isabelle: src/HOL/RealVector.thy@629f3a92863e (annotated)

29197 6d4cb27ed19c adapted HOL source structure to distribution layout haftmann parents: 28952 diff changeset	1	(* Title: HOL/RealVector.thy
27552 15cf4ed9c2a1 re-removed subclass relation real_field < field_char_0: coregularity violation in NSA/HyperDef haftmann parents: 27515 diff changeset	2	Author: Brian Huffman
20504 6342e872e71d formalization of vector spaces and algebras over the real numbers huffman parents: diff changeset	3	*)
6342e872e71d formalization of vector spaces and algebras over the real numbers huffman parents: diff changeset	4
6342e872e71d formalization of vector spaces and algebras over the real numbers huffman parents: diff changeset	5	header {* Vector Spaces and Algebras over the Reals *}
6342e872e71d formalization of vector spaces and algebras over the real numbers huffman parents: diff changeset	6
6342e872e71d formalization of vector spaces and algebras over the real numbers huffman parents: diff changeset	7	theory RealVector
29197 6d4cb27ed19c adapted HOL source structure to distribution layout haftmann parents: 28952 diff changeset	8	imports RealPow
20504 6342e872e71d formalization of vector spaces and algebras over the real numbers huffman parents: diff changeset	9	begin
6342e872e71d formalization of vector spaces and algebras over the real numbers huffman parents: diff changeset	10
6342e872e71d formalization of vector spaces and algebras over the real numbers huffman parents: diff changeset	11	subsection {* Locale for additive functions *}
6342e872e71d formalization of vector spaces and algebras over the real numbers huffman parents: diff changeset	12
6342e872e71d formalization of vector spaces and algebras over the real numbers huffman parents: diff changeset	13	locale additive =
6342e872e71d formalization of vector spaces and algebras over the real numbers huffman parents: diff changeset	14	fixes f :: "'a::ab_group_add \<Rightarrow> 'b::ab_group_add"
6342e872e71d formalization of vector spaces and algebras over the real numbers huffman parents: diff changeset	15	assumes add: "f (x + y) = f x + f y"
27443 22b6281d6719 use begin and end for proofs in locales huffman parents: 27435 diff changeset	16	begin
20504 6342e872e71d formalization of vector spaces and algebras over the real numbers huffman parents: diff changeset	17
27443 22b6281d6719 use begin and end for proofs in locales huffman parents: 27435 diff changeset	18	lemma zero: "f 0 = 0"
20504 6342e872e71d formalization of vector spaces and algebras over the real numbers huffman parents: diff changeset	19	proof -
6342e872e71d formalization of vector spaces and algebras over the real numbers huffman parents: diff changeset	20	have "f 0 = f (0 + 0)" by simp
6342e872e71d formalization of vector spaces and algebras over the real numbers huffman parents: diff changeset	21	also have "\<dots> = f 0 + f 0" by (rule add)
6342e872e71d formalization of vector spaces and algebras over the real numbers huffman parents: diff changeset	22	finally show "f 0 = 0" by simp
6342e872e71d formalization of vector spaces and algebras over the real numbers huffman parents: diff changeset	23	qed
6342e872e71d formalization of vector spaces and algebras over the real numbers huffman parents: diff changeset	24
27443 22b6281d6719 use begin and end for proofs in locales huffman parents: 27435 diff changeset	25	lemma minus: "f (- x) = - f x"
20504 6342e872e71d formalization of vector spaces and algebras over the real numbers huffman parents: diff changeset	26	proof -
6342e872e71d formalization of vector spaces and algebras over the real numbers huffman parents: diff changeset	27	have "f (- x) + f x = f (- x + x)" by (rule add [symmetric])
6342e872e71d formalization of vector spaces and algebras over the real numbers huffman parents: diff changeset	28	also have "\<dots> = - f x + f x" by (simp add: zero)
6342e872e71d formalization of vector spaces and algebras over the real numbers huffman parents: diff changeset	29	finally show "f (- x) = - f x" by (rule add_right_imp_eq)
6342e872e71d formalization of vector spaces and algebras over the real numbers huffman parents: diff changeset	30	qed
6342e872e71d formalization of vector spaces and algebras over the real numbers huffman parents: diff changeset	31
27443 22b6281d6719 use begin and end for proofs in locales huffman parents: 27435 diff changeset	32	lemma diff: "f (x - y) = f x - f y"
20504 6342e872e71d formalization of vector spaces and algebras over the real numbers huffman parents: diff changeset	33	by (simp add: diff_def add minus)
6342e872e71d formalization of vector spaces and algebras over the real numbers huffman parents: diff changeset	34
27443 22b6281d6719 use begin and end for proofs in locales huffman parents: 27435 diff changeset	35	lemma setsum: "f (setsum g A) = (\<Sum>x\<in>A. f (g x))"
22942 bf718970e5ef add lemma additive.setsum huffman parents: 22912 diff changeset	36	apply (cases "finite A")
bf718970e5ef add lemma additive.setsum huffman parents: 22912 diff changeset	37	apply (induct set: finite)
bf718970e5ef add lemma additive.setsum huffman parents: 22912 diff changeset	38	apply (simp add: zero)
bf718970e5ef add lemma additive.setsum huffman parents: 22912 diff changeset	39	apply (simp add: add)
bf718970e5ef add lemma additive.setsum huffman parents: 22912 diff changeset	40	apply (simp add: zero)
bf718970e5ef add lemma additive.setsum huffman parents: 22912 diff changeset	41	done
bf718970e5ef add lemma additive.setsum huffman parents: 22912 diff changeset	42
27443 22b6281d6719 use begin and end for proofs in locales huffman parents: 27435 diff changeset	43	end
20504 6342e872e71d formalization of vector spaces and algebras over the real numbers huffman parents: diff changeset	44
28029 4c55cdec4ce7 simplify definition of vector_space locale (use axclasses instead of inheriting from field and ab_group_add classes) huffman parents: 28009 diff changeset	45	subsection {* Vector spaces *}
4c55cdec4ce7 simplify definition of vector_space locale (use axclasses instead of inheriting from field and ab_group_add classes) huffman parents: 28009 diff changeset	46
4c55cdec4ce7 simplify definition of vector_space locale (use axclasses instead of inheriting from field and ab_group_add classes) huffman parents: 28009 diff changeset	47	locale vector_space =
4c55cdec4ce7 simplify definition of vector_space locale (use axclasses instead of inheriting from field and ab_group_add classes) huffman parents: 28009 diff changeset	48	fixes scale :: "'a::field \<Rightarrow> 'b::ab_group_add \<Rightarrow> 'b"
30070 76cee7c62782 declare scaleR distrib rules [algebra_simps]; cleaned up huffman parents: 30069 diff changeset	49	assumes scale_right_distrib [algebra_simps]:
76cee7c62782 declare scaleR distrib rules [algebra_simps]; cleaned up huffman parents: 30069 diff changeset	50	"scale a (x + y) = scale a x + scale a y"
76cee7c62782 declare scaleR distrib rules [algebra_simps]; cleaned up huffman parents: 30069 diff changeset	51	and scale_left_distrib [algebra_simps]:
76cee7c62782 declare scaleR distrib rules [algebra_simps]; cleaned up huffman parents: 30069 diff changeset	52	"scale (a + b) x = scale a x + scale b x"
28029 4c55cdec4ce7 simplify definition of vector_space locale (use axclasses instead of inheriting from field and ab_group_add classes) huffman parents: 28009 diff changeset	53	and scale_scale [simp]: "scale a (scale b x) = scale (a * b) x"
4c55cdec4ce7 simplify definition of vector_space locale (use axclasses instead of inheriting from field and ab_group_add classes) huffman parents: 28009 diff changeset	54	and scale_one [simp]: "scale 1 x = x"
4c55cdec4ce7 simplify definition of vector_space locale (use axclasses instead of inheriting from field and ab_group_add classes) huffman parents: 28009 diff changeset	55	begin
4c55cdec4ce7 simplify definition of vector_space locale (use axclasses instead of inheriting from field and ab_group_add classes) huffman parents: 28009 diff changeset	56
4c55cdec4ce7 simplify definition of vector_space locale (use axclasses instead of inheriting from field and ab_group_add classes) huffman parents: 28009 diff changeset	57	lemma scale_left_commute:
4c55cdec4ce7 simplify definition of vector_space locale (use axclasses instead of inheriting from field and ab_group_add classes) huffman parents: 28009 diff changeset	58	"scale a (scale b x) = scale b (scale a x)"
4c55cdec4ce7 simplify definition of vector_space locale (use axclasses instead of inheriting from field and ab_group_add classes) huffman parents: 28009 diff changeset	59	by (simp add: mult_commute)
4c55cdec4ce7 simplify definition of vector_space locale (use axclasses instead of inheriting from field and ab_group_add classes) huffman parents: 28009 diff changeset	60
4c55cdec4ce7 simplify definition of vector_space locale (use axclasses instead of inheriting from field and ab_group_add classes) huffman parents: 28009 diff changeset	61	lemma scale_zero_left [simp]: "scale 0 x = 0"
4c55cdec4ce7 simplify definition of vector_space locale (use axclasses instead of inheriting from field and ab_group_add classes) huffman parents: 28009 diff changeset	62	and scale_minus_left [simp]: "scale (- a) x = - (scale a x)"
30070 76cee7c62782 declare scaleR distrib rules [algebra_simps]; cleaned up huffman parents: 30069 diff changeset	63	and scale_left_diff_distrib [algebra_simps]:
76cee7c62782 declare scaleR distrib rules [algebra_simps]; cleaned up huffman parents: 30069 diff changeset	64	"scale (a - b) x = scale a x - scale b x"
28029 4c55cdec4ce7 simplify definition of vector_space locale (use axclasses instead of inheriting from field and ab_group_add classes) huffman parents: 28009 diff changeset	65	proof -
29229 6f6262027054 Porting to new locales. ballarin parents: 28952 diff changeset	66	interpret s: additive "\<lambda>a. scale a x"
28823 dcbef866c9e2 tuned unfold_locales invocation haftmann parents: 28562 diff changeset	67	proof qed (rule scale_left_distrib)
28029 4c55cdec4ce7 simplify definition of vector_space locale (use axclasses instead of inheriting from field and ab_group_add classes) huffman parents: 28009 diff changeset	68	show "scale 0 x = 0" by (rule s.zero)
4c55cdec4ce7 simplify definition of vector_space locale (use axclasses instead of inheriting from field and ab_group_add classes) huffman parents: 28009 diff changeset	69	show "scale (- a) x = - (scale a x)" by (rule s.minus)
4c55cdec4ce7 simplify definition of vector_space locale (use axclasses instead of inheriting from field and ab_group_add classes) huffman parents: 28009 diff changeset	70	show "scale (a - b) x = scale a x - scale b x" by (rule s.diff)
4c55cdec4ce7 simplify definition of vector_space locale (use axclasses instead of inheriting from field and ab_group_add classes) huffman parents: 28009 diff changeset	71	qed
4c55cdec4ce7 simplify definition of vector_space locale (use axclasses instead of inheriting from field and ab_group_add classes) huffman parents: 28009 diff changeset	72
4c55cdec4ce7 simplify definition of vector_space locale (use axclasses instead of inheriting from field and ab_group_add classes) huffman parents: 28009 diff changeset	73	lemma scale_zero_right [simp]: "scale a 0 = 0"
4c55cdec4ce7 simplify definition of vector_space locale (use axclasses instead of inheriting from field and ab_group_add classes) huffman parents: 28009 diff changeset	74	and scale_minus_right [simp]: "scale a (- x) = - (scale a x)"
30070 76cee7c62782 declare scaleR distrib rules [algebra_simps]; cleaned up huffman parents: 30069 diff changeset	75	and scale_right_diff_distrib [algebra_simps]:
76cee7c62782 declare scaleR distrib rules [algebra_simps]; cleaned up huffman parents: 30069 diff changeset	76	"scale a (x - y) = scale a x - scale a y"
28029 4c55cdec4ce7 simplify definition of vector_space locale (use axclasses instead of inheriting from field and ab_group_add classes) huffman parents: 28009 diff changeset	77	proof -
29229 6f6262027054 Porting to new locales. ballarin parents: 28952 diff changeset	78	interpret s: additive "\<lambda>x. scale a x"
28823 dcbef866c9e2 tuned unfold_locales invocation haftmann parents: 28562 diff changeset	79	proof qed (rule scale_right_distrib)
28029 4c55cdec4ce7 simplify definition of vector_space locale (use axclasses instead of inheriting from field and ab_group_add classes) huffman parents: 28009 diff changeset	80	show "scale a 0 = 0" by (rule s.zero)
4c55cdec4ce7 simplify definition of vector_space locale (use axclasses instead of inheriting from field and ab_group_add classes) huffman parents: 28009 diff changeset	81	show "scale a (- x) = - (scale a x)" by (rule s.minus)
4c55cdec4ce7 simplify definition of vector_space locale (use axclasses instead of inheriting from field and ab_group_add classes) huffman parents: 28009 diff changeset	82	show "scale a (x - y) = scale a x - scale a y" by (rule s.diff)
4c55cdec4ce7 simplify definition of vector_space locale (use axclasses instead of inheriting from field and ab_group_add classes) huffman parents: 28009 diff changeset	83	qed
4c55cdec4ce7 simplify definition of vector_space locale (use axclasses instead of inheriting from field and ab_group_add classes) huffman parents: 28009 diff changeset	84
4c55cdec4ce7 simplify definition of vector_space locale (use axclasses instead of inheriting from field and ab_group_add classes) huffman parents: 28009 diff changeset	85	lemma scale_eq_0_iff [simp]:
4c55cdec4ce7 simplify definition of vector_space locale (use axclasses instead of inheriting from field and ab_group_add classes) huffman parents: 28009 diff changeset	86	"scale a x = 0 \<longleftrightarrow> a = 0 \<or> x = 0"
4c55cdec4ce7 simplify definition of vector_space locale (use axclasses instead of inheriting from field and ab_group_add classes) huffman parents: 28009 diff changeset	87	proof cases
4c55cdec4ce7 simplify definition of vector_space locale (use axclasses instead of inheriting from field and ab_group_add classes) huffman parents: 28009 diff changeset	88	assume "a = 0" thus ?thesis by simp
4c55cdec4ce7 simplify definition of vector_space locale (use axclasses instead of inheriting from field and ab_group_add classes) huffman parents: 28009 diff changeset	89	next
4c55cdec4ce7 simplify definition of vector_space locale (use axclasses instead of inheriting from field and ab_group_add classes) huffman parents: 28009 diff changeset	90	assume anz [simp]: "a \<noteq> 0"
4c55cdec4ce7 simplify definition of vector_space locale (use axclasses instead of inheriting from field and ab_group_add classes) huffman parents: 28009 diff changeset	91	{ assume "scale a x = 0"
4c55cdec4ce7 simplify definition of vector_space locale (use axclasses instead of inheriting from field and ab_group_add classes) huffman parents: 28009 diff changeset	92	hence "scale (inverse a) (scale a x) = 0" by simp
4c55cdec4ce7 simplify definition of vector_space locale (use axclasses instead of inheriting from field and ab_group_add classes) huffman parents: 28009 diff changeset	93	hence "x = 0" by simp }
4c55cdec4ce7 simplify definition of vector_space locale (use axclasses instead of inheriting from field and ab_group_add classes) huffman parents: 28009 diff changeset	94	thus ?thesis by force
4c55cdec4ce7 simplify definition of vector_space locale (use axclasses instead of inheriting from field and ab_group_add classes) huffman parents: 28009 diff changeset	95	qed
4c55cdec4ce7 simplify definition of vector_space locale (use axclasses instead of inheriting from field and ab_group_add classes) huffman parents: 28009 diff changeset	96
4c55cdec4ce7 simplify definition of vector_space locale (use axclasses instead of inheriting from field and ab_group_add classes) huffman parents: 28009 diff changeset	97	lemma scale_left_imp_eq:
4c55cdec4ce7 simplify definition of vector_space locale (use axclasses instead of inheriting from field and ab_group_add classes) huffman parents: 28009 diff changeset	98	"\<lbrakk>a \<noteq> 0; scale a x = scale a y\<rbrakk> \<Longrightarrow> x = y"
4c55cdec4ce7 simplify definition of vector_space locale (use axclasses instead of inheriting from field and ab_group_add classes) huffman parents: 28009 diff changeset	99	proof -
4c55cdec4ce7 simplify definition of vector_space locale (use axclasses instead of inheriting from field and ab_group_add classes) huffman parents: 28009 diff changeset	100	assume nonzero: "a \<noteq> 0"
4c55cdec4ce7 simplify definition of vector_space locale (use axclasses instead of inheriting from field and ab_group_add classes) huffman parents: 28009 diff changeset	101	assume "scale a x = scale a y"
4c55cdec4ce7 simplify definition of vector_space locale (use axclasses instead of inheriting from field and ab_group_add classes) huffman parents: 28009 diff changeset	102	hence "scale a (x - y) = 0"
4c55cdec4ce7 simplify definition of vector_space locale (use axclasses instead of inheriting from field and ab_group_add classes) huffman parents: 28009 diff changeset	103	by (simp add: scale_right_diff_distrib)
4c55cdec4ce7 simplify definition of vector_space locale (use axclasses instead of inheriting from field and ab_group_add classes) huffman parents: 28009 diff changeset	104	hence "x - y = 0" by (simp add: nonzero)
4c55cdec4ce7 simplify definition of vector_space locale (use axclasses instead of inheriting from field and ab_group_add classes) huffman parents: 28009 diff changeset	105	thus "x = y" by (simp only: right_minus_eq)
4c55cdec4ce7 simplify definition of vector_space locale (use axclasses instead of inheriting from field and ab_group_add classes) huffman parents: 28009 diff changeset	106	qed
4c55cdec4ce7 simplify definition of vector_space locale (use axclasses instead of inheriting from field and ab_group_add classes) huffman parents: 28009 diff changeset	107
4c55cdec4ce7 simplify definition of vector_space locale (use axclasses instead of inheriting from field and ab_group_add classes) huffman parents: 28009 diff changeset	108	lemma scale_right_imp_eq:
4c55cdec4ce7 simplify definition of vector_space locale (use axclasses instead of inheriting from field and ab_group_add classes) huffman parents: 28009 diff changeset	109	"\<lbrakk>x \<noteq> 0; scale a x = scale b x\<rbrakk> \<Longrightarrow> a = b"
4c55cdec4ce7 simplify definition of vector_space locale (use axclasses instead of inheriting from field and ab_group_add classes) huffman parents: 28009 diff changeset	110	proof -
4c55cdec4ce7 simplify definition of vector_space locale (use axclasses instead of inheriting from field and ab_group_add classes) huffman parents: 28009 diff changeset	111	assume nonzero: "x \<noteq> 0"
4c55cdec4ce7 simplify definition of vector_space locale (use axclasses instead of inheriting from field and ab_group_add classes) huffman parents: 28009 diff changeset	112	assume "scale a x = scale b x"
4c55cdec4ce7 simplify definition of vector_space locale (use axclasses instead of inheriting from field and ab_group_add classes) huffman parents: 28009 diff changeset	113	hence "scale (a - b) x = 0"
4c55cdec4ce7 simplify definition of vector_space locale (use axclasses instead of inheriting from field and ab_group_add classes) huffman parents: 28009 diff changeset	114	by (simp add: scale_left_diff_distrib)
4c55cdec4ce7 simplify definition of vector_space locale (use axclasses instead of inheriting from field and ab_group_add classes) huffman parents: 28009 diff changeset	115	hence "a - b = 0" by (simp add: nonzero)
4c55cdec4ce7 simplify definition of vector_space locale (use axclasses instead of inheriting from field and ab_group_add classes) huffman parents: 28009 diff changeset	116	thus "a = b" by (simp only: right_minus_eq)
4c55cdec4ce7 simplify definition of vector_space locale (use axclasses instead of inheriting from field and ab_group_add classes) huffman parents: 28009 diff changeset	117	qed
4c55cdec4ce7 simplify definition of vector_space locale (use axclasses instead of inheriting from field and ab_group_add classes) huffman parents: 28009 diff changeset	118
4c55cdec4ce7 simplify definition of vector_space locale (use axclasses instead of inheriting from field and ab_group_add classes) huffman parents: 28009 diff changeset	119	lemma scale_cancel_left:
4c55cdec4ce7 simplify definition of vector_space locale (use axclasses instead of inheriting from field and ab_group_add classes) huffman parents: 28009 diff changeset	120	"scale a x = scale a y \<longleftrightarrow> x = y \<or> a = 0"
4c55cdec4ce7 simplify definition of vector_space locale (use axclasses instead of inheriting from field and ab_group_add classes) huffman parents: 28009 diff changeset	121	by (auto intro: scale_left_imp_eq)
4c55cdec4ce7 simplify definition of vector_space locale (use axclasses instead of inheriting from field and ab_group_add classes) huffman parents: 28009 diff changeset	122
4c55cdec4ce7 simplify definition of vector_space locale (use axclasses instead of inheriting from field and ab_group_add classes) huffman parents: 28009 diff changeset	123	lemma scale_cancel_right:
4c55cdec4ce7 simplify definition of vector_space locale (use axclasses instead of inheriting from field and ab_group_add classes) huffman parents: 28009 diff changeset	124	"scale a x = scale b x \<longleftrightarrow> a = b \<or> x = 0"
4c55cdec4ce7 simplify definition of vector_space locale (use axclasses instead of inheriting from field and ab_group_add classes) huffman parents: 28009 diff changeset	125	by (auto intro: scale_right_imp_eq)
4c55cdec4ce7 simplify definition of vector_space locale (use axclasses instead of inheriting from field and ab_group_add classes) huffman parents: 28009 diff changeset	126
4c55cdec4ce7 simplify definition of vector_space locale (use axclasses instead of inheriting from field and ab_group_add classes) huffman parents: 28009 diff changeset	127	end
4c55cdec4ce7 simplify definition of vector_space locale (use axclasses instead of inheriting from field and ab_group_add classes) huffman parents: 28009 diff changeset	128
20504 6342e872e71d formalization of vector spaces and algebras over the real numbers huffman parents: diff changeset	129	subsection {* Real vector spaces *}
6342e872e71d formalization of vector spaces and algebras over the real numbers huffman parents: diff changeset	130
29608 564ea783ace8 no base sort in class import haftmann parents: 29252 diff changeset	131	class scaleR =
25062 af5ef0d4d655 global class syntax haftmann parents: 24901 diff changeset	132	fixes scaleR :: "real \<Rightarrow> 'a \<Rightarrow> 'a" (infixr "*\<^sub>R" 75)
24748 ee0a0eb6b738 proper syntax during class specification haftmann parents: 24588 diff changeset	133	begin
20504 6342e872e71d formalization of vector spaces and algebras over the real numbers huffman parents: diff changeset	134
20763 052b348a98a9 rearranged axioms and simp rules for scaleR huffman parents: 20722 diff changeset	135	abbreviation
25062 af5ef0d4d655 global class syntax haftmann parents: 24901 diff changeset	136	divideR :: "'a \<Rightarrow> real \<Rightarrow> 'a" (infixl "'/\<^sub>R" 70)
24748 ee0a0eb6b738 proper syntax during class specification haftmann parents: 24588 diff changeset	137	where
25062 af5ef0d4d655 global class syntax haftmann parents: 24901 diff changeset	138	"x /\<^sub>R r == scaleR (inverse r) x"
24748 ee0a0eb6b738 proper syntax during class specification haftmann parents: 24588 diff changeset	139
ee0a0eb6b738 proper syntax during class specification haftmann parents: 24588 diff changeset	140	end
ee0a0eb6b738 proper syntax during class specification haftmann parents: 24588 diff changeset	141
24588 ed9a1254d674 introduced classes haftmann parents: 24520 diff changeset	142	class real_vector = scaleR + ab_group_add +
25062 af5ef0d4d655 global class syntax haftmann parents: 24901 diff changeset	143	assumes scaleR_right_distrib: "scaleR a (x + y) = scaleR a x + scaleR a y"
af5ef0d4d655 global class syntax haftmann parents: 24901 diff changeset	144	and scaleR_left_distrib: "scaleR (a + b) x = scaleR a x + scaleR b x"
30070 76cee7c62782 declare scaleR distrib rules [algebra_simps]; cleaned up huffman parents: 30069 diff changeset	145	and scaleR_scaleR: "scaleR a (scaleR b x) = scaleR (a * b) x"
76cee7c62782 declare scaleR distrib rules [algebra_simps]; cleaned up huffman parents: 30069 diff changeset	146	and scaleR_one: "scaleR 1 x = x"
20504 6342e872e71d formalization of vector spaces and algebras over the real numbers huffman parents: diff changeset	147
29233 ce6d35a0bed6 Ported HOL and HOL-Library to new locales. ballarin parents: 29229 diff changeset	148	interpretation real_vector!:
29229 6f6262027054 Porting to new locales. ballarin parents: 28952 diff changeset	149	vector_space "scaleR :: real \<Rightarrow> 'a \<Rightarrow> 'a::real_vector"
28009 e93b121074fb move real_vector class proofs into vector_space and group_hom locales huffman parents: 27553 diff changeset	150	apply unfold_locales
e93b121074fb move real_vector class proofs into vector_space and group_hom locales huffman parents: 27553 diff changeset	151	apply (rule scaleR_right_distrib)
e93b121074fb move real_vector class proofs into vector_space and group_hom locales huffman parents: 27553 diff changeset	152	apply (rule scaleR_left_distrib)
e93b121074fb move real_vector class proofs into vector_space and group_hom locales huffman parents: 27553 diff changeset	153	apply (rule scaleR_scaleR)
e93b121074fb move real_vector class proofs into vector_space and group_hom locales huffman parents: 27553 diff changeset	154	apply (rule scaleR_one)
e93b121074fb move real_vector class proofs into vector_space and group_hom locales huffman parents: 27553 diff changeset	155	done
e93b121074fb move real_vector class proofs into vector_space and group_hom locales huffman parents: 27553 diff changeset	156
e93b121074fb move real_vector class proofs into vector_space and group_hom locales huffman parents: 27553 diff changeset	157	text {* Recover original theorem names *}
e93b121074fb move real_vector class proofs into vector_space and group_hom locales huffman parents: 27553 diff changeset	158
e93b121074fb move real_vector class proofs into vector_space and group_hom locales huffman parents: 27553 diff changeset	159	lemmas scaleR_left_commute = real_vector.scale_left_commute
e93b121074fb move real_vector class proofs into vector_space and group_hom locales huffman parents: 27553 diff changeset	160	lemmas scaleR_zero_left = real_vector.scale_zero_left
e93b121074fb move real_vector class proofs into vector_space and group_hom locales huffman parents: 27553 diff changeset	161	lemmas scaleR_minus_left = real_vector.scale_minus_left
e93b121074fb move real_vector class proofs into vector_space and group_hom locales huffman parents: 27553 diff changeset	162	lemmas scaleR_left_diff_distrib = real_vector.scale_left_diff_distrib
e93b121074fb move real_vector class proofs into vector_space and group_hom locales huffman parents: 27553 diff changeset	163	lemmas scaleR_zero_right = real_vector.scale_zero_right
e93b121074fb move real_vector class proofs into vector_space and group_hom locales huffman parents: 27553 diff changeset	164	lemmas scaleR_minus_right = real_vector.scale_minus_right
e93b121074fb move real_vector class proofs into vector_space and group_hom locales huffman parents: 27553 diff changeset	165	lemmas scaleR_right_diff_distrib = real_vector.scale_right_diff_distrib
e93b121074fb move real_vector class proofs into vector_space and group_hom locales huffman parents: 27553 diff changeset	166	lemmas scaleR_eq_0_iff = real_vector.scale_eq_0_iff
e93b121074fb move real_vector class proofs into vector_space and group_hom locales huffman parents: 27553 diff changeset	167	lemmas scaleR_left_imp_eq = real_vector.scale_left_imp_eq
e93b121074fb move real_vector class proofs into vector_space and group_hom locales huffman parents: 27553 diff changeset	168	lemmas scaleR_right_imp_eq = real_vector.scale_right_imp_eq
e93b121074fb move real_vector class proofs into vector_space and group_hom locales huffman parents: 27553 diff changeset	169	lemmas scaleR_cancel_left = real_vector.scale_cancel_left
e93b121074fb move real_vector class proofs into vector_space and group_hom locales huffman parents: 27553 diff changeset	170	lemmas scaleR_cancel_right = real_vector.scale_cancel_right
e93b121074fb move real_vector class proofs into vector_space and group_hom locales huffman parents: 27553 diff changeset	171
24588 ed9a1254d674 introduced classes haftmann parents: 24520 diff changeset	172	class real_algebra = real_vector + ring +
25062 af5ef0d4d655 global class syntax haftmann parents: 24901 diff changeset	173	assumes mult_scaleR_left [simp]: "scaleR a x * y = scaleR a (x * y)"
af5ef0d4d655 global class syntax haftmann parents: 24901 diff changeset	174	and mult_scaleR_right [simp]: "x * scaleR a y = scaleR a (x * y)"
20504 6342e872e71d formalization of vector spaces and algebras over the real numbers huffman parents: diff changeset	175
24588 ed9a1254d674 introduced classes haftmann parents: 24520 diff changeset	176	class real_algebra_1 = real_algebra + ring_1
20554 c433e78d4203 define new constant of_real for class real_algebra_1; huffman parents: 20551 diff changeset	177
24588 ed9a1254d674 introduced classes haftmann parents: 24520 diff changeset	178	class real_div_algebra = real_algebra_1 + division_ring
20584 60b1d52a455d added classes real_div_algebra and real_field; added lemmas huffman parents: 20560 diff changeset	179
24588 ed9a1254d674 introduced classes haftmann parents: 24520 diff changeset	180	class real_field = real_div_algebra + field
20584 60b1d52a455d added classes real_div_algebra and real_field; added lemmas huffman parents: 20560 diff changeset	181
30069 e2fe62de0925 clean up instantiations huffman parents: 29608 diff changeset	182	instantiation real :: real_field
e2fe62de0925 clean up instantiations huffman parents: 29608 diff changeset	183	begin
e2fe62de0925 clean up instantiations huffman parents: 29608 diff changeset	184
e2fe62de0925 clean up instantiations huffman parents: 29608 diff changeset	185	definition
e2fe62de0925 clean up instantiations huffman parents: 29608 diff changeset	186	real_scaleR_def [simp]: "scaleR a x = a * x"
e2fe62de0925 clean up instantiations huffman parents: 29608 diff changeset	187
30070 76cee7c62782 declare scaleR distrib rules [algebra_simps]; cleaned up huffman parents: 30069 diff changeset	188	instance proof
76cee7c62782 declare scaleR distrib rules [algebra_simps]; cleaned up huffman parents: 30069 diff changeset	189	qed (simp_all add: algebra_simps)
20554 c433e78d4203 define new constant of_real for class real_algebra_1; huffman parents: 20551 diff changeset	190
30069 e2fe62de0925 clean up instantiations huffman parents: 29608 diff changeset	191	end
e2fe62de0925 clean up instantiations huffman parents: 29608 diff changeset	192
29233 ce6d35a0bed6 Ported HOL and HOL-Library to new locales. ballarin parents: 29229 diff changeset	193	interpretation scaleR_left!: additive "(\<lambda>a. scaleR a x::'a::real_vector)"
28823 dcbef866c9e2 tuned unfold_locales invocation haftmann parents: 28562 diff changeset	194	proof qed (rule scaleR_left_distrib)
20504 6342e872e71d formalization of vector spaces and algebras over the real numbers huffman parents: diff changeset	195
29233 ce6d35a0bed6 Ported HOL and HOL-Library to new locales. ballarin parents: 29229 diff changeset	196	interpretation scaleR_right!: additive "(\<lambda>x. scaleR a x::'a::real_vector)"
28823 dcbef866c9e2 tuned unfold_locales invocation haftmann parents: 28562 diff changeset	197	proof qed (rule scaleR_right_distrib)
20504 6342e872e71d formalization of vector spaces and algebras over the real numbers huffman parents: diff changeset	198
20584 60b1d52a455d added classes real_div_algebra and real_field; added lemmas huffman parents: 20560 diff changeset	199	lemma nonzero_inverse_scaleR_distrib:
21809 4b93e949ac33 remove uses of scaleR infix syntax; add lemma Reals_number_of huffman parents: 21404 diff changeset	200	fixes x :: "'a::real_div_algebra" shows
4b93e949ac33 remove uses of scaleR infix syntax; add lemma Reals_number_of huffman parents: 21404 diff changeset	201	"\<lbrakk>a \<noteq> 0; x \<noteq> 0\<rbrakk> \<Longrightarrow> inverse (scaleR a x) = scaleR (inverse a) (inverse x)"
20763 052b348a98a9 rearranged axioms and simp rules for scaleR huffman parents: 20722 diff changeset	202	by (rule inverse_unique, simp)
20584 60b1d52a455d added classes real_div_algebra and real_field; added lemmas huffman parents: 20560 diff changeset	203
60b1d52a455d added classes real_div_algebra and real_field; added lemmas huffman parents: 20560 diff changeset	204	lemma inverse_scaleR_distrib:
60b1d52a455d added classes real_div_algebra and real_field; added lemmas huffman parents: 20560 diff changeset	205	fixes x :: "'a::{real_div_algebra,division_by_zero}"
21809 4b93e949ac33 remove uses of scaleR infix syntax; add lemma Reals_number_of huffman parents: 21404 diff changeset	206	shows "inverse (scaleR a x) = scaleR (inverse a) (inverse x)"
20584 60b1d52a455d added classes real_div_algebra and real_field; added lemmas huffman parents: 20560 diff changeset	207	apply (case_tac "a = 0", simp)
60b1d52a455d added classes real_div_algebra and real_field; added lemmas huffman parents: 20560 diff changeset	208	apply (case_tac "x = 0", simp)
60b1d52a455d added classes real_div_algebra and real_field; added lemmas huffman parents: 20560 diff changeset	209	apply (erule (1) nonzero_inverse_scaleR_distrib)
60b1d52a455d added classes real_div_algebra and real_field; added lemmas huffman parents: 20560 diff changeset	210	done
60b1d52a455d added classes real_div_algebra and real_field; added lemmas huffman parents: 20560 diff changeset	211
20554 c433e78d4203 define new constant of_real for class real_algebra_1; huffman parents: 20551 diff changeset	212
c433e78d4203 define new constant of_real for class real_algebra_1; huffman parents: 20551 diff changeset	213	subsection {* Embedding of the Reals into any @{text real_algebra_1}:
c433e78d4203 define new constant of_real for class real_algebra_1; huffman parents: 20551 diff changeset	214	@{term of_real} *}
c433e78d4203 define new constant of_real for class real_algebra_1; huffman parents: 20551 diff changeset	215
c433e78d4203 define new constant of_real for class real_algebra_1; huffman parents: 20551 diff changeset	216	definition
21404 eb85850d3eb7 more robust syntax for definition/abbreviation/notation; wenzelm parents: 21210 diff changeset	217	of_real :: "real \<Rightarrow> 'a::real_algebra_1" where
21809 4b93e949ac33 remove uses of scaleR infix syntax; add lemma Reals_number_of huffman parents: 21404 diff changeset	218	"of_real r = scaleR r 1"
20554 c433e78d4203 define new constant of_real for class real_algebra_1; huffman parents: 20551 diff changeset	219
21809 4b93e949ac33 remove uses of scaleR infix syntax; add lemma Reals_number_of huffman parents: 21404 diff changeset	220	lemma scaleR_conv_of_real: "scaleR r x = of_real r * x"
20763 052b348a98a9 rearranged axioms and simp rules for scaleR huffman parents: 20722 diff changeset	221	by (simp add: of_real_def)
052b348a98a9 rearranged axioms and simp rules for scaleR huffman parents: 20722 diff changeset	222
20554 c433e78d4203 define new constant of_real for class real_algebra_1; huffman parents: 20551 diff changeset	223	lemma of_real_0 [simp]: "of_real 0 = 0"
c433e78d4203 define new constant of_real for class real_algebra_1; huffman parents: 20551 diff changeset	224	by (simp add: of_real_def)
c433e78d4203 define new constant of_real for class real_algebra_1; huffman parents: 20551 diff changeset	225
c433e78d4203 define new constant of_real for class real_algebra_1; huffman parents: 20551 diff changeset	226	lemma of_real_1 [simp]: "of_real 1 = 1"
c433e78d4203 define new constant of_real for class real_algebra_1; huffman parents: 20551 diff changeset	227	by (simp add: of_real_def)
c433e78d4203 define new constant of_real for class real_algebra_1; huffman parents: 20551 diff changeset	228
c433e78d4203 define new constant of_real for class real_algebra_1; huffman parents: 20551 diff changeset	229	lemma of_real_add [simp]: "of_real (x + y) = of_real x + of_real y"
c433e78d4203 define new constant of_real for class real_algebra_1; huffman parents: 20551 diff changeset	230	by (simp add: of_real_def scaleR_left_distrib)
c433e78d4203 define new constant of_real for class real_algebra_1; huffman parents: 20551 diff changeset	231
c433e78d4203 define new constant of_real for class real_algebra_1; huffman parents: 20551 diff changeset	232	lemma of_real_minus [simp]: "of_real (- x) = - of_real x"
c433e78d4203 define new constant of_real for class real_algebra_1; huffman parents: 20551 diff changeset	233	by (simp add: of_real_def)
c433e78d4203 define new constant of_real for class real_algebra_1; huffman parents: 20551 diff changeset	234
c433e78d4203 define new constant of_real for class real_algebra_1; huffman parents: 20551 diff changeset	235	lemma of_real_diff [simp]: "of_real (x - y) = of_real x - of_real y"
c433e78d4203 define new constant of_real for class real_algebra_1; huffman parents: 20551 diff changeset	236	by (simp add: of_real_def scaleR_left_diff_distrib)
c433e78d4203 define new constant of_real for class real_algebra_1; huffman parents: 20551 diff changeset	237
c433e78d4203 define new constant of_real for class real_algebra_1; huffman parents: 20551 diff changeset	238	lemma of_real_mult [simp]: "of_real (x * y) = of_real x * of_real y"
20763 052b348a98a9 rearranged axioms and simp rules for scaleR huffman parents: 20722 diff changeset	239	by (simp add: of_real_def mult_commute)
20554 c433e78d4203 define new constant of_real for class real_algebra_1; huffman parents: 20551 diff changeset	240
20584 60b1d52a455d added classes real_div_algebra and real_field; added lemmas huffman parents: 20560 diff changeset	241	lemma nonzero_of_real_inverse:
60b1d52a455d added classes real_div_algebra and real_field; added lemmas huffman parents: 20560 diff changeset	242	"x \<noteq> 0 \<Longrightarrow> of_real (inverse x) =
60b1d52a455d added classes real_div_algebra and real_field; added lemmas huffman parents: 20560 diff changeset	243	inverse (of_real x :: 'a::real_div_algebra)"
60b1d52a455d added classes real_div_algebra and real_field; added lemmas huffman parents: 20560 diff changeset	244	by (simp add: of_real_def nonzero_inverse_scaleR_distrib)
60b1d52a455d added classes real_div_algebra and real_field; added lemmas huffman parents: 20560 diff changeset	245
60b1d52a455d added classes real_div_algebra and real_field; added lemmas huffman parents: 20560 diff changeset	246	lemma of_real_inverse [simp]:
60b1d52a455d added classes real_div_algebra and real_field; added lemmas huffman parents: 20560 diff changeset	247	"of_real (inverse x) =
60b1d52a455d added classes real_div_algebra and real_field; added lemmas huffman parents: 20560 diff changeset	248	inverse (of_real x :: 'a::{real_div_algebra,division_by_zero})"
60b1d52a455d added classes real_div_algebra and real_field; added lemmas huffman parents: 20560 diff changeset	249	by (simp add: of_real_def inverse_scaleR_distrib)
60b1d52a455d added classes real_div_algebra and real_field; added lemmas huffman parents: 20560 diff changeset	250
60b1d52a455d added classes real_div_algebra and real_field; added lemmas huffman parents: 20560 diff changeset	251	lemma nonzero_of_real_divide:
60b1d52a455d added classes real_div_algebra and real_field; added lemmas huffman parents: 20560 diff changeset	252	"y \<noteq> 0 \<Longrightarrow> of_real (x / y) =
60b1d52a455d added classes real_div_algebra and real_field; added lemmas huffman parents: 20560 diff changeset	253	(of_real x / of_real y :: 'a::real_field)"
60b1d52a455d added classes real_div_algebra and real_field; added lemmas huffman parents: 20560 diff changeset	254	by (simp add: divide_inverse nonzero_of_real_inverse)
20722 741737aa70b2 add lemmas about of_real and power huffman parents: 20718 diff changeset	255
741737aa70b2 add lemmas about of_real and power huffman parents: 20718 diff changeset	256	lemma of_real_divide [simp]:
20584 60b1d52a455d added classes real_div_algebra and real_field; added lemmas huffman parents: 20560 diff changeset	257	"of_real (x / y) =
60b1d52a455d added classes real_div_algebra and real_field; added lemmas huffman parents: 20560 diff changeset	258	(of_real x / of_real y :: 'a::{real_field,division_by_zero})"
60b1d52a455d added classes real_div_algebra and real_field; added lemmas huffman parents: 20560 diff changeset	259	by (simp add: divide_inverse)
60b1d52a455d added classes real_div_algebra and real_field; added lemmas huffman parents: 20560 diff changeset	260
20722 741737aa70b2 add lemmas about of_real and power huffman parents: 20718 diff changeset	261	lemma of_real_power [simp]:
741737aa70b2 add lemmas about of_real and power huffman parents: 20718 diff changeset	262	"of_real (x ^ n) = (of_real x :: 'a::{real_algebra_1,recpower}) ^ n"
20772 7a51ed817ec7 tuned definitions/proofs; wenzelm parents: 20763 diff changeset	263	by (induct n) (simp_all add: power_Suc)
20722 741737aa70b2 add lemmas about of_real and power huffman parents: 20718 diff changeset	264
20554 c433e78d4203 define new constant of_real for class real_algebra_1; huffman parents: 20551 diff changeset	265	lemma of_real_eq_iff [simp]: "(of_real x = of_real y) = (x = y)"
c433e78d4203 define new constant of_real for class real_algebra_1; huffman parents: 20551 diff changeset	266	by (simp add: of_real_def scaleR_cancel_right)
c433e78d4203 define new constant of_real for class real_algebra_1; huffman parents: 20551 diff changeset	267
20584 60b1d52a455d added classes real_div_algebra and real_field; added lemmas huffman parents: 20560 diff changeset	268	lemmas of_real_eq_0_iff [simp] = of_real_eq_iff [of _ 0, simplified]
20554 c433e78d4203 define new constant of_real for class real_algebra_1; huffman parents: 20551 diff changeset	269
c433e78d4203 define new constant of_real for class real_algebra_1; huffman parents: 20551 diff changeset	270	lemma of_real_eq_id [simp]: "of_real = (id :: real \<Rightarrow> real)"
c433e78d4203 define new constant of_real for class real_algebra_1; huffman parents: 20551 diff changeset	271	proof
c433e78d4203 define new constant of_real for class real_algebra_1; huffman parents: 20551 diff changeset	272	fix r
c433e78d4203 define new constant of_real for class real_algebra_1; huffman parents: 20551 diff changeset	273	show "of_real r = id r"
22973 64d300e16370 add lemma sgn_mult; declare real_scaleR_def and scaleR_eq_0_iff as simp rules huffman parents: 22972 diff changeset	274	by (simp add: of_real_def)
20554 c433e78d4203 define new constant of_real for class real_algebra_1; huffman parents: 20551 diff changeset	275	qed
c433e78d4203 define new constant of_real for class real_algebra_1; huffman parents: 20551 diff changeset	276
c433e78d4203 define new constant of_real for class real_algebra_1; huffman parents: 20551 diff changeset	277	text{Collapse nested embeddings}
c433e78d4203 define new constant of_real for class real_algebra_1; huffman parents: 20551 diff changeset	278	lemma of_real_of_nat_eq [simp]: "of_real (of_nat n) = of_nat n"
20772 7a51ed817ec7 tuned definitions/proofs; wenzelm parents: 20763 diff changeset	279	by (induct n) auto
20554 c433e78d4203 define new constant of_real for class real_algebra_1; huffman parents: 20551 diff changeset	280
c433e78d4203 define new constant of_real for class real_algebra_1; huffman parents: 20551 diff changeset	281	lemma of_real_of_int_eq [simp]: "of_real (of_int z) = of_int z"
c433e78d4203 define new constant of_real for class real_algebra_1; huffman parents: 20551 diff changeset	282	by (cases z rule: int_diff_cases, simp)
c433e78d4203 define new constant of_real for class real_algebra_1; huffman parents: 20551 diff changeset	283
c433e78d4203 define new constant of_real for class real_algebra_1; huffman parents: 20551 diff changeset	284	lemma of_real_number_of_eq:
c433e78d4203 define new constant of_real for class real_algebra_1; huffman parents: 20551 diff changeset	285	"of_real (number_of w) = (number_of w :: 'a::{number_ring,real_algebra_1})"
c433e78d4203 define new constant of_real for class real_algebra_1; huffman parents: 20551 diff changeset	286	by (simp add: number_of_eq)
c433e78d4203 define new constant of_real for class real_algebra_1; huffman parents: 20551 diff changeset	287
22912 c477862c566d instance real_algebra_1 < ring_char_0 huffman parents: 22898 diff changeset	288	text{Every real algebra has characteristic zero}
c477862c566d instance real_algebra_1 < ring_char_0 huffman parents: 22898 diff changeset	289	instance real_algebra_1 < ring_char_0
c477862c566d instance real_algebra_1 < ring_char_0 huffman parents: 22898 diff changeset	290	proof
23282 dfc459989d24 add axclass semiring_char_0 for types where of_nat is injective huffman parents: 23127 diff changeset	291	fix m n :: nat
dfc459989d24 add axclass semiring_char_0 for types where of_nat is injective huffman parents: 23127 diff changeset	292	have "(of_real (of_nat m) = (of_real (of_nat n)::'a)) = (m = n)"
dfc459989d24 add axclass semiring_char_0 for types where of_nat is injective huffman parents: 23127 diff changeset	293	by (simp only: of_real_eq_iff of_nat_eq_iff)
dfc459989d24 add axclass semiring_char_0 for types where of_nat is injective huffman parents: 23127 diff changeset	294	thus "(of_nat m = (of_nat n::'a)) = (m = n)"
dfc459989d24 add axclass semiring_char_0 for types where of_nat is injective huffman parents: 23127 diff changeset	295	by (simp only: of_real_of_nat_eq)
22912 c477862c566d instance real_algebra_1 < ring_char_0 huffman parents: 22898 diff changeset	296	qed
c477862c566d instance real_algebra_1 < ring_char_0 huffman parents: 22898 diff changeset	297
27553 d315a513a150 instance real_field < field_char_0; huffman parents: 27552 diff changeset	298	instance real_field < field_char_0 ..
d315a513a150 instance real_field < field_char_0; huffman parents: 27552 diff changeset	299
20554 c433e78d4203 define new constant of_real for class real_algebra_1; huffman parents: 20551 diff changeset	300
c433e78d4203 define new constant of_real for class real_algebra_1; huffman parents: 20551 diff changeset	301	subsection {* The Set of Real Numbers *}
c433e78d4203 define new constant of_real for class real_algebra_1; huffman parents: 20551 diff changeset	302
20772 7a51ed817ec7 tuned definitions/proofs; wenzelm parents: 20763 diff changeset	303	definition
21404 eb85850d3eb7 more robust syntax for definition/abbreviation/notation; wenzelm parents: 21210 diff changeset	304	Reals :: "'a::real_algebra_1 set" where
30070 76cee7c62782 declare scaleR distrib rules [algebra_simps]; cleaned up huffman parents: 30069 diff changeset	305	[code del]: "Reals = range of_real"
20554 c433e78d4203 define new constant of_real for class real_algebra_1; huffman parents: 20551 diff changeset	306
21210 c17fd2df4e9e renamed 'const_syntax' to 'notation'; wenzelm parents: 20828 diff changeset	307	notation (xsymbols)
20554 c433e78d4203 define new constant of_real for class real_algebra_1; huffman parents: 20551 diff changeset	308	Reals ("\<real>")
c433e78d4203 define new constant of_real for class real_algebra_1; huffman parents: 20551 diff changeset	309
21809 4b93e949ac33 remove uses of scaleR infix syntax; add lemma Reals_number_of huffman parents: 21404 diff changeset	310	lemma Reals_of_real [simp]: "of_real r \<in> Reals"
20554 c433e78d4203 define new constant of_real for class real_algebra_1; huffman parents: 20551 diff changeset	311	by (simp add: Reals_def)
c433e78d4203 define new constant of_real for class real_algebra_1; huffman parents: 20551 diff changeset	312
21809 4b93e949ac33 remove uses of scaleR infix syntax; add lemma Reals_number_of huffman parents: 21404 diff changeset	313	lemma Reals_of_int [simp]: "of_int z \<in> Reals"
4b93e949ac33 remove uses of scaleR infix syntax; add lemma Reals_number_of huffman parents: 21404 diff changeset	314	by (subst of_real_of_int_eq [symmetric], rule Reals_of_real)
20718 4c4869e4ddb7 add lemmas of_int_in_Reals, of_nat_in_Reals huffman parents: 20694 diff changeset	315
21809 4b93e949ac33 remove uses of scaleR infix syntax; add lemma Reals_number_of huffman parents: 21404 diff changeset	316	lemma Reals_of_nat [simp]: "of_nat n \<in> Reals"
4b93e949ac33 remove uses of scaleR infix syntax; add lemma Reals_number_of huffman parents: 21404 diff changeset	317	by (subst of_real_of_nat_eq [symmetric], rule Reals_of_real)
4b93e949ac33 remove uses of scaleR infix syntax; add lemma Reals_number_of huffman parents: 21404 diff changeset	318
4b93e949ac33 remove uses of scaleR infix syntax; add lemma Reals_number_of huffman parents: 21404 diff changeset	319	lemma Reals_number_of [simp]:
4b93e949ac33 remove uses of scaleR infix syntax; add lemma Reals_number_of huffman parents: 21404 diff changeset	320	"(number_of w::'a::{number_ring,real_algebra_1}) \<in> Reals"
4b93e949ac33 remove uses of scaleR infix syntax; add lemma Reals_number_of huffman parents: 21404 diff changeset	321	by (subst of_real_number_of_eq [symmetric], rule Reals_of_real)
20718 4c4869e4ddb7 add lemmas of_int_in_Reals, of_nat_in_Reals huffman parents: 20694 diff changeset	322
20554 c433e78d4203 define new constant of_real for class real_algebra_1; huffman parents: 20551 diff changeset	323	lemma Reals_0 [simp]: "0 \<in> Reals"
c433e78d4203 define new constant of_real for class real_algebra_1; huffman parents: 20551 diff changeset	324	apply (unfold Reals_def)
c433e78d4203 define new constant of_real for class real_algebra_1; huffman parents: 20551 diff changeset	325	apply (rule range_eqI)
c433e78d4203 define new constant of_real for class real_algebra_1; huffman parents: 20551 diff changeset	326	apply (rule of_real_0 [symmetric])
c433e78d4203 define new constant of_real for class real_algebra_1; huffman parents: 20551 diff changeset	327	done
c433e78d4203 define new constant of_real for class real_algebra_1; huffman parents: 20551 diff changeset	328
c433e78d4203 define new constant of_real for class real_algebra_1; huffman parents: 20551 diff changeset	329	lemma Reals_1 [simp]: "1 \<in> Reals"
c433e78d4203 define new constant of_real for class real_algebra_1; huffman parents: 20551 diff changeset	330	apply (unfold Reals_def)
c433e78d4203 define new constant of_real for class real_algebra_1; huffman parents: 20551 diff changeset	331	apply (rule range_eqI)
c433e78d4203 define new constant of_real for class real_algebra_1; huffman parents: 20551 diff changeset	332	apply (rule of_real_1 [symmetric])
c433e78d4203 define new constant of_real for class real_algebra_1; huffman parents: 20551 diff changeset	333	done
c433e78d4203 define new constant of_real for class real_algebra_1; huffman parents: 20551 diff changeset	334
20584 60b1d52a455d added classes real_div_algebra and real_field; added lemmas huffman parents: 20560 diff changeset	335	lemma Reals_add [simp]: "\<lbrakk>a \<in> Reals; b \<in> Reals\<rbrakk> \<Longrightarrow> a + b \<in> Reals"
20554 c433e78d4203 define new constant of_real for class real_algebra_1; huffman parents: 20551 diff changeset	336	apply (auto simp add: Reals_def)
c433e78d4203 define new constant of_real for class real_algebra_1; huffman parents: 20551 diff changeset	337	apply (rule range_eqI)
c433e78d4203 define new constant of_real for class real_algebra_1; huffman parents: 20551 diff changeset	338	apply (rule of_real_add [symmetric])
c433e78d4203 define new constant of_real for class real_algebra_1; huffman parents: 20551 diff changeset	339	done
c433e78d4203 define new constant of_real for class real_algebra_1; huffman parents: 20551 diff changeset	340
20584 60b1d52a455d added classes real_div_algebra and real_field; added lemmas huffman parents: 20560 diff changeset	341	lemma Reals_minus [simp]: "a \<in> Reals \<Longrightarrow> - a \<in> Reals"
60b1d52a455d added classes real_div_algebra and real_field; added lemmas huffman parents: 20560 diff changeset	342	apply (auto simp add: Reals_def)
60b1d52a455d added classes real_div_algebra and real_field; added lemmas huffman parents: 20560 diff changeset	343	apply (rule range_eqI)
60b1d52a455d added classes real_div_algebra and real_field; added lemmas huffman parents: 20560 diff changeset	344	apply (rule of_real_minus [symmetric])
60b1d52a455d added classes real_div_algebra and real_field; added lemmas huffman parents: 20560 diff changeset	345	done
60b1d52a455d added classes real_div_algebra and real_field; added lemmas huffman parents: 20560 diff changeset	346
60b1d52a455d added classes real_div_algebra and real_field; added lemmas huffman parents: 20560 diff changeset	347	lemma Reals_diff [simp]: "\<lbrakk>a \<in> Reals; b \<in> Reals\<rbrakk> \<Longrightarrow> a - b \<in> Reals"
60b1d52a455d added classes real_div_algebra and real_field; added lemmas huffman parents: 20560 diff changeset	348	apply (auto simp add: Reals_def)
60b1d52a455d added classes real_div_algebra and real_field; added lemmas huffman parents: 20560 diff changeset	349	apply (rule range_eqI)
60b1d52a455d added classes real_div_algebra and real_field; added lemmas huffman parents: 20560 diff changeset	350	apply (rule of_real_diff [symmetric])
60b1d52a455d added classes real_div_algebra and real_field; added lemmas huffman parents: 20560 diff changeset	351	done
60b1d52a455d added classes real_div_algebra and real_field; added lemmas huffman parents: 20560 diff changeset	352
60b1d52a455d added classes real_div_algebra and real_field; added lemmas huffman parents: 20560 diff changeset	353	lemma Reals_mult [simp]: "\<lbrakk>a \<in> Reals; b \<in> Reals\<rbrakk> \<Longrightarrow> a * b \<in> Reals"
20554 c433e78d4203 define new constant of_real for class real_algebra_1; huffman parents: 20551 diff changeset	354	apply (auto simp add: Reals_def)
c433e78d4203 define new constant of_real for class real_algebra_1; huffman parents: 20551 diff changeset	355	apply (rule range_eqI)
c433e78d4203 define new constant of_real for class real_algebra_1; huffman parents: 20551 diff changeset	356	apply (rule of_real_mult [symmetric])
c433e78d4203 define new constant of_real for class real_algebra_1; huffman parents: 20551 diff changeset	357	done
c433e78d4203 define new constant of_real for class real_algebra_1; huffman parents: 20551 diff changeset	358
20584 60b1d52a455d added classes real_div_algebra and real_field; added lemmas huffman parents: 20560 diff changeset	359	lemma nonzero_Reals_inverse:
60b1d52a455d added classes real_div_algebra and real_field; added lemmas huffman parents: 20560 diff changeset	360	fixes a :: "'a::real_div_algebra"
60b1d52a455d added classes real_div_algebra and real_field; added lemmas huffman parents: 20560 diff changeset	361	shows "\<lbrakk>a \<in> Reals; a \<noteq> 0\<rbrakk> \<Longrightarrow> inverse a \<in> Reals"
60b1d52a455d added classes real_div_algebra and real_field; added lemmas huffman parents: 20560 diff changeset	362	apply (auto simp add: Reals_def)
60b1d52a455d added classes real_div_algebra and real_field; added lemmas huffman parents: 20560 diff changeset	363	apply (rule range_eqI)
60b1d52a455d added classes real_div_algebra and real_field; added lemmas huffman parents: 20560 diff changeset	364	apply (erule nonzero_of_real_inverse [symmetric])
60b1d52a455d added classes real_div_algebra and real_field; added lemmas huffman parents: 20560 diff changeset	365	done
60b1d52a455d added classes real_div_algebra and real_field; added lemmas huffman parents: 20560 diff changeset	366
60b1d52a455d added classes real_div_algebra and real_field; added lemmas huffman parents: 20560 diff changeset	367	lemma Reals_inverse [simp]:
60b1d52a455d added classes real_div_algebra and real_field; added lemmas huffman parents: 20560 diff changeset	368	fixes a :: "'a::{real_div_algebra,division_by_zero}"
60b1d52a455d added classes real_div_algebra and real_field; added lemmas huffman parents: 20560 diff changeset	369	shows "a \<in> Reals \<Longrightarrow> inverse a \<in> Reals"
60b1d52a455d added classes real_div_algebra and real_field; added lemmas huffman parents: 20560 diff changeset	370	apply (auto simp add: Reals_def)
60b1d52a455d added classes real_div_algebra and real_field; added lemmas huffman parents: 20560 diff changeset	371	apply (rule range_eqI)
60b1d52a455d added classes real_div_algebra and real_field; added lemmas huffman parents: 20560 diff changeset	372	apply (rule of_real_inverse [symmetric])
60b1d52a455d added classes real_div_algebra and real_field; added lemmas huffman parents: 20560 diff changeset	373	done
60b1d52a455d added classes real_div_algebra and real_field; added lemmas huffman parents: 20560 diff changeset	374
60b1d52a455d added classes real_div_algebra and real_field; added lemmas huffman parents: 20560 diff changeset	375	lemma nonzero_Reals_divide:
60b1d52a455d added classes real_div_algebra and real_field; added lemmas huffman parents: 20560 diff changeset	376	fixes a b :: "'a::real_field"
60b1d52a455d added classes real_div_algebra and real_field; added lemmas huffman parents: 20560 diff changeset	377	shows "\<lbrakk>a \<in> Reals; b \<in> Reals; b \<noteq> 0\<rbrakk> \<Longrightarrow> a / b \<in> Reals"
60b1d52a455d added classes real_div_algebra and real_field; added lemmas huffman parents: 20560 diff changeset	378	apply (auto simp add: Reals_def)
60b1d52a455d added classes real_div_algebra and real_field; added lemmas huffman parents: 20560 diff changeset	379	apply (rule range_eqI)
60b1d52a455d added classes real_div_algebra and real_field; added lemmas huffman parents: 20560 diff changeset	380	apply (erule nonzero_of_real_divide [symmetric])
60b1d52a455d added classes real_div_algebra and real_field; added lemmas huffman parents: 20560 diff changeset	381	done
60b1d52a455d added classes real_div_algebra and real_field; added lemmas huffman parents: 20560 diff changeset	382
60b1d52a455d added classes real_div_algebra and real_field; added lemmas huffman parents: 20560 diff changeset	383	lemma Reals_divide [simp]:
60b1d52a455d added classes real_div_algebra and real_field; added lemmas huffman parents: 20560 diff changeset	384	fixes a b :: "'a::{real_field,division_by_zero}"
60b1d52a455d added classes real_div_algebra and real_field; added lemmas huffman parents: 20560 diff changeset	385	shows "\<lbrakk>a \<in> Reals; b \<in> Reals\<rbrakk> \<Longrightarrow> a / b \<in> Reals"
60b1d52a455d added classes real_div_algebra and real_field; added lemmas huffman parents: 20560 diff changeset	386	apply (auto simp add: Reals_def)
60b1d52a455d added classes real_div_algebra and real_field; added lemmas huffman parents: 20560 diff changeset	387	apply (rule range_eqI)
60b1d52a455d added classes real_div_algebra and real_field; added lemmas huffman parents: 20560 diff changeset	388	apply (rule of_real_divide [symmetric])
60b1d52a455d added classes real_div_algebra and real_field; added lemmas huffman parents: 20560 diff changeset	389	done
60b1d52a455d added classes real_div_algebra and real_field; added lemmas huffman parents: 20560 diff changeset	390
20722 741737aa70b2 add lemmas about of_real and power huffman parents: 20718 diff changeset	391	lemma Reals_power [simp]:
741737aa70b2 add lemmas about of_real and power huffman parents: 20718 diff changeset	392	fixes a :: "'a::{real_algebra_1,recpower}"
741737aa70b2 add lemmas about of_real and power huffman parents: 20718 diff changeset	393	shows "a \<in> Reals \<Longrightarrow> a ^ n \<in> Reals"
741737aa70b2 add lemmas about of_real and power huffman parents: 20718 diff changeset	394	apply (auto simp add: Reals_def)
741737aa70b2 add lemmas about of_real and power huffman parents: 20718 diff changeset	395	apply (rule range_eqI)
741737aa70b2 add lemmas about of_real and power huffman parents: 20718 diff changeset	396	apply (rule of_real_power [symmetric])
741737aa70b2 add lemmas about of_real and power huffman parents: 20718 diff changeset	397	done
741737aa70b2 add lemmas about of_real and power huffman parents: 20718 diff changeset	398
20554 c433e78d4203 define new constant of_real for class real_algebra_1; huffman parents: 20551 diff changeset	399	lemma Reals_cases [cases set: Reals]:
c433e78d4203 define new constant of_real for class real_algebra_1; huffman parents: 20551 diff changeset	400	assumes "q \<in> \<real>"
c433e78d4203 define new constant of_real for class real_algebra_1; huffman parents: 20551 diff changeset	401	obtains (of_real) r where "q = of_real r"
c433e78d4203 define new constant of_real for class real_algebra_1; huffman parents: 20551 diff changeset	402	unfolding Reals_def
c433e78d4203 define new constant of_real for class real_algebra_1; huffman parents: 20551 diff changeset	403	proof -
c433e78d4203 define new constant of_real for class real_algebra_1; huffman parents: 20551 diff changeset	404	from `q \<in> \<real>` have "q \<in> range of_real" unfolding Reals_def .
c433e78d4203 define new constant of_real for class real_algebra_1; huffman parents: 20551 diff changeset	405	then obtain r where "q = of_real r" ..
c433e78d4203 define new constant of_real for class real_algebra_1; huffman parents: 20551 diff changeset	406	then show thesis ..
c433e78d4203 define new constant of_real for class real_algebra_1; huffman parents: 20551 diff changeset	407	qed
c433e78d4203 define new constant of_real for class real_algebra_1; huffman parents: 20551 diff changeset	408
c433e78d4203 define new constant of_real for class real_algebra_1; huffman parents: 20551 diff changeset	409	lemma Reals_induct [case_names of_real, induct set: Reals]:
c433e78d4203 define new constant of_real for class real_algebra_1; huffman parents: 20551 diff changeset	410	"q \<in> \<real> \<Longrightarrow> (\<And>r. P (of_real r)) \<Longrightarrow> P q"
c433e78d4203 define new constant of_real for class real_algebra_1; huffman parents: 20551 diff changeset	411	by (rule Reals_cases) auto
c433e78d4203 define new constant of_real for class real_algebra_1; huffman parents: 20551 diff changeset	412
20504 6342e872e71d formalization of vector spaces and algebras over the real numbers huffman parents: diff changeset	413
6342e872e71d formalization of vector spaces and algebras over the real numbers huffman parents: diff changeset	414	subsection {* Real normed vector spaces *}
6342e872e71d formalization of vector spaces and algebras over the real numbers huffman parents: diff changeset	415
29608 564ea783ace8 no base sort in class import haftmann parents: 29252 diff changeset	416	class norm =
22636 c40465deaf20 new class syntax for scaleR and norm classes huffman parents: 22625 diff changeset	417	fixes norm :: "'a \<Rightarrow> real"
20504 6342e872e71d formalization of vector spaces and algebras over the real numbers huffman parents: diff changeset	418
24520 40b220403257 fix sgn_div_norm class huffman parents: 24513 diff changeset	419	class sgn_div_norm = scaleR + norm + sgn +
25062 af5ef0d4d655 global class syntax haftmann parents: 24901 diff changeset	420	assumes sgn_div_norm: "sgn x = x /\<^sub>R norm x"
24506 020db6ec334a final(?) iteration of sgn saga. nipkow parents: 23282 diff changeset	421
24588 ed9a1254d674 introduced classes haftmann parents: 24520 diff changeset	422	class real_normed_vector = real_vector + sgn_div_norm +
ed9a1254d674 introduced classes haftmann parents: 24520 diff changeset	423	assumes norm_ge_zero [simp]: "0 \<le> norm x"
25062 af5ef0d4d655 global class syntax haftmann parents: 24901 diff changeset	424	and norm_eq_zero [simp]: "norm x = 0 \<longleftrightarrow> x = 0"
af5ef0d4d655 global class syntax haftmann parents: 24901 diff changeset	425	and norm_triangle_ineq: "norm (x + y) \<le> norm x + norm y"
24588 ed9a1254d674 introduced classes haftmann parents: 24520 diff changeset	426	and norm_scaleR: "norm (scaleR a x) = \<bar>a\<bar> * norm x"
20504 6342e872e71d formalization of vector spaces and algebras over the real numbers huffman parents: diff changeset	427
24588 ed9a1254d674 introduced classes haftmann parents: 24520 diff changeset	428	class real_normed_algebra = real_algebra + real_normed_vector +
25062 af5ef0d4d655 global class syntax haftmann parents: 24901 diff changeset	429	assumes norm_mult_ineq: "norm (x * y) \<le> norm x * norm y"
20504 6342e872e71d formalization of vector spaces and algebras over the real numbers huffman parents: diff changeset	430
24588 ed9a1254d674 introduced classes haftmann parents: 24520 diff changeset	431	class real_normed_algebra_1 = real_algebra_1 + real_normed_algebra +
25062 af5ef0d4d655 global class syntax haftmann parents: 24901 diff changeset	432	assumes norm_one [simp]: "norm 1 = 1"
22852 2490d4b4671a clean up RealVector classes huffman parents: 22636 diff changeset	433
24588 ed9a1254d674 introduced classes haftmann parents: 24520 diff changeset	434	class real_normed_div_algebra = real_div_algebra + real_normed_vector +
25062 af5ef0d4d655 global class syntax haftmann parents: 24901 diff changeset	435	assumes norm_mult: "norm (x * y) = norm x * norm y"
20504 6342e872e71d formalization of vector spaces and algebras over the real numbers huffman parents: diff changeset	436
24588 ed9a1254d674 introduced classes haftmann parents: 24520 diff changeset	437	class real_normed_field = real_field + real_normed_div_algebra
20584 60b1d52a455d added classes real_div_algebra and real_field; added lemmas huffman parents: 20560 diff changeset	438
22852 2490d4b4671a clean up RealVector classes huffman parents: 22636 diff changeset	439	instance real_normed_div_algebra < real_normed_algebra_1
20554 c433e78d4203 define new constant of_real for class real_algebra_1; huffman parents: 20551 diff changeset	440	proof
c433e78d4203 define new constant of_real for class real_algebra_1; huffman parents: 20551 diff changeset	441	fix x y :: 'a
c433e78d4203 define new constant of_real for class real_algebra_1; huffman parents: 20551 diff changeset	442	show "norm (x * y) \<le> norm x * norm y"
c433e78d4203 define new constant of_real for class real_algebra_1; huffman parents: 20551 diff changeset	443	by (simp add: norm_mult)
22852 2490d4b4671a clean up RealVector classes huffman parents: 22636 diff changeset	444	next
2490d4b4671a clean up RealVector classes huffman parents: 22636 diff changeset	445	have "norm (1 * 1::'a) = norm (1::'a) * norm (1::'a)"
2490d4b4671a clean up RealVector classes huffman parents: 22636 diff changeset	446	by (rule norm_mult)
2490d4b4671a clean up RealVector classes huffman parents: 22636 diff changeset	447	thus "norm (1::'a) = 1" by simp
20554 c433e78d4203 define new constant of_real for class real_algebra_1; huffman parents: 20551 diff changeset	448	qed
c433e78d4203 define new constant of_real for class real_algebra_1; huffman parents: 20551 diff changeset	449
30069 e2fe62de0925 clean up instantiations huffman parents: 29608 diff changeset	450	instantiation real :: real_normed_field
e2fe62de0925 clean up instantiations huffman parents: 29608 diff changeset	451	begin
e2fe62de0925 clean up instantiations huffman parents: 29608 diff changeset	452
e2fe62de0925 clean up instantiations huffman parents: 29608 diff changeset	453	definition
e2fe62de0925 clean up instantiations huffman parents: 29608 diff changeset	454	real_norm_def [simp]: "norm r = \<bar>r\<bar>"
e2fe62de0925 clean up instantiations huffman parents: 29608 diff changeset	455
e2fe62de0925 clean up instantiations huffman parents: 29608 diff changeset	456	instance
22852 2490d4b4671a clean up RealVector classes huffman parents: 22636 diff changeset	457	apply (intro_classes, unfold real_norm_def real_scaleR_def)
24506 020db6ec334a final(?) iteration of sgn saga. nipkow parents: 23282 diff changeset	458	apply (simp add: real_sgn_def)
20554 c433e78d4203 define new constant of_real for class real_algebra_1; huffman parents: 20551 diff changeset	459	apply (rule abs_ge_zero)
c433e78d4203 define new constant of_real for class real_algebra_1; huffman parents: 20551 diff changeset	460	apply (rule abs_eq_0)
c433e78d4203 define new constant of_real for class real_algebra_1; huffman parents: 20551 diff changeset	461	apply (rule abs_triangle_ineq)
22852 2490d4b4671a clean up RealVector classes huffman parents: 22636 diff changeset	462	apply (rule abs_mult)
20554 c433e78d4203 define new constant of_real for class real_algebra_1; huffman parents: 20551 diff changeset	463	apply (rule abs_mult)
c433e78d4203 define new constant of_real for class real_algebra_1; huffman parents: 20551 diff changeset	464	done
20504 6342e872e71d formalization of vector spaces and algebras over the real numbers huffman parents: diff changeset	465
30069 e2fe62de0925 clean up instantiations huffman parents: 29608 diff changeset	466	end
e2fe62de0925 clean up instantiations huffman parents: 29608 diff changeset	467
22852 2490d4b4671a clean up RealVector classes huffman parents: 22636 diff changeset	468	lemma norm_zero [simp]: "norm (0::'a::real_normed_vector) = 0"
20504 6342e872e71d formalization of vector spaces and algebras over the real numbers huffman parents: diff changeset	469	by simp
6342e872e71d formalization of vector spaces and algebras over the real numbers huffman parents: diff changeset	470
22852 2490d4b4671a clean up RealVector classes huffman parents: 22636 diff changeset	471	lemma zero_less_norm_iff [simp]:
2490d4b4671a clean up RealVector classes huffman parents: 22636 diff changeset	472	fixes x :: "'a::real_normed_vector"
2490d4b4671a clean up RealVector classes huffman parents: 22636 diff changeset	473	shows "(0 < norm x) = (x \<noteq> 0)"
20504 6342e872e71d formalization of vector spaces and algebras over the real numbers huffman parents: diff changeset	474	by (simp add: order_less_le)
6342e872e71d formalization of vector spaces and algebras over the real numbers huffman parents: diff changeset	475
22852 2490d4b4671a clean up RealVector classes huffman parents: 22636 diff changeset	476	lemma norm_not_less_zero [simp]:
2490d4b4671a clean up RealVector classes huffman parents: 22636 diff changeset	477	fixes x :: "'a::real_normed_vector"
2490d4b4671a clean up RealVector classes huffman parents: 22636 diff changeset	478	shows "\<not> norm x < 0"
20828 68ed2e514ca0 add lemmas norm_not_less_zero, norm_le_zero_iff huffman parents: 20772 diff changeset	479	by (simp add: linorder_not_less)
68ed2e514ca0 add lemmas norm_not_less_zero, norm_le_zero_iff huffman parents: 20772 diff changeset	480
22852 2490d4b4671a clean up RealVector classes huffman parents: 22636 diff changeset	481	lemma norm_le_zero_iff [simp]:
2490d4b4671a clean up RealVector classes huffman parents: 22636 diff changeset	482	fixes x :: "'a::real_normed_vector"
2490d4b4671a clean up RealVector classes huffman parents: 22636 diff changeset	483	shows "(norm x \<le> 0) = (x = 0)"
20828 68ed2e514ca0 add lemmas norm_not_less_zero, norm_le_zero_iff huffman parents: 20772 diff changeset	484	by (simp add: order_le_less)
68ed2e514ca0 add lemmas norm_not_less_zero, norm_le_zero_iff huffman parents: 20772 diff changeset	485
20504 6342e872e71d formalization of vector spaces and algebras over the real numbers huffman parents: diff changeset	486	lemma norm_minus_cancel [simp]:
20584 60b1d52a455d added classes real_div_algebra and real_field; added lemmas huffman parents: 20560 diff changeset	487	fixes x :: "'a::real_normed_vector"
60b1d52a455d added classes real_div_algebra and real_field; added lemmas huffman parents: 20560 diff changeset	488	shows "norm (- x) = norm x"
20504 6342e872e71d formalization of vector spaces and algebras over the real numbers huffman parents: diff changeset	489	proof -
21809 4b93e949ac33 remove uses of scaleR infix syntax; add lemma Reals_number_of huffman parents: 21404 diff changeset	490	have "norm (- x) = norm (scaleR (- 1) x)"
20504 6342e872e71d formalization of vector spaces and algebras over the real numbers huffman parents: diff changeset	491	by (simp only: scaleR_minus_left scaleR_one)
20533 49442b3024bb remove conflicting norm syntax huffman parents: 20504 diff changeset	492	also have "\<dots> = \<bar>- 1\<bar> * norm x"
20504 6342e872e71d formalization of vector spaces and algebras over the real numbers huffman parents: diff changeset	493	by (rule norm_scaleR)
6342e872e71d formalization of vector spaces and algebras over the real numbers huffman parents: diff changeset	494	finally show ?thesis by simp
6342e872e71d formalization of vector spaces and algebras over the real numbers huffman parents: diff changeset	495	qed
6342e872e71d formalization of vector spaces and algebras over the real numbers huffman parents: diff changeset	496
6342e872e71d formalization of vector spaces and algebras over the real numbers huffman parents: diff changeset	497	lemma norm_minus_commute:
20584 60b1d52a455d added classes real_div_algebra and real_field; added lemmas huffman parents: 20560 diff changeset	498	fixes a b :: "'a::real_normed_vector"
60b1d52a455d added classes real_div_algebra and real_field; added lemmas huffman parents: 20560 diff changeset	499	shows "norm (a - b) = norm (b - a)"
20504 6342e872e71d formalization of vector spaces and algebras over the real numbers huffman parents: diff changeset	500	proof -
22898 38ae2815989f add lemma norm_diff_ineq; shorten other proofs huffman parents: 22880 diff changeset	501	have "norm (- (b - a)) = norm (b - a)"
38ae2815989f add lemma norm_diff_ineq; shorten other proofs huffman parents: 22880 diff changeset	502	by (rule norm_minus_cancel)
38ae2815989f add lemma norm_diff_ineq; shorten other proofs huffman parents: 22880 diff changeset	503	thus ?thesis by simp
20504 6342e872e71d formalization of vector spaces and algebras over the real numbers huffman parents: diff changeset	504	qed
6342e872e71d formalization of vector spaces and algebras over the real numbers huffman parents: diff changeset	505
6342e872e71d formalization of vector spaces and algebras over the real numbers huffman parents: diff changeset	506	lemma norm_triangle_ineq2:
20584 60b1d52a455d added classes real_div_algebra and real_field; added lemmas huffman parents: 20560 diff changeset	507	fixes a b :: "'a::real_normed_vector"
20533 49442b3024bb remove conflicting norm syntax huffman parents: 20504 diff changeset	508	shows "norm a - norm b \<le> norm (a - b)"
20504 6342e872e71d formalization of vector spaces and algebras over the real numbers huffman parents: diff changeset	509	proof -
20533 49442b3024bb remove conflicting norm syntax huffman parents: 20504 diff changeset	510	have "norm (a - b + b) \<le> norm (a - b) + norm b"
20504 6342e872e71d formalization of vector spaces and algebras over the real numbers huffman parents: diff changeset	511	by (rule norm_triangle_ineq)
22898 38ae2815989f add lemma norm_diff_ineq; shorten other proofs huffman parents: 22880 diff changeset	512	thus ?thesis by simp
20504 6342e872e71d formalization of vector spaces and algebras over the real numbers huffman parents: diff changeset	513	qed
6342e872e71d formalization of vector spaces and algebras over the real numbers huffman parents: diff changeset	514
20584 60b1d52a455d added classes real_div_algebra and real_field; added lemmas huffman parents: 20560 diff changeset	515	lemma norm_triangle_ineq3:
60b1d52a455d added classes real_div_algebra and real_field; added lemmas huffman parents: 20560 diff changeset	516	fixes a b :: "'a::real_normed_vector"
60b1d52a455d added classes real_div_algebra and real_field; added lemmas huffman parents: 20560 diff changeset	517	shows "\<bar>norm a - norm b\<bar> \<le> norm (a - b)"
60b1d52a455d added classes real_div_algebra and real_field; added lemmas huffman parents: 20560 diff changeset	518	apply (subst abs_le_iff)
60b1d52a455d added classes real_div_algebra and real_field; added lemmas huffman parents: 20560 diff changeset	519	apply auto
60b1d52a455d added classes real_div_algebra and real_field; added lemmas huffman parents: 20560 diff changeset	520	apply (rule norm_triangle_ineq2)
60b1d52a455d added classes real_div_algebra and real_field; added lemmas huffman parents: 20560 diff changeset	521	apply (subst norm_minus_commute)
60b1d52a455d added classes real_div_algebra and real_field; added lemmas huffman parents: 20560 diff changeset	522	apply (rule norm_triangle_ineq2)
60b1d52a455d added classes real_div_algebra and real_field; added lemmas huffman parents: 20560 diff changeset	523	done
60b1d52a455d added classes real_div_algebra and real_field; added lemmas huffman parents: 20560 diff changeset	524
20504 6342e872e71d formalization of vector spaces and algebras over the real numbers huffman parents: diff changeset	525	lemma norm_triangle_ineq4:
20584 60b1d52a455d added classes real_div_algebra and real_field; added lemmas huffman parents: 20560 diff changeset	526	fixes a b :: "'a::real_normed_vector"
20533 49442b3024bb remove conflicting norm syntax huffman parents: 20504 diff changeset	527	shows "norm (a - b) \<le> norm a + norm b"
20504 6342e872e71d formalization of vector spaces and algebras over the real numbers huffman parents: diff changeset	528	proof -
22898 38ae2815989f add lemma norm_diff_ineq; shorten other proofs huffman parents: 22880 diff changeset	529	have "norm (a + - b) \<le> norm a + norm (- b)"
20504 6342e872e71d formalization of vector spaces and algebras over the real numbers huffman parents: diff changeset	530	by (rule norm_triangle_ineq)
22898 38ae2815989f add lemma norm_diff_ineq; shorten other proofs huffman parents: 22880 diff changeset	531	thus ?thesis
38ae2815989f add lemma norm_diff_ineq; shorten other proofs huffman parents: 22880 diff changeset	532	by (simp only: diff_minus norm_minus_cancel)
38ae2815989f add lemma norm_diff_ineq; shorten other proofs huffman parents: 22880 diff changeset	533	qed
38ae2815989f add lemma norm_diff_ineq; shorten other proofs huffman parents: 22880 diff changeset	534
38ae2815989f add lemma norm_diff_ineq; shorten other proofs huffman parents: 22880 diff changeset	535	lemma norm_diff_ineq:
38ae2815989f add lemma norm_diff_ineq; shorten other proofs huffman parents: 22880 diff changeset	536	fixes a b :: "'a::real_normed_vector"
38ae2815989f add lemma norm_diff_ineq; shorten other proofs huffman parents: 22880 diff changeset	537	shows "norm a - norm b \<le> norm (a + b)"
38ae2815989f add lemma norm_diff_ineq; shorten other proofs huffman parents: 22880 diff changeset	538	proof -
38ae2815989f add lemma norm_diff_ineq; shorten other proofs huffman parents: 22880 diff changeset	539	have "norm a - norm (- b) \<le> norm (a - - b)"
38ae2815989f add lemma norm_diff_ineq; shorten other proofs huffman parents: 22880 diff changeset	540	by (rule norm_triangle_ineq2)
38ae2815989f add lemma norm_diff_ineq; shorten other proofs huffman parents: 22880 diff changeset	541	thus ?thesis by simp
20504 6342e872e71d formalization of vector spaces and algebras over the real numbers huffman parents: diff changeset	542	qed
6342e872e71d formalization of vector spaces and algebras over the real numbers huffman parents: diff changeset	543
20551 ba543692bfa1 add theorem norm_diff_triangle_ineq huffman parents: 20533 diff changeset	544	lemma norm_diff_triangle_ineq:
ba543692bfa1 add theorem norm_diff_triangle_ineq huffman parents: 20533 diff changeset	545	fixes a b c d :: "'a::real_normed_vector"
ba543692bfa1 add theorem norm_diff_triangle_ineq huffman parents: 20533 diff changeset	546	shows "norm ((a + b) - (c + d)) \<le> norm (a - c) + norm (b - d)"
ba543692bfa1 add theorem norm_diff_triangle_ineq huffman parents: 20533 diff changeset	547	proof -
ba543692bfa1 add theorem norm_diff_triangle_ineq huffman parents: 20533 diff changeset	548	have "norm ((a + b) - (c + d)) = norm ((a - c) + (b - d))"
ba543692bfa1 add theorem norm_diff_triangle_ineq huffman parents: 20533 diff changeset	549	by (simp add: diff_minus add_ac)
ba543692bfa1 add theorem norm_diff_triangle_ineq huffman parents: 20533 diff changeset	550	also have "\<dots> \<le> norm (a - c) + norm (b - d)"
ba543692bfa1 add theorem norm_diff_triangle_ineq huffman parents: 20533 diff changeset	551	by (rule norm_triangle_ineq)
ba543692bfa1 add theorem norm_diff_triangle_ineq huffman parents: 20533 diff changeset	552	finally show ?thesis .
ba543692bfa1 add theorem norm_diff_triangle_ineq huffman parents: 20533 diff changeset	553	qed
ba543692bfa1 add theorem norm_diff_triangle_ineq huffman parents: 20533 diff changeset	554
22857 cb84e886cc90 add lemma abs_norm_cancel huffman parents: 22852 diff changeset	555	lemma abs_norm_cancel [simp]:
cb84e886cc90 add lemma abs_norm_cancel huffman parents: 22852 diff changeset	556	fixes a :: "'a::real_normed_vector"
cb84e886cc90 add lemma abs_norm_cancel huffman parents: 22852 diff changeset	557	shows "\<bar>norm a\<bar> = norm a"
cb84e886cc90 add lemma abs_norm_cancel huffman parents: 22852 diff changeset	558	by (rule abs_of_nonneg [OF norm_ge_zero])
cb84e886cc90 add lemma abs_norm_cancel huffman parents: 22852 diff changeset	559
22880 424d6fb67513 add lemmas norm_add_less, norm_mult_less huffman parents: 22876 diff changeset	560	lemma norm_add_less:
424d6fb67513 add lemmas norm_add_less, norm_mult_less huffman parents: 22876 diff changeset	561	fixes x y :: "'a::real_normed_vector"
424d6fb67513 add lemmas norm_add_less, norm_mult_less huffman parents: 22876 diff changeset	562	shows "\<lbrakk>norm x < r; norm y < s\<rbrakk> \<Longrightarrow> norm (x + y) < r + s"
424d6fb67513 add lemmas norm_add_less, norm_mult_less huffman parents: 22876 diff changeset	563	by (rule order_le_less_trans [OF norm_triangle_ineq add_strict_mono])
424d6fb67513 add lemmas norm_add_less, norm_mult_less huffman parents: 22876 diff changeset	564
424d6fb67513 add lemmas norm_add_less, norm_mult_less huffman parents: 22876 diff changeset	565	lemma norm_mult_less:
424d6fb67513 add lemmas norm_add_less, norm_mult_less huffman parents: 22876 diff changeset	566	fixes x y :: "'a::real_normed_algebra"
424d6fb67513 add lemmas norm_add_less, norm_mult_less huffman parents: 22876 diff changeset	567	shows "\<lbrakk>norm x < r; norm y < s\<rbrakk> \<Longrightarrow> norm (x * y) < r * s"
424d6fb67513 add lemmas norm_add_less, norm_mult_less huffman parents: 22876 diff changeset	568	apply (rule order_le_less_trans [OF norm_mult_ineq])
424d6fb67513 add lemmas norm_add_less, norm_mult_less huffman parents: 22876 diff changeset	569	apply (simp add: mult_strict_mono')
424d6fb67513 add lemmas norm_add_less, norm_mult_less huffman parents: 22876 diff changeset	570	done
424d6fb67513 add lemmas norm_add_less, norm_mult_less huffman parents: 22876 diff changeset	571
22857 cb84e886cc90 add lemma abs_norm_cancel huffman parents: 22852 diff changeset	572	lemma norm_of_real [simp]:
cb84e886cc90 add lemma abs_norm_cancel huffman parents: 22852 diff changeset	573	"norm (of_real r :: 'a::real_normed_algebra_1) = \<bar>r\<bar>"
22852 2490d4b4671a clean up RealVector classes huffman parents: 22636 diff changeset	574	unfolding of_real_def by (simp add: norm_scaleR)
20560 49996715bc6e norm_one is now proved from other class axioms huffman parents: 20554 diff changeset	575
22876 2b4c831ceca7 add lemmas norm_number_of, norm_of_int, norm_of_nat huffman parents: 22857 diff changeset	576	lemma norm_number_of [simp]:
2b4c831ceca7 add lemmas norm_number_of, norm_of_int, norm_of_nat huffman parents: 22857 diff changeset	577	"norm (number_of w::'a::{number_ring,real_normed_algebra_1})
2b4c831ceca7 add lemmas norm_number_of, norm_of_int, norm_of_nat huffman parents: 22857 diff changeset	578	= \<bar>number_of w\<bar>"
2b4c831ceca7 add lemmas norm_number_of, norm_of_int, norm_of_nat huffman parents: 22857 diff changeset	579	by (subst of_real_number_of_eq [symmetric], rule norm_of_real)
2b4c831ceca7 add lemmas norm_number_of, norm_of_int, norm_of_nat huffman parents: 22857 diff changeset	580
2b4c831ceca7 add lemmas norm_number_of, norm_of_int, norm_of_nat huffman parents: 22857 diff changeset	581	lemma norm_of_int [simp]:
2b4c831ceca7 add lemmas norm_number_of, norm_of_int, norm_of_nat huffman parents: 22857 diff changeset	582	"norm (of_int z::'a::real_normed_algebra_1) = \<bar>of_int z\<bar>"
2b4c831ceca7 add lemmas norm_number_of, norm_of_int, norm_of_nat huffman parents: 22857 diff changeset	583	by (subst of_real_of_int_eq [symmetric], rule norm_of_real)
2b4c831ceca7 add lemmas norm_number_of, norm_of_int, norm_of_nat huffman parents: 22857 diff changeset	584
2b4c831ceca7 add lemmas norm_number_of, norm_of_int, norm_of_nat huffman parents: 22857 diff changeset	585	lemma norm_of_nat [simp]:
2b4c831ceca7 add lemmas norm_number_of, norm_of_int, norm_of_nat huffman parents: 22857 diff changeset	586	"norm (of_nat n::'a::real_normed_algebra_1) = of_nat n"
2b4c831ceca7 add lemmas norm_number_of, norm_of_int, norm_of_nat huffman parents: 22857 diff changeset	587	apply (subst of_real_of_nat_eq [symmetric])
2b4c831ceca7 add lemmas norm_number_of, norm_of_int, norm_of_nat huffman parents: 22857 diff changeset	588	apply (subst norm_of_real, simp)
2b4c831ceca7 add lemmas norm_number_of, norm_of_int, norm_of_nat huffman parents: 22857 diff changeset	589	done
2b4c831ceca7 add lemmas norm_number_of, norm_of_int, norm_of_nat huffman parents: 22857 diff changeset	590
20504 6342e872e71d formalization of vector spaces and algebras over the real numbers huffman parents: diff changeset	591	lemma nonzero_norm_inverse:
6342e872e71d formalization of vector spaces and algebras over the real numbers huffman parents: diff changeset	592	fixes a :: "'a::real_normed_div_algebra"
20533 49442b3024bb remove conflicting norm syntax huffman parents: 20504 diff changeset	593	shows "a \<noteq> 0 \<Longrightarrow> norm (inverse a) = inverse (norm a)"
20504 6342e872e71d formalization of vector spaces and algebras over the real numbers huffman parents: diff changeset	594	apply (rule inverse_unique [symmetric])
6342e872e71d formalization of vector spaces and algebras over the real numbers huffman parents: diff changeset	595	apply (simp add: norm_mult [symmetric])
6342e872e71d formalization of vector spaces and algebras over the real numbers huffman parents: diff changeset	596	done
6342e872e71d formalization of vector spaces and algebras over the real numbers huffman parents: diff changeset	597
6342e872e71d formalization of vector spaces and algebras over the real numbers huffman parents: diff changeset	598	lemma norm_inverse:
6342e872e71d formalization of vector spaces and algebras over the real numbers huffman parents: diff changeset	599	fixes a :: "'a::{real_normed_div_algebra,division_by_zero}"
20533 49442b3024bb remove conflicting norm syntax huffman parents: 20504 diff changeset	600	shows "norm (inverse a) = inverse (norm a)"
20504 6342e872e71d formalization of vector spaces and algebras over the real numbers huffman parents: diff changeset	601	apply (case_tac "a = 0", simp)
6342e872e71d formalization of vector spaces and algebras over the real numbers huffman parents: diff changeset	602	apply (erule nonzero_norm_inverse)
6342e872e71d formalization of vector spaces and algebras over the real numbers huffman parents: diff changeset	603	done
6342e872e71d formalization of vector spaces and algebras over the real numbers huffman parents: diff changeset	604
20584 60b1d52a455d added classes real_div_algebra and real_field; added lemmas huffman parents: 20560 diff changeset	605	lemma nonzero_norm_divide:
60b1d52a455d added classes real_div_algebra and real_field; added lemmas huffman parents: 20560 diff changeset	606	fixes a b :: "'a::real_normed_field"
60b1d52a455d added classes real_div_algebra and real_field; added lemmas huffman parents: 20560 diff changeset	607	shows "b \<noteq> 0 \<Longrightarrow> norm (a / b) = norm a / norm b"
60b1d52a455d added classes real_div_algebra and real_field; added lemmas huffman parents: 20560 diff changeset	608	by (simp add: divide_inverse norm_mult nonzero_norm_inverse)
60b1d52a455d added classes real_div_algebra and real_field; added lemmas huffman parents: 20560 diff changeset	609
60b1d52a455d added classes real_div_algebra and real_field; added lemmas huffman parents: 20560 diff changeset	610	lemma norm_divide:
60b1d52a455d added classes real_div_algebra and real_field; added lemmas huffman parents: 20560 diff changeset	611	fixes a b :: "'a::{real_normed_field,division_by_zero}"
60b1d52a455d added classes real_div_algebra and real_field; added lemmas huffman parents: 20560 diff changeset	612	shows "norm (a / b) = norm a / norm b"
60b1d52a455d added classes real_div_algebra and real_field; added lemmas huffman parents: 20560 diff changeset	613	by (simp add: divide_inverse norm_mult norm_inverse)
60b1d52a455d added classes real_div_algebra and real_field; added lemmas huffman parents: 20560 diff changeset	614
22852 2490d4b4671a clean up RealVector classes huffman parents: 22636 diff changeset	615	lemma norm_power_ineq:
2490d4b4671a clean up RealVector classes huffman parents: 22636 diff changeset	616	fixes x :: "'a::{real_normed_algebra_1,recpower}"
2490d4b4671a clean up RealVector classes huffman parents: 22636 diff changeset	617	shows "norm (x ^ n) \<le> norm x ^ n"
2490d4b4671a clean up RealVector classes huffman parents: 22636 diff changeset	618	proof (induct n)
2490d4b4671a clean up RealVector classes huffman parents: 22636 diff changeset	619	case 0 show "norm (x ^ 0) \<le> norm x ^ 0" by simp
2490d4b4671a clean up RealVector classes huffman parents: 22636 diff changeset	620	next
2490d4b4671a clean up RealVector classes huffman parents: 22636 diff changeset	621	case (Suc n)
2490d4b4671a clean up RealVector classes huffman parents: 22636 diff changeset	622	have "norm (x * x ^ n) \<le> norm x * norm (x ^ n)"
2490d4b4671a clean up RealVector classes huffman parents: 22636 diff changeset	623	by (rule norm_mult_ineq)
2490d4b4671a clean up RealVector classes huffman parents: 22636 diff changeset	624	also from Suc have "\<dots> \<le> norm x * norm x ^ n"
2490d4b4671a clean up RealVector classes huffman parents: 22636 diff changeset	625	using norm_ge_zero by (rule mult_left_mono)
2490d4b4671a clean up RealVector classes huffman parents: 22636 diff changeset	626	finally show "norm (x ^ Suc n) \<le> norm x ^ Suc n"
2490d4b4671a clean up RealVector classes huffman parents: 22636 diff changeset	627	by (simp add: power_Suc)
2490d4b4671a clean up RealVector classes huffman parents: 22636 diff changeset	628	qed
2490d4b4671a clean up RealVector classes huffman parents: 22636 diff changeset	629
20684 74e8b46abb97 add lemma norm_power huffman parents: 20584 diff changeset	630	lemma norm_power:
74e8b46abb97 add lemma norm_power huffman parents: 20584 diff changeset	631	fixes x :: "'a::{real_normed_div_algebra,recpower}"
74e8b46abb97 add lemma norm_power huffman parents: 20584 diff changeset	632	shows "norm (x ^ n) = norm x ^ n"
20772 7a51ed817ec7 tuned definitions/proofs; wenzelm parents: 20763 diff changeset	633	by (induct n) (simp_all add: power_Suc norm_mult)
20684 74e8b46abb97 add lemma norm_power huffman parents: 20584 diff changeset	634
22442 15d9ed9b5051 move bounded (bi)linear operator locales from Lim.thy to RealVector.thy huffman parents: 21809 diff changeset	635
22972 3e96b98d37c6 generalized sgn function to work on any real normed vector space huffman parents: 22942 diff changeset	636	subsection {* Sign function *}
3e96b98d37c6 generalized sgn function to work on any real normed vector space huffman parents: 22942 diff changeset	637
24506 020db6ec334a final(?) iteration of sgn saga. nipkow parents: 23282 diff changeset	638	lemma norm_sgn:
020db6ec334a final(?) iteration of sgn saga. nipkow parents: 23282 diff changeset	639	"norm (sgn(x::'a::real_normed_vector)) = (if x = 0 then 0 else 1)"
020db6ec334a final(?) iteration of sgn saga. nipkow parents: 23282 diff changeset	640	by (simp add: sgn_div_norm norm_scaleR)
22972 3e96b98d37c6 generalized sgn function to work on any real normed vector space huffman parents: 22942 diff changeset	641
24506 020db6ec334a final(?) iteration of sgn saga. nipkow parents: 23282 diff changeset	642	lemma sgn_zero [simp]: "sgn(0::'a::real_normed_vector) = 0"
020db6ec334a final(?) iteration of sgn saga. nipkow parents: 23282 diff changeset	643	by (simp add: sgn_div_norm)
22972 3e96b98d37c6 generalized sgn function to work on any real normed vector space huffman parents: 22942 diff changeset	644
24506 020db6ec334a final(?) iteration of sgn saga. nipkow parents: 23282 diff changeset	645	lemma sgn_zero_iff: "(sgn(x::'a::real_normed_vector) = 0) = (x = 0)"
020db6ec334a final(?) iteration of sgn saga. nipkow parents: 23282 diff changeset	646	by (simp add: sgn_div_norm)
22972 3e96b98d37c6 generalized sgn function to work on any real normed vector space huffman parents: 22942 diff changeset	647
24506 020db6ec334a final(?) iteration of sgn saga. nipkow parents: 23282 diff changeset	648	lemma sgn_minus: "sgn (- x) = - sgn(x::'a::real_normed_vector)"
020db6ec334a final(?) iteration of sgn saga. nipkow parents: 23282 diff changeset	649	by (simp add: sgn_div_norm)
22972 3e96b98d37c6 generalized sgn function to work on any real normed vector space huffman parents: 22942 diff changeset	650
24506 020db6ec334a final(?) iteration of sgn saga. nipkow parents: 23282 diff changeset	651	lemma sgn_scaleR:
020db6ec334a final(?) iteration of sgn saga. nipkow parents: 23282 diff changeset	652	"sgn (scaleR r x) = scaleR (sgn r) (sgn(x::'a::real_normed_vector))"
020db6ec334a final(?) iteration of sgn saga. nipkow parents: 23282 diff changeset	653	by (simp add: sgn_div_norm norm_scaleR mult_ac)
22973 64d300e16370 add lemma sgn_mult; declare real_scaleR_def and scaleR_eq_0_iff as simp rules huffman parents: 22972 diff changeset	654
22972 3e96b98d37c6 generalized sgn function to work on any real normed vector space huffman parents: 22942 diff changeset	655	lemma sgn_one [simp]: "sgn (1::'a::real_normed_algebra_1) = 1"
24506 020db6ec334a final(?) iteration of sgn saga. nipkow parents: 23282 diff changeset	656	by (simp add: sgn_div_norm)
22972 3e96b98d37c6 generalized sgn function to work on any real normed vector space huffman parents: 22942 diff changeset	657
3e96b98d37c6 generalized sgn function to work on any real normed vector space huffman parents: 22942 diff changeset	658	lemma sgn_of_real:
3e96b98d37c6 generalized sgn function to work on any real normed vector space huffman parents: 22942 diff changeset	659	"sgn (of_real r::'a::real_normed_algebra_1) = of_real (sgn r)"
3e96b98d37c6 generalized sgn function to work on any real normed vector space huffman parents: 22942 diff changeset	660	unfolding of_real_def by (simp only: sgn_scaleR sgn_one)
3e96b98d37c6 generalized sgn function to work on any real normed vector space huffman parents: 22942 diff changeset	661
22973 64d300e16370 add lemma sgn_mult; declare real_scaleR_def and scaleR_eq_0_iff as simp rules huffman parents: 22972 diff changeset	662	lemma sgn_mult:
64d300e16370 add lemma sgn_mult; declare real_scaleR_def and scaleR_eq_0_iff as simp rules huffman parents: 22972 diff changeset	663	fixes x y :: "'a::real_normed_div_algebra"
64d300e16370 add lemma sgn_mult; declare real_scaleR_def and scaleR_eq_0_iff as simp rules huffman parents: 22972 diff changeset	664	shows "sgn (x * y) = sgn x * sgn y"
24506 020db6ec334a final(?) iteration of sgn saga. nipkow parents: 23282 diff changeset	665	by (simp add: sgn_div_norm norm_mult mult_commute)
22973 64d300e16370 add lemma sgn_mult; declare real_scaleR_def and scaleR_eq_0_iff as simp rules huffman parents: 22972 diff changeset	666
22972 3e96b98d37c6 generalized sgn function to work on any real normed vector space huffman parents: 22942 diff changeset	667	lemma real_sgn_eq: "sgn (x::real) = x / \<bar>x\<bar>"
24506 020db6ec334a final(?) iteration of sgn saga. nipkow parents: 23282 diff changeset	668	by (simp add: sgn_div_norm divide_inverse)
22972 3e96b98d37c6 generalized sgn function to work on any real normed vector space huffman parents: 22942 diff changeset	669
3e96b98d37c6 generalized sgn function to work on any real normed vector space huffman parents: 22942 diff changeset	670	lemma real_sgn_pos: "0 < (x::real) \<Longrightarrow> sgn x = 1"
3e96b98d37c6 generalized sgn function to work on any real normed vector space huffman parents: 22942 diff changeset	671	unfolding real_sgn_eq by simp
3e96b98d37c6 generalized sgn function to work on any real normed vector space huffman parents: 22942 diff changeset	672
3e96b98d37c6 generalized sgn function to work on any real normed vector space huffman parents: 22942 diff changeset	673	lemma real_sgn_neg: "(x::real) < 0 \<Longrightarrow> sgn x = -1"
3e96b98d37c6 generalized sgn function to work on any real normed vector space huffman parents: 22942 diff changeset	674	unfolding real_sgn_eq by simp
3e96b98d37c6 generalized sgn function to work on any real normed vector space huffman parents: 22942 diff changeset	675
3e96b98d37c6 generalized sgn function to work on any real normed vector space huffman parents: 22942 diff changeset	676
22442 15d9ed9b5051 move bounded (bi)linear operator locales from Lim.thy to RealVector.thy huffman parents: 21809 diff changeset	677	subsection {* Bounded Linear and Bilinear Operators *}
15d9ed9b5051 move bounded (bi)linear operator locales from Lim.thy to RealVector.thy huffman parents: 21809 diff changeset	678
15d9ed9b5051 move bounded (bi)linear operator locales from Lim.thy to RealVector.thy huffman parents: 21809 diff changeset	679	locale bounded_linear = additive +
15d9ed9b5051 move bounded (bi)linear operator locales from Lim.thy to RealVector.thy huffman parents: 21809 diff changeset	680	constrains f :: "'a::real_normed_vector \<Rightarrow> 'b::real_normed_vector"
15d9ed9b5051 move bounded (bi)linear operator locales from Lim.thy to RealVector.thy huffman parents: 21809 diff changeset	681	assumes scaleR: "f (scaleR r x) = scaleR r (f x)"
15d9ed9b5051 move bounded (bi)linear operator locales from Lim.thy to RealVector.thy huffman parents: 21809 diff changeset	682	assumes bounded: "\<exists>K. \<forall>x. norm (f x) \<le> norm x * K"
27443 22b6281d6719 use begin and end for proofs in locales huffman parents: 27435 diff changeset	683	begin
22442 15d9ed9b5051 move bounded (bi)linear operator locales from Lim.thy to RealVector.thy huffman parents: 21809 diff changeset	684
27443 22b6281d6719 use begin and end for proofs in locales huffman parents: 27435 diff changeset	685	lemma pos_bounded:
22442 15d9ed9b5051 move bounded (bi)linear operator locales from Lim.thy to RealVector.thy huffman parents: 21809 diff changeset	686	"\<exists>K>0. \<forall>x. norm (f x) \<le> norm x * K"
15d9ed9b5051 move bounded (bi)linear operator locales from Lim.thy to RealVector.thy huffman parents: 21809 diff changeset	687	proof -
15d9ed9b5051 move bounded (bi)linear operator locales from Lim.thy to RealVector.thy huffman parents: 21809 diff changeset	688	obtain K where K: "\<And>x. norm (f x) \<le> norm x * K"
15d9ed9b5051 move bounded (bi)linear operator locales from Lim.thy to RealVector.thy huffman parents: 21809 diff changeset	689	using bounded by fast
15d9ed9b5051 move bounded (bi)linear operator locales from Lim.thy to RealVector.thy huffman parents: 21809 diff changeset	690	show ?thesis
15d9ed9b5051 move bounded (bi)linear operator locales from Lim.thy to RealVector.thy huffman parents: 21809 diff changeset	691	proof (intro exI impI conjI allI)
15d9ed9b5051 move bounded (bi)linear operator locales from Lim.thy to RealVector.thy huffman parents: 21809 diff changeset	692	show "0 < max 1 K"
15d9ed9b5051 move bounded (bi)linear operator locales from Lim.thy to RealVector.thy huffman parents: 21809 diff changeset	693	by (rule order_less_le_trans [OF zero_less_one le_maxI1])
15d9ed9b5051 move bounded (bi)linear operator locales from Lim.thy to RealVector.thy huffman parents: 21809 diff changeset	694	next
15d9ed9b5051 move bounded (bi)linear operator locales from Lim.thy to RealVector.thy huffman parents: 21809 diff changeset	695	fix x
15d9ed9b5051 move bounded (bi)linear operator locales from Lim.thy to RealVector.thy huffman parents: 21809 diff changeset	696	have "norm (f x) \<le> norm x * K" using K .
15d9ed9b5051 move bounded (bi)linear operator locales from Lim.thy to RealVector.thy huffman parents: 21809 diff changeset	697	also have "\<dots> \<le> norm x * max 1 K"
15d9ed9b5051 move bounded (bi)linear operator locales from Lim.thy to RealVector.thy huffman parents: 21809 diff changeset	698	by (rule mult_left_mono [OF le_maxI2 norm_ge_zero])
15d9ed9b5051 move bounded (bi)linear operator locales from Lim.thy to RealVector.thy huffman parents: 21809 diff changeset	699	finally show "norm (f x) \<le> norm x * max 1 K" .
15d9ed9b5051 move bounded (bi)linear operator locales from Lim.thy to RealVector.thy huffman parents: 21809 diff changeset	700	qed
15d9ed9b5051 move bounded (bi)linear operator locales from Lim.thy to RealVector.thy huffman parents: 21809 diff changeset	701	qed
15d9ed9b5051 move bounded (bi)linear operator locales from Lim.thy to RealVector.thy huffman parents: 21809 diff changeset	702
27443 22b6281d6719 use begin and end for proofs in locales huffman parents: 27435 diff changeset	703	lemma nonneg_bounded:
22442 15d9ed9b5051 move bounded (bi)linear operator locales from Lim.thy to RealVector.thy huffman parents: 21809 diff changeset	704	"\<exists>K\<ge>0. \<forall>x. norm (f x) \<le> norm x * K"
15d9ed9b5051 move bounded (bi)linear operator locales from Lim.thy to RealVector.thy huffman parents: 21809 diff changeset	705	proof -
15d9ed9b5051 move bounded (bi)linear operator locales from Lim.thy to RealVector.thy huffman parents: 21809 diff changeset	706	from pos_bounded
15d9ed9b5051 move bounded (bi)linear operator locales from Lim.thy to RealVector.thy huffman parents: 21809 diff changeset	707	show ?thesis by (auto intro: order_less_imp_le)
15d9ed9b5051 move bounded (bi)linear operator locales from Lim.thy to RealVector.thy huffman parents: 21809 diff changeset	708	qed
15d9ed9b5051 move bounded (bi)linear operator locales from Lim.thy to RealVector.thy huffman parents: 21809 diff changeset	709
27443 22b6281d6719 use begin and end for proofs in locales huffman parents: 27435 diff changeset	710	end
22b6281d6719 use begin and end for proofs in locales huffman parents: 27435 diff changeset	711
22442 15d9ed9b5051 move bounded (bi)linear operator locales from Lim.thy to RealVector.thy huffman parents: 21809 diff changeset	712	locale bounded_bilinear =
15d9ed9b5051 move bounded (bi)linear operator locales from Lim.thy to RealVector.thy huffman parents: 21809 diff changeset	713	fixes prod :: "['a::real_normed_vector, 'b::real_normed_vector]
15d9ed9b5051 move bounded (bi)linear operator locales from Lim.thy to RealVector.thy huffman parents: 21809 diff changeset	714	\<Rightarrow> 'c::real_normed_vector"
15d9ed9b5051 move bounded (bi)linear operator locales from Lim.thy to RealVector.thy huffman parents: 21809 diff changeset	715	(infixl "**" 70)
15d9ed9b5051 move bounded (bi)linear operator locales from Lim.thy to RealVector.thy huffman parents: 21809 diff changeset	716	assumes add_left: "prod (a + a') b = prod a b + prod a' b"
15d9ed9b5051 move bounded (bi)linear operator locales from Lim.thy to RealVector.thy huffman parents: 21809 diff changeset	717	assumes add_right: "prod a (b + b') = prod a b + prod a b'"
15d9ed9b5051 move bounded (bi)linear operator locales from Lim.thy to RealVector.thy huffman parents: 21809 diff changeset	718	assumes scaleR_left: "prod (scaleR r a) b = scaleR r (prod a b)"
15d9ed9b5051 move bounded (bi)linear operator locales from Lim.thy to RealVector.thy huffman parents: 21809 diff changeset	719	assumes scaleR_right: "prod a (scaleR r b) = scaleR r (prod a b)"
15d9ed9b5051 move bounded (bi)linear operator locales from Lim.thy to RealVector.thy huffman parents: 21809 diff changeset	720	assumes bounded: "\<exists>K. \<forall>a b. norm (prod a b) \<le> norm a * norm b * K"
27443 22b6281d6719 use begin and end for proofs in locales huffman parents: 27435 diff changeset	721	begin
22442 15d9ed9b5051 move bounded (bi)linear operator locales from Lim.thy to RealVector.thy huffman parents: 21809 diff changeset	722
27443 22b6281d6719 use begin and end for proofs in locales huffman parents: 27435 diff changeset	723	lemma pos_bounded:
22442 15d9ed9b5051 move bounded (bi)linear operator locales from Lim.thy to RealVector.thy huffman parents: 21809 diff changeset	724	"\<exists>K>0. \<forall>a b. norm (a ** b) \<le> norm a * norm b * K"
15d9ed9b5051 move bounded (bi)linear operator locales from Lim.thy to RealVector.thy huffman parents: 21809 diff changeset	725	apply (cut_tac bounded, erule exE)
15d9ed9b5051 move bounded (bi)linear operator locales from Lim.thy to RealVector.thy huffman parents: 21809 diff changeset	726	apply (rule_tac x="max 1 K" in exI, safe)
15d9ed9b5051 move bounded (bi)linear operator locales from Lim.thy to RealVector.thy huffman parents: 21809 diff changeset	727	apply (rule order_less_le_trans [OF zero_less_one le_maxI1])
15d9ed9b5051 move bounded (bi)linear operator locales from Lim.thy to RealVector.thy huffman parents: 21809 diff changeset	728	apply (drule spec, drule spec, erule order_trans)
15d9ed9b5051 move bounded (bi)linear operator locales from Lim.thy to RealVector.thy huffman parents: 21809 diff changeset	729	apply (rule mult_left_mono [OF le_maxI2])
15d9ed9b5051 move bounded (bi)linear operator locales from Lim.thy to RealVector.thy huffman parents: 21809 diff changeset	730	apply (intro mult_nonneg_nonneg norm_ge_zero)
15d9ed9b5051 move bounded (bi)linear operator locales from Lim.thy to RealVector.thy huffman parents: 21809 diff changeset	731	done
15d9ed9b5051 move bounded (bi)linear operator locales from Lim.thy to RealVector.thy huffman parents: 21809 diff changeset	732
27443 22b6281d6719 use begin and end for proofs in locales huffman parents: 27435 diff changeset	733	lemma nonneg_bounded:
22442 15d9ed9b5051 move bounded (bi)linear operator locales from Lim.thy to RealVector.thy huffman parents: 21809 diff changeset	734	"\<exists>K\<ge>0. \<forall>a b. norm (a ** b) \<le> norm a * norm b * K"
15d9ed9b5051 move bounded (bi)linear operator locales from Lim.thy to RealVector.thy huffman parents: 21809 diff changeset	735	proof -
15d9ed9b5051 move bounded (bi)linear operator locales from Lim.thy to RealVector.thy huffman parents: 21809 diff changeset	736	from pos_bounded
15d9ed9b5051 move bounded (bi)linear operator locales from Lim.thy to RealVector.thy huffman parents: 21809 diff changeset	737	show ?thesis by (auto intro: order_less_imp_le)
15d9ed9b5051 move bounded (bi)linear operator locales from Lim.thy to RealVector.thy huffman parents: 21809 diff changeset	738	qed
15d9ed9b5051 move bounded (bi)linear operator locales from Lim.thy to RealVector.thy huffman parents: 21809 diff changeset	739
27443 22b6281d6719 use begin and end for proofs in locales huffman parents: 27435 diff changeset	740	lemma additive_right: "additive (\<lambda>b. prod a b)"
22442 15d9ed9b5051 move bounded (bi)linear operator locales from Lim.thy to RealVector.thy huffman parents: 21809 diff changeset	741	by (rule additive.intro, rule add_right)
15d9ed9b5051 move bounded (bi)linear operator locales from Lim.thy to RealVector.thy huffman parents: 21809 diff changeset	742
27443 22b6281d6719 use begin and end for proofs in locales huffman parents: 27435 diff changeset	743	lemma additive_left: "additive (\<lambda>a. prod a b)"
22442 15d9ed9b5051 move bounded (bi)linear operator locales from Lim.thy to RealVector.thy huffman parents: 21809 diff changeset	744	by (rule additive.intro, rule add_left)
15d9ed9b5051 move bounded (bi)linear operator locales from Lim.thy to RealVector.thy huffman parents: 21809 diff changeset	745
27443 22b6281d6719 use begin and end for proofs in locales huffman parents: 27435 diff changeset	746	lemma zero_left: "prod 0 b = 0"
22442 15d9ed9b5051 move bounded (bi)linear operator locales from Lim.thy to RealVector.thy huffman parents: 21809 diff changeset	747	by (rule additive.zero [OF additive_left])
15d9ed9b5051 move bounded (bi)linear operator locales from Lim.thy to RealVector.thy huffman parents: 21809 diff changeset	748
27443 22b6281d6719 use begin and end for proofs in locales huffman parents: 27435 diff changeset	749	lemma zero_right: "prod a 0 = 0"
22442 15d9ed9b5051 move bounded (bi)linear operator locales from Lim.thy to RealVector.thy huffman parents: 21809 diff changeset	750	by (rule additive.zero [OF additive_right])
15d9ed9b5051 move bounded (bi)linear operator locales from Lim.thy to RealVector.thy huffman parents: 21809 diff changeset	751
27443 22b6281d6719 use begin and end for proofs in locales huffman parents: 27435 diff changeset	752	lemma minus_left: "prod (- a) b = - prod a b"
22442 15d9ed9b5051 move bounded (bi)linear operator locales from Lim.thy to RealVector.thy huffman parents: 21809 diff changeset	753	by (rule additive.minus [OF additive_left])
15d9ed9b5051 move bounded (bi)linear operator locales from Lim.thy to RealVector.thy huffman parents: 21809 diff changeset	754
27443 22b6281d6719 use begin and end for proofs in locales huffman parents: 27435 diff changeset	755	lemma minus_right: "prod a (- b) = - prod a b"
22442 15d9ed9b5051 move bounded (bi)linear operator locales from Lim.thy to RealVector.thy huffman parents: 21809 diff changeset	756	by (rule additive.minus [OF additive_right])
15d9ed9b5051 move bounded (bi)linear operator locales from Lim.thy to RealVector.thy huffman parents: 21809 diff changeset	757
27443 22b6281d6719 use begin and end for proofs in locales huffman parents: 27435 diff changeset	758	lemma diff_left:
22442 15d9ed9b5051 move bounded (bi)linear operator locales from Lim.thy to RealVector.thy huffman parents: 21809 diff changeset	759	"prod (a - a') b = prod a b - prod a' b"
15d9ed9b5051 move bounded (bi)linear operator locales from Lim.thy to RealVector.thy huffman parents: 21809 diff changeset	760	by (rule additive.diff [OF additive_left])
15d9ed9b5051 move bounded (bi)linear operator locales from Lim.thy to RealVector.thy huffman parents: 21809 diff changeset	761
27443 22b6281d6719 use begin and end for proofs in locales huffman parents: 27435 diff changeset	762	lemma diff_right:
22442 15d9ed9b5051 move bounded (bi)linear operator locales from Lim.thy to RealVector.thy huffman parents: 21809 diff changeset	763	"prod a (b - b') = prod a b - prod a b'"
15d9ed9b5051 move bounded (bi)linear operator locales from Lim.thy to RealVector.thy huffman parents: 21809 diff changeset	764	by (rule additive.diff [OF additive_right])
15d9ed9b5051 move bounded (bi)linear operator locales from Lim.thy to RealVector.thy huffman parents: 21809 diff changeset	765
27443 22b6281d6719 use begin and end for proofs in locales huffman parents: 27435 diff changeset	766	lemma bounded_linear_left:
22442 15d9ed9b5051 move bounded (bi)linear operator locales from Lim.thy to RealVector.thy huffman parents: 21809 diff changeset	767	"bounded_linear (\<lambda>a. a ** b)"
15d9ed9b5051 move bounded (bi)linear operator locales from Lim.thy to RealVector.thy huffman parents: 21809 diff changeset	768	apply (unfold_locales)
15d9ed9b5051 move bounded (bi)linear operator locales from Lim.thy to RealVector.thy huffman parents: 21809 diff changeset	769	apply (rule add_left)
15d9ed9b5051 move bounded (bi)linear operator locales from Lim.thy to RealVector.thy huffman parents: 21809 diff changeset	770	apply (rule scaleR_left)
15d9ed9b5051 move bounded (bi)linear operator locales from Lim.thy to RealVector.thy huffman parents: 21809 diff changeset	771	apply (cut_tac bounded, safe)
15d9ed9b5051 move bounded (bi)linear operator locales from Lim.thy to RealVector.thy huffman parents: 21809 diff changeset	772	apply (rule_tac x="norm b * K" in exI)
15d9ed9b5051 move bounded (bi)linear operator locales from Lim.thy to RealVector.thy huffman parents: 21809 diff changeset	773	apply (simp add: mult_ac)
15d9ed9b5051 move bounded (bi)linear operator locales from Lim.thy to RealVector.thy huffman parents: 21809 diff changeset	774	done
15d9ed9b5051 move bounded (bi)linear operator locales from Lim.thy to RealVector.thy huffman parents: 21809 diff changeset	775
27443 22b6281d6719 use begin and end for proofs in locales huffman parents: 27435 diff changeset	776	lemma bounded_linear_right:
22442 15d9ed9b5051 move bounded (bi)linear operator locales from Lim.thy to RealVector.thy huffman parents: 21809 diff changeset	777	"bounded_linear (\<lambda>b. a ** b)"
15d9ed9b5051 move bounded (bi)linear operator locales from Lim.thy to RealVector.thy huffman parents: 21809 diff changeset	778	apply (unfold_locales)
15d9ed9b5051 move bounded (bi)linear operator locales from Lim.thy to RealVector.thy huffman parents: 21809 diff changeset	779	apply (rule add_right)
15d9ed9b5051 move bounded (bi)linear operator locales from Lim.thy to RealVector.thy huffman parents: 21809 diff changeset	780	apply (rule scaleR_right)
15d9ed9b5051 move bounded (bi)linear operator locales from Lim.thy to RealVector.thy huffman parents: 21809 diff changeset	781	apply (cut_tac bounded, safe)
15d9ed9b5051 move bounded (bi)linear operator locales from Lim.thy to RealVector.thy huffman parents: 21809 diff changeset	782	apply (rule_tac x="norm a * K" in exI)
15d9ed9b5051 move bounded (bi)linear operator locales from Lim.thy to RealVector.thy huffman parents: 21809 diff changeset	783	apply (simp add: mult_ac)
15d9ed9b5051 move bounded (bi)linear operator locales from Lim.thy to RealVector.thy huffman parents: 21809 diff changeset	784	done
15d9ed9b5051 move bounded (bi)linear operator locales from Lim.thy to RealVector.thy huffman parents: 21809 diff changeset	785
27443 22b6281d6719 use begin and end for proofs in locales huffman parents: 27435 diff changeset	786	lemma prod_diff_prod:
22442 15d9ed9b5051 move bounded (bi)linear operator locales from Lim.thy to RealVector.thy huffman parents: 21809 diff changeset	787	"(x y - a b) = (x - a) (y - b) + (x - a) b + a ** (y - b)"
15d9ed9b5051 move bounded (bi)linear operator locales from Lim.thy to RealVector.thy huffman parents: 21809 diff changeset	788	by (simp add: diff_left diff_right)
15d9ed9b5051 move bounded (bi)linear operator locales from Lim.thy to RealVector.thy huffman parents: 21809 diff changeset	789
27443 22b6281d6719 use begin and end for proofs in locales huffman parents: 27435 diff changeset	790	end
22b6281d6719 use begin and end for proofs in locales huffman parents: 27435 diff changeset	791
29233 ce6d35a0bed6 Ported HOL and HOL-Library to new locales. ballarin parents: 29229 diff changeset	792	interpretation mult!:
29229 6f6262027054 Porting to new locales. ballarin parents: 28952 diff changeset	793	bounded_bilinear "op * :: 'a \<Rightarrow> 'a \<Rightarrow> 'a::real_normed_algebra"
22442 15d9ed9b5051 move bounded (bi)linear operator locales from Lim.thy to RealVector.thy huffman parents: 21809 diff changeset	794	apply (rule bounded_bilinear.intro)
15d9ed9b5051 move bounded (bi)linear operator locales from Lim.thy to RealVector.thy huffman parents: 21809 diff changeset	795	apply (rule left_distrib)
15d9ed9b5051 move bounded (bi)linear operator locales from Lim.thy to RealVector.thy huffman parents: 21809 diff changeset	796	apply (rule right_distrib)
15d9ed9b5051 move bounded (bi)linear operator locales from Lim.thy to RealVector.thy huffman parents: 21809 diff changeset	797	apply (rule mult_scaleR_left)
15d9ed9b5051 move bounded (bi)linear operator locales from Lim.thy to RealVector.thy huffman parents: 21809 diff changeset	798	apply (rule mult_scaleR_right)
15d9ed9b5051 move bounded (bi)linear operator locales from Lim.thy to RealVector.thy huffman parents: 21809 diff changeset	799	apply (rule_tac x="1" in exI)
15d9ed9b5051 move bounded (bi)linear operator locales from Lim.thy to RealVector.thy huffman parents: 21809 diff changeset	800	apply (simp add: norm_mult_ineq)
15d9ed9b5051 move bounded (bi)linear operator locales from Lim.thy to RealVector.thy huffman parents: 21809 diff changeset	801	done
15d9ed9b5051 move bounded (bi)linear operator locales from Lim.thy to RealVector.thy huffman parents: 21809 diff changeset	802
29233 ce6d35a0bed6 Ported HOL and HOL-Library to new locales. ballarin parents: 29229 diff changeset	803	interpretation mult_left!:
29229 6f6262027054 Porting to new locales. ballarin parents: 28952 diff changeset	804	bounded_linear "(\<lambda>x::'a::real_normed_algebra. x * y)"
23127 56ee8105c002 simplify names of locale interpretations huffman parents: 23120 diff changeset	805	by (rule mult.bounded_linear_left)
22442 15d9ed9b5051 move bounded (bi)linear operator locales from Lim.thy to RealVector.thy huffman parents: 21809 diff changeset	806
29233 ce6d35a0bed6 Ported HOL and HOL-Library to new locales. ballarin parents: 29229 diff changeset	807	interpretation mult_right!:
29229 6f6262027054 Porting to new locales. ballarin parents: 28952 diff changeset	808	bounded_linear "(\<lambda>y::'a::real_normed_algebra. x * y)"
23127 56ee8105c002 simplify names of locale interpretations huffman parents: 23120 diff changeset	809	by (rule mult.bounded_linear_right)
56ee8105c002 simplify names of locale interpretations huffman parents: 23120 diff changeset	810
29233 ce6d35a0bed6 Ported HOL and HOL-Library to new locales. ballarin parents: 29229 diff changeset	811	interpretation divide!:
29229 6f6262027054 Porting to new locales. ballarin parents: 28952 diff changeset	812	bounded_linear "(\<lambda>x::'a::real_normed_field. x / y)"
23127 56ee8105c002 simplify names of locale interpretations huffman parents: 23120 diff changeset	813	unfolding divide_inverse by (rule mult.bounded_linear_left)
23120 a34f204e9c88 interpretation bounded_linear_divide huffman parents: 23113 diff changeset	814
29233 ce6d35a0bed6 Ported HOL and HOL-Library to new locales. ballarin parents: 29229 diff changeset	815	interpretation scaleR!: bounded_bilinear "scaleR"
22442 15d9ed9b5051 move bounded (bi)linear operator locales from Lim.thy to RealVector.thy huffman parents: 21809 diff changeset	816	apply (rule bounded_bilinear.intro)
15d9ed9b5051 move bounded (bi)linear operator locales from Lim.thy to RealVector.thy huffman parents: 21809 diff changeset	817	apply (rule scaleR_left_distrib)
15d9ed9b5051 move bounded (bi)linear operator locales from Lim.thy to RealVector.thy huffman parents: 21809 diff changeset	818	apply (rule scaleR_right_distrib)
22973 64d300e16370 add lemma sgn_mult; declare real_scaleR_def and scaleR_eq_0_iff as simp rules huffman parents: 22972 diff changeset	819	apply simp
22442 15d9ed9b5051 move bounded (bi)linear operator locales from Lim.thy to RealVector.thy huffman parents: 21809 diff changeset	820	apply (rule scaleR_left_commute)
15d9ed9b5051 move bounded (bi)linear operator locales from Lim.thy to RealVector.thy huffman parents: 21809 diff changeset	821	apply (rule_tac x="1" in exI)
15d9ed9b5051 move bounded (bi)linear operator locales from Lim.thy to RealVector.thy huffman parents: 21809 diff changeset	822	apply (simp add: norm_scaleR)
15d9ed9b5051 move bounded (bi)linear operator locales from Lim.thy to RealVector.thy huffman parents: 21809 diff changeset	823	done
15d9ed9b5051 move bounded (bi)linear operator locales from Lim.thy to RealVector.thy huffman parents: 21809 diff changeset	824
29233 ce6d35a0bed6 Ported HOL and HOL-Library to new locales. ballarin parents: 29229 diff changeset	825	interpretation scaleR_left!: bounded_linear "\<lambda>r. scaleR r x"
23127 56ee8105c002 simplify names of locale interpretations huffman parents: 23120 diff changeset	826	by (rule scaleR.bounded_linear_left)
56ee8105c002 simplify names of locale interpretations huffman parents: 23120 diff changeset	827
29233 ce6d35a0bed6 Ported HOL and HOL-Library to new locales. ballarin parents: 29229 diff changeset	828	interpretation scaleR_right!: bounded_linear "\<lambda>x. scaleR r x"
23127 56ee8105c002 simplify names of locale interpretations huffman parents: 23120 diff changeset	829	by (rule scaleR.bounded_linear_right)
56ee8105c002 simplify names of locale interpretations huffman parents: 23120 diff changeset	830
29233 ce6d35a0bed6 Ported HOL and HOL-Library to new locales. ballarin parents: 29229 diff changeset	831	interpretation of_real!: bounded_linear "\<lambda>r. of_real r"
23127 56ee8105c002 simplify names of locale interpretations huffman parents: 23120 diff changeset	832	unfolding of_real_def by (rule scaleR.bounded_linear_left)
22625 a2967023d674 interpretation bounded_linear_of_real huffman parents: 22442 diff changeset	833
20504 6342e872e71d formalization of vector spaces and algebras over the real numbers huffman parents: diff changeset	834	end

author	immler@in.tum.de
	Thu, 26 Feb 2009 10:13:43 +0100
changeset 30151	629f3a92863e
parent 30070	76cee7c62782
child 30242	aea5d7fa7ef5
permissions	-rw-r--r--