 diff changeset	398
63325 1086d56cde86 misc tuning and modernization; wenzelm parents: 63290 diff changeset	399	lemma add_cancel_left_right [simp]: "a + b = a \<longleftrightarrow> b = 0"
62608 19f87fa0cfcb more theorems on orderings haftmann parents: 62379 diff changeset	400	by (auto dest: sym)
19f87fa0cfcb more theorems on orderings haftmann parents: 62379 diff changeset	401
63325 1086d56cde86 misc tuning and modernization; wenzelm parents: 63290 diff changeset	402	lemma add_cancel_left_left [simp]: "b + a = a \<longleftrightarrow> b = 0"
62608 19f87fa0cfcb more theorems on orderings haftmann parents: 62379 diff changeset	403	by (auto dest: sym)
19f87fa0cfcb more theorems on orderings haftmann parents: 62379 diff changeset	404
62376 85f38d5f8807 Rename ordered_comm_monoid_add to ordered_cancel_comm_monoid_add. Introduce ordreed_comm_monoid_add, canonically_ordered_comm_monoid and dioid. Setup nat, entat and ennreal as dioids. hoelzl parents: 62348 diff changeset	405	end
59815 cce82e360c2f explicit commutative additive inverse operation; haftmann parents: 59559 diff changeset	406
cce82e360c2f explicit commutative additive inverse operation; haftmann parents: 59559 diff changeset	407	class comm_monoid_diff = cancel_comm_monoid_add +
cce82e360c2f explicit commutative additive inverse operation; haftmann parents: 59559 diff changeset	408	assumes zero_diff [simp]: "0 - a = 0"
cce82e360c2f explicit commutative additive inverse operation; haftmann parents: 59559 diff changeset	409	begin
cce82e360c2f explicit commutative additive inverse operation; haftmann parents: 59559 diff changeset	410
63325 1086d56cde86 misc tuning and modernization; wenzelm parents: 63290 diff changeset	411	lemma diff_add_zero [simp]: "a - (a + b) = 0"
59815 cce82e360c2f explicit commutative additive inverse operation; haftmann parents: 59559 diff changeset	412	proof -
63325 1086d56cde86 misc tuning and modernization; wenzelm parents: 63290 diff changeset	413	have "a - (a + b) = (a + 0) - (a + b)"
1086d56cde86 misc tuning and modernization; wenzelm parents: 63290 diff changeset	414	by simp
1086d56cde86 misc tuning and modernization; wenzelm parents: 63290 diff changeset	415	also have "\<dots> = 0"
1086d56cde86 misc tuning and modernization; wenzelm parents: 63290 diff changeset	416	by (simp only: add_diff_cancel_left zero_diff)
59815 cce82e360c2f explicit commutative additive inverse operation; haftmann parents: 59559 diff changeset	417	finally show ?thesis .
cce82e360c2f explicit commutative additive inverse operation; haftmann parents: 59559 diff changeset	418	qed
cce82e360c2f explicit commutative additive inverse operation; haftmann parents: 59559 diff changeset	419
59322 8ccecf1415b0 tuned order haftmann parents: 58889 diff changeset	420	end
8ccecf1415b0 tuned order haftmann parents: 58889 diff changeset	421
29904 856f16a3b436 add class cancel_comm_monoid_add huffman parents: 29886 diff changeset	422
60758 d8d85a8172b5 isabelle update_cartouches; wenzelm parents: 59815 diff changeset	423	subsection \<open>Groups\<close>
23085 fd30d75a6614 Introduced new classes monoid_add and group_add nipkow parents: 22997 diff changeset	424
25762 c03e9d04b3e4 splitted class uminus from class minus haftmann parents: 25613 diff changeset	425	class group_add = minus + uminus + monoid_add +
63364 4fa441c2f20c abstract and concrete multiplicative groups haftmann parents: 63325 diff changeset	426	assumes left_minus: "- a + a = 0"
54230 b1d955791529 more simplification rules on unary and binary minus haftmann parents: 54148 diff changeset	427	assumes add_uminus_conv_diff [simp]: "a + (- b) = a - b"
25062 af5ef0d4d655 global class syntax haftmann parents: 24748 diff changeset	428	begin
23085 fd30d75a6614 Introduced new classes monoid_add and group_add nipkow parents: 22997 diff changeset	429
63325 1086d56cde86 misc tuning and modernization; wenzelm parents: 63290 diff changeset	430	lemma diff_conv_add_uminus: "a - b = a + (- b)"
54230 b1d955791529 more simplification rules on unary and binary minus haftmann parents: 54148 diff changeset	431	by simp
b1d955791529 more simplification rules on unary and binary minus haftmann parents: 54148 diff changeset	432
63364 4fa441c2f20c abstract and concrete multiplicative groups haftmann parents: 63325 diff changeset	433	sublocale add: group plus 0 uminus
4fa441c2f20c abstract and concrete multiplicative groups haftmann parents: 63325 diff changeset	434	by standard (simp_all add: left_minus)
4fa441c2f20c abstract and concrete multiplicative groups haftmann parents: 63325 diff changeset	435
63588 d0e2bad67bd4 misc tuning and modernization; wenzelm parents: 63456 diff changeset	436	lemma minus_unique: "a + b = 0 \<Longrightarrow> - a = b"
d0e2bad67bd4 misc tuning and modernization; wenzelm parents: 63456 diff changeset	437	by (fact add.inverse_unique)
34147 319616f4eecf generalize lemma add_minus_cancel, add lemma minus_add, simplify some proofs huffman parents: 34146 diff changeset	438
63364 4fa441c2f20c abstract and concrete multiplicative groups haftmann parents: 63325 diff changeset	439	lemma minus_zero: "- 0 = 0"
4fa441c2f20c abstract and concrete multiplicative groups haftmann parents: 63325 diff changeset	440	by (fact add.inverse_neutral)
14738 83f1a514dcb4 changes made due to new Ring_and_Field theory obua parents: diff changeset	441
63364 4fa441c2f20c abstract and concrete multiplicative groups haftmann parents: 63325 diff changeset	442	lemma minus_minus: "- (- a) = a"
4fa441c2f20c abstract and concrete multiplicative groups haftmann parents: 63325 diff changeset	443	by (fact add.inverse_inverse)
14738 83f1a514dcb4 changes made due to new Ring_and_Field theory obua parents: diff changeset	444
54230 b1d955791529 more simplification rules on unary and binary minus haftmann parents: 54148 diff changeset	445	lemma right_minus: "a + - a = 0"
63364 4fa441c2f20c abstract and concrete multiplicative groups haftmann parents: 63325 diff changeset	446	by (fact add.right_inverse)
14738 83f1a514dcb4 changes made due to new Ring_and_Field theory obua parents: diff changeset	447
63325 1086d56cde86 misc tuning and modernization; wenzelm parents: 63290 diff changeset	448	lemma diff_self [simp]: "a - a = 0"
54230 b1d955791529 more simplification rules on unary and binary minus haftmann parents: 54148 diff changeset	449	using right_minus [of a] by simp
b1d955791529 more simplification rules on unary and binary minus haftmann parents: 54148 diff changeset	450
40368 47c186c8577d added class relation group_add < cancel_semigroup_add haftmann parents: 39134 diff changeset	451	subclass cancel_semigroup_add
63364 4fa441c2f20c abstract and concrete multiplicative groups haftmann parents: 63325 diff changeset	452	by standard (simp_all add: add.left_cancel add.right_cancel)
40368 47c186c8577d added class relation group_add < cancel_semigroup_add haftmann parents: 39134 diff changeset	453
63325 1086d56cde86 misc tuning and modernization; wenzelm parents: 63290 diff changeset	454	lemma minus_add_cancel [simp]: "- a + (a + b) = b"
57512 cc97b347b301 reduced name variants for assoc and commute on plus and mult haftmann parents: 56950 diff changeset	455	by (simp add: add.assoc [symmetric])
54230 b1d955791529 more simplification rules on unary and binary minus haftmann parents: 54148 diff changeset	456
63325 1086d56cde86 misc tuning and modernization; wenzelm parents: 63290 diff changeset	457	lemma add_minus_cancel [simp]: "a + (- a + b) = b"
57512 cc97b347b301 reduced name variants for assoc and commute on plus and mult haftmann parents: 56950 diff changeset	458	by (simp add: add.assoc [symmetric])
34147 319616f4eecf generalize lemma add_minus_cancel, add lemma minus_add, simplify some proofs huffman parents: 34146 diff changeset	459
63325 1086d56cde86 misc tuning and modernization; wenzelm parents: 63290 diff changeset	460	lemma diff_add_cancel [simp]: "a - b + b = a"
57512 cc97b347b301 reduced name variants for assoc and commute on plus and mult haftmann parents: 56950 diff changeset	461	by (simp only: diff_conv_add_uminus add.assoc) simp
34147 319616f4eecf generalize lemma add_minus_cancel, add lemma minus_add, simplify some proofs huffman parents: 34146 diff changeset	462
63325 1086d56cde86 misc tuning and modernization; wenzelm parents: 63290 diff changeset	463	lemma add_diff_cancel [simp]: "a + b - b = a"
57512 cc97b347b301 reduced name variants for assoc and commute on plus and mult haftmann parents: 56950 diff changeset	464	by (simp only: diff_conv_add_uminus add.assoc) simp
54230 b1d955791529 more simplification rules on unary and binary minus haftmann parents: 54148 diff changeset	465
63325 1086d56cde86 misc tuning and modernization; wenzelm parents: 63290 diff changeset	466	lemma minus_add: "- (a + b) = - b + - a"
63364 4fa441c2f20c abstract and concrete multiplicative groups haftmann parents: 63325 diff changeset	467	by (fact add.inverse_distrib_swap)
34147 319616f4eecf generalize lemma add_minus_cancel, add lemma minus_add, simplify some proofs huffman parents: 34146 diff changeset	468
63325 1086d56cde86 misc tuning and modernization; wenzelm parents: 63290 diff changeset	469	lemma right_minus_eq [simp]: "a - b = 0 \<longleftrightarrow> a = b"
14738 83f1a514dcb4 changes made due to new Ring_and_Field theory obua parents: diff changeset	470	proof
23085 fd30d75a6614 Introduced new classes monoid_add and group_add nipkow parents: 22997 diff changeset	471	assume "a - b = 0"
57512 cc97b347b301 reduced name variants for assoc and commute on plus and mult haftmann parents: 56950 diff changeset	472	have "a = (a - b) + b" by (simp add: add.assoc)
60758 d8d85a8172b5 isabelle update_cartouches; wenzelm parents: 59815 diff changeset	473	also have "\<dots> = b" using \<open>a - b = 0\<close> by simp
23085 fd30d75a6614 Introduced new classes monoid_add and group_add nipkow parents: 22997 diff changeset	474	finally show "a = b" .
14738 83f1a514dcb4 changes made due to new Ring_and_Field theory obua parents: diff changeset	475	next
63325 1086d56cde86 misc tuning and modernization; wenzelm parents: 63290 diff changeset	476	assume "a = b"
1086d56cde86 misc tuning and modernization; wenzelm parents: 63290 diff changeset	477	then show "a - b = 0" by simp
14738 83f1a514dcb4 changes made due to new Ring_and_Field theory obua parents: diff changeset	478	qed
83f1a514dcb4 changes made due to new Ring_and_Field theory obua parents: diff changeset	479
63325 1086d56cde86 misc tuning and modernization; wenzelm parents: 63290 diff changeset	480	lemma eq_iff_diff_eq_0: "a = b \<longleftrightarrow> a - b = 0"
54230 b1d955791529 more simplification rules on unary and binary minus haftmann parents: 54148 diff changeset	481	by (fact right_minus_eq [symmetric])
14738 83f1a514dcb4 changes made due to new Ring_and_Field theory obua parents: diff changeset	482
63325 1086d56cde86 misc tuning and modernization; wenzelm parents: 63290 diff changeset	483	lemma diff_0 [simp]: "0 - a = - a"
54230 b1d955791529 more simplification rules on unary and binary minus haftmann parents: 54148 diff changeset	484	by (simp only: diff_conv_add_uminus add_0_left)
14738 83f1a514dcb4 changes made due to new Ring_and_Field theory obua parents: diff changeset	485
63325 1086d56cde86 misc tuning and modernization; wenzelm parents: 63290 diff changeset	486	lemma diff_0_right [simp]: "a - 0 = a"
54230 b1d955791529 more simplification rules on unary and binary minus haftmann parents: 54148 diff changeset	487	by (simp only: diff_conv_add_uminus minus_zero add_0_right)
14738 83f1a514dcb4 changes made due to new Ring_and_Field theory obua parents: diff changeset	488
63325 1086d56cde86 misc tuning and modernization; wenzelm parents: 63290 diff changeset	489	lemma diff_minus_eq_add [simp]: "a - - b = a + b"
54230 b1d955791529 more simplification rules on unary and binary minus haftmann parents: 54148 diff changeset	490	by (simp only: diff_conv_add_uminus minus_minus)
14738 83f1a514dcb4 changes made due to new Ring_and_Field theory obua parents: diff changeset	491
63325 1086d56cde86 misc tuning and modernization; wenzelm parents: 63290 diff changeset	492	lemma neg_equal_iff_equal [simp]: "- a = - b \<longleftrightarrow> a = b"
62376 85f38d5f8807 Rename ordered_comm_monoid_add to ordered_cancel_comm_monoid_add. Introduce ordreed_comm_monoid_add, canonically_ordered_comm_monoid and dioid. Setup nat, entat and ennreal as dioids. hoelzl parents: 62348 diff changeset	493	proof
14738 83f1a514dcb4 changes made due to new Ring_and_Field theory obua parents: diff changeset	494	assume "- a = - b"
63325 1086d56cde86 misc tuning and modernization; wenzelm parents: 63290 diff changeset	495	then have "- (- a) = - (- b)" by simp
1086d56cde86 misc tuning and modernization; wenzelm parents: 63290 diff changeset	496	then show "a = b" by simp
14738 83f1a514dcb4 changes made due to new Ring_and_Field theory obua parents: diff changeset	497	next
25062 af5ef0d4d655 global class syntax haftmann parents: 24748 diff changeset	498	assume "a = b"
63325 1086d56cde86 misc tuning and modernization; wenzelm parents: 63290 diff changeset	499	then show "- a = - b" by simp
14738 83f1a514dcb4 changes made due to new Ring_and_Field theory obua parents: diff changeset	500	qed
83f1a514dcb4 changes made due to new Ring_and_Field theory obua parents: diff changeset	501
63325 1086d56cde86 misc tuning and modernization; wenzelm parents: 63290 diff changeset	502	lemma neg_equal_0_iff_equal [simp]: "- a = 0 \<longleftrightarrow> a = 0"
54230 b1d955791529 more simplification rules on unary and binary minus haftmann parents: 54148 diff changeset	503	by (subst neg_equal_iff_equal [symmetric]) simp
14738 83f1a514dcb4 changes made due to new Ring_and_Field theory obua parents: diff changeset	504
63325 1086d56cde86 misc tuning and modernization; wenzelm parents: 63290 diff changeset	505	lemma neg_0_equal_iff_equal [simp]: "0 = - a \<longleftrightarrow> 0 = a"
54230 b1d955791529 more simplification rules on unary and binary minus haftmann parents: 54148 diff changeset	506	by (subst neg_equal_iff_equal [symmetric]) simp
14738 83f1a514dcb4 changes made due to new Ring_and_Field theory obua parents: diff changeset	507
63325 1086d56cde86 misc tuning and modernization; wenzelm parents: 63290 diff changeset	508	text \<open>The next two equations can make the simplifier loop!\<close>
14738 83f1a514dcb4 changes made due to new Ring_and_Field theory obua parents: diff changeset	509
63325 1086d56cde86 misc tuning and modernization; wenzelm parents: 63290 diff changeset	510	lemma equation_minus_iff: "a = - b \<longleftrightarrow> b = - a"
14738 83f1a514dcb4 changes made due to new Ring_and_Field theory obua parents: diff changeset	511	proof -
63325 1086d56cde86 misc tuning and modernization; wenzelm parents: 63290 diff changeset	512	have "- (- a) = - b \<longleftrightarrow> - a = b"
1086d56cde86 misc tuning and modernization; wenzelm parents: 63290 diff changeset	513	by (rule neg_equal_iff_equal)
1086d56cde86 misc tuning and modernization; wenzelm parents: 63290 diff changeset	514	then show ?thesis
1086d56cde86 misc tuning and modernization; wenzelm parents: 63290 diff changeset	515	by (simp add: eq_commute)
25062 af5ef0d4d655 global class syntax haftmann parents: 24748 diff changeset	516	qed
af5ef0d4d655 global class syntax haftmann parents: 24748 diff changeset	517
63325 1086d56cde86 misc tuning and modernization; wenzelm parents: 63290 diff changeset	518	lemma minus_equation_iff: "- a = b \<longleftrightarrow> - b = a"
25062 af5ef0d4d655 global class syntax haftmann parents: 24748 diff changeset	519	proof -
63325 1086d56cde86 misc tuning and modernization; wenzelm parents: 63290 diff changeset	520	have "- a = - (- b) \<longleftrightarrow> a = -b"
1086d56cde86 misc tuning and modernization; wenzelm parents: 63290 diff changeset	521	by (rule neg_equal_iff_equal)
1086d56cde86 misc tuning and modernization; wenzelm parents: 63290 diff changeset	522	then show ?thesis
1086d56cde86 misc tuning and modernization; wenzelm parents: 63290 diff changeset	523	by (simp add: eq_commute)
14738 83f1a514dcb4 changes made due to new Ring_and_Field theory obua parents: diff changeset	524	qed
83f1a514dcb4 changes made due to new Ring_and_Field theory obua parents: diff changeset	525
63325 1086d56cde86 misc tuning and modernization; wenzelm parents: 63290 diff changeset	526	lemma eq_neg_iff_add_eq_0: "a = - b \<longleftrightarrow> a + b = 0"
29914 c9ced4f54e82 generalize lemma eq_neg_iff_add_eq_0, and move to OrderedGroup huffman parents: 29904 diff changeset	527	proof
63325 1086d56cde86 misc tuning and modernization; wenzelm parents: 63290 diff changeset	528	assume "a = - b"
1086d56cde86 misc tuning and modernization; wenzelm parents: 63290 diff changeset	529	then show "a + b = 0" by simp
29914 c9ced4f54e82 generalize lemma eq_neg_iff_add_eq_0, and move to OrderedGroup huffman parents: 29904 diff changeset	530	next
c9ced4f54e82 generalize lemma eq_neg_iff_add_eq_0, and move to OrderedGroup huffman parents: 29904 diff changeset	531	assume "a + b = 0"
c9ced4f54e82 generalize lemma eq_neg_iff_add_eq_0, and move to OrderedGroup huffman parents: 29904 diff changeset	532	moreover have "a + (b + - b) = (a + b) + - b"
57512 cc97b347b301 reduced name variants for assoc and commute on plus and mult haftmann parents: 56950 diff changeset	533	by (simp only: add.assoc)
63325 1086d56cde86 misc tuning and modernization; wenzelm parents: 63290 diff changeset	534	ultimately show "a = - b"
1086d56cde86 misc tuning and modernization; wenzelm parents: 63290 diff changeset	535	by simp
29914 c9ced4f54e82 generalize lemma eq_neg_iff_add_eq_0, and move to OrderedGroup huffman parents: 29904 diff changeset	536	qed
c9ced4f54e82 generalize lemma eq_neg_iff_add_eq_0, and move to OrderedGroup huffman parents: 29904 diff changeset	537
63325 1086d56cde86 misc tuning and modernization; wenzelm parents: 63290 diff changeset	538	lemma add_eq_0_iff2: "a + b = 0 \<longleftrightarrow> a = - b"
54230 b1d955791529 more simplification rules on unary and binary minus haftmann parents: 54148 diff changeset	539	by (fact eq_neg_iff_add_eq_0 [symmetric])
b1d955791529 more simplification rules on unary and binary minus haftmann parents: 54148 diff changeset	540
63325 1086d56cde86 misc tuning and modernization; wenzelm parents: 63290 diff changeset	541	lemma neg_eq_iff_add_eq_0: "- a = b \<longleftrightarrow> a + b = 0"
54230 b1d955791529 more simplification rules on unary and binary minus haftmann parents: 54148 diff changeset	542	by (auto simp add: add_eq_0_iff2)
44348 40101794c52f move lemma add_eq_0_iff to Groups.thy huffman parents: 42248 diff changeset	543
63325 1086d56cde86 misc tuning and modernization; wenzelm parents: 63290 diff changeset	544	lemma add_eq_0_iff: "a + b = 0 \<longleftrightarrow> b = - a"
54230 b1d955791529 more simplification rules on unary and binary minus haftmann parents: 54148 diff changeset	545	by (auto simp add: neg_eq_iff_add_eq_0 [symmetric])
45548 3e2722d66169 Groups.thy: generalize several lemmas from class ab_group_add to class group_add huffman parents: 45294 diff changeset	546
63325 1086d56cde86 misc tuning and modernization; wenzelm parents: 63290 diff changeset	547	lemma minus_diff_eq [simp]: "- (a - b) = b - a"
57512 cc97b347b301 reduced name variants for assoc and commute on plus and mult haftmann parents: 56950 diff changeset	548	by (simp only: neg_eq_iff_add_eq_0 diff_conv_add_uminus add.assoc minus_add_cancel) simp
45548 3e2722d66169 Groups.thy: generalize several lemmas from class ab_group_add to class group_add huffman parents: 45294 diff changeset	549
63325 1086d56cde86 misc tuning and modernization; wenzelm parents: 63290 diff changeset	550	lemma add_diff_eq [algebra_simps, field_simps]: "a + (b - c) = (a + b) - c"
57512 cc97b347b301 reduced name variants for assoc and commute on plus and mult haftmann parents: 56950 diff changeset	551	by (simp only: diff_conv_add_uminus add.assoc)
45548 3e2722d66169 Groups.thy: generalize several lemmas from class ab_group_add to class group_add huffman parents: 45294 diff changeset	552
63325 1086d56cde86 misc tuning and modernization; wenzelm parents: 63290 diff changeset	553	lemma diff_add_eq_diff_diff_swap: "a - (b + c) = a - c - b"
57512 cc97b347b301 reduced name variants for assoc and commute on plus and mult haftmann parents: 56950 diff changeset	554	by (simp only: diff_conv_add_uminus add.assoc minus_add)
45548 3e2722d66169 Groups.thy: generalize several lemmas from class ab_group_add to class group_add huffman parents: 45294 diff changeset	555
63325 1086d56cde86 misc tuning and modernization; wenzelm parents: 63290 diff changeset	556	lemma diff_eq_eq [algebra_simps, field_simps]: "a - b = c \<longleftrightarrow> a = c + b"
54230 b1d955791529 more simplification rules on unary and binary minus haftmann parents: 54148 diff changeset	557	by auto
45548 3e2722d66169 Groups.thy: generalize several lemmas from class ab_group_add to class group_add huffman parents: 45294 diff changeset	558
63325 1086d56cde86 misc tuning and modernization; wenzelm parents: 63290 diff changeset	559	lemma eq_diff_eq [algebra_simps, field_simps]: "a = c - b \<longleftrightarrow> a + b = c"
54230 b1d955791529 more simplification rules on unary and binary minus haftmann parents: 54148 diff changeset	560	by auto
b1d955791529 more simplification rules on unary and binary minus haftmann parents: 54148 diff changeset	561
63325 1086d56cde86 misc tuning and modernization; wenzelm parents: 63290 diff changeset	562	lemma diff_diff_eq2 [algebra_simps, field_simps]: "a - (b - c) = (a + c) - b"
57512 cc97b347b301 reduced name variants for assoc and commute on plus and mult haftmann parents: 56950 diff changeset	563	by (simp only: diff_conv_add_uminus add.assoc) simp
45548 3e2722d66169 Groups.thy: generalize several lemmas from class ab_group_add to class group_add huffman parents: 45294 diff changeset	564
63325 1086d56cde86 misc tuning and modernization; wenzelm parents: 63290 diff changeset	565	lemma diff_eq_diff_eq: "a - b = c - d \<Longrightarrow> a = b \<longleftrightarrow> c = d"
54230 b1d955791529 more simplification rules on unary and binary minus haftmann parents: 54148 diff changeset	566	by (simp only: eq_iff_diff_eq_0 [of a b] eq_iff_diff_eq_0 [of c d])
45548 3e2722d66169 Groups.thy: generalize several lemmas from class ab_group_add to class group_add huffman parents: 45294 diff changeset	567
25062 af5ef0d4d655 global class syntax haftmann parents: 24748 diff changeset	568	end
af5ef0d4d655 global class syntax haftmann parents: 24748 diff changeset	569
25762 c03e9d04b3e4 splitted class uminus from class minus haftmann parents: 25613 diff changeset	570	class ab_group_add = minus + uminus + comm_monoid_add +
25062 af5ef0d4d655 global class syntax haftmann parents: 24748 diff changeset	571	assumes ab_left_minus: "- a + a = 0"
59557 ebd8ecacfba6 establish unique preferred fact names haftmann parents: 59322 diff changeset	572	assumes ab_diff_conv_add_uminus: "a - b = a + (- b)"
25267 1f745c599b5c proper reinitialisation after subclass haftmann parents: 25230 diff changeset	573	begin
25062 af5ef0d4d655 global class syntax haftmann parents: 24748 diff changeset	574
25267 1f745c599b5c proper reinitialisation after subclass haftmann parents: 25230 diff changeset	575	subclass group_add
63325 1086d56cde86 misc tuning and modernization; wenzelm parents: 63290 diff changeset	576	by standard (simp_all add: ab_left_minus ab_diff_conv_add_uminus)
25062 af5ef0d4d655 global class syntax haftmann parents: 24748 diff changeset	577
29904 856f16a3b436 add class cancel_comm_monoid_add huffman parents: 29886 diff changeset	578	subclass cancel_comm_monoid_add
28823 dcbef866c9e2 tuned unfold_locales invocation haftmann parents: 28262 diff changeset	579	proof
25062 af5ef0d4d655 global class syntax haftmann parents: 24748 diff changeset	580	fix a b c :: 'a
59815 cce82e360c2f explicit commutative additive inverse operation; haftmann parents: 59559 diff changeset	581	have "b + a - a = b"
cce82e360c2f explicit commutative additive inverse operation; haftmann parents: 59559 diff changeset	582	by simp
cce82e360c2f explicit commutative additive inverse operation; haftmann parents: 59559 diff changeset	583	then show "a + b - a = b"
cce82e360c2f explicit commutative additive inverse operation; haftmann parents: 59559 diff changeset	584	by (simp add: ac_simps)
cce82e360c2f explicit commutative additive inverse operation; haftmann parents: 59559 diff changeset	585	show "a - b - c = a - (b + c)"
cce82e360c2f explicit commutative additive inverse operation; haftmann parents: 59559 diff changeset	586	by (simp add: algebra_simps)
25062 af5ef0d4d655 global class syntax haftmann parents: 24748 diff changeset	587	qed
af5ef0d4d655 global class syntax haftmann parents: 24748 diff changeset	588
63325 1086d56cde86 misc tuning and modernization; wenzelm parents: 63290 diff changeset	589	lemma uminus_add_conv_diff [simp]: "- a + b = b - a"
57512 cc97b347b301 reduced name variants for assoc and commute on plus and mult haftmann parents: 56950 diff changeset	590	by (simp add: add.commute)
25062 af5ef0d4d655 global class syntax haftmann parents: 24748 diff changeset	591
63325 1086d56cde86 misc tuning and modernization; wenzelm parents: 63290 diff changeset	592	lemma minus_add_distrib [simp]: "- (a + b) = - a + - b"
54230 b1d955791529 more simplification rules on unary and binary minus haftmann parents: 54148 diff changeset	593	by (simp add: algebra_simps)
25062 af5ef0d4d655 global class syntax haftmann parents: 24748 diff changeset	594
63325 1086d56cde86 misc tuning and modernization; wenzelm parents: 63290 diff changeset	595	lemma diff_add_eq [algebra_simps, field_simps]: "(a - b) + c = (a + c) - b"
54230 b1d955791529 more simplification rules on unary and binary minus haftmann parents: 54148 diff changeset	596	by (simp add: algebra_simps)
25077 c2ec5e589d78 continued localization haftmann parents: 25062 diff changeset	597
25062 af5ef0d4d655 global class syntax haftmann parents: 24748 diff changeset	598	end
14738 83f1a514dcb4 changes made due to new Ring_and_Field theory obua parents: diff changeset	599
37884 314a88278715 discontinued pretending that abel_cancel is logic-independent; cleaned up junk haftmann parents: 36977 diff changeset	600
62376 85f38d5f8807 Rename ordered_comm_monoid_add to ordered_cancel_comm_monoid_add. Introduce ordreed_comm_monoid_add, canonically_ordered_comm_monoid and dioid. Setup nat, entat and ennreal as dioids. hoelzl parents: 62348 diff changeset	601	subsection \<open>(Partially) Ordered Groups\<close>
14738 83f1a514dcb4 changes made due to new Ring_and_Field theory obua parents: diff changeset	602
60758 d8d85a8172b5 isabelle update_cartouches; wenzelm parents: 59815 diff changeset	603	text \<open>
35301 90e42f9ba4d1 distributed theory Algebras to theories Groups and Lattices haftmann parents: 35267 diff changeset	604	The theory of partially ordered groups is taken from the books:
63325 1086d56cde86 misc tuning and modernization; wenzelm parents: 63290 diff changeset	605
1086d56cde86 misc tuning and modernization; wenzelm parents: 63290 diff changeset	606	\<^item> \<^emph>\<open>Lattice Theory\<close> by Garret Birkhoff, American Mathematical Society, 1979
1086d56cde86 misc tuning and modernization; wenzelm parents: 63290 diff changeset	607	\<^item> \<^emph>\<open>Partially Ordered Algebraic Systems\<close>, Pergamon Press, 1963
1086d56cde86 misc tuning and modernization; wenzelm parents: 63290 diff changeset	608
62376 85f38d5f8807 Rename ordered_comm_monoid_add to ordered_cancel_comm_monoid_add. Introduce ordreed_comm_monoid_add, canonically_ordered_comm_monoid and dioid. Setup nat, entat and ennreal as dioids. hoelzl parents: 62348 diff changeset	609	Most of the used notions can also be looked up in
63680 6e1e8b5abbfa more symbols; wenzelm parents: 63588 diff changeset	610	\<^item> \<^url>\<open>http://www.mathworld.com\<close> by Eric Weisstein et. al.
63325 1086d56cde86 misc tuning and modernization; wenzelm parents: 63290 diff changeset	611	\<^item> \<^emph>\<open>Algebra I\<close> by van der Waerden, Springer
60758 d8d85a8172b5 isabelle update_cartouches; wenzelm parents: 59815 diff changeset	612	\<close>
35301 90e42f9ba4d1 distributed theory Algebras to theories Groups and Lattices haftmann parents: 35267 diff changeset	613
35028 108662d50512 more consistent naming of type classes involving orderings (and lattices) -- c.f. NEWS haftmann parents: 34973 diff changeset	614	class ordered_ab_semigroup_add = order + ab_semigroup_add +
25062 af5ef0d4d655 global class syntax haftmann parents: 24748 diff changeset	615	assumes add_left_mono: "a \<le> b \<Longrightarrow> c + a \<le> c + b"
af5ef0d4d655 global class syntax haftmann parents: 24748 diff changeset	616	begin
24380 c215e256beca moved ordered_ab_semigroup_add to OrderedGroup.thy haftmann parents: 24286 diff changeset	617
63325 1086d56cde86 misc tuning and modernization; wenzelm parents: 63290 diff changeset	618	lemma add_right_mono: "a \<le> b \<Longrightarrow> a + c \<le> b + c"
1086d56cde86 misc tuning and modernization; wenzelm parents: 63290 diff changeset	619	by (simp add: add.commute [of _ c] add_left_mono)
14738 83f1a514dcb4 changes made due to new Ring_and_Field theory obua parents: diff changeset	620
60758 d8d85a8172b5 isabelle update_cartouches; wenzelm parents: 59815 diff changeset	621	text \<open>non-strict, in both arguments\<close>
63325 1086d56cde86 misc tuning and modernization; wenzelm parents: 63290 diff changeset	622	lemma add_mono: "a \<le> b \<Longrightarrow> c \<le> d \<Longrightarrow> a + c \<le> b + d"
14738 83f1a514dcb4 changes made due to new Ring_and_Field theory obua parents: diff changeset	623	apply (erule add_right_mono [THEN order_trans])
57512 cc97b347b301 reduced name variants for assoc and commute on plus and mult haftmann parents: 56950 diff changeset	624	apply (simp add: add.commute add_left_mono)
14738 83f1a514dcb4 changes made due to new Ring_and_Field theory obua parents: diff changeset	625	done
83f1a514dcb4 changes made due to new Ring_and_Field theory obua parents: diff changeset	626
25062 af5ef0d4d655 global class syntax haftmann parents: 24748 diff changeset	627	end
af5ef0d4d655 global class syntax haftmann parents: 24748 diff changeset	628
63325 1086d56cde86 misc tuning and modernization; wenzelm parents: 63290 diff changeset	629	text \<open>Strict monotonicity in both arguments\<close>
62377 ace69956d018 moved more proofs to ordered_comm_monoid_add; introduced strict_ordered_ab_semigroup/comm_monoid_add hoelzl parents: 62376 diff changeset	630	class strict_ordered_ab_semigroup_add = ordered_ab_semigroup_add +
ace69956d018 moved more proofs to ordered_comm_monoid_add; introduced strict_ordered_ab_semigroup/comm_monoid_add hoelzl parents: 62376 diff changeset	631	assumes add_strict_mono: "a < b \<Longrightarrow> c < d \<Longrightarrow> a + c < b + d"
ace69956d018 moved more proofs to ordered_comm_monoid_add; introduced strict_ordered_ab_semigroup/comm_monoid_add hoelzl parents: 62376 diff changeset	632
35028 108662d50512 more consistent naming of type classes involving orderings (and lattices) -- c.f. NEWS haftmann parents: 34973 diff changeset	633	class ordered_cancel_ab_semigroup_add =
108662d50512 more consistent naming of type classes involving orderings (and lattices) -- c.f. NEWS haftmann parents: 34973 diff changeset	634	ordered_ab_semigroup_add + cancel_ab_semigroup_add
25062 af5ef0d4d655 global class syntax haftmann parents: 24748 diff changeset	635	begin
af5ef0d4d655 global class syntax haftmann parents: 24748 diff changeset	636
63325 1086d56cde86 misc tuning and modernization; wenzelm parents: 63290 diff changeset	637	lemma add_strict_left_mono: "a < b \<Longrightarrow> c + a < c + b"
1086d56cde86 misc tuning and modernization; wenzelm parents: 63290 diff changeset	638	by (auto simp add: less_le add_left_mono)
14738 83f1a514dcb4 changes made due to new Ring_and_Field theory obua parents: diff changeset	639
63325 1086d56cde86 misc tuning and modernization; wenzelm parents: 63290 diff changeset	640	lemma add_strict_right_mono: "a < b \<Longrightarrow> a + c < b + c"
1086d56cde86 misc tuning and modernization; wenzelm parents: 63290 diff changeset	641	by (simp add: add.commute [of _ c] add_strict_left_mono)
14738 83f1a514dcb4 changes made due to new Ring_and_Field theory obua parents: diff changeset	642
62377 ace69956d018 moved more proofs to ordered_comm_monoid_add; introduced strict_ordered_ab_semigroup/comm_monoid_add hoelzl parents: 62376 diff changeset	643	subclass strict_ordered_ab_semigroup_add
ace69956d018 moved more proofs to ordered_comm_monoid_add; introduced strict_ordered_ab_semigroup/comm_monoid_add hoelzl parents: 62376 diff changeset	644	apply standard
ace69956d018 moved more proofs to ordered_comm_monoid_add; introduced strict_ordered_ab_semigroup/comm_monoid_add hoelzl parents: 62376 diff changeset	645	apply (erule add_strict_right_mono [THEN less_trans])
ace69956d018 moved more proofs to ordered_comm_monoid_add; introduced strict_ordered_ab_semigroup/comm_monoid_add hoelzl parents: 62376 diff changeset	646	apply (erule add_strict_left_mono)
ace69956d018 moved more proofs to ordered_comm_monoid_add; introduced strict_ordered_ab_semigroup/comm_monoid_add hoelzl parents: 62376 diff changeset	647	done
14738 83f1a514dcb4 changes made due to new Ring_and_Field theory obua parents: diff changeset	648
63325 1086d56cde86 misc tuning and modernization; wenzelm parents: 63290 diff changeset	649	lemma add_less_le_mono: "a < b \<Longrightarrow> c \<le> d \<Longrightarrow> a + c < b + d"
1086d56cde86 misc tuning and modernization; wenzelm parents: 63290 diff changeset	650	apply (erule add_strict_right_mono [THEN less_le_trans])
1086d56cde86 misc tuning and modernization; wenzelm parents: 63290 diff changeset	651	apply (erule add_left_mono)
1086d56cde86 misc tuning and modernization; wenzelm parents: 63290 diff changeset	652	done
14738 83f1a514dcb4 changes made due to new Ring_and_Field theory obua parents: diff changeset	653
63325 1086d56cde86 misc tuning and modernization; wenzelm parents: 63290 diff changeset	654	lemma add_le_less_mono: "a \<le> b \<Longrightarrow> c < d \<Longrightarrow> a + c < b + d"
1086d56cde86 misc tuning and modernization; wenzelm parents: 63290 diff changeset	655	apply (erule add_right_mono [THEN le_less_trans])
1086d56cde86 misc tuning and modernization; wenzelm parents: 63290 diff changeset	656	apply (erule add_strict_left_mono)
1086d56cde86 misc tuning and modernization; wenzelm parents: 63290 diff changeset	657	done
14738 83f1a514dcb4 changes made due to new Ring_and_Field theory obua parents: diff changeset	658
25062 af5ef0d4d655 global class syntax haftmann parents: 24748 diff changeset	659	end
af5ef0d4d655 global class syntax haftmann parents: 24748 diff changeset	660
62377 ace69956d018 moved more proofs to ordered_comm_monoid_add; introduced strict_ordered_ab_semigroup/comm_monoid_add hoelzl parents: 62376 diff changeset	661	class ordered_ab_semigroup_add_imp_le = ordered_cancel_ab_semigroup_add +
25062 af5ef0d4d655 global class syntax haftmann parents: 24748 diff changeset	662	assumes add_le_imp_le_left: "c + a \<le> c + b \<Longrightarrow> a \<le> b"
af5ef0d4d655 global class syntax haftmann parents: 24748 diff changeset	663	begin
af5ef0d4d655 global class syntax haftmann parents: 24748 diff changeset	664
14738 83f1a514dcb4 changes made due to new Ring_and_Field theory obua parents: diff changeset	665	lemma add_less_imp_less_left:
63325 1086d56cde86 misc tuning and modernization; wenzelm parents: 63290 diff changeset	666	assumes less: "c + a < c + b"
1086d56cde86 misc tuning and modernization; wenzelm parents: 63290 diff changeset	667	shows "a < b"
14738 83f1a514dcb4 changes made due to new Ring_and_Field theory obua parents: diff changeset	668	proof -
63325 1086d56cde86 misc tuning and modernization; wenzelm parents: 63290 diff changeset	669	from less have le: "c + a \<le> c + b"
1086d56cde86 misc tuning and modernization; wenzelm parents: 63290 diff changeset	670	by (simp add: order_le_less)
1086d56cde86 misc tuning and modernization; wenzelm parents: 63290 diff changeset	671	have "a \<le> b"
14738 83f1a514dcb4 changes made due to new Ring_and_Field theory obua parents: diff changeset	672	apply (insert le)
83f1a514dcb4 changes made due to new Ring_and_Field theory obua parents: diff changeset	673	apply (drule add_le_imp_le_left)
63325 1086d56cde86 misc tuning and modernization; wenzelm parents: 63290 diff changeset	674	apply (insert le)
1086d56cde86 misc tuning and modernization; wenzelm parents: 63290 diff changeset	675	apply (drule add_le_imp_le_left)
1086d56cde86 misc tuning and modernization; wenzelm parents: 63290 diff changeset	676	apply assumption
1086d56cde86 misc tuning and modernization; wenzelm parents: 63290 diff changeset	677	done
14738 83f1a514dcb4 changes made due to new Ring_and_Field theory obua parents: diff changeset	678	moreover have "a \<noteq> b"
83f1a514dcb4 changes made due to new Ring_and_Field theory obua parents: diff changeset	679	proof (rule ccontr)
63325 1086d56cde86 misc tuning and modernization; wenzelm parents: 63290 diff changeset	680	assume "\<not> ?thesis"
14738 83f1a514dcb4 changes made due to new Ring_and_Field theory obua parents: diff changeset	681	then have "a = b" by simp
83f1a514dcb4 changes made due to new Ring_and_Field theory obua parents: diff changeset	682	then have "c + a = c + b" by simp
63325 1086d56cde86 misc tuning and modernization; wenzelm parents: 63290 diff changeset	683	with less show "False" by simp
14738 83f1a514dcb4 changes made due to new Ring_and_Field theory obua parents: diff changeset	684	qed
63325 1086d56cde86 misc tuning and modernization; wenzelm parents: 63290 diff changeset	685	ultimately show "a < b"
1086d56cde86 misc tuning and modernization; wenzelm parents: 63290 diff changeset	686	by (simp add: order_le_less)
14738 83f1a514dcb4 changes made due to new Ring_and_Field theory obua parents: diff changeset	687	qed
83f1a514dcb4 changes made due to new Ring_and_Field theory obua parents: diff changeset	688
63325 1086d56cde86 misc tuning and modernization; wenzelm parents: 63290 diff changeset	689	lemma add_less_imp_less_right: "a + c < b + c \<Longrightarrow> a < b"
1086d56cde86 misc tuning and modernization; wenzelm parents: 63290 diff changeset	690	by (rule add_less_imp_less_left [of c]) (simp add: add.commute)
14738 83f1a514dcb4 changes made due to new Ring_and_Field theory obua parents: diff changeset	691
63325 1086d56cde86 misc tuning and modernization; wenzelm parents: 63290 diff changeset	692	lemma add_less_cancel_left [simp]: "c + a < c + b \<longleftrightarrow> a < b"
62376 85f38d5f8807 Rename ordered_comm_monoid_add to ordered_cancel_comm_monoid_add. Introduce ordreed_comm_monoid_add, canonically_ordered_comm_monoid and dioid. Setup nat, entat and ennreal as dioids. hoelzl parents: 62348 diff changeset	693	by (blast intro: add_less_imp_less_left add_strict_left_mono)
14738 83f1a514dcb4 changes made due to new Ring_and_Field theory obua parents: diff changeset	694
63325 1086d56cde86 misc tuning and modernization; wenzelm parents: 63290 diff changeset	695	lemma add_less_cancel_right [simp]: "a + c < b + c \<longleftrightarrow> a < b"
54230 b1d955791529 more simplification rules on unary and binary minus haftmann parents: 54148 diff changeset	696	by (blast intro: add_less_imp_less_right add_strict_right_mono)
14738 83f1a514dcb4 changes made due to new Ring_and_Field theory obua parents: diff changeset	697
63325 1086d56cde86 misc tuning and modernization; wenzelm parents: 63290 diff changeset	698	lemma add_le_cancel_left [simp]: "c + a \<le> c + b \<longleftrightarrow> a \<le> b"
1086d56cde86 misc tuning and modernization; wenzelm parents: 63290 diff changeset	699	apply auto
63588 d0e2bad67bd4 misc tuning and modernization; wenzelm parents: 63456 diff changeset	700	apply (drule add_le_imp_le_left)
d0e2bad67bd4 misc tuning and modernization; wenzelm parents: 63456 diff changeset	701	apply (simp_all add: add_left_mono)
63325 1086d56cde86 misc tuning and modernization; wenzelm parents: 63290 diff changeset	702	done
14738 83f1a514dcb4 changes made due to new Ring_and_Field theory obua parents: diff changeset	703
63325 1086d56cde86 misc tuning and modernization; wenzelm parents: 63290 diff changeset	704	lemma add_le_cancel_right [simp]: "a + c \<le> b + c \<longleftrightarrow> a \<le> b"
57512 cc97b347b301 reduced name variants for assoc and commute on plus and mult haftmann parents: 56950 diff changeset	705	by (simp add: add.commute [of a c] add.commute [of b c])
14738 83f1a514dcb4 changes made due to new Ring_and_Field theory obua parents: diff changeset	706
63325 1086d56cde86 misc tuning and modernization; wenzelm parents: 63290 diff changeset	707	lemma add_le_imp_le_right: "a + c \<le> b + c \<Longrightarrow> a \<le> b"
1086d56cde86 misc tuning and modernization; wenzelm parents: 63290 diff changeset	708	by simp
25062 af5ef0d4d655 global class syntax haftmann parents: 24748 diff changeset	709
63325 1086d56cde86 misc tuning and modernization; wenzelm parents: 63290 diff changeset	710	lemma max_add_distrib_left: "max x y + z = max (x + z) (y + z)"
25077 c2ec5e589d78 continued localization haftmann parents: 25062 diff changeset	711	unfolding max_def by auto
c2ec5e589d78 continued localization haftmann parents: 25062 diff changeset	712
63325 1086d56cde86 misc tuning and modernization; wenzelm parents: 63290 diff changeset	713	lemma min_add_distrib_left: "min x y + z = min (x + z) (y + z)"
25077 c2ec5e589d78 continued localization haftmann parents: 25062 diff changeset	714	unfolding min_def by auto
c2ec5e589d78 continued localization haftmann parents: 25062 diff changeset	715
63325 1086d56cde86 misc tuning and modernization; wenzelm parents: 63290 diff changeset	716	lemma max_add_distrib_right: "x + max y z = max (x + y) (x + z)"
44848 f4d0b060c7ca remove lemmas nat_add_min_{left,right} in favor of generic lemmas min_add_distrib_{left,right} huffman parents: 44433 diff changeset	717	unfolding max_def by auto
f4d0b060c7ca remove lemmas nat_add_min_{left,right} in favor of generic lemmas min_add_distrib_{left,right} huffman parents: 44433 diff changeset	718
63325 1086d56cde86 misc tuning and modernization; wenzelm parents: 63290 diff changeset	719	lemma min_add_distrib_right: "x + min y z = min (x + y) (x + z)"
44848 f4d0b060c7ca remove lemmas nat_add_min_{left,right} in favor of generic lemmas min_add_distrib_{left,right} huffman parents: 44433 diff changeset	720	unfolding min_def by auto
f4d0b060c7ca remove lemmas nat_add_min_{left,right} in favor of generic lemmas min_add_distrib_{left,right} huffman parents: 44433 diff changeset	721
25062 af5ef0d4d655 global class syntax haftmann parents: 24748 diff changeset	722	end
af5ef0d4d655 global class syntax haftmann parents: 24748 diff changeset	723
62376 85f38d5f8807 Rename ordered_comm_monoid_add to ordered_cancel_comm_monoid_add. Introduce ordreed_comm_monoid_add, canonically_ordered_comm_monoid and dioid. Setup nat, entat and ennreal as dioids. hoelzl parents: 62348 diff changeset	724	subsection \<open>Support for reasoning about signs\<close>
85f38d5f8807 Rename ordered_comm_monoid_add to ordered_cancel_comm_monoid_add. Introduce ordreed_comm_monoid_add, canonically_ordered_comm_monoid and dioid. Setup nat, entat and ennreal as dioids. hoelzl parents: 62348 diff changeset	725
85f38d5f8807 Rename ordered_comm_monoid_add to ordered_cancel_comm_monoid_add. Introduce ordreed_comm_monoid_add, canonically_ordered_comm_monoid and dioid. Setup nat, entat and ennreal as dioids. hoelzl parents: 62348 diff changeset	726	class ordered_comm_monoid_add = comm_monoid_add + ordered_ab_semigroup_add
85f38d5f8807 Rename ordered_comm_monoid_add to ordered_cancel_comm_monoid_add. Introduce ordreed_comm_monoid_add, canonically_ordered_comm_monoid and dioid. Setup nat, entat and ennreal as dioids. hoelzl parents: 62348 diff changeset	727	begin
85f38d5f8807 Rename ordered_comm_monoid_add to ordered_cancel_comm_monoid_add. Introduce ordreed_comm_monoid_add, canonically_ordered_comm_monoid and dioid. Setup nat, entat and ennreal as dioids. hoelzl parents: 62348 diff changeset	728
63325 1086d56cde86 misc tuning and modernization; wenzelm parents: 63290 diff changeset	729	lemma add_nonneg_nonneg [simp]: "0 \<le> a \<Longrightarrow> 0 \<le> b \<Longrightarrow> 0 \<le> a + b"
62377 ace69956d018 moved more proofs to ordered_comm_monoid_add; introduced strict_ordered_ab_semigroup/comm_monoid_add hoelzl parents: 62376 diff changeset	730	using add_mono[of 0 a 0 b] by simp
62376 85f38d5f8807 Rename ordered_comm_monoid_add to ordered_cancel_comm_monoid_add. Introduce ordreed_comm_monoid_add, canonically_ordered_comm_monoid and dioid. Setup nat, entat and ennreal as dioids. hoelzl parents: 62348 diff changeset	731
63325 1086d56cde86 misc tuning and modernization; wenzelm parents: 63290 diff changeset	732	lemma add_nonpos_nonpos: "a \<le> 0 \<Longrightarrow> b \<le> 0 \<Longrightarrow> a + b \<le> 0"
62377 ace69956d018 moved more proofs to ordered_comm_monoid_add; introduced strict_ordered_ab_semigroup/comm_monoid_add hoelzl parents: 62376 diff changeset	733	using add_mono[of a 0 b 0] by simp
62376 85f38d5f8807 Rename ordered_comm_monoid_add to ordered_cancel_comm_monoid_add. Introduce ordreed_comm_monoid_add, canonically_ordered_comm_monoid and dioid. Setup nat, entat and ennreal as dioids. hoelzl parents: 62348 diff changeset	734
63325 1086d56cde86 misc tuning and modernization; wenzelm parents: 63290 diff changeset	735	lemma add_nonneg_eq_0_iff: "0 \<le> x \<Longrightarrow> 0 \<le> y \<Longrightarrow> x + y = 0 \<longleftrightarrow> x = 0 \<and> y = 0"
62377 ace69956d018 moved more proofs to ordered_comm_monoid_add; introduced strict_ordered_ab_semigroup/comm_monoid_add hoelzl parents: 62376 diff changeset	736	using add_left_mono[of 0 y x] add_right_mono[of 0 x y] by auto
ace69956d018 moved more proofs to ordered_comm_monoid_add; introduced strict_ordered_ab_semigroup/comm_monoid_add hoelzl parents: 62376 diff changeset	737
63325 1086d56cde86 misc tuning and modernization; wenzelm parents: 63290 diff changeset	738	lemma add_nonpos_eq_0_iff: "x \<le> 0 \<Longrightarrow> y \<le> 0 \<Longrightarrow> x + y = 0 \<longleftrightarrow> x = 0 \<and> y = 0"
62377 ace69956d018 moved more proofs to ordered_comm_monoid_add; introduced strict_ordered_ab_semigroup/comm_monoid_add hoelzl parents: 62376 diff changeset	739	using add_left_mono[of y 0 x] add_right_mono[of x 0 y] by auto
62376 85f38d5f8807 Rename ordered_comm_monoid_add to ordered_cancel_comm_monoid_add. Introduce ordreed_comm_monoid_add, canonically_ordered_comm_monoid and dioid. Setup nat, entat and ennreal as dioids. hoelzl parents: 62348 diff changeset	740
63325 1086d56cde86 misc tuning and modernization; wenzelm parents: 63290 diff changeset	741	lemma add_increasing: "0 \<le> a \<Longrightarrow> b \<le> c \<Longrightarrow> b \<le> a + c"
1086d56cde86 misc tuning and modernization; wenzelm parents: 63290 diff changeset	742	using add_mono [of 0 a b c] by simp
62376 85f38d5f8807 Rename ordered_comm_monoid_add to ordered_cancel_comm_monoid_add. Introduce ordreed_comm_monoid_add, canonically_ordered_comm_monoid and dioid. Setup nat, entat and ennreal as dioids. hoelzl parents: 62348 diff changeset	743
63325 1086d56cde86 misc tuning and modernization; wenzelm parents: 63290 diff changeset	744	lemma add_increasing2: "0 \<le> c \<Longrightarrow> b \<le> a \<Longrightarrow> b \<le> a + c"
62376 85f38d5f8807 Rename ordered_comm_monoid_add to ordered_cancel_comm_monoid_add. Introduce ordreed_comm_monoid_add, canonically_ordered_comm_monoid and dioid. Setup nat, entat and ennreal as dioids. hoelzl parents: 62348 diff changeset	745	by (simp add: add_increasing add.commute [of a])
85f38d5f8807 Rename ordered_comm_monoid_add to ordered_cancel_comm_monoid_add. Introduce ordreed_comm_monoid_add, canonically_ordered_comm_monoid and dioid. Setup nat, entat and ennreal as dioids. hoelzl parents: 62348 diff changeset	746
63325 1086d56cde86 misc tuning and modernization; wenzelm parents: 63290 diff changeset	747	lemma add_decreasing: "a \<le> 0 \<Longrightarrow> c \<le> b \<Longrightarrow> a + c \<le> b"
1086d56cde86 misc tuning and modernization; wenzelm parents: 63290 diff changeset	748	using add_mono [of a 0 c b] by simp
52289 83ce5d2841e7 type class for confined subtraction haftmann parents: 52210 diff changeset	749
63325 1086d56cde86 misc tuning and modernization; wenzelm parents: 63290 diff changeset	750	lemma add_decreasing2: "c \<le> 0 \<Longrightarrow> a \<le> b \<Longrightarrow> a + c \<le> b"
62377 ace69956d018 moved more proofs to ordered_comm_monoid_add; introduced strict_ordered_ab_semigroup/comm_monoid_add hoelzl parents: 62376 diff changeset	751	using add_mono[of a b c 0] by simp
52289 83ce5d2841e7 type class for confined subtraction haftmann parents: 52210 diff changeset	752
62377 ace69956d018 moved more proofs to ordered_comm_monoid_add; introduced strict_ordered_ab_semigroup/comm_monoid_add hoelzl parents: 62376 diff changeset	753	lemma add_pos_nonneg: "0 < a \<Longrightarrow> 0 \<le> b \<Longrightarrow> 0 < a + b"
ace69956d018 moved more proofs to ordered_comm_monoid_add; introduced strict_ordered_ab_semigroup/comm_monoid_add hoelzl parents: 62376 diff changeset	754	using less_le_trans[of 0 a "a + b"] by (simp add: add_increasing2)
52289 83ce5d2841e7 type class for confined subtraction haftmann parents: 52210 diff changeset	755
62377 ace69956d018 moved more proofs to ordered_comm_monoid_add; introduced strict_ordered_ab_semigroup/comm_monoid_add hoelzl parents: 62376 diff changeset	756	lemma add_pos_pos: "0 < a \<Longrightarrow> 0 < b \<Longrightarrow> 0 < a + b"
ace69956d018 moved more proofs to ordered_comm_monoid_add; introduced strict_ordered_ab_semigroup/comm_monoid_add hoelzl parents: 62376 diff changeset	757	by (intro add_pos_nonneg less_imp_le)
52289 83ce5d2841e7 type class for confined subtraction haftmann parents: 52210 diff changeset	758
62377 ace69956d018 moved more proofs to ordered_comm_monoid_add; introduced strict_ordered_ab_semigroup/comm_monoid_add hoelzl parents: 62376 diff changeset	759	lemma add_nonneg_pos: "0 \<le> a \<Longrightarrow> 0 < b \<Longrightarrow> 0 < a + b"
ace69956d018 moved more proofs to ordered_comm_monoid_add; introduced strict_ordered_ab_semigroup/comm_monoid_add hoelzl parents: 62376 diff changeset	760	using add_pos_nonneg[of b a] by (simp add: add_commute)
62376 85f38d5f8807 Rename ordered_comm_monoid_add to ordered_cancel_comm_monoid_add. Introduce ordreed_comm_monoid_add, canonically_ordered_comm_monoid and dioid. Setup nat, entat and ennreal as dioids. hoelzl parents: 62348 diff changeset	761
62377 ace69956d018 moved more proofs to ordered_comm_monoid_add; introduced strict_ordered_ab_semigroup/comm_monoid_add hoelzl parents: 62376 diff changeset	762	lemma add_neg_nonpos: "a < 0 \<Longrightarrow> b \<le> 0 \<Longrightarrow> a + b < 0"
ace69956d018 moved more proofs to ordered_comm_monoid_add; introduced strict_ordered_ab_semigroup/comm_monoid_add hoelzl parents: 62376 diff changeset	763	using le_less_trans[of "a + b" a 0] by (simp add: add_decreasing2)
25303 0699e20feabd renamed lordered__ to lordered__add_; further localization haftmann parents: 25267 diff changeset	764
62377 ace69956d018 moved more proofs to ordered_comm_monoid_add; introduced strict_ordered_ab_semigroup/comm_monoid_add hoelzl parents: 62376 diff changeset	765	lemma add_neg_neg: "a < 0 \<Longrightarrow> b < 0 \<Longrightarrow> a + b < 0"
ace69956d018 moved more proofs to ordered_comm_monoid_add; introduced strict_ordered_ab_semigroup/comm_monoid_add hoelzl parents: 62376 diff changeset	766	by (intro add_neg_nonpos less_imp_le)
25303 0699e20feabd renamed lordered__ to lordered__add_; further localization haftmann parents: 25267 diff changeset	767
62377 ace69956d018 moved more proofs to ordered_comm_monoid_add; introduced strict_ordered_ab_semigroup/comm_monoid_add hoelzl parents: 62376 diff changeset	768	lemma add_nonpos_neg: "a \<le> 0 \<Longrightarrow> b < 0 \<Longrightarrow> a + b < 0"
ace69956d018 moved more proofs to ordered_comm_monoid_add; introduced strict_ordered_ab_semigroup/comm_monoid_add hoelzl parents: 62376 diff changeset	769	using add_neg_nonpos[of b a] by (simp add: add_commute)
25303 0699e20feabd renamed lordered__ to lordered__add_; further localization haftmann parents: 25267 diff changeset	770
30691 0047f57f6669 lemmas add_sign_intros huffman parents: 30629 diff changeset	771	lemmas add_sign_intros =
0047f57f6669 lemmas add_sign_intros huffman parents: 30629 diff changeset	772	add_pos_nonneg add_pos_pos add_nonneg_pos add_nonneg_nonneg
0047f57f6669 lemmas add_sign_intros huffman parents: 30629 diff changeset	773	add_neg_nonpos add_neg_neg add_nonpos_neg add_nonpos_nonpos
0047f57f6669 lemmas add_sign_intros huffman parents: 30629 diff changeset	774
62377 ace69956d018 moved more proofs to ordered_comm_monoid_add; introduced strict_ordered_ab_semigroup/comm_monoid_add hoelzl parents: 62376 diff changeset	775	end
ace69956d018 moved more proofs to ordered_comm_monoid_add; introduced strict_ordered_ab_semigroup/comm_monoid_add hoelzl parents: 62376 diff changeset	776
ace69956d018 moved more proofs to ordered_comm_monoid_add; introduced strict_ordered_ab_semigroup/comm_monoid_add hoelzl parents: 62376 diff changeset	777	class strict_ordered_comm_monoid_add = comm_monoid_add + strict_ordered_ab_semigroup_add
62378 85ed00c1fe7c generalize more theorems to support enat and ennreal hoelzl parents: 62377 diff changeset	778	begin
85ed00c1fe7c generalize more theorems to support enat and ennreal hoelzl parents: 62377 diff changeset	779
63325 1086d56cde86 misc tuning and modernization; wenzelm parents: 63290 diff changeset	780	lemma pos_add_strict: "0 < a \<Longrightarrow> b < c \<Longrightarrow> b < a + c"
62378 85ed00c1fe7c generalize more theorems to support enat and ennreal hoelzl parents: 62377 diff changeset	781	using add_strict_mono [of 0 a b c] by simp
85ed00c1fe7c generalize more theorems to support enat and ennreal hoelzl parents: 62377 diff changeset	782
85ed00c1fe7c generalize more theorems to support enat and ennreal hoelzl parents: 62377 diff changeset	783	end
62377 ace69956d018 moved more proofs to ordered_comm_monoid_add; introduced strict_ordered_ab_semigroup/comm_monoid_add hoelzl parents: 62376 diff changeset	784
ace69956d018 moved more proofs to ordered_comm_monoid_add; introduced strict_ordered_ab_semigroup/comm_monoid_add hoelzl parents: 62376 diff changeset	785	class ordered_cancel_comm_monoid_add = ordered_comm_monoid_add + cancel_ab_semigroup_add
ace69956d018 moved more proofs to ordered_comm_monoid_add; introduced strict_ordered_ab_semigroup/comm_monoid_add hoelzl parents: 62376 diff changeset	786	begin
ace69956d018 moved more proofs to ordered_comm_monoid_add; introduced strict_ordered_ab_semigroup/comm_monoid_add hoelzl parents: 62376 diff changeset	787
ace69956d018 moved more proofs to ordered_comm_monoid_add; introduced strict_ordered_ab_semigroup/comm_monoid_add hoelzl parents: 62376 diff changeset	788	subclass ordered_cancel_ab_semigroup_add ..
ace69956d018 moved more proofs to ordered_comm_monoid_add; introduced strict_ordered_ab_semigroup/comm_monoid_add hoelzl parents: 62376 diff changeset	789	subclass strict_ordered_comm_monoid_add ..
ace69956d018 moved more proofs to ordered_comm_monoid_add; introduced strict_ordered_ab_semigroup/comm_monoid_add hoelzl parents: 62376 diff changeset	790
63325 1086d56cde86 misc tuning and modernization; wenzelm parents: 63290 diff changeset	791	lemma add_strict_increasing: "0 < a \<Longrightarrow> b \<le> c \<Longrightarrow> b < a + c"
1086d56cde86 misc tuning and modernization; wenzelm parents: 63290 diff changeset	792	using add_less_le_mono [of 0 a b c] by simp
54230 b1d955791529 more simplification rules on unary and binary minus haftmann parents: 54148 diff changeset	793
63325 1086d56cde86 misc tuning and modernization; wenzelm parents: 63290 diff changeset	794	lemma add_strict_increasing2: "0 \<le> a \<Longrightarrow> b < c \<Longrightarrow> b < a + c"
1086d56cde86 misc tuning and modernization; wenzelm parents: 63290 diff changeset	795	using add_le_less_mono [of 0 a b c] by simp
54230 b1d955791529 more simplification rules on unary and binary minus haftmann parents: 54148 diff changeset	796
25303 0699e20feabd renamed lordered__ to lordered__add_; further localization haftmann parents: 25267 diff changeset	797	end
0699e20feabd renamed lordered__ to lordered__add_; further localization haftmann parents: 25267 diff changeset	798
63456 3365c8ec67bd sharing simp rules between ordered monoids and rings fleury <Mathias.Fleury@mpi-inf.mpg.de> parents: 63364 diff changeset	799	class ordered_ab_semigroup_monoid_add_imp_le = monoid_add + ordered_ab_semigroup_add_imp_le
3365c8ec67bd sharing simp rules between ordered monoids and rings fleury <Mathias.Fleury@mpi-inf.mpg.de> parents: 63364 diff changeset	800	begin
3365c8ec67bd sharing simp rules between ordered monoids and rings fleury <Mathias.Fleury@mpi-inf.mpg.de> parents: 63364 diff changeset	801
63588 d0e2bad67bd4 misc tuning and modernization; wenzelm parents: 63456 diff changeset	802	lemma add_less_same_cancel1 [simp]: "b + a < b \<longleftrightarrow> a < 0"
63456 3365c8ec67bd sharing simp rules between ordered monoids and rings fleury <Mathias.Fleury@mpi-inf.mpg.de> parents: 63364 diff changeset	803	using add_less_cancel_left [of _ _ 0] by simp
3365c8ec67bd sharing simp rules between ordered monoids and rings fleury <Mathias.Fleury@mpi-inf.mpg.de> parents: 63364 diff changeset	804
63588 d0e2bad67bd4 misc tuning and modernization; wenzelm parents: 63456 diff changeset	805	lemma add_less_same_cancel2 [simp]: "a + b < b \<longleftrightarrow> a < 0"
63456 3365c8ec67bd sharing simp rules between ordered monoids and rings fleury <Mathias.Fleury@mpi-inf.mpg.de> parents: 63364 diff changeset	806	using add_less_cancel_right [of _ _ 0] by simp
3365c8ec67bd sharing simp rules between ordered monoids and rings fleury <Mathias.Fleury@mpi-inf.mpg.de> parents: 63364 diff changeset	807
63588 d0e2bad67bd4 misc tuning and modernization; wenzelm parents: 63456 diff changeset	808	lemma less_add_same_cancel1 [simp]: "a < a + b \<longleftrightarrow> 0 < b"
63456 3365c8ec67bd sharing simp rules between ordered monoids and rings fleury <Mathias.Fleury@mpi-inf.mpg.de> parents: 63364 diff changeset	809	using add_less_cancel_left [of _ 0] by simp
3365c8ec67bd sharing simp rules between ordered monoids and rings fleury <Mathias.Fleury@mpi-inf.mpg.de> parents: 63364 diff changeset	810
63588 d0e2bad67bd4 misc tuning and modernization; wenzelm parents: 63456 diff changeset	811	lemma less_add_same_cancel2 [simp]: "a < b + a \<longleftrightarrow> 0 < b"
63456 3365c8ec67bd sharing simp rules between ordered monoids and rings fleury <Mathias.Fleury@mpi-inf.mpg.de> parents: 63364 diff changeset	812	using add_less_cancel_right [of 0] by simp
3365c8ec67bd sharing simp rules between ordered monoids and rings fleury <Mathias.Fleury@mpi-inf.mpg.de> parents: 63364 diff changeset	813
63588 d0e2bad67bd4 misc tuning and modernization; wenzelm parents: 63456 diff changeset	814	lemma add_le_same_cancel1 [simp]: "b + a \<le> b \<longleftrightarrow> a \<le> 0"
63456 3365c8ec67bd sharing simp rules between ordered monoids and rings fleury <Mathias.Fleury@mpi-inf.mpg.de> parents: 63364 diff changeset	815	using add_le_cancel_left [of _ _ 0] by simp
3365c8ec67bd sharing simp rules between ordered monoids and rings fleury <Mathias.Fleury@mpi-inf.mpg.de> parents: 63364 diff changeset	816
63588 d0e2bad67bd4 misc tuning and modernization; wenzelm parents: 63456 diff changeset	817	lemma add_le_same_cancel2 [simp]: "a + b \<le> b \<longleftrightarrow> a \<le> 0"
63456 3365c8ec67bd sharing simp rules between ordered monoids and rings fleury <Mathias.Fleury@mpi-inf.mpg.de> parents: 63364 diff changeset	818	using add_le_cancel_right [of _ _ 0] by simp
3365c8ec67bd sharing simp rules between ordered monoids and rings fleury <Mathias.Fleury@mpi-inf.mpg.de> parents: 63364 diff changeset	819
63588 d0e2bad67bd4 misc tuning and modernization; wenzelm parents: 63456 diff changeset	820	lemma le_add_same_cancel1 [simp]: "a \<le> a + b \<longleftrightarrow> 0 \<le> b"
63456 3365c8ec67bd sharing simp rules between ordered monoids and rings fleury <Mathias.Fleury@mpi-inf.mpg.de> parents: 63364 diff changeset	821	using add_le_cancel_left [of _ 0] by simp
3365c8ec67bd sharing simp rules between ordered monoids and rings fleury <Mathias.Fleury@mpi-inf.mpg.de> parents: 63364 diff changeset	822
63588 d0e2bad67bd4 misc tuning and modernization; wenzelm parents: 63456 diff changeset	823	lemma le_add_same_cancel2 [simp]: "a \<le> b + a \<longleftrightarrow> 0 \<le> b"
63456 3365c8ec67bd sharing simp rules between ordered monoids and rings fleury <Mathias.Fleury@mpi-inf.mpg.de> parents: 63364 diff changeset	824	using add_le_cancel_right [of 0] by simp
3365c8ec67bd sharing simp rules between ordered monoids and rings fleury <Mathias.Fleury@mpi-inf.mpg.de> parents: 63364 diff changeset	825
3365c8ec67bd sharing simp rules between ordered monoids and rings fleury <Mathias.Fleury@mpi-inf.mpg.de> parents: 63364 diff changeset	826	subclass cancel_comm_monoid_add
3365c8ec67bd sharing simp rules between ordered monoids and rings fleury <Mathias.Fleury@mpi-inf.mpg.de> parents: 63364 diff changeset	827	by standard auto
3365c8ec67bd sharing simp rules between ordered monoids and rings fleury <Mathias.Fleury@mpi-inf.mpg.de> parents: 63364 diff changeset	828
3365c8ec67bd sharing simp rules between ordered monoids and rings fleury <Mathias.Fleury@mpi-inf.mpg.de> parents: 63364 diff changeset	829	subclass ordered_cancel_comm_monoid_add
3365c8ec67bd sharing simp rules between ordered monoids and rings fleury <Mathias.Fleury@mpi-inf.mpg.de> parents: 63364 diff changeset	830	by standard
3365c8ec67bd sharing simp rules between ordered monoids and rings fleury <Mathias.Fleury@mpi-inf.mpg.de> parents: 63364 diff changeset	831
3365c8ec67bd sharing simp rules between ordered monoids and rings fleury <Mathias.Fleury@mpi-inf.mpg.de> parents: 63364 diff changeset	832	end
3365c8ec67bd sharing simp rules between ordered monoids and rings fleury <Mathias.Fleury@mpi-inf.mpg.de> parents: 63364 diff changeset	833
62376 85f38d5f8807 Rename ordered_comm_monoid_add to ordered_cancel_comm_monoid_add. Introduce ordreed_comm_monoid_add, canonically_ordered_comm_monoid and dioid. Setup nat, entat and ennreal as dioids. hoelzl parents: 62348 diff changeset	834	class ordered_ab_group_add = ab_group_add + ordered_ab_semigroup_add
25062 af5ef0d4d655 global class syntax haftmann parents: 24748 diff changeset	835	begin
af5ef0d4d655 global class syntax haftmann parents: 24748 diff changeset	836
35028 108662d50512 more consistent naming of type classes involving orderings (and lattices) -- c.f. NEWS haftmann parents: 34973 diff changeset	837	subclass ordered_cancel_ab_semigroup_add ..
25062 af5ef0d4d655 global class syntax haftmann parents: 24748 diff changeset	838
63456 3365c8ec67bd sharing simp rules between ordered monoids and rings fleury <Mathias.Fleury@mpi-inf.mpg.de> parents: 63364 diff changeset	839	subclass ordered_ab_semigroup_monoid_add_imp_le
28823 dcbef866c9e2 tuned unfold_locales invocation haftmann parents: 28262 diff changeset	840	proof
25062 af5ef0d4d655 global class syntax haftmann parents: 24748 diff changeset	841	fix a b c :: 'a
af5ef0d4d655 global class syntax haftmann parents: 24748 diff changeset	842	assume "c + a \<le> c + b"
63325 1086d56cde86 misc tuning and modernization; wenzelm parents: 63290 diff changeset	843	then have "(-c) + (c + a) \<le> (-c) + (c + b)"
1086d56cde86 misc tuning and modernization; wenzelm parents: 63290 diff changeset	844	by (rule add_left_mono)
1086d56cde86 misc tuning and modernization; wenzelm parents: 63290 diff changeset	845	then have "((-c) + c) + a \<le> ((-c) + c) + b"
1086d56cde86 misc tuning and modernization; wenzelm parents: 63290 diff changeset	846	by (simp only: add.assoc)
1086d56cde86 misc tuning and modernization; wenzelm parents: 63290 diff changeset	847	then show "a \<le> b" by simp
25062 af5ef0d4d655 global class syntax haftmann parents: 24748 diff changeset	848	qed
af5ef0d4d655 global class syntax haftmann parents: 24748 diff changeset	849
63325 1086d56cde86 misc tuning and modernization; wenzelm parents: 63290 diff changeset	850	lemma max_diff_distrib_left: "max x y - z = max (x - z) (y - z)"
54230 b1d955791529 more simplification rules on unary and binary minus haftmann parents: 54148 diff changeset	851	using max_add_distrib_left [of x y "- z"] by simp
25077 c2ec5e589d78 continued localization haftmann parents: 25062 diff changeset	852
63325 1086d56cde86 misc tuning and modernization; wenzelm parents: 63290 diff changeset	853	lemma min_diff_distrib_left: "min x y - z = min (x - z) (y - z)"
54230 b1d955791529 more simplification rules on unary and binary minus haftmann parents: 54148 diff changeset	854	using min_add_distrib_left [of x y "- z"] by simp
25077 c2ec5e589d78 continued localization haftmann parents: 25062 diff changeset	855
c2ec5e589d78 continued localization haftmann parents: 25062 diff changeset	856	lemma le_imp_neg_le:
63325 1086d56cde86 misc tuning and modernization; wenzelm parents: 63290 diff changeset	857	assumes "a \<le> b"
1086d56cde86 misc tuning and modernization; wenzelm parents: 63290 diff changeset	858	shows "- b \<le> - a"
25077 c2ec5e589d78 continued localization haftmann parents: 25062 diff changeset	859	proof -
63325 1086d56cde86 misc tuning and modernization; wenzelm parents: 63290 diff changeset	860	from assms have "- a + a \<le> - a + b"
1086d56cde86 misc tuning and modernization; wenzelm parents: 63290 diff changeset	861	by (rule add_left_mono)
1086d56cde86 misc tuning and modernization; wenzelm parents: 63290 diff changeset	862	then have "0 \<le> - a + b"
1086d56cde86 misc tuning and modernization; wenzelm parents: 63290 diff changeset	863	by simp
1086d56cde86 misc tuning and modernization; wenzelm parents: 63290 diff changeset	864	then have "0 + (- b) \<le> (- a + b) + (- b)"
1086d56cde86 misc tuning and modernization; wenzelm parents: 63290 diff changeset	865	by (rule add_right_mono)
1086d56cde86 misc tuning and modernization; wenzelm parents: 63290 diff changeset	866	then show ?thesis
1086d56cde86 misc tuning and modernization; wenzelm parents: 63290 diff changeset	867	by (simp add: algebra_simps)
25077 c2ec5e589d78 continued localization haftmann parents: 25062 diff changeset	868	qed
c2ec5e589d78 continued localization haftmann parents: 25062 diff changeset	869
c2ec5e589d78 continued localization haftmann parents: 25062 diff changeset	870	lemma neg_le_iff_le [simp]: "- b \<le> - a \<longleftrightarrow> a \<le> b"
62376 85f38d5f8807 Rename ordered_comm_monoid_add to ordered_cancel_comm_monoid_add. Introduce ordreed_comm_monoid_add, canonically_ordered_comm_monoid and dioid. Setup nat, entat and ennreal as dioids. hoelzl parents: 62348 diff changeset	871	proof
25077 c2ec5e589d78 continued localization haftmann parents: 25062 diff changeset	872	assume "- b \<le> - a"
63325 1086d56cde86 misc tuning and modernization; wenzelm parents: 63290 diff changeset	873	then have "- (- a) \<le> - (- b)"
1086d56cde86 misc tuning and modernization; wenzelm parents: 63290 diff changeset	874	by (rule le_imp_neg_le)
1086d56cde86 misc tuning and modernization; wenzelm parents: 63290 diff changeset	875	then show "a \<le> b"
1086d56cde86 misc tuning and modernization; wenzelm parents: 63290 diff changeset	876	by simp
25077 c2ec5e589d78 continued localization haftmann parents: 25062 diff changeset	877	next
63325 1086d56cde86 misc tuning and modernization; wenzelm parents: 63290 diff changeset	878	assume "a \<le> b"
1086d56cde86 misc tuning and modernization; wenzelm parents: 63290 diff changeset	879	then show "- b \<le> - a"
1086d56cde86 misc tuning and modernization; wenzelm parents: 63290 diff changeset	880	by (rule le_imp_neg_le)
25077 c2ec5e589d78 continued localization haftmann parents: 25062 diff changeset	881	qed
c2ec5e589d78 continued localization haftmann parents: 25062 diff changeset	882
c2ec5e589d78 continued localization haftmann parents: 25062 diff changeset	883	lemma neg_le_0_iff_le [simp]: "- a \<le> 0 \<longleftrightarrow> 0 \<le> a"
63325 1086d56cde86 misc tuning and modernization; wenzelm parents: 63290 diff changeset	884	by (subst neg_le_iff_le [symmetric]) simp
25077 c2ec5e589d78 continued localization haftmann parents: 25062 diff changeset	885
c2ec5e589d78 continued localization haftmann parents: 25062 diff changeset	886	lemma neg_0_le_iff_le [simp]: "0 \<le> - a \<longleftrightarrow> a \<le> 0"
63325 1086d56cde86 misc tuning and modernization; wenzelm parents: 63290 diff changeset	887	by (subst neg_le_iff_le [symmetric]) simp
25077 c2ec5e589d78 continued localization haftmann parents: 25062 diff changeset	888
c2ec5e589d78 continued localization haftmann parents: 25062 diff changeset	889	lemma neg_less_iff_less [simp]: "- b < - a \<longleftrightarrow> a < b"
63325 1086d56cde86 misc tuning and modernization; wenzelm parents: 63290 diff changeset	890	by (auto simp add: less_le)
25077 c2ec5e589d78 continued localization haftmann parents: 25062 diff changeset	891
c2ec5e589d78 continued localization haftmann parents: 25062 diff changeset	892	lemma neg_less_0_iff_less [simp]: "- a < 0 \<longleftrightarrow> 0 < a"
63325 1086d56cde86 misc tuning and modernization; wenzelm parents: 63290 diff changeset	893	by (subst neg_less_iff_less [symmetric]) simp
25077 c2ec5e589d78 continued localization haftmann parents: 25062 diff changeset	894
c2ec5e589d78 continued localization haftmann parents: 25062 diff changeset	895	lemma neg_0_less_iff_less [simp]: "0 < - a \<longleftrightarrow> a < 0"
63325 1086d56cde86 misc tuning and modernization; wenzelm parents: 63290 diff changeset	896	by (subst neg_less_iff_less [symmetric]) simp
25077 c2ec5e589d78 continued localization haftmann parents: 25062 diff changeset	897
63325 1086d56cde86 misc tuning and modernization; wenzelm parents: 63290 diff changeset	898	text \<open>The next several equations can make the simplifier loop!\<close>
25077 c2ec5e589d78 continued localization haftmann parents: 25062 diff changeset	899
c2ec5e589d78 continued localization haftmann parents: 25062 diff changeset	900	lemma less_minus_iff: "a < - b \<longleftrightarrow> b < - a"
c2ec5e589d78 continued localization haftmann parents: 25062 diff changeset	901	proof -
63588 d0e2bad67bd4 misc tuning and modernization; wenzelm parents: 63456 diff changeset	902	have "- (- a) < - b \<longleftrightarrow> b < - a"
63325 1086d56cde86 misc tuning and modernization; wenzelm parents: 63290 diff changeset	903	by (rule neg_less_iff_less)
1086d56cde86 misc tuning and modernization; wenzelm parents: 63290 diff changeset	904	then show ?thesis by simp
25077 c2ec5e589d78 continued localization haftmann parents: 25062 diff changeset	905	qed
c2ec5e589d78 continued localization haftmann parents: 25062 diff changeset	906
c2ec5e589d78 continued localization haftmann parents: 25062 diff changeset	907	lemma minus_less_iff: "- a < b \<longleftrightarrow> - b < a"
c2ec5e589d78 continued localization haftmann parents: 25062 diff changeset	908	proof -
63325 1086d56cde86 misc tuning and modernization; wenzelm parents: 63290 diff changeset	909	have "- a < - (- b) \<longleftrightarrow> - b < a"
1086d56cde86 misc tuning and modernization; wenzelm parents: 63290 diff changeset	910	by (rule neg_less_iff_less)
1086d56cde86 misc tuning and modernization; wenzelm parents: 63290 diff changeset	911	then show ?thesis by simp
25077 c2ec5e589d78 continued localization haftmann parents: 25062 diff changeset	912	qed
c2ec5e589d78 continued localization haftmann parents: 25062 diff changeset	913
c2ec5e589d78 continued localization haftmann parents: 25062 diff changeset	914	lemma le_minus_iff: "a \<le> - b \<longleftrightarrow> b \<le> - a"
c2ec5e589d78 continued localization haftmann parents: 25062 diff changeset	915	proof -
63588 d0e2bad67bd4 misc tuning and modernization; wenzelm parents: 63456 diff changeset	916	have mm: "- (- a) < - b \<Longrightarrow> - (- b) < -a" for a b :: 'a
63325 1086d56cde86 misc tuning and modernization; wenzelm parents: 63290 diff changeset	917	by (simp only: minus_less_iff)
63588 d0e2bad67bd4 misc tuning and modernization; wenzelm parents: 63456 diff changeset	918	have "- (- a) \<le> - b \<longleftrightarrow> b \<le> - a"
25077 c2ec5e589d78 continued localization haftmann parents: 25062 diff changeset	919	apply (auto simp only: le_less)
63588 d0e2bad67bd4 misc tuning and modernization; wenzelm parents: 63456 diff changeset	920	apply (drule mm)
d0e2bad67bd4 misc tuning and modernization; wenzelm parents: 63456 diff changeset	921	apply (simp_all)
25077 c2ec5e589d78 continued localization haftmann parents: 25062 diff changeset	922	apply (drule mm[simplified], assumption)
c2ec5e589d78 continued localization haftmann parents: 25062 diff changeset	923	done
c2ec5e589d78 continued localization haftmann parents: 25062 diff changeset	924	then show ?thesis by simp
c2ec5e589d78 continued localization haftmann parents: 25062 diff changeset	925	qed
c2ec5e589d78 continued localization haftmann parents: 25062 diff changeset	926
c2ec5e589d78 continued localization haftmann parents: 25062 diff changeset	927	lemma minus_le_iff: "- a \<le> b \<longleftrightarrow> - b \<le> a"
63325 1086d56cde86 misc tuning and modernization; wenzelm parents: 63290 diff changeset	928	by (auto simp add: le_less minus_less_iff)
25077 c2ec5e589d78 continued localization haftmann parents: 25062 diff changeset	929
63325 1086d56cde86 misc tuning and modernization; wenzelm parents: 63290 diff changeset	930	lemma diff_less_0_iff_less [simp]: "a - b < 0 \<longleftrightarrow> a < b"
25077 c2ec5e589d78 continued localization haftmann parents: 25062 diff changeset	931	proof -
63325 1086d56cde86 misc tuning and modernization; wenzelm parents: 63290 diff changeset	932	have "a - b < 0 \<longleftrightarrow> a + (- b) < b + (- b)"
1086d56cde86 misc tuning and modernization; wenzelm parents: 63290 diff changeset	933	by simp
1086d56cde86 misc tuning and modernization; wenzelm parents: 63290 diff changeset	934	also have "\<dots> \<longleftrightarrow> a < b"
1086d56cde86 misc tuning and modernization; wenzelm parents: 63290 diff changeset	935	by (simp only: add_less_cancel_right)
25077 c2ec5e589d78 continued localization haftmann parents: 25062 diff changeset	936	finally show ?thesis .
c2ec5e589d78 continued localization haftmann parents: 25062 diff changeset	937	qed
c2ec5e589d78 continued localization haftmann parents: 25062 diff changeset	938
37884 314a88278715 discontinued pretending that abel_cancel is logic-independent; cleaned up junk haftmann parents: 36977 diff changeset	939	lemmas less_iff_diff_less_0 = diff_less_0_iff_less [symmetric]
314a88278715 discontinued pretending that abel_cancel is logic-independent; cleaned up junk haftmann parents: 36977 diff changeset	940
63325 1086d56cde86 misc tuning and modernization; wenzelm parents: 63290 diff changeset	941	lemma diff_less_eq [algebra_simps, field_simps]: "a - b < c \<longleftrightarrow> a < c + b"
1086d56cde86 misc tuning and modernization; wenzelm parents: 63290 diff changeset	942	apply (subst less_iff_diff_less_0 [of a])
1086d56cde86 misc tuning and modernization; wenzelm parents: 63290 diff changeset	943	apply (rule less_iff_diff_less_0 [of _ c, THEN ssubst])
1086d56cde86 misc tuning and modernization; wenzelm parents: 63290 diff changeset	944	apply (simp add: algebra_simps)
1086d56cde86 misc tuning and modernization; wenzelm parents: 63290 diff changeset	945	done
25077 c2ec5e589d78 continued localization haftmann parents: 25062 diff changeset	946
63325 1086d56cde86 misc tuning and modernization; wenzelm parents: 63290 diff changeset	947	lemma less_diff_eq[algebra_simps, field_simps]: "a < c - b \<longleftrightarrow> a + b < c"
1086d56cde86 misc tuning and modernization; wenzelm parents: 63290 diff changeset	948	apply (subst less_iff_diff_less_0 [of "a + b"])
1086d56cde86 misc tuning and modernization; wenzelm parents: 63290 diff changeset	949	apply (subst less_iff_diff_less_0 [of a])
1086d56cde86 misc tuning and modernization; wenzelm parents: 63290 diff changeset	950	apply (simp add: algebra_simps)
1086d56cde86 misc tuning and modernization; wenzelm parents: 63290 diff changeset	951	done
25077 c2ec5e589d78 continued localization haftmann parents: 25062 diff changeset	952
63325 1086d56cde86 misc tuning and modernization; wenzelm parents: 63290 diff changeset	953	lemma diff_gt_0_iff_gt [simp]: "a - b > 0 \<longleftrightarrow> a > b"
62348 9a5f43dac883 dropped various legacy fact bindings haftmann parents: 62347 diff changeset	954	by (simp add: less_diff_eq)
61762 d50b993b4fb9 Removal of redundant lemmas (diff_less_iff, diff_le_iff) and of the abbreviation Exp. Addition of some new material. paulson <lp15@cam.ac.uk> parents: 61605 diff changeset	955
63325 1086d56cde86 misc tuning and modernization; wenzelm parents: 63290 diff changeset	956	lemma diff_le_eq [algebra_simps, field_simps]: "a - b \<le> c \<longleftrightarrow> a \<le> c + b"
62348 9a5f43dac883 dropped various legacy fact bindings haftmann parents: 62347 diff changeset	957	by (auto simp add: le_less diff_less_eq )
25077 c2ec5e589d78 continued localization haftmann parents: 25062 diff changeset	958
63325 1086d56cde86 misc tuning and modernization; wenzelm parents: 63290 diff changeset	959	lemma le_diff_eq [algebra_simps, field_simps]: "a \<le> c - b \<longleftrightarrow> a + b \<le> c"
62348 9a5f43dac883 dropped various legacy fact bindings haftmann parents: 62347 diff changeset	960	by (auto simp add: le_less less_diff_eq)
25077 c2ec5e589d78 continued localization haftmann parents: 25062 diff changeset	961
63325 1086d56cde86 misc tuning and modernization; wenzelm parents: 63290 diff changeset	962	lemma diff_le_0_iff_le [simp]: "a - b \<le> 0 \<longleftrightarrow> a \<le> b"
37884 314a88278715 discontinued pretending that abel_cancel is logic-independent; cleaned up junk haftmann parents: 36977 diff changeset	963	by (simp add: algebra_simps)
314a88278715 discontinued pretending that abel_cancel is logic-independent; cleaned up junk haftmann parents: 36977 diff changeset	964
314a88278715 discontinued pretending that abel_cancel is logic-independent; cleaned up junk haftmann parents: 36977 diff changeset	965	lemmas le_iff_diff_le_0 = diff_le_0_iff_le [symmetric]
314a88278715 discontinued pretending that abel_cancel is logic-independent; cleaned up junk haftmann parents: 36977 diff changeset	966
63325 1086d56cde86 misc tuning and modernization; wenzelm parents: 63290 diff changeset	967	lemma diff_ge_0_iff_ge [simp]: "a - b \<ge> 0 \<longleftrightarrow> a \<ge> b"
62348 9a5f43dac883 dropped various legacy fact bindings haftmann parents: 62347 diff changeset	968	by (simp add: le_diff_eq)
9a5f43dac883 dropped various legacy fact bindings haftmann parents: 62347 diff changeset	969
63325 1086d56cde86 misc tuning and modernization; wenzelm parents: 63290 diff changeset	970	lemma diff_eq_diff_less: "a - b = c - d \<Longrightarrow> a < b \<longleftrightarrow> c < d"
37884 314a88278715 discontinued pretending that abel_cancel is logic-independent; cleaned up junk haftmann parents: 36977 diff changeset	971	by (auto simp only: less_iff_diff_less_0 [of a b] less_iff_diff_less_0 [of c d])
314a88278715 discontinued pretending that abel_cancel is logic-independent; cleaned up junk haftmann parents: 36977 diff changeset	972
63325 1086d56cde86 misc tuning and modernization; wenzelm parents: 63290 diff changeset	973	lemma diff_eq_diff_less_eq: "a - b = c - d \<Longrightarrow> a \<le> b \<longleftrightarrow> c \<le> d"
37889 0d8058e0c270 keep explicit diff_def as legacy theorem; modernized abel_cancel simproc setup haftmann parents: 37884 diff changeset	974	by (auto simp only: le_iff_diff_le_0 [of a b] le_iff_diff_le_0 [of c d])
25077 c2ec5e589d78 continued localization haftmann parents: 25062 diff changeset	975
56950 c49edf06f8e4 add mono rules for diff hoelzl parents: 54868 diff changeset	976	lemma diff_mono: "a \<le> b \<Longrightarrow> d \<le> c \<Longrightarrow> a - c \<le> b - d"
c49edf06f8e4 add mono rules for diff hoelzl parents: 54868 diff changeset	977	by (simp add: field_simps add_mono)
c49edf06f8e4 add mono rules for diff hoelzl parents: 54868 diff changeset	978
c49edf06f8e4 add mono rules for diff hoelzl parents: 54868 diff changeset	979	lemma diff_left_mono: "b \<le> a \<Longrightarrow> c - a \<le> c - b"
c49edf06f8e4 add mono rules for diff hoelzl parents: 54868 diff changeset	980	by (simp add: field_simps)
c49edf06f8e4 add mono rules for diff hoelzl parents: 54868 diff changeset	981
c49edf06f8e4 add mono rules for diff hoelzl parents: 54868 diff changeset	982	lemma diff_right_mono: "a \<le> b \<Longrightarrow> a - c \<le> b - c"
c49edf06f8e4 add mono rules for diff hoelzl parents: 54868 diff changeset	983	by (simp add: field_simps)
c49edf06f8e4 add mono rules for diff hoelzl parents: 54868 diff changeset	984
c49edf06f8e4 add mono rules for diff hoelzl parents: 54868 diff changeset	985	lemma diff_strict_mono: "a < b \<Longrightarrow> d < c \<Longrightarrow> a - c < b - d"
c49edf06f8e4 add mono rules for diff hoelzl parents: 54868 diff changeset	986	by (simp add: field_simps add_strict_mono)
c49edf06f8e4 add mono rules for diff hoelzl parents: 54868 diff changeset	987
c49edf06f8e4 add mono rules for diff hoelzl parents: 54868 diff changeset	988	lemma diff_strict_left_mono: "b < a \<Longrightarrow> c - a < c - b"
c49edf06f8e4 add mono rules for diff hoelzl parents: 54868 diff changeset	989	by (simp add: field_simps)
c49edf06f8e4 add mono rules for diff hoelzl parents: 54868 diff changeset	990
c49edf06f8e4 add mono rules for diff hoelzl parents: 54868 diff changeset	991	lemma diff_strict_right_mono: "a < b \<Longrightarrow> a - c < b - c"
c49edf06f8e4 add mono rules for diff hoelzl parents: 54868 diff changeset	992	by (simp add: field_simps)
c49edf06f8e4 add mono rules for diff hoelzl parents: 54868 diff changeset	993
25077 c2ec5e589d78 continued localization haftmann parents: 25062 diff changeset	994	end
c2ec5e589d78 continued localization haftmann parents: 25062 diff changeset	995
70490 c42a0a0a9a8d prefer named lemmas -- more compact proofterms; wenzelm parents: 70347 diff changeset	996	locale group_cancel
c42a0a0a9a8d prefer named lemmas -- more compact proofterms; wenzelm parents: 70347 diff changeset	997	begin
c42a0a0a9a8d prefer named lemmas -- more compact proofterms; wenzelm parents: 70347 diff changeset	998
c42a0a0a9a8d prefer named lemmas -- more compact proofterms; wenzelm parents: 70347 diff changeset	999	lemma add1: "(A::'a::comm_monoid_add) \<equiv> k + a \<Longrightarrow> A + b \<equiv> k + (a + b)"
c42a0a0a9a8d prefer named lemmas -- more compact proofterms; wenzelm parents: 70347 diff changeset	1000	by (simp only: ac_simps)
c42a0a0a9a8d prefer named lemmas -- more compact proofterms; wenzelm parents: 70347 diff changeset	1001
c42a0a0a9a8d prefer named lemmas -- more compact proofterms; wenzelm parents: 70347 diff changeset	1002	lemma add2: "(B::'a::comm_monoid_add) \<equiv> k + b \<Longrightarrow> a + B \<equiv> k + (a + b)"
c42a0a0a9a8d prefer named lemmas -- more compact proofterms; wenzelm parents: 70347 diff changeset	1003	by (simp only: ac_simps)
c42a0a0a9a8d prefer named lemmas -- more compact proofterms; wenzelm parents: 70347 diff changeset	1004
c42a0a0a9a8d prefer named lemmas -- more compact proofterms; wenzelm parents: 70347 diff changeset	1005	lemma sub1: "(A::'a::ab_group_add) \<equiv> k + a \<Longrightarrow> A - b \<equiv> k + (a - b)"
c42a0a0a9a8d prefer named lemmas -- more compact proofterms; wenzelm parents: 70347 diff changeset	1006	by (simp only: add_diff_eq)
c42a0a0a9a8d prefer named lemmas -- more compact proofterms; wenzelm parents: 70347 diff changeset	1007
c42a0a0a9a8d prefer named lemmas -- more compact proofterms; wenzelm parents: 70347 diff changeset	1008	lemma sub2: "(B::'a::ab_group_add) \<equiv> k + b \<Longrightarrow> a - B \<equiv> - k + (a - b)"
c42a0a0a9a8d prefer named lemmas -- more compact proofterms; wenzelm parents: 70347 diff changeset	1009	by (simp only: minus_add diff_conv_add_uminus ac_simps)
c42a0a0a9a8d prefer named lemmas -- more compact proofterms; wenzelm parents: 70347 diff changeset	1010
c42a0a0a9a8d prefer named lemmas -- more compact proofterms; wenzelm parents: 70347 diff changeset	1011	lemma neg1: "(A::'a::ab_group_add) \<equiv> k + a \<Longrightarrow> - A \<equiv> - k + - a"
c42a0a0a9a8d prefer named lemmas -- more compact proofterms; wenzelm parents: 70347 diff changeset	1012	by (simp only: minus_add_distrib)
c42a0a0a9a8d prefer named lemmas -- more compact proofterms; wenzelm parents: 70347 diff changeset	1013
c42a0a0a9a8d prefer named lemmas -- more compact proofterms; wenzelm parents: 70347 diff changeset	1014	lemma rule0: "(a::'a::comm_monoid_add) \<equiv> a + 0"
c42a0a0a9a8d prefer named lemmas -- more compact proofterms; wenzelm parents: 70347 diff changeset	1015	by (simp only: add_0_right)
c42a0a0a9a8d prefer named lemmas -- more compact proofterms; wenzelm parents: 70347 diff changeset	1016
c42a0a0a9a8d prefer named lemmas -- more compact proofterms; wenzelm parents: 70347 diff changeset	1017	end
c42a0a0a9a8d prefer named lemmas -- more compact proofterms; wenzelm parents: 70347 diff changeset	1018
69605 a96320074298 isabelle update -u path_cartouches; wenzelm parents: 69593 diff changeset	1019	ML_file \<open>Tools/group_cancel.ML\<close>
48556 62a3fbf9d35b replace abel_cancel simprocs with functionally equivalent, but simpler and faster ones huffman parents: 45548 diff changeset	1020
62a3fbf9d35b replace abel_cancel simprocs with functionally equivalent, but simpler and faster ones huffman parents: 45548 diff changeset	1021	simproc_setup group_cancel_add ("a + b::'a::ab_group_add") =
60758 d8d85a8172b5 isabelle update_cartouches; wenzelm parents: 59815 diff changeset	1022	\<open>fn phi => fn ss => try Group_Cancel.cancel_add_conv\<close>
48556 62a3fbf9d35b replace abel_cancel simprocs with functionally equivalent, but simpler and faster ones huffman parents: 45548 diff changeset	1023
62a3fbf9d35b replace abel_cancel simprocs with functionally equivalent, but simpler and faster ones huffman parents: 45548 diff changeset	1024	simproc_setup group_cancel_diff ("a - b::'a::ab_group_add") =
60758 d8d85a8172b5 isabelle update_cartouches; wenzelm parents: 59815 diff changeset	1025	\<open>fn phi => fn ss => try Group_Cancel.cancel_diff_conv\<close>
37884 314a88278715 discontinued pretending that abel_cancel is logic-independent; cleaned up junk haftmann parents: 36977 diff changeset	1026
48556 62a3fbf9d35b replace abel_cancel simprocs with functionally equivalent, but simpler and faster ones huffman parents: 45548 diff changeset	1027	simproc_setup group_cancel_eq ("a = (b::'a::ab_group_add)") =
60758 d8d85a8172b5 isabelle update_cartouches; wenzelm parents: 59815 diff changeset	1028	\<open>fn phi => fn ss => try Group_Cancel.cancel_eq_conv\<close>
37889 0d8058e0c270 keep explicit diff_def as legacy theorem; modernized abel_cancel simproc setup haftmann parents: 37884 diff changeset	1029
48556 62a3fbf9d35b replace abel_cancel simprocs with functionally equivalent, but simpler and faster ones huffman parents: 45548 diff changeset	1030	simproc_setup group_cancel_le ("a \<le> (b::'a::ordered_ab_group_add)") =
60758 d8d85a8172b5 isabelle update_cartouches; wenzelm parents: 59815 diff changeset	1031	\<open>fn phi => fn ss => try Group_Cancel.cancel_le_conv\<close>
48556 62a3fbf9d35b replace abel_cancel simprocs with functionally equivalent, but simpler and faster ones huffman parents: 45548 diff changeset	1032
62a3fbf9d35b replace abel_cancel simprocs with functionally equivalent, but simpler and faster ones huffman parents: 45548 diff changeset	1033	simproc_setup group_cancel_less ("a < (b::'a::ordered_ab_group_add)") =
60758 d8d85a8172b5 isabelle update_cartouches; wenzelm parents: 59815 diff changeset	1034	\<open>fn phi => fn ss => try Group_Cancel.cancel_less_conv\<close>
37884 314a88278715 discontinued pretending that abel_cancel is logic-independent; cleaned up junk haftmann parents: 36977 diff changeset	1035
35028 108662d50512 more consistent naming of type classes involving orderings (and lattices) -- c.f. NEWS haftmann parents: 34973 diff changeset	1036	class linordered_ab_semigroup_add =
108662d50512 more consistent naming of type classes involving orderings (and lattices) -- c.f. NEWS haftmann parents: 34973 diff changeset	1037	linorder + ordered_ab_semigroup_add
25062 af5ef0d4d655 global class syntax haftmann parents: 24748 diff changeset	1038
35028 108662d50512 more consistent naming of type classes involving orderings (and lattices) -- c.f. NEWS haftmann parents: 34973 diff changeset	1039	class linordered_cancel_ab_semigroup_add =
108662d50512 more consistent naming of type classes involving orderings (and lattices) -- c.f. NEWS haftmann parents: 34973 diff changeset	1040	linorder + ordered_cancel_ab_semigroup_add
25267 1f745c599b5c proper reinitialisation after subclass haftmann parents: 25230 diff changeset	1041	begin
25062 af5ef0d4d655 global class syntax haftmann parents: 24748 diff changeset	1042
35028 108662d50512 more consistent naming of type classes involving orderings (and lattices) -- c.f. NEWS haftmann parents: 34973 diff changeset	1043	subclass linordered_ab_semigroup_add ..
25062 af5ef0d4d655 global class syntax haftmann parents: 24748 diff changeset	1044
35028 108662d50512 more consistent naming of type classes involving orderings (and lattices) -- c.f. NEWS haftmann parents: 34973 diff changeset	1045	subclass ordered_ab_semigroup_add_imp_le
28823 dcbef866c9e2 tuned unfold_locales invocation haftmann parents: 28262 diff changeset	1046	proof
25062 af5ef0d4d655 global class syntax haftmann parents: 24748 diff changeset	1047	fix a b c :: 'a
63325 1086d56cde86 misc tuning and modernization; wenzelm parents: 63290 diff changeset	1048	assume le1: "c + a \<le> c + b"
1086d56cde86 misc tuning and modernization; wenzelm parents: 63290 diff changeset	1049	show "a \<le> b"
25062 af5ef0d4d655 global class syntax haftmann parents: 24748 diff changeset	1050	proof (rule ccontr)
63325 1086d56cde86 misc tuning and modernization; wenzelm parents: 63290 diff changeset	1051	assume *: "\<not> ?thesis"
1086d56cde86 misc tuning and modernization; wenzelm parents: 63290 diff changeset	1052	then have "b \<le> a" by (simp add: linorder_not_le)
63588 d0e2bad67bd4 misc tuning and modernization; wenzelm parents: 63456 diff changeset	1053	then have "c + b \<le> c + a" by (rule add_left_mono)
d0e2bad67bd4 misc tuning and modernization; wenzelm parents: 63456 diff changeset	1054	with le1 have "a = b"
d0e2bad67bd4 misc tuning and modernization; wenzelm parents: 63456 diff changeset	1055	apply -
63325 1086d56cde86 misc tuning and modernization; wenzelm parents: 63290 diff changeset	1056	apply (drule antisym)
63588 d0e2bad67bd4 misc tuning and modernization; wenzelm parents: 63456 diff changeset	1057	apply simp_all
25062 af5ef0d4d655 global class syntax haftmann parents: 24748 diff changeset	1058	done
63325 1086d56cde86 misc tuning and modernization; wenzelm parents: 63290 diff changeset	1059	with * show False
25062 af5ef0d4d655 global class syntax haftmann parents: 24748 diff changeset	1060	by (simp add: linorder_not_le [symmetric])
af5ef0d4d655 global class syntax haftmann parents: 24748 diff changeset	1061	qed
af5ef0d4d655 global class syntax haftmann parents: 24748 diff changeset	1062	qed
af5ef0d4d655 global class syntax haftmann parents: 24748 diff changeset	1063
25267 1f745c599b5c proper reinitialisation after subclass haftmann parents: 25230 diff changeset	1064	end
1f745c599b5c proper reinitialisation after subclass haftmann parents: 25230 diff changeset	1065
35028 108662d50512 more consistent naming of type classes involving orderings (and lattices) -- c.f. NEWS haftmann parents: 34973 diff changeset	1066	class linordered_ab_group_add = linorder + ordered_ab_group_add
25267 1f745c599b5c proper reinitialisation after subclass haftmann parents: 25230 diff changeset	1067	begin
25230 022029099a83 continued localization haftmann parents: 25194 diff changeset	1068
35028 108662d50512 more consistent naming of type classes involving orderings (and lattices) -- c.f. NEWS haftmann parents: 34973 diff changeset	1069	subclass linordered_cancel_ab_semigroup_add ..
25230 022029099a83 continued localization haftmann parents: 25194 diff changeset	1070
63325 1086d56cde86 misc tuning and modernization; wenzelm parents: 63290 diff changeset	1071	lemma equal_neg_zero [simp]: "a = - a \<longleftrightarrow> a = 0"
25303 0699e20feabd renamed lordered__ to lordered__add_; further localization haftmann parents: 25267 diff changeset	1072	proof
63325 1086d56cde86 misc tuning and modernization; wenzelm parents: 63290 diff changeset	1073	assume "a = 0"
1086d56cde86 misc tuning and modernization; wenzelm parents: 63290 diff changeset	1074	then show "a = - a" by simp
25303 0699e20feabd renamed lordered__ to lordered__add_; further localization haftmann parents: 25267 diff changeset	1075	next
63325 1086d56cde86 misc tuning and modernization; wenzelm parents: 63290 diff changeset	1076	assume A: "a = - a"
1086d56cde86 misc tuning and modernization; wenzelm parents: 63290 diff changeset	1077	show "a = 0"
25303 0699e20feabd renamed lordered__ to lordered__add_; further localization haftmann parents: 25267 diff changeset	1078	proof (cases "0 \<le> a")
63325 1086d56cde86 misc tuning and modernization; wenzelm parents: 63290 diff changeset	1079	case True
1086d56cde86 misc tuning and modernization; wenzelm parents: 63290 diff changeset	1080	with A have "0 \<le> - a" by auto
25303 0699e20feabd renamed lordered__ to lordered__add_; further localization haftmann parents: 25267 diff changeset	1081	with le_minus_iff have "a \<le> 0" by simp
0699e20feabd renamed lordered__ to lordered__add_; further localization haftmann parents: 25267 diff changeset	1082	with True show ?thesis by (auto intro: order_trans)
0699e20feabd renamed lordered__ to lordered__add_; further localization haftmann parents: 25267 diff changeset	1083	next
63325 1086d56cde86 misc tuning and modernization; wenzelm parents: 63290 diff changeset	1084	case False
1086d56cde86 misc tuning and modernization; wenzelm parents: 63290 diff changeset	1085	then have B: "a \<le> 0" by auto
25303 0699e20feabd renamed lordered__ to lordered__add_; further localization haftmann parents: 25267 diff changeset	1086	with A have "- a \<le> 0" by auto
0699e20feabd renamed lordered__ to lordered__add_; further localization haftmann parents: 25267 diff changeset	1087	with B show ?thesis by (auto intro: order_trans)
0699e20feabd renamed lordered__ to lordered__add_; further localization haftmann parents: 25267 diff changeset	1088	qed
0699e20feabd renamed lordered__ to lordered__add_; further localization haftmann parents: 25267 diff changeset	1089	qed
0699e20feabd renamed lordered__ to lordered__add_; further localization haftmann parents: 25267 diff changeset	1090
63325 1086d56cde86 misc tuning and modernization; wenzelm parents: 63290 diff changeset	1091	lemma neg_equal_zero [simp]: "- a = a \<longleftrightarrow> a = 0"
35036 b8c8d01cc20d separate library theory for type classes combining lattices with various algebraic structures; more simp rules haftmann parents: 35028 diff changeset	1092	by (auto dest: sym)
b8c8d01cc20d separate library theory for type classes combining lattices with various algebraic structures; more simp rules haftmann parents: 35028 diff changeset	1093
63325 1086d56cde86 misc tuning and modernization; wenzelm parents: 63290 diff changeset	1094	lemma neg_less_eq_nonneg [simp]: "- a \<le> a \<longleftrightarrow> 0 \<le> a"
54250 7d2544dd3988 fact generalization and name consolidation haftmann parents: 54230 diff changeset	1095	proof
63325 1086d56cde86 misc tuning and modernization; wenzelm parents: 63290 diff changeset	1096	assume *: "- a \<le> a"
1086d56cde86 misc tuning and modernization; wenzelm parents: 63290 diff changeset	1097	show "0 \<le> a"
54250 7d2544dd3988 fact generalization and name consolidation haftmann parents: 54230 diff changeset	1098	proof (rule classical)
63325 1086d56cde86 misc tuning and modernization; wenzelm parents: 63290 diff changeset	1099	assume "\<not> ?thesis"
54250 7d2544dd3988 fact generalization and name consolidation haftmann parents: 54230 diff changeset	1100	then have "a < 0" by auto
63325 1086d56cde86 misc tuning and modernization; wenzelm parents: 63290 diff changeset	1101	with * have "- a < 0" by (rule le_less_trans)
54250 7d2544dd3988 fact generalization and name consolidation haftmann parents: 54230 diff changeset	1102	then show ?thesis by auto
7d2544dd3988 fact generalization and name consolidation haftmann parents: 54230 diff changeset	1103	qed
7d2544dd3988 fact generalization and name consolidation haftmann parents: 54230 diff changeset	1104	next
63325 1086d56cde86 misc tuning and modernization; wenzelm parents: 63290 diff changeset	1105	assume *: "0 \<le> a"
1086d56cde86 misc tuning and modernization; wenzelm parents: 63290 diff changeset	1106	then have "- a \<le> 0" by (simp add: minus_le_iff)
1086d56cde86 misc tuning and modernization; wenzelm parents: 63290 diff changeset	1107	from this * show "- a \<le> a" by (rule order_trans)
54250 7d2544dd3988 fact generalization and name consolidation haftmann parents: 54230 diff changeset	1108	qed
7d2544dd3988 fact generalization and name consolidation haftmann parents: 54230 diff changeset	1109
63325 1086d56cde86 misc tuning and modernization; wenzelm parents: 63290 diff changeset	1110	lemma neg_less_pos [simp]: "- a < a \<longleftrightarrow> 0 < a"
54250 7d2544dd3988 fact generalization and name consolidation haftmann parents: 54230 diff changeset	1111	by (auto simp add: less_le)
7d2544dd3988 fact generalization and name consolidation haftmann parents: 54230 diff changeset	1112
63325 1086d56cde86 misc tuning and modernization; wenzelm parents: 63290 diff changeset	1113	lemma less_eq_neg_nonpos [simp]: "a \<le> - a \<longleftrightarrow> a \<le> 0"
54250 7d2544dd3988 fact generalization and name consolidation haftmann parents: 54230 diff changeset	1114	using neg_less_eq_nonneg [of "- a"] by simp
7d2544dd3988 fact generalization and name consolidation haftmann parents: 54230 diff changeset	1115
63325 1086d56cde86 misc tuning and modernization; wenzelm parents: 63290 diff changeset	1116	lemma less_neg_neg [simp]: "a < - a \<longleftrightarrow> a < 0"
54250 7d2544dd3988 fact generalization and name consolidation haftmann parents: 54230 diff changeset	1117	using neg_less_pos [of "- a"] by simp
7d2544dd3988 fact generalization and name consolidation haftmann parents: 54230 diff changeset	1118
63325 1086d56cde86 misc tuning and modernization; wenzelm parents: 63290 diff changeset	1119	lemma double_zero [simp]: "a + a = 0 \<longleftrightarrow> a = 0"
35036 b8c8d01cc20d separate library theory for type classes combining lattices with various algebraic structures; more simp rules haftmann parents: 35028 diff changeset	1120	proof
63325 1086d56cde86 misc tuning and modernization; wenzelm parents: 63290 diff changeset	1121	assume "a + a = 0"
35036 b8c8d01cc20d separate library theory for type classes combining lattices with various algebraic structures; more simp rules haftmann parents: 35028 diff changeset	1122	then have a: "- a = a" by (rule minus_unique)
35216 7641e8d831d2 get rid of many duplicate simp rule warnings huffman parents: 35092 diff changeset	1123	then show "a = 0" by (simp only: neg_equal_zero)
63325 1086d56cde86 misc tuning and modernization; wenzelm parents: 63290 diff changeset	1124	next
1086d56cde86 misc tuning and modernization; wenzelm parents: 63290 diff changeset	1125	assume "a = 0"
1086d56cde86 misc tuning and modernization; wenzelm parents: 63290 diff changeset	1126	then show "a + a = 0" by simp
1086d56cde86 misc tuning and modernization; wenzelm parents: 63290 diff changeset	1127	qed
35036 b8c8d01cc20d separate library theory for type classes combining lattices with various algebraic structures; more simp rules haftmann parents: 35028 diff changeset	1128
63325 1086d56cde86 misc tuning and modernization; wenzelm parents: 63290 diff changeset	1129	lemma double_zero_sym [simp]: "0 = a + a \<longleftrightarrow> a = 0"
1086d56cde86 misc tuning and modernization; wenzelm parents: 63290 diff changeset	1130	apply (rule iffI)
63588 d0e2bad67bd4 misc tuning and modernization; wenzelm parents: 63456 diff changeset	1131	apply (drule sym)
d0e2bad67bd4 misc tuning and modernization; wenzelm parents: 63456 diff changeset	1132	apply simp_all
63325 1086d56cde86 misc tuning and modernization; wenzelm parents: 63290 diff changeset	1133	done
35036 b8c8d01cc20d separate library theory for type classes combining lattices with various algebraic structures; more simp rules haftmann parents: 35028 diff changeset	1134
63325 1086d56cde86 misc tuning and modernization; wenzelm parents: 63290 diff changeset	1135	lemma zero_less_double_add_iff_zero_less_single_add [simp]: "0 < a + a \<longleftrightarrow> 0 < a"
35036 b8c8d01cc20d separate library theory for type classes combining lattices with various algebraic structures; more simp rules haftmann parents: 35028 diff changeset	1136	proof
b8c8d01cc20d separate library theory for type classes combining lattices with various algebraic structures; more simp rules haftmann parents: 35028 diff changeset	1137	assume "0 < a + a"
b8c8d01cc20d separate library theory for type classes combining lattices with various algebraic structures; more simp rules haftmann parents: 35028 diff changeset	1138	then have "0 - a < a" by (simp only: diff_less_eq)
b8c8d01cc20d separate library theory for type classes combining lattices with various algebraic structures; more simp rules haftmann parents: 35028 diff changeset	1139	then have "- a < a" by simp
54250 7d2544dd3988 fact generalization and name consolidation haftmann parents: 54230 diff changeset	1140	then show "0 < a" by simp
35036 b8c8d01cc20d separate library theory for type classes combining lattices with various algebraic structures; more simp rules haftmann parents: 35028 diff changeset	1141	next
b8c8d01cc20d separate library theory for type classes combining lattices with various algebraic structures; more simp rules haftmann parents: 35028 diff changeset	1142	assume "0 < a"
b8c8d01cc20d separate library theory for type classes combining lattices with various algebraic structures; more simp rules haftmann parents: 35028 diff changeset	1143	with this have "0 + 0 < a + a"
b8c8d01cc20d separate library theory for type classes combining lattices with various algebraic structures; more simp rules haftmann parents: 35028 diff changeset	1144	by (rule add_strict_mono)
b8c8d01cc20d separate library theory for type classes combining lattices with various algebraic structures; more simp rules haftmann parents: 35028 diff changeset	1145	then show "0 < a + a" by simp
b8c8d01cc20d separate library theory for type classes combining lattices with various algebraic structures; more simp rules haftmann parents: 35028 diff changeset	1146	qed
b8c8d01cc20d separate library theory for type classes combining lattices with various algebraic structures; more simp rules haftmann parents: 35028 diff changeset	1147
63325 1086d56cde86 misc tuning and modernization; wenzelm parents: 63290 diff changeset	1148	lemma zero_le_double_add_iff_zero_le_single_add [simp]: "0 \<le> a + a \<longleftrightarrow> 0 \<le> a"
35036 b8c8d01cc20d separate library theory for type classes combining lattices with various algebraic structures; more simp rules haftmann parents: 35028 diff changeset	1149	by (auto simp add: le_less)
b8c8d01cc20d separate library theory for type classes combining lattices with various algebraic structures; more simp rules haftmann parents: 35028 diff changeset	1150
63325 1086d56cde86 misc tuning and modernization; wenzelm parents: 63290 diff changeset	1151	lemma double_add_less_zero_iff_single_add_less_zero [simp]: "a + a < 0 \<longleftrightarrow> a < 0"
35036 b8c8d01cc20d separate library theory for type classes combining lattices with various algebraic structures; more simp rules haftmann parents: 35028 diff changeset	1152	proof -
b8c8d01cc20d separate library theory for type classes combining lattices with various algebraic structures; more simp rules haftmann parents: 35028 diff changeset	1153	have "\<not> a + a < 0 \<longleftrightarrow> \<not> a < 0"
b8c8d01cc20d separate library theory for type classes combining lattices with various algebraic structures; more simp rules haftmann parents: 35028 diff changeset	1154	by (simp add: not_less)
b8c8d01cc20d separate library theory for type classes combining lattices with various algebraic structures; more simp rules haftmann parents: 35028 diff changeset	1155	then show ?thesis by simp
b8c8d01cc20d separate library theory for type classes combining lattices with various algebraic structures; more simp rules haftmann parents: 35028 diff changeset	1156	qed
b8c8d01cc20d separate library theory for type classes combining lattices with various algebraic structures; more simp rules haftmann parents: 35028 diff changeset	1157
63325 1086d56cde86 misc tuning and modernization; wenzelm parents: 63290 diff changeset	1158	lemma double_add_le_zero_iff_single_add_le_zero [simp]: "a + a \<le> 0 \<longleftrightarrow> a \<le> 0"
35036 b8c8d01cc20d separate library theory for type classes combining lattices with various algebraic structures; more simp rules haftmann parents: 35028 diff changeset	1159	proof -
b8c8d01cc20d separate library theory for type classes combining lattices with various algebraic structures; more simp rules haftmann parents: 35028 diff changeset	1160	have "\<not> a + a \<le> 0 \<longleftrightarrow> \<not> a \<le> 0"
b8c8d01cc20d separate library theory for type classes combining lattices with various algebraic structures; more simp rules haftmann parents: 35028 diff changeset	1161	by (simp add: not_le)
b8c8d01cc20d separate library theory for type classes combining lattices with various algebraic structures; more simp rules haftmann parents: 35028 diff changeset	1162	then show ?thesis by simp
b8c8d01cc20d separate library theory for type classes combining lattices with various algebraic structures; more simp rules haftmann parents: 35028 diff changeset	1163	qed
b8c8d01cc20d separate library theory for type classes combining lattices with various algebraic structures; more simp rules haftmann parents: 35028 diff changeset	1164
63325 1086d56cde86 misc tuning and modernization; wenzelm parents: 63290 diff changeset	1165	lemma minus_max_eq_min: "- max x y = min (- x) (- y)"
35036 b8c8d01cc20d separate library theory for type classes combining lattices with various algebraic structures; more simp rules haftmann parents: 35028 diff changeset	1166	by (auto simp add: max_def min_def)
b8c8d01cc20d separate library theory for type classes combining lattices with various algebraic structures; more simp rules haftmann parents: 35028 diff changeset	1167
63325 1086d56cde86 misc tuning and modernization; wenzelm parents: 63290 diff changeset	1168	lemma minus_min_eq_max: "- min x y = max (- x) (- y)"
35036 b8c8d01cc20d separate library theory for type classes combining lattices with various algebraic structures; more simp rules haftmann parents: 35028 diff changeset	1169	by (auto simp add: max_def min_def)
25303 0699e20feabd renamed lordered__ to lordered__add_; further localization haftmann parents: 25267 diff changeset	1170
25267 1f745c599b5c proper reinitialisation after subclass haftmann parents: 25230 diff changeset	1171	end
1f745c599b5c proper reinitialisation after subclass haftmann parents: 25230 diff changeset	1172
35092 cfe605c54e50 moved less_eq, less to Orderings.thy; moved abs, sgn to Groups.thy haftmann parents: 35050 diff changeset	1173	class abs =
61944 5d06ecfdb472 prefer symbols for "abs"; wenzelm parents: 61799 diff changeset	1174	fixes abs :: "'a \<Rightarrow> 'a" ("\<bar>_\<bar>")
35092 cfe605c54e50 moved less_eq, less to Orderings.thy; moved abs, sgn to Groups.thy haftmann parents: 35050 diff changeset	1175
cfe605c54e50 moved less_eq, less to Orderings.thy; moved abs, sgn to Groups.thy haftmann parents: 35050 diff changeset	1176	class sgn =
cfe605c54e50 moved less_eq, less to Orderings.thy; moved abs, sgn to Groups.thy haftmann parents: 35050 diff changeset	1177	fixes sgn :: "'a \<Rightarrow> 'a"
cfe605c54e50 moved less_eq, less to Orderings.thy; moved abs, sgn to Groups.thy haftmann parents: 35050 diff changeset	1178
35028 108662d50512 more consistent naming of type classes involving orderings (and lattices) -- c.f. NEWS haftmann parents: 34973 diff changeset	1179	class ordered_ab_group_add_abs = ordered_ab_group_add + abs +
25303 0699e20feabd renamed lordered__ to lordered__add_; further localization haftmann parents: 25267 diff changeset	1180	assumes abs_ge_zero [simp]: "\<bar>a\<bar> \<ge> 0"
0699e20feabd renamed lordered__ to lordered__add_; further localization haftmann parents: 25267 diff changeset	1181	and abs_ge_self: "a \<le> \<bar>a\<bar>"
0699e20feabd renamed lordered__ to lordered__add_; further localization haftmann parents: 25267 diff changeset	1182	and abs_leI: "a \<le> b \<Longrightarrow> - a \<le> b \<Longrightarrow> \<bar>a\<bar> \<le> b"
0699e20feabd renamed lordered__ to lordered__add_; further localization haftmann parents: 25267 diff changeset	1183	and abs_minus_cancel [simp]: "\<bar>-a\<bar> = \<bar>a\<bar>"
0699e20feabd renamed lordered__ to lordered__add_; further localization haftmann parents: 25267 diff changeset	1184	and abs_triangle_ineq: "\<bar>a + b\<bar> \<le> \<bar>a\<bar> + \<bar>b\<bar>"
0699e20feabd renamed lordered__ to lordered__add_; further localization haftmann parents: 25267 diff changeset	1185	begin
0699e20feabd renamed lordered__ to lordered__add_; further localization haftmann parents: 25267 diff changeset	1186
25307 389902f0a0c8 simplified specification of _abs class haftmann* parents: 25303 diff changeset	1187	lemma abs_minus_le_zero: "- \<bar>a\<bar> \<le> 0"
389902f0a0c8 simplified specification of _abs class haftmann* parents: 25303 diff changeset	1188	unfolding neg_le_0_iff_le by simp
389902f0a0c8 simplified specification of _abs class haftmann* parents: 25303 diff changeset	1189
389902f0a0c8 simplified specification of _abs class haftmann* parents: 25303 diff changeset	1190	lemma abs_of_nonneg [simp]:
63325 1086d56cde86 misc tuning and modernization; wenzelm parents: 63290 diff changeset	1191	assumes nonneg: "0 \<le> a"
1086d56cde86 misc tuning and modernization; wenzelm parents: 63290 diff changeset	1192	shows "\<bar>a\<bar> = a"
25307 389902f0a0c8 simplified specification of _abs class haftmann* parents: 25303 diff changeset	1193	proof (rule antisym)
63325 1086d56cde86 misc tuning and modernization; wenzelm parents: 63290 diff changeset	1194	show "a \<le> \<bar>a\<bar>" by (rule abs_ge_self)
25307 389902f0a0c8 simplified specification of _abs class haftmann* parents: 25303 diff changeset	1195	from nonneg le_imp_neg_le have "- a \<le> 0" by simp
389902f0a0c8 simplified specification of _abs class haftmann* parents: 25303 diff changeset	1196	from this nonneg have "- a \<le> a" by (rule order_trans)
389902f0a0c8 simplified specification of _abs class haftmann* parents: 25303 diff changeset	1197	then show "\<bar>a\<bar> \<le> a" by (auto intro: abs_leI)
63325 1086d56cde86 misc tuning and modernization; wenzelm parents: 63290 diff changeset	1198	qed
25307 389902f0a0c8 simplified specification of _abs class haftmann* parents: 25303 diff changeset	1199
389902f0a0c8 simplified specification of _abs class haftmann* parents: 25303 diff changeset	1200	lemma abs_idempotent [simp]: "\<bar>\<bar>a\<bar>\<bar> = \<bar>a\<bar>"
63325 1086d56cde86 misc tuning and modernization; wenzelm parents: 63290 diff changeset	1201	by (rule antisym) (auto intro!: abs_ge_self abs_leI order_trans [of "- \<bar>a\<bar>" 0 "\<bar>a\<bar>"])
25307 389902f0a0c8 simplified specification of _abs class haftmann* parents: 25303 diff changeset	1202
389902f0a0c8 simplified specification of _abs class haftmann* parents: 25303 diff changeset	1203	lemma abs_eq_0 [simp]: "\<bar>a\<bar> = 0 \<longleftrightarrow> a = 0"
389902f0a0c8 simplified specification of _abs class haftmann* parents: 25303 diff changeset	1204	proof -
389902f0a0c8 simplified specification of _abs class haftmann* parents: 25303 diff changeset	1205	have "\<bar>a\<bar> = 0 \<Longrightarrow> a = 0"
389902f0a0c8 simplified specification of _abs class haftmann* parents: 25303 diff changeset	1206	proof (rule antisym)
389902f0a0c8 simplified specification of _abs class haftmann* parents: 25303 diff changeset	1207	assume zero: "\<bar>a\<bar> = 0"
389902f0a0c8 simplified specification of _abs class haftmann* parents: 25303 diff changeset	1208	with abs_ge_self show "a \<le> 0" by auto
389902f0a0c8 simplified specification of _abs class haftmann* parents: 25303 diff changeset	1209	from zero have "\<bar>-a\<bar> = 0" by simp
36302 4e7f5b22dd7d more localization; tuned proofs haftmann parents: 36176 diff changeset	1210	with abs_ge_self [of "- a"] have "- a \<le> 0" by auto
25307 389902f0a0c8 simplified specification of _abs class haftmann* parents: 25303 diff changeset	1211	with neg_le_0_iff_le show "0 \<le> a" by auto
389902f0a0c8 simplified specification of _abs class haftmann* parents: 25303 diff changeset	1212	qed
389902f0a0c8 simplified specification of _abs class haftmann* parents: 25303 diff changeset	1213	then show ?thesis by auto
389902f0a0c8 simplified specification of _abs class haftmann* parents: 25303 diff changeset	1214	qed
389902f0a0c8 simplified specification of _abs class haftmann* parents: 25303 diff changeset	1215
25303 0699e20feabd renamed lordered__ to lordered__add_; further localization haftmann parents: 25267 diff changeset	1216	lemma abs_zero [simp]: "\<bar>0\<bar> = 0"
63325 1086d56cde86 misc tuning and modernization; wenzelm parents: 63290 diff changeset	1217	by simp
16775 c1b87ef4a1c3 added lemmas to OrderedGroup.thy (reasoning about signs, absolute value, triangle inequalities) avigad parents: 16417 diff changeset	1218
54148 c8cc5ab4a863 killed more "no_atp"s blanchet parents: 54147 diff changeset	1219	lemma abs_0_eq [simp]: "0 = \<bar>a\<bar> \<longleftrightarrow> a = 0"
25303 0699e20feabd renamed lordered__ to lordered__add_; further localization haftmann parents: 25267 diff changeset	1220	proof -
0699e20feabd renamed lordered__ to lordered__add_; further localization haftmann parents: 25267 diff changeset	1221	have "0 = \<bar>a\<bar> \<longleftrightarrow> \<bar>a\<bar> = 0" by (simp only: eq_ac)
63325 1086d56cde86 misc tuning and modernization; wenzelm parents: 63290 diff changeset	1222	then show ?thesis by simp
25303 0699e20feabd renamed lordered__ to lordered__add_; further localization haftmann parents: 25267 diff changeset	1223	qed
0699e20feabd renamed lordered__ to lordered__add_; further localization haftmann parents: 25267 diff changeset	1224
62376 85f38d5f8807 Rename ordered_comm_monoid_add to ordered_cancel_comm_monoid_add. Introduce ordreed_comm_monoid_add, canonically_ordered_comm_monoid and dioid. Setup nat, entat and ennreal as dioids. hoelzl parents: 62348 diff changeset	1225	lemma abs_le_zero_iff [simp]: "\<bar>a\<bar> \<le> 0 \<longleftrightarrow> a = 0"
25303 0699e20feabd renamed lordered__ to lordered__add_; further localization haftmann parents: 25267 diff changeset	1226	proof
0699e20feabd renamed lordered__ to lordered__add_; further localization haftmann parents: 25267 diff changeset	1227	assume "\<bar>a\<bar> \<le> 0"
0699e20feabd renamed lordered__ to lordered__add_; further localization haftmann parents: 25267 diff changeset	1228	then have "\<bar>a\<bar> = 0" by (rule antisym) simp
63325 1086d56cde86 misc tuning and modernization; wenzelm parents: 63290 diff changeset	1229	then show "a = 0" by simp
25303 0699e20feabd renamed lordered__ to lordered__add_; further localization haftmann parents: 25267 diff changeset	1230	next
0699e20feabd renamed lordered__ to lordered__add_; further localization haftmann parents: 25267 diff changeset	1231	assume "a = 0"
63325 1086d56cde86 misc tuning and modernization; wenzelm parents: 63290 diff changeset	1232	then show "\<bar>a\<bar> \<le> 0" by simp
25303 0699e20feabd renamed lordered__ to lordered__add_; further localization haftmann parents: 25267 diff changeset	1233	qed
0699e20feabd renamed lordered__ to lordered__add_; further localization haftmann parents: 25267 diff changeset	1234
62379 340738057c8c An assortment of useful lemmas about sums, norm, etc. Also: norm_conv_dist [symmetric] is now a simprule! paulson <lp15@cam.ac.uk> parents: 62378 diff changeset	1235	lemma abs_le_self_iff [simp]: "\<bar>a\<bar> \<le> a \<longleftrightarrow> 0 \<le> a"
340738057c8c An assortment of useful lemmas about sums, norm, etc. Also: norm_conv_dist [symmetric] is now a simprule! paulson <lp15@cam.ac.uk> parents: 62378 diff changeset	1236	proof -
63325 1086d56cde86 misc tuning and modernization; wenzelm parents: 63290 diff changeset	1237	have "0 \<le> \<bar>a\<bar>"
62379 340738057c8c An assortment of useful lemmas about sums, norm, etc. Also: norm_conv_dist [symmetric] is now a simprule! paulson <lp15@cam.ac.uk> parents: 62378 diff changeset	1238	using abs_ge_zero by blast
340738057c8c An assortment of useful lemmas about sums, norm, etc. Also: norm_conv_dist [symmetric] is now a simprule! paulson <lp15@cam.ac.uk> parents: 62378 diff changeset	1239	then have "\<bar>a\<bar> \<le> a \<Longrightarrow> 0 \<le> a"
340738057c8c An assortment of useful lemmas about sums, norm, etc. Also: norm_conv_dist [symmetric] is now a simprule! paulson <lp15@cam.ac.uk> parents: 62378 diff changeset	1240	using order.trans by blast
340738057c8c An assortment of useful lemmas about sums, norm, etc. Also: norm_conv_dist [symmetric] is now a simprule! paulson <lp15@cam.ac.uk> parents: 62378 diff changeset	1241	then show ?thesis
340738057c8c An assortment of useful lemmas about sums, norm, etc. Also: norm_conv_dist [symmetric] is now a simprule! paulson <lp15@cam.ac.uk> parents: 62378 diff changeset	1242	using abs_of_nonneg eq_refl by blast
340738057c8c An assortment of useful lemmas about sums, norm, etc. Also: norm_conv_dist [symmetric] is now a simprule! paulson <lp15@cam.ac.uk> parents: 62378 diff changeset	1243	qed
340738057c8c An assortment of useful lemmas about sums, norm, etc. Also: norm_conv_dist [symmetric] is now a simprule! paulson <lp15@cam.ac.uk> parents: 62378 diff changeset	1244
25303 0699e20feabd renamed lordered__ to lordered__add_; further localization haftmann parents: 25267 diff changeset	1245	lemma zero_less_abs_iff [simp]: "0 < \<bar>a\<bar> \<longleftrightarrow> a \<noteq> 0"
63325 1086d56cde86 misc tuning and modernization; wenzelm parents: 63290 diff changeset	1246	by (simp add: less_le)
25303 0699e20feabd renamed lordered__ to lordered__add_; further localization haftmann parents: 25267 diff changeset	1247
0699e20feabd renamed lordered__ to lordered__add_; further localization haftmann parents: 25267 diff changeset	1248	lemma abs_not_less_zero [simp]: "\<not> \<bar>a\<bar> < 0"
0699e20feabd renamed lordered__ to lordered__add_; further localization haftmann parents: 25267 diff changeset	1249	proof -
63325 1086d56cde86 misc tuning and modernization; wenzelm parents: 63290 diff changeset	1250	have "x \<le> y \<Longrightarrow> \<not> y < x" for x y by auto
1086d56cde86 misc tuning and modernization; wenzelm parents: 63290 diff changeset	1251	then show ?thesis by simp
25303 0699e20feabd renamed lordered__ to lordered__add_; further localization haftmann parents: 25267 diff changeset	1252	qed
16775 c1b87ef4a1c3 added lemmas to OrderedGroup.thy (reasoning about signs, absolute value, triangle inequalities) avigad parents: 16417 diff changeset	1253
25303 0699e20feabd renamed lordered__ to lordered__add_; further localization haftmann parents: 25267 diff changeset	1254	lemma abs_ge_minus_self: "- a \<le> \<bar>a\<bar>"
0699e20feabd renamed lordered__ to lordered__add_; further localization haftmann parents: 25267 diff changeset	1255	proof -
0699e20feabd renamed lordered__ to lordered__add_; further localization haftmann parents: 25267 diff changeset	1256	have "- a \<le> \<bar>-a\<bar>" by (rule abs_ge_self)
0699e20feabd renamed lordered__ to lordered__add_; further localization haftmann parents: 25267 diff changeset	1257	then show ?thesis by simp
0699e20feabd renamed lordered__ to lordered__add_; further localization haftmann parents: 25267 diff changeset	1258	qed
0699e20feabd renamed lordered__ to lordered__add_; further localization haftmann parents: 25267 diff changeset	1259
63325 1086d56cde86 misc tuning and modernization; wenzelm parents: 63290 diff changeset	1260	lemma abs_minus_commute: "\<bar>a - b\<bar> = \<bar>b - a\<bar>"
25303 0699e20feabd renamed lordered__ to lordered__add_; further localization haftmann parents: 25267 diff changeset	1261	proof -
63325 1086d56cde86 misc tuning and modernization; wenzelm parents: 63290 diff changeset	1262	have "\<bar>a - b\<bar> = \<bar>- (a - b)\<bar>"
1086d56cde86 misc tuning and modernization; wenzelm parents: 63290 diff changeset	1263	by (simp only: abs_minus_cancel)
1086d56cde86 misc tuning and modernization; wenzelm parents: 63290 diff changeset	1264	also have "\<dots> = \<bar>b - a\<bar>" by simp
25303 0699e20feabd renamed lordered__ to lordered__add_; further localization haftmann parents: 25267 diff changeset	1265	finally show ?thesis .
0699e20feabd renamed lordered__ to lordered__add_; further localization haftmann parents: 25267 diff changeset	1266	qed
0699e20feabd renamed lordered__ to lordered__add_; further localization haftmann parents: 25267 diff changeset	1267
0699e20feabd renamed lordered__ to lordered__add_; further localization haftmann parents: 25267 diff changeset	1268	lemma abs_of_pos: "0 < a \<Longrightarrow> \<bar>a\<bar> = a"
63325 1086d56cde86 misc tuning and modernization; wenzelm parents: 63290 diff changeset	1269	by (rule abs_of_nonneg) (rule less_imp_le)
16775 c1b87ef4a1c3 added lemmas to OrderedGroup.thy (reasoning about signs, absolute value, triangle inequalities) avigad parents: 16417 diff changeset	1270
25303 0699e20feabd renamed lordered__ to lordered__add_; further localization haftmann parents: 25267 diff changeset	1271	lemma abs_of_nonpos [simp]:
63325 1086d56cde86 misc tuning and modernization; wenzelm parents: 63290 diff changeset	1272	assumes "a \<le> 0"
1086d56cde86 misc tuning and modernization; wenzelm parents: 63290 diff changeset	1273	shows "\<bar>a\<bar> = - a"
25303 0699e20feabd renamed lordered__ to lordered__add_; further localization haftmann parents: 25267 diff changeset	1274	proof -
0699e20feabd renamed lordered__ to lordered__add_; further localization haftmann parents: 25267 diff changeset	1275	let ?b = "- a"
0699e20feabd renamed lordered__ to lordered__add_; further localization haftmann parents: 25267 diff changeset	1276	have "- ?b \<le> 0 \<Longrightarrow> \<bar>- ?b\<bar> = - (- ?b)"
63325 1086d56cde86 misc tuning and modernization; wenzelm parents: 63290 diff changeset	1277	unfolding abs_minus_cancel [of ?b]
1086d56cde86 misc tuning and modernization; wenzelm parents: 63290 diff changeset	1278	unfolding neg_le_0_iff_le [of ?b]
1086d56cde86 misc tuning and modernization; wenzelm parents: 63290 diff changeset	1279	unfolding minus_minus by (erule abs_of_nonneg)
25303 0699e20feabd renamed lordered__ to lordered__add_; further localization haftmann parents: 25267 diff changeset	1280	then show ?thesis using assms by auto
0699e20feabd renamed lordered__ to lordered__add_; further localization haftmann parents: 25267 diff changeset	1281	qed
62376 85f38d5f8807 Rename ordered_comm_monoid_add to ordered_cancel_comm_monoid_add. Introduce ordreed_comm_monoid_add, canonically_ordered_comm_monoid and dioid. Setup nat, entat and ennreal as dioids. hoelzl parents: 62348 diff changeset	1282
25303 0699e20feabd renamed lordered__ to lordered__add_; further localization haftmann parents: 25267 diff changeset	1283	lemma abs_of_neg: "a < 0 \<Longrightarrow> \<bar>a\<bar> = - a"
63325 1086d56cde86 misc tuning and modernization; wenzelm parents: 63290 diff changeset	1284	by (rule abs_of_nonpos) (rule less_imp_le)
25303 0699e20feabd renamed lordered__ to lordered__add_; further localization haftmann parents: 25267 diff changeset	1285
0699e20feabd renamed lordered__ to lordered__add_; further localization haftmann parents: 25267 diff changeset	1286	lemma abs_le_D1: "\<bar>a\<bar> \<le> b \<Longrightarrow> a \<le> b"
63325 1086d56cde86 misc tuning and modernization; wenzelm parents: 63290 diff changeset	1287	using abs_ge_self by (blast intro: order_trans)
25303 0699e20feabd renamed lordered__ to lordered__add_; further localization haftmann parents: 25267 diff changeset	1288
0699e20feabd renamed lordered__ to lordered__add_; further localization haftmann parents: 25267 diff changeset	1289	lemma abs_le_D2: "\<bar>a\<bar> \<le> b \<Longrightarrow> - a \<le> b"
63325 1086d56cde86 misc tuning and modernization; wenzelm parents: 63290 diff changeset	1290	using abs_le_D1 [of "- a"] by simp
25303 0699e20feabd renamed lordered__ to lordered__add_; further localization haftmann parents: 25267 diff changeset	1291
0699e20feabd renamed lordered__ to lordered__add_; further localization haftmann parents: 25267 diff changeset	1292	lemma abs_le_iff: "\<bar>a\<bar> \<le> b \<longleftrightarrow> a \<le> b \<and> - a \<le> b"
63325 1086d56cde86 misc tuning and modernization; wenzelm parents: 63290 diff changeset	1293	by (blast intro: abs_leI dest: abs_le_D1 abs_le_D2)
25303 0699e20feabd renamed lordered__ to lordered__add_; further localization haftmann parents: 25267 diff changeset	1294
0699e20feabd renamed lordered__ to lordered__add_; further localization haftmann parents: 25267 diff changeset	1295	lemma abs_triangle_ineq2: "\<bar>a\<bar> - \<bar>b\<bar> \<le> \<bar>a - b\<bar>"
36302 4e7f5b22dd7d more localization; tuned proofs haftmann parents: 36176 diff changeset	1296	proof -
4e7f5b22dd7d more localization; tuned proofs haftmann parents: 36176 diff changeset	1297	have "\<bar>a\<bar> = \<bar>b + (a - b)\<bar>"
54230 b1d955791529 more simplification rules on unary and binary minus haftmann parents: 54148 diff changeset	1298	by (simp add: algebra_simps)
36302 4e7f5b22dd7d more localization; tuned proofs haftmann parents: 36176 diff changeset	1299	then have "\<bar>a\<bar> \<le> \<bar>b\<bar> + \<bar>a - b\<bar>"
4e7f5b22dd7d more localization; tuned proofs haftmann parents: 36176 diff changeset	1300	by (simp add: abs_triangle_ineq)
4e7f5b22dd7d more localization; tuned proofs haftmann parents: 36176 diff changeset	1301	then show ?thesis
4e7f5b22dd7d more localization; tuned proofs haftmann parents: 36176 diff changeset	1302	by (simp add: algebra_simps)
4e7f5b22dd7d more localization; tuned proofs haftmann parents: 36176 diff changeset	1303	qed
4e7f5b22dd7d more localization; tuned proofs haftmann parents: 36176 diff changeset	1304
4e7f5b22dd7d more localization; tuned proofs haftmann parents: 36176 diff changeset	1305	lemma abs_triangle_ineq2_sym: "\<bar>a\<bar> - \<bar>b\<bar> \<le> \<bar>b - a\<bar>"
4e7f5b22dd7d more localization; tuned proofs haftmann parents: 36176 diff changeset	1306	by (simp only: abs_minus_commute [of b] abs_triangle_ineq2)
16775 c1b87ef4a1c3 added lemmas to OrderedGroup.thy (reasoning about signs, absolute value, triangle inequalities) avigad parents: 16417 diff changeset	1307
25303 0699e20feabd renamed lordered__ to lordered__add_; further localization haftmann parents: 25267 diff changeset	1308	lemma abs_triangle_ineq3: "\<bar>\<bar>a\<bar> - \<bar>b\<bar>\<bar> \<le> \<bar>a - b\<bar>"
36302 4e7f5b22dd7d more localization; tuned proofs haftmann parents: 36176 diff changeset	1309	by (simp add: abs_le_iff abs_triangle_ineq2 abs_triangle_ineq2_sym)
16775 c1b87ef4a1c3 added lemmas to OrderedGroup.thy (reasoning about signs, absolute value, triangle inequalities) avigad parents: 16417 diff changeset	1310
25303 0699e20feabd renamed lordered__ to lordered__add_; further localization haftmann parents: 25267 diff changeset	1311	lemma abs_triangle_ineq4: "\<bar>a - b\<bar> \<le> \<bar>a\<bar> + \<bar>b\<bar>"
0699e20feabd renamed lordered__ to lordered__add_; further localization haftmann parents: 25267 diff changeset	1312	proof -
63325 1086d56cde86 misc tuning and modernization; wenzelm parents: 63290 diff changeset	1313	have "\<bar>a - b\<bar> = \<bar>a + - b\<bar>"
1086d56cde86 misc tuning and modernization; wenzelm parents: 63290 diff changeset	1314	by (simp add: algebra_simps)
1086d56cde86 misc tuning and modernization; wenzelm parents: 63290 diff changeset	1315	also have "\<dots> \<le> \<bar>a\<bar> + \<bar>- b\<bar>"
1086d56cde86 misc tuning and modernization; wenzelm parents: 63290 diff changeset	1316	by (rule abs_triangle_ineq)
29667 53103fc8ffa3 Replaced group_ and ring_simps by algebra_simps; nipkow parents: 29269 diff changeset	1317	finally show ?thesis by simp
25303 0699e20feabd renamed lordered__ to lordered__add_; further localization haftmann parents: 25267 diff changeset	1318	qed
16775 c1b87ef4a1c3 added lemmas to OrderedGroup.thy (reasoning about signs, absolute value, triangle inequalities) avigad parents: 16417 diff changeset	1319
25303 0699e20feabd renamed lordered__ to lordered__add_; further localization haftmann parents: 25267 diff changeset	1320	lemma abs_diff_triangle_ineq: "\<bar>a + b - (c + d)\<bar> \<le> \<bar>a - c\<bar> + \<bar>b - d\<bar>"
0699e20feabd renamed lordered__ to lordered__add_; further localization haftmann parents: 25267 diff changeset	1321	proof -
63325 1086d56cde86 misc tuning and modernization; wenzelm parents: 63290 diff changeset	1322	have "\<bar>a + b - (c + d)\<bar> = \<bar>(a - c) + (b - d)\<bar>"
1086d56cde86 misc tuning and modernization; wenzelm parents: 63290 diff changeset	1323	by (simp add: algebra_simps)
1086d56cde86 misc tuning and modernization; wenzelm parents: 63290 diff changeset	1324	also have "\<dots> \<le> \<bar>a - c\<bar> + \<bar>b - d\<bar>"
1086d56cde86 misc tuning and modernization; wenzelm parents: 63290 diff changeset	1325	by (rule abs_triangle_ineq)
25303 0699e20feabd renamed lordered__ to lordered__add_; further localization haftmann parents: 25267 diff changeset	1326	finally show ?thesis .
0699e20feabd renamed lordered__ to lordered__add_; further localization haftmann parents: 25267 diff changeset	1327	qed
16775 c1b87ef4a1c3 added lemmas to OrderedGroup.thy (reasoning about signs, absolute value, triangle inequalities) avigad parents: 16417 diff changeset	1328
63325 1086d56cde86 misc tuning and modernization; wenzelm parents: 63290 diff changeset	1329	lemma abs_add_abs [simp]: "\<bar>\<bar>a\<bar> + \<bar>b\<bar>\<bar> = \<bar>a\<bar> + \<bar>b\<bar>"
1086d56cde86 misc tuning and modernization; wenzelm parents: 63290 diff changeset	1330	(is "?L = ?R")
25303 0699e20feabd renamed lordered__ to lordered__add_; further localization haftmann parents: 25267 diff changeset	1331	proof (rule antisym)
63325 1086d56cde86 misc tuning and modernization; wenzelm parents: 63290 diff changeset	1332	show "?L \<ge> ?R" by (rule abs_ge_self)
1086d56cde86 misc tuning and modernization; wenzelm parents: 63290 diff changeset	1333	have "?L \<le> \<bar>\<bar>a\<bar>\<bar> + \<bar>\<bar>b\<bar>\<bar>" by (rule abs_triangle_ineq)
25303 0699e20feabd renamed lordered__ to lordered__add_; further localization haftmann parents: 25267 diff changeset	1334	also have "\<dots> = ?R" by simp
0699e20feabd renamed lordered__ to lordered__add_; further localization haftmann parents: 25267 diff changeset	1335	finally show "?L \<le> ?R" .
0699e20feabd renamed lordered__ to lordered__add_; further localization haftmann parents: 25267 diff changeset	1336	qed
0699e20feabd renamed lordered__ to lordered__add_; further localization haftmann parents: 25267 diff changeset	1337
0699e20feabd renamed lordered__ to lordered__add_; further localization haftmann parents: 25267 diff changeset	1338	end
14738 83f1a514dcb4 changes made due to new Ring_and_Field theory obua parents: diff changeset	1339
60762 bf0c76ccee8d new material for multivariate analysis, etc. paulson parents: 60758 diff changeset	1340	lemma dense_eq0_I:
bf0c76ccee8d new material for multivariate analysis, etc. paulson parents: 60758 diff changeset	1341	fixes x::"'a::{dense_linorder,ordered_ab_group_add_abs}"
63325 1086d56cde86 misc tuning and modernization; wenzelm parents: 63290 diff changeset	1342	shows "(\<And>e. 0 < e \<Longrightarrow> \<bar>x\<bar> \<le> e) \<Longrightarrow> x = 0"
1086d56cde86 misc tuning and modernization; wenzelm parents: 63290 diff changeset	1343	apply (cases "\<bar>x\<bar> = 0")
63588 d0e2bad67bd4 misc tuning and modernization; wenzelm parents: 63456 diff changeset	1344	apply simp
60762 bf0c76ccee8d new material for multivariate analysis, etc. paulson parents: 60758 diff changeset	1345	apply (simp only: zero_less_abs_iff [symmetric])
bf0c76ccee8d new material for multivariate analysis, etc. paulson parents: 60758 diff changeset	1346	apply (drule dense)
bf0c76ccee8d new material for multivariate analysis, etc. paulson parents: 60758 diff changeset	1347	apply (auto simp add: not_less [symmetric])
bf0c76ccee8d new material for multivariate analysis, etc. paulson parents: 60758 diff changeset	1348	done
bf0c76ccee8d new material for multivariate analysis, etc. paulson parents: 60758 diff changeset	1349
59815 cce82e360c2f explicit commutative additive inverse operation; haftmann parents: 59559 diff changeset	1350	hide_fact (open) ab_diff_conv_add_uminus add_0 mult_1 ab_left_minus
cce82e360c2f explicit commutative additive inverse operation; haftmann parents: 59559 diff changeset	1351
63325 1086d56cde86 misc tuning and modernization; wenzelm parents: 63290 diff changeset	1352	lemmas add_0 = add_0_left (* FIXME duplicate *)
1086d56cde86 misc tuning and modernization; wenzelm parents: 63290 diff changeset	1353	lemmas mult_1 = mult_1_left (* FIXME duplicate *)
1086d56cde86 misc tuning and modernization; wenzelm parents: 63290 diff changeset	1354	lemmas ab_left_minus = left_minus (* FIXME duplicate *)
1086d56cde86 misc tuning and modernization; wenzelm parents: 63290 diff changeset	1355	lemmas diff_diff_eq = diff_diff_add (* FIXME duplicate *)
1086d56cde86 misc tuning and modernization; wenzelm parents: 63290 diff changeset	1356
59815 cce82e360c2f explicit commutative additive inverse operation; haftmann parents: 59559 diff changeset	1357
62377 ace69956d018 moved more proofs to ordered_comm_monoid_add; introduced strict_ordered_ab_semigroup/comm_monoid_add hoelzl parents: 62376 diff changeset	1358	subsection \<open>Canonically ordered monoids\<close>
ace69956d018 moved more proofs to ordered_comm_monoid_add; introduced strict_ordered_ab_semigroup/comm_monoid_add hoelzl parents: 62376 diff changeset	1359
ace69956d018 moved more proofs to ordered_comm_monoid_add; introduced strict_ordered_ab_semigroup/comm_monoid_add hoelzl parents: 62376 diff changeset	1360	text \<open>Canonically ordered monoids are never groups.\<close>
ace69956d018 moved more proofs to ordered_comm_monoid_add; introduced strict_ordered_ab_semigroup/comm_monoid_add hoelzl parents: 62376 diff changeset	1361
ace69956d018 moved more proofs to ordered_comm_monoid_add; introduced strict_ordered_ab_semigroup/comm_monoid_add hoelzl parents: 62376 diff changeset	1362	class canonically_ordered_monoid_add = comm_monoid_add + order +
ace69956d018 moved more proofs to ordered_comm_monoid_add; introduced strict_ordered_ab_semigroup/comm_monoid_add hoelzl parents: 62376 diff changeset	1363	assumes le_iff_add: "a \<le> b \<longleftrightarrow> (\<exists>c. b = a + c)"
ace69956d018 moved more proofs to ordered_comm_monoid_add; introduced strict_ordered_ab_semigroup/comm_monoid_add hoelzl parents: 62376 diff changeset	1364	begin
ace69956d018 moved more proofs to ordered_comm_monoid_add; introduced strict_ordered_ab_semigroup/comm_monoid_add hoelzl parents: 62376 diff changeset	1365
62378 85ed00c1fe7c generalize more theorems to support enat and ennreal hoelzl parents: 62377 diff changeset	1366	lemma zero_le[simp]: "0 \<le> x"
62377 ace69956d018 moved more proofs to ordered_comm_monoid_add; introduced strict_ordered_ab_semigroup/comm_monoid_add hoelzl parents: 62376 diff changeset	1367	by (auto simp: le_iff_add)
ace69956d018 moved more proofs to ordered_comm_monoid_add; introduced strict_ordered_ab_semigroup/comm_monoid_add hoelzl parents: 62376 diff changeset	1368
62378 85ed00c1fe7c generalize more theorems to support enat and ennreal hoelzl parents: 62377 diff changeset	1369	lemma le_zero_eq[simp]: "n \<le> 0 \<longleftrightarrow> n = 0"
85ed00c1fe7c generalize more theorems to support enat and ennreal hoelzl parents: 62377 diff changeset	1370	by (auto intro: antisym)
85ed00c1fe7c generalize more theorems to support enat and ennreal hoelzl parents: 62377 diff changeset	1371
85ed00c1fe7c generalize more theorems to support enat and ennreal hoelzl parents: 62377 diff changeset	1372	lemma not_less_zero[simp]: "\<not> n < 0"
85ed00c1fe7c generalize more theorems to support enat and ennreal hoelzl parents: 62377 diff changeset	1373	by (auto simp: less_le)
85ed00c1fe7c generalize more theorems to support enat and ennreal hoelzl parents: 62377 diff changeset	1374
63325 1086d56cde86 misc tuning and modernization; wenzelm parents: 63290 diff changeset	1375	lemma zero_less_iff_neq_zero: "0 < n \<longleftrightarrow> n \<noteq> 0"
62378 85ed00c1fe7c generalize more theorems to support enat and ennreal hoelzl parents: 62377 diff changeset	1376	by (auto simp: less_le)
85ed00c1fe7c generalize more theorems to support enat and ennreal hoelzl parents: 62377 diff changeset	1377
85ed00c1fe7c generalize more theorems to support enat and ennreal hoelzl parents: 62377 diff changeset	1378	text \<open>This theorem is useful with \<open>blast\<close>\<close>
85ed00c1fe7c generalize more theorems to support enat and ennreal hoelzl parents: 62377 diff changeset	1379	lemma gr_zeroI: "(n = 0 \<Longrightarrow> False) \<Longrightarrow> 0 < n"
85ed00c1fe7c generalize more theorems to support enat and ennreal hoelzl parents: 62377 diff changeset	1380	by (rule zero_less_iff_neq_zero[THEN iffD2]) iprover
85ed00c1fe7c generalize more theorems to support enat and ennreal hoelzl parents: 62377 diff changeset	1381
63325 1086d56cde86 misc tuning and modernization; wenzelm parents: 63290 diff changeset	1382	lemma not_gr_zero[simp]: "\<not> 0 < n \<longleftrightarrow> n = 0"
62378 85ed00c1fe7c generalize more theorems to support enat and ennreal hoelzl parents: 62377 diff changeset	1383	by (simp add: zero_less_iff_neq_zero)
85ed00c1fe7c generalize more theorems to support enat and ennreal hoelzl parents: 62377 diff changeset	1384
62377 ace69956d018 moved more proofs to ordered_comm_monoid_add; introduced strict_ordered_ab_semigroup/comm_monoid_add hoelzl parents: 62376 diff changeset	1385	subclass ordered_comm_monoid_add
ace69956d018 moved more proofs to ordered_comm_monoid_add; introduced strict_ordered_ab_semigroup/comm_monoid_add hoelzl parents: 62376 diff changeset	1386	proof qed (auto simp: le_iff_add add_ac)
ace69956d018 moved more proofs to ordered_comm_monoid_add; introduced strict_ordered_ab_semigroup/comm_monoid_add hoelzl parents: 62376 diff changeset	1387
63878 e26c7f58d78e add add_eq_0_iff_both_eq_0 and zero_eq_add_iff_both_eq_0 to simp set hoelzl parents: 63680 diff changeset	1388	lemma gr_implies_not_zero: "m < n \<Longrightarrow> n \<noteq> 0"
e26c7f58d78e add add_eq_0_iff_both_eq_0 and zero_eq_add_iff_both_eq_0 to simp set hoelzl parents: 63680 diff changeset	1389	by auto
e26c7f58d78e add add_eq_0_iff_both_eq_0 and zero_eq_add_iff_both_eq_0 to simp set hoelzl parents: 63680 diff changeset	1390
e26c7f58d78e add add_eq_0_iff_both_eq_0 and zero_eq_add_iff_both_eq_0 to simp set hoelzl parents: 63680 diff changeset	1391	lemma add_eq_0_iff_both_eq_0[simp]: "x + y = 0 \<longleftrightarrow> x = 0 \<and> y = 0"
62377 ace69956d018 moved more proofs to ordered_comm_monoid_add; introduced strict_ordered_ab_semigroup/comm_monoid_add hoelzl parents: 62376 diff changeset	1392	by (intro add_nonneg_eq_0_iff zero_le)
ace69956d018 moved more proofs to ordered_comm_monoid_add; introduced strict_ordered_ab_semigroup/comm_monoid_add hoelzl parents: 62376 diff changeset	1393
63878 e26c7f58d78e add add_eq_0_iff_both_eq_0 and zero_eq_add_iff_both_eq_0 to simp set hoelzl parents: 63680 diff changeset	1394	lemma zero_eq_add_iff_both_eq_0[simp]: "0 = x + y \<longleftrightarrow> x = 0 \<and> y = 0"
e26c7f58d78e add add_eq_0_iff_both_eq_0 and zero_eq_add_iff_both_eq_0 to simp set hoelzl parents: 63680 diff changeset	1395	using add_eq_0_iff_both_eq_0[of x y] unfolding eq_commute[of 0] .
62378 85ed00c1fe7c generalize more theorems to support enat and ennreal hoelzl parents: 62377 diff changeset	1396
85ed00c1fe7c generalize more theorems to support enat and ennreal hoelzl parents: 62377 diff changeset	1397	lemmas zero_order = zero_le le_zero_eq not_less_zero zero_less_iff_neq_zero not_gr_zero
63145 703edebd1d92 isabelle update_cartouches -c -t; wenzelm parents: 62608 diff changeset	1398	\<comment> \<open>This should be attributed with \<open>[iff]\<close>, but then \<open>blast\<close> fails in \<open>Set\<close>.\<close>
62378 85ed00c1fe7c generalize more theorems to support enat and ennreal hoelzl parents: 62377 diff changeset	1399
62377 ace69956d018 moved more proofs to ordered_comm_monoid_add; introduced strict_ordered_ab_semigroup/comm_monoid_add hoelzl parents: 62376 diff changeset	1400	end
ace69956d018 moved more proofs to ordered_comm_monoid_add; introduced strict_ordered_ab_semigroup/comm_monoid_add hoelzl parents: 62376 diff changeset	1401
ace69956d018 moved more proofs to ordered_comm_monoid_add; introduced strict_ordered_ab_semigroup/comm_monoid_add hoelzl parents: 62376 diff changeset	1402	class ordered_cancel_comm_monoid_diff =
ace69956d018 moved more proofs to ordered_comm_monoid_add; introduced strict_ordered_ab_semigroup/comm_monoid_add hoelzl parents: 62376 diff changeset	1403	canonically_ordered_monoid_add + comm_monoid_diff + ordered_ab_semigroup_add_imp_le
ace69956d018 moved more proofs to ordered_comm_monoid_add; introduced strict_ordered_ab_semigroup/comm_monoid_add hoelzl parents: 62376 diff changeset	1404	begin
ace69956d018 moved more proofs to ordered_comm_monoid_add; introduced strict_ordered_ab_semigroup/comm_monoid_add hoelzl parents: 62376 diff changeset	1405
ace69956d018 moved more proofs to ordered_comm_monoid_add; introduced strict_ordered_ab_semigroup/comm_monoid_add hoelzl parents: 62376 diff changeset	1406	context
63588 d0e2bad67bd4 misc tuning and modernization; wenzelm parents: 63456 diff changeset	1407	fixes a b :: 'a
63325 1086d56cde86 misc tuning and modernization; wenzelm parents: 63290 diff changeset	1408	assumes le: "a \<le> b"
62377 ace69956d018 moved more proofs to ordered_comm_monoid_add; introduced strict_ordered_ab_semigroup/comm_monoid_add hoelzl parents: 62376 diff changeset	1409	begin
ace69956d018 moved more proofs to ordered_comm_monoid_add; introduced strict_ordered_ab_semigroup/comm_monoid_add hoelzl parents: 62376 diff changeset	1410
63325 1086d56cde86 misc tuning and modernization; wenzelm parents: 63290 diff changeset	1411	lemma add_diff_inverse: "a + (b - a) = b"
1086d56cde86 misc tuning and modernization; wenzelm parents: 63290 diff changeset	1412	using le by (auto simp add: le_iff_add)
62377 ace69956d018 moved more proofs to ordered_comm_monoid_add; introduced strict_ordered_ab_semigroup/comm_monoid_add hoelzl parents: 62376 diff changeset	1413
63325 1086d56cde86 misc tuning and modernization; wenzelm parents: 63290 diff changeset	1414	lemma add_diff_assoc: "c + (b - a) = c + b - a"
1086d56cde86 misc tuning and modernization; wenzelm parents: 63290 diff changeset	1415	using le by (auto simp add: le_iff_add add.left_commute [of c])
62377 ace69956d018 moved more proofs to ordered_comm_monoid_add; introduced strict_ordered_ab_semigroup/comm_monoid_add hoelzl parents: 62376 diff changeset	1416
63325 1086d56cde86 misc tuning and modernization; wenzelm parents: 63290 diff changeset	1417	lemma add_diff_assoc2: "b - a + c = b + c - a"
1086d56cde86 misc tuning and modernization; wenzelm parents: 63290 diff changeset	1418	using le by (auto simp add: le_iff_add add.assoc)
62377 ace69956d018 moved more proofs to ordered_comm_monoid_add; introduced strict_ordered_ab_semigroup/comm_monoid_add hoelzl parents: 62376 diff changeset	1419
63325 1086d56cde86 misc tuning and modernization; wenzelm parents: 63290 diff changeset	1420	lemma diff_add_assoc: "c + b - a = c + (b - a)"
1086d56cde86 misc tuning and modernization; wenzelm parents: 63290 diff changeset	1421	using le by (simp add: add.commute add_diff_assoc)
62377 ace69956d018 moved more proofs to ordered_comm_monoid_add; introduced strict_ordered_ab_semigroup/comm_monoid_add hoelzl parents: 62376 diff changeset	1422
63325 1086d56cde86 misc tuning and modernization; wenzelm parents: 63290 diff changeset	1423	lemma diff_add_assoc2: "b + c - a = b - a + c"
1086d56cde86 misc tuning and modernization; wenzelm parents: 63290 diff changeset	1424	using le by (simp add: add.commute add_diff_assoc)
62377 ace69956d018 moved more proofs to ordered_comm_monoid_add; introduced strict_ordered_ab_semigroup/comm_monoid_add hoelzl parents: 62376 diff changeset	1425
63325 1086d56cde86 misc tuning and modernization; wenzelm parents: 63290 diff changeset	1426	lemma diff_diff_right: "c - (b - a) = c + a - b"
62377 ace69956d018 moved more proofs to ordered_comm_monoid_add; introduced strict_ordered_ab_semigroup/comm_monoid_add hoelzl parents: 62376 diff changeset	1427	by (simp add: add_diff_inverse add_diff_cancel_left [of a c "b - a", symmetric] add.commute)
ace69956d018 moved more proofs to ordered_comm_monoid_add; introduced strict_ordered_ab_semigroup/comm_monoid_add hoelzl parents: 62376 diff changeset	1428
63325 1086d56cde86 misc tuning and modernization; wenzelm parents: 63290 diff changeset	1429	lemma diff_add: "b - a + a = b"
62377 ace69956d018 moved more proofs to ordered_comm_monoid_add; introduced strict_ordered_ab_semigroup/comm_monoid_add hoelzl parents: 62376 diff changeset	1430	by (simp add: add.commute add_diff_inverse)
ace69956d018 moved more proofs to ordered_comm_monoid_add; introduced strict_ordered_ab_semigroup/comm_monoid_add hoelzl parents: 62376 diff changeset	1431
63325 1086d56cde86 misc tuning and modernization; wenzelm parents: 63290 diff changeset	1432	lemma le_add_diff: "c \<le> b + c - a"
62377 ace69956d018 moved more proofs to ordered_comm_monoid_add; introduced strict_ordered_ab_semigroup/comm_monoid_add hoelzl parents: 62376 diff changeset	1433	by (auto simp add: add.commute diff_add_assoc2 le_iff_add)
ace69956d018 moved more proofs to ordered_comm_monoid_add; introduced strict_ordered_ab_semigroup/comm_monoid_add hoelzl parents: 62376 diff changeset	1434
63325 1086d56cde86 misc tuning and modernization; wenzelm parents: 63290 diff changeset	1435	lemma le_imp_diff_is_add: "a \<le> b \<Longrightarrow> b - a = c \<longleftrightarrow> b = c + a"
62377 ace69956d018 moved more proofs to ordered_comm_monoid_add; introduced strict_ordered_ab_semigroup/comm_monoid_add hoelzl parents: 62376 diff changeset	1436	by (auto simp add: add.commute add_diff_inverse)
ace69956d018 moved more proofs to ordered_comm_monoid_add; introduced strict_ordered_ab_semigroup/comm_monoid_add hoelzl parents: 62376 diff changeset	1437
63325 1086d56cde86 misc tuning and modernization; wenzelm parents: 63290 diff changeset	1438	lemma le_diff_conv2: "c \<le> b - a \<longleftrightarrow> c + a \<le> b"
1086d56cde86 misc tuning and modernization; wenzelm parents: 63290 diff changeset	1439	(is "?P \<longleftrightarrow> ?Q")
62377 ace69956d018 moved more proofs to ordered_comm_monoid_add; introduced strict_ordered_ab_semigroup/comm_monoid_add hoelzl parents: 62376 diff changeset	1440	proof
ace69956d018 moved more proofs to ordered_comm_monoid_add; introduced strict_ordered_ab_semigroup/comm_monoid_add hoelzl parents: 62376 diff changeset	1441	assume ?P
63325 1086d56cde86 misc tuning and modernization; wenzelm parents: 63290 diff changeset	1442	then have "c + a \<le> b - a + a"
1086d56cde86 misc tuning and modernization; wenzelm parents: 63290 diff changeset	1443	by (rule add_right_mono)
1086d56cde86 misc tuning and modernization; wenzelm parents: 63290 diff changeset	1444	then show ?Q
1086d56cde86 misc tuning and modernization; wenzelm parents: 63290 diff changeset	1445	by (simp add: add_diff_inverse add.commute)
62377 ace69956d018 moved more proofs to ordered_comm_monoid_add; introduced strict_ordered_ab_semigroup/comm_monoid_add hoelzl parents: 62376 diff changeset	1446	next
ace69956d018 moved more proofs to ordered_comm_monoid_add; introduced strict_ordered_ab_semigroup/comm_monoid_add hoelzl parents: 62376 diff changeset	1447	assume ?Q
63325 1086d56cde86 misc tuning and modernization; wenzelm parents: 63290 diff changeset	1448	then have "a + c \<le> a + (b - a)"
1086d56cde86 misc tuning and modernization; wenzelm parents: 63290 diff changeset	1449	by (simp add: add_diff_inverse add.commute)
62377 ace69956d018 moved more proofs to ordered_comm_monoid_add; introduced strict_ordered_ab_semigroup/comm_monoid_add hoelzl parents: 62376 diff changeset	1450	then show ?P by simp
ace69956d018 moved more proofs to ordered_comm_monoid_add; introduced strict_ordered_ab_semigroup/comm_monoid_add hoelzl parents: 62376 diff changeset	1451	qed
ace69956d018 moved more proofs to ordered_comm_monoid_add; introduced strict_ordered_ab_semigroup/comm_monoid_add hoelzl parents: 62376 diff changeset	1452
ace69956d018 moved more proofs to ordered_comm_monoid_add; introduced strict_ordered_ab_semigroup/comm_monoid_add hoelzl parents: 62376 diff changeset	1453	end
ace69956d018 moved more proofs to ordered_comm_monoid_add; introduced strict_ordered_ab_semigroup/comm_monoid_add hoelzl parents: 62376 diff changeset	1454
ace69956d018 moved more proofs to ordered_comm_monoid_add; introduced strict_ordered_ab_semigroup/comm_monoid_add hoelzl parents: 62376 diff changeset	1455	end
ace69956d018 moved more proofs to ordered_comm_monoid_add; introduced strict_ordered_ab_semigroup/comm_monoid_add hoelzl parents: 62376 diff changeset	1456
63325 1086d56cde86 misc tuning and modernization; wenzelm parents: 63290 diff changeset	1457
60758 d8d85a8172b5 isabelle update_cartouches; wenzelm parents: 59815 diff changeset	1458	subsection \<open>Tools setup\<close>
25090 4a50b958391a 98% localized haftmann parents: 25077 diff changeset	1459
54147 97a8ff4e4ac9 killed most "no_atp", to make Sledgehammer more complete blanchet parents: 52435 diff changeset	1460	lemma add_mono_thms_linordered_semiring:
61076 bdc1e2f0a86a eliminated \<Colon>; wenzelm parents: 60762 diff changeset	1461	fixes i j k :: "'a::ordered_ab_semigroup_add"
25077 c2ec5e589d78 continued localization haftmann parents: 25062 diff changeset	1462	shows "i \<le> j \<and> k \<le> l \<Longrightarrow> i + k \<le> j + l"
c2ec5e589d78 continued localization haftmann parents: 25062 diff changeset	1463	and "i = j \<and> k \<le> l \<Longrightarrow> i + k \<le> j + l"
c2ec5e589d78 continued localization haftmann parents: 25062 diff changeset	1464	and "i \<le> j \<and> k = l \<Longrightarrow> i + k \<le> j + l"
c2ec5e589d78 continued localization haftmann parents: 25062 diff changeset	1465	and "i = j \<and> k = l \<Longrightarrow> i + k = j + l"
63325 1086d56cde86 misc tuning and modernization; wenzelm parents: 63290 diff changeset	1466	by (rule add_mono, clarify+)+
25077 c2ec5e589d78 continued localization haftmann parents: 25062 diff changeset	1467
54147 97a8ff4e4ac9 killed most "no_atp", to make Sledgehammer more complete blanchet parents: 52435 diff changeset	1468	lemma add_mono_thms_linordered_field:
61076 bdc1e2f0a86a eliminated \<Colon>; wenzelm parents: 60762 diff changeset	1469	fixes i j k :: "'a::ordered_cancel_ab_semigroup_add"
25077 c2ec5e589d78 continued localization haftmann parents: 25062 diff changeset	1470	shows "i < j \<and> k = l \<Longrightarrow> i + k < j + l"
c2ec5e589d78 continued localization haftmann parents: 25062 diff changeset	1471	and "i = j \<and> k < l \<Longrightarrow> i + k < j + l"
c2ec5e589d78 continued localization haftmann parents: 25062 diff changeset	1472	and "i < j \<and> k \<le> l \<Longrightarrow> i + k < j + l"
c2ec5e589d78 continued localization haftmann parents: 25062 diff changeset	1473	and "i \<le> j \<and> k < l \<Longrightarrow> i + k < j + l"
c2ec5e589d78 continued localization haftmann parents: 25062 diff changeset	1474	and "i < j \<and> k < l \<Longrightarrow> i + k < j + l"
63325 1086d56cde86 misc tuning and modernization; wenzelm parents: 63290 diff changeset	1475	by (auto intro: add_strict_right_mono add_strict_left_mono
1086d56cde86 misc tuning and modernization; wenzelm parents: 63290 diff changeset	1476	add_less_le_mono add_le_less_mono add_strict_mono)
25077 c2ec5e589d78 continued localization haftmann parents: 25062 diff changeset	1477
52435 6646bb548c6b migration from code_(const\|type\|class\|instance) to code_printing and from code_module to code_identifier haftmann parents: 52289 diff changeset	1478	code_identifier
6646bb548c6b migration from code_(const\|type\|class\|instance) to code_printing and from code_module to code_identifier haftmann parents: 52289 diff changeset	1479	code_module Groups \<rightharpoonup> (SML) Arith and (OCaml) Arith and (Haskell) Arith
33364 2bd12592c5e8 tuned code setup haftmann parents: 32642 diff changeset	1480
14738 83f1a514dcb4 changes made due to new Ring_and_Field theory obua parents: diff changeset	1481	end

author	wenzelm
	Thu, 19 Sep 2019 16:38:05 +0200
changeset 70735	561b11865cb5
parent 70490	c42a0a0a9a8d
child 70817	dd675800469d
permissions	-rw-r--r--