isabelle: src/HOL/Lattice/Lattice.thy@2270e25e9128 (annotated)

10157 6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	1	(* Title: HOL/Lattice/Lattice.thy
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	2	ID: $Id$
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	3	Author: Markus Wenzel, TU Muenchen
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	4	*)
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	5
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	6	header {* Lattices *}
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	7
16417 9bc16273c2d4 migrated theory headers to new format haftmann parents: 12818 diff changeset	8	theory Lattice imports Bounds begin
10157 6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	9
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	10	subsection {* Lattice operations *}
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	11
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	12	text {*
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	13	A \emph{lattice} is a partial order with infimum and supremum of any
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	14	two elements (thus any \emph{finite} number of elements have bounds
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	15	as well).
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	16	*}
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	17
11099 b301d1f72552 \<subseteq>; wenzelm parents: 10309 diff changeset	18	axclass lattice \<subseteq> partial_order
10157 6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	19	ex_inf: "\<exists>inf. is_inf x y inf"
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	20	ex_sup: "\<exists>sup. is_sup x y sup"
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	21
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	22	text {*
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	23	The @{text \<sqinter>} (meet) and @{text \<squnion>} (join) operations select such
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	24	infimum and supremum elements.
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	25	*}
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	26
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	27	consts
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	28	meet :: "'a::lattice \<Rightarrow> 'a \<Rightarrow> 'a" (infixl "&&" 70)
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	29	join :: "'a::lattice \<Rightarrow> 'a \<Rightarrow> 'a" (infixl "\|\|" 65)
12114 a8e860c86252 eliminated old "symbols" syntax, use "xsymbols" instead; wenzelm parents: 11441 diff changeset	30	syntax (xsymbols)
10157 6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	31	meet :: "'a::lattice \<Rightarrow> 'a \<Rightarrow> 'a" (infixl "\<sqinter>" 70)
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	32	join :: "'a::lattice \<Rightarrow> 'a \<Rightarrow> 'a" (infixl "\<squnion>" 65)
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	33	defs
11441 54b236801671 replaced SOME by THE; wenzelm parents: 11099 diff changeset	34	meet_def: "x && y \<equiv> THE inf. is_inf x y inf"
54b236801671 replaced SOME by THE; wenzelm parents: 11099 diff changeset	35	join_def: "x \|\| y \<equiv> THE sup. is_sup x y sup"
10157 6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	36
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	37	text {*
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	38	Due to unique existence of bounds, the lattice operations may be
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	39	exhibited as follows.
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	40	*}
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	41
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	42	lemma meet_equality [elim?]: "is_inf x y inf \<Longrightarrow> x \<sqinter> y = inf"
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	43	proof (unfold meet_def)
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	44	assume "is_inf x y inf"
11441 54b236801671 replaced SOME by THE; wenzelm parents: 11099 diff changeset	45	thus "(THE inf. is_inf x y inf) = inf"
54b236801671 replaced SOME by THE; wenzelm parents: 11099 diff changeset	46	by (rule the_equality) (rule is_inf_uniq)
10157 6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	47	qed
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	48
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	49	lemma meetI [intro?]:
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	50	"inf \<sqsubseteq> x \<Longrightarrow> inf \<sqsubseteq> y \<Longrightarrow> (\<And>z. z \<sqsubseteq> x \<Longrightarrow> z \<sqsubseteq> y \<Longrightarrow> z \<sqsubseteq> inf) \<Longrightarrow> x \<sqinter> y = inf"
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	51	by (rule meet_equality, rule is_infI) blast+
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	52
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	53	lemma join_equality [elim?]: "is_sup x y sup \<Longrightarrow> x \<squnion> y = sup"
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	54	proof (unfold join_def)
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	55	assume "is_sup x y sup"
11441 54b236801671 replaced SOME by THE; wenzelm parents: 11099 diff changeset	56	thus "(THE sup. is_sup x y sup) = sup"
54b236801671 replaced SOME by THE; wenzelm parents: 11099 diff changeset	57	by (rule the_equality) (rule is_sup_uniq)
10157 6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	58	qed
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	59
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	60	lemma joinI [intro?]: "x \<sqsubseteq> sup \<Longrightarrow> y \<sqsubseteq> sup \<Longrightarrow>
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	61	(\<And>z. x \<sqsubseteq> z \<Longrightarrow> y \<sqsubseteq> z \<Longrightarrow> sup \<sqsubseteq> z) \<Longrightarrow> x \<squnion> y = sup"
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	62	by (rule join_equality, rule is_supI) blast+
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	63
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	64
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	65	text {*
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	66	\medskip The @{text \<sqinter>} and @{text \<squnion>} operations indeed determine
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	67	bounds on a lattice structure.
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	68	*}
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	69
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	70	lemma is_inf_meet [intro?]: "is_inf x y (x \<sqinter> y)"
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	71	proof (unfold meet_def)
11441 54b236801671 replaced SOME by THE; wenzelm parents: 11099 diff changeset	72	from ex_inf obtain inf where "is_inf x y inf" ..
54b236801671 replaced SOME by THE; wenzelm parents: 11099 diff changeset	73	thus "is_inf x y (THE inf. is_inf x y inf)" by (rule theI) (rule is_inf_uniq)
10157 6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	74	qed
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	75
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	76	lemma meet_greatest [intro?]: "z \<sqsubseteq> x \<Longrightarrow> z \<sqsubseteq> y \<Longrightarrow> z \<sqsubseteq> x \<sqinter> y"
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	77	by (rule is_inf_greatest) (rule is_inf_meet)
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	78
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	79	lemma meet_lower1 [intro?]: "x \<sqinter> y \<sqsubseteq> x"
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	80	by (rule is_inf_lower) (rule is_inf_meet)
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	81
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	82	lemma meet_lower2 [intro?]: "x \<sqinter> y \<sqsubseteq> y"
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	83	by (rule is_inf_lower) (rule is_inf_meet)
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	84
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	85
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	86	lemma is_sup_join [intro?]: "is_sup x y (x \<squnion> y)"
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	87	proof (unfold join_def)
11441 54b236801671 replaced SOME by THE; wenzelm parents: 11099 diff changeset	88	from ex_sup obtain sup where "is_sup x y sup" ..
54b236801671 replaced SOME by THE; wenzelm parents: 11099 diff changeset	89	thus "is_sup x y (THE sup. is_sup x y sup)" by (rule theI) (rule is_sup_uniq)
10157 6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	90	qed
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	91
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	92	lemma join_least [intro?]: "x \<sqsubseteq> z \<Longrightarrow> y \<sqsubseteq> z \<Longrightarrow> x \<squnion> y \<sqsubseteq> z"
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	93	by (rule is_sup_least) (rule is_sup_join)
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	94
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	95	lemma join_upper1 [intro?]: "x \<sqsubseteq> x \<squnion> y"
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	96	by (rule is_sup_upper) (rule is_sup_join)
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	97
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	98	lemma join_upper2 [intro?]: "y \<sqsubseteq> x \<squnion> y"
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	99	by (rule is_sup_upper) (rule is_sup_join)
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	100
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	101
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	102	subsection {* Duality *}
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	103
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	104	text {*
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	105	The class of lattices is closed under formation of dual structures.
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	106	This means that for any theorem of lattice theory, the dualized
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	107	statement holds as well; this important fact simplifies many proofs
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	108	of lattice theory.
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	109	*}
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	110
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	111	instance dual :: (lattice) lattice
10309 a7f961fb62c6 intro_classes by default; wenzelm parents: 10183 diff changeset	112	proof
10157 6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	113	fix x' y' :: "'a::lattice dual"
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	114	show "\<exists>inf'. is_inf x' y' inf'"
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	115	proof -
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	116	have "\<exists>sup. is_sup (undual x') (undual y') sup" by (rule ex_sup)
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	117	hence "\<exists>sup. is_inf (dual (undual x')) (dual (undual y')) (dual sup)"
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	118	by (simp only: dual_inf)
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	119	thus ?thesis by (simp add: dual_ex [symmetric])
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	120	qed
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	121	show "\<exists>sup'. is_sup x' y' sup'"
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	122	proof -
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	123	have "\<exists>inf. is_inf (undual x') (undual y') inf" by (rule ex_inf)
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	124	hence "\<exists>inf. is_sup (dual (undual x')) (dual (undual y')) (dual inf)"
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	125	by (simp only: dual_sup)
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	126	thus ?thesis by (simp add: dual_ex [symmetric])
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	127	qed
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	128	qed
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	129
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	130	text {*
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	131	Apparently, the @{text \<sqinter>} and @{text \<squnion>} operations are dual to each
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	132	other.
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	133	*}
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	134
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	135	theorem dual_meet [intro?]: "dual (x \<sqinter> y) = dual x \<squnion> dual y"
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	136	proof -
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	137	from is_inf_meet have "is_sup (dual x) (dual y) (dual (x \<sqinter> y))" ..
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	138	hence "dual x \<squnion> dual y = dual (x \<sqinter> y)" ..
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	139	thus ?thesis ..
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	140	qed
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	141
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	142	theorem dual_join [intro?]: "dual (x \<squnion> y) = dual x \<sqinter> dual y"
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	143	proof -
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	144	from is_sup_join have "is_inf (dual x) (dual y) (dual (x \<squnion> y))" ..
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	145	hence "dual x \<sqinter> dual y = dual (x \<squnion> y)" ..
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	146	thus ?thesis ..
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	147	qed
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	148
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	149
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	150	subsection {* Algebraic properties \label{sec:lattice-algebra} *}
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	151
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	152	text {*
12818 e7b4c0731d57 fixed typos kleing parents: 12338 diff changeset	153	The @{text \<sqinter>} and @{text \<squnion>} operations have the following
10157 6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	154	characteristic algebraic properties: associative (A), commutative
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	155	(C), and absorptive (AB).
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	156	*}
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	157
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	158	theorem meet_assoc: "(x \<sqinter> y) \<sqinter> z = x \<sqinter> (y \<sqinter> z)"
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	159	proof
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	160	show "x \<sqinter> (y \<sqinter> z) \<sqsubseteq> x \<sqinter> y"
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	161	proof
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	162	show "x \<sqinter> (y \<sqinter> z) \<sqsubseteq> x" ..
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	163	show "x \<sqinter> (y \<sqinter> z) \<sqsubseteq> y"
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	164	proof -
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	165	have "x \<sqinter> (y \<sqinter> z) \<sqsubseteq> y \<sqinter> z" ..
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	166	also have "\<dots> \<sqsubseteq> y" ..
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	167	finally show ?thesis .
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	168	qed
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	169	qed
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	170	show "x \<sqinter> (y \<sqinter> z) \<sqsubseteq> z"
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	171	proof -
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	172	have "x \<sqinter> (y \<sqinter> z) \<sqsubseteq> y \<sqinter> z" ..
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	173	also have "\<dots> \<sqsubseteq> z" ..
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	174	finally show ?thesis .
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	175	qed
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	176	fix w assume "w \<sqsubseteq> x \<sqinter> y" and "w \<sqsubseteq> z"
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	177	show "w \<sqsubseteq> x \<sqinter> (y \<sqinter> z)"
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	178	proof
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	179	show "w \<sqsubseteq> x"
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	180	proof -
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	181	have "w \<sqsubseteq> x \<sqinter> y" .
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	182	also have "\<dots> \<sqsubseteq> x" ..
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	183	finally show ?thesis .
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	184	qed
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	185	show "w \<sqsubseteq> y \<sqinter> z"
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	186	proof
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	187	show "w \<sqsubseteq> y"
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	188	proof -
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	189	have "w \<sqsubseteq> x \<sqinter> y" .
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	190	also have "\<dots> \<sqsubseteq> y" ..
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	191	finally show ?thesis .
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	192	qed
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	193	show "w \<sqsubseteq> z" .
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	194	qed
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	195	qed
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	196	qed
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	197
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	198	theorem join_assoc: "(x \<squnion> y) \<squnion> z = x \<squnion> (y \<squnion> z)"
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	199	proof -
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	200	have "dual ((x \<squnion> y) \<squnion> z) = (dual x \<sqinter> dual y) \<sqinter> dual z"
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	201	by (simp only: dual_join)
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	202	also have "\<dots> = dual x \<sqinter> (dual y \<sqinter> dual z)"
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	203	by (rule meet_assoc)
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	204	also have "\<dots> = dual (x \<squnion> (y \<squnion> z))"
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	205	by (simp only: dual_join)
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	206	finally show ?thesis ..
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	207	qed
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	208
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	209	theorem meet_commute: "x \<sqinter> y = y \<sqinter> x"
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	210	proof
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	211	show "y \<sqinter> x \<sqsubseteq> x" ..
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	212	show "y \<sqinter> x \<sqsubseteq> y" ..
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	213	fix z assume "z \<sqsubseteq> x" and "z \<sqsubseteq> y"
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	214	show "z \<sqsubseteq> y \<sqinter> x" ..
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	215	qed
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	216
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	217	theorem join_commute: "x \<squnion> y = y \<squnion> x"
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	218	proof -
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	219	have "dual (x \<squnion> y) = dual x \<sqinter> dual y" ..
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	220	also have "\<dots> = dual y \<sqinter> dual x"
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	221	by (rule meet_commute)
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	222	also have "\<dots> = dual (y \<squnion> x)"
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	223	by (simp only: dual_join)
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	224	finally show ?thesis ..
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	225	qed
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	226
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	227	theorem meet_join_absorb: "x \<sqinter> (x \<squnion> y) = x"
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	228	proof
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	229	show "x \<sqsubseteq> x" ..
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	230	show "x \<sqsubseteq> x \<squnion> y" ..
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	231	fix z assume "z \<sqsubseteq> x" and "z \<sqsubseteq> x \<squnion> y"
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	232	show "z \<sqsubseteq> x" .
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	233	qed
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	234
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	235	theorem join_meet_absorb: "x \<squnion> (x \<sqinter> y) = x"
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	236	proof -
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	237	have "dual x \<sqinter> (dual x \<squnion> dual y) = dual x"
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	238	by (rule meet_join_absorb)
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	239	hence "dual (x \<squnion> (x \<sqinter> y)) = dual x"
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	240	by (simp only: dual_meet dual_join)
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	241	thus ?thesis ..
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	242	qed
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	243
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	244	text {*
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	245	\medskip Some further algebraic properties hold as well. The
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	246	property idempotent (I) is a basic algebraic consequence of (AB).
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	247	*}
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	248
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	249	theorem meet_idem: "x \<sqinter> x = x"
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	250	proof -
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	251	have "x \<sqinter> (x \<squnion> (x \<sqinter> x)) = x" by (rule meet_join_absorb)
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	252	also have "x \<squnion> (x \<sqinter> x) = x" by (rule join_meet_absorb)
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	253	finally show ?thesis .
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	254	qed
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	255
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	256	theorem join_idem: "x \<squnion> x = x"
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	257	proof -
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	258	have "dual x \<sqinter> dual x = dual x"
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	259	by (rule meet_idem)
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	260	hence "dual (x \<squnion> x) = dual x"
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	261	by (simp only: dual_join)
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	262	thus ?thesis ..
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	263	qed
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	264
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	265	text {*
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	266	Meet and join are trivial for related elements.
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	267	*}
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	268
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	269	theorem meet_related [elim?]: "x \<sqsubseteq> y \<Longrightarrow> x \<sqinter> y = x"
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	270	proof
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	271	assume "x \<sqsubseteq> y"
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	272	show "x \<sqsubseteq> x" ..
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	273	show "x \<sqsubseteq> y" .
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	274	fix z assume "z \<sqsubseteq> x" and "z \<sqsubseteq> y" show "z \<sqsubseteq> x" .
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	275	qed
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	276
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	277	theorem join_related [elim?]: "x \<sqsubseteq> y \<Longrightarrow> x \<squnion> y = y"
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	278	proof -
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	279	assume "x \<sqsubseteq> y" hence "dual y \<sqsubseteq> dual x" ..
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	280	hence "dual y \<sqinter> dual x = dual y" by (rule meet_related)
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	281	also have "dual y \<sqinter> dual x = dual (y \<squnion> x)" by (simp only: dual_join)
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	282	also have "y \<squnion> x = x \<squnion> y" by (rule join_commute)
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	283	finally show ?thesis ..
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	284	qed
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	285
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	286
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	287	subsection {* Order versus algebraic structure *}
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	288
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	289	text {*
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	290	The @{text \<sqinter>} and @{text \<squnion>} operations are connected with the
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	291	underlying @{text \<sqsubseteq>} relation in a canonical manner.
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	292	*}
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	293
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	294	theorem meet_connection: "(x \<sqsubseteq> y) = (x \<sqinter> y = x)"
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	295	proof
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	296	assume "x \<sqsubseteq> y"
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	297	hence "is_inf x y x" ..
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	298	thus "x \<sqinter> y = x" ..
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	299	next
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	300	have "x \<sqinter> y \<sqsubseteq> y" ..
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	301	also assume "x \<sqinter> y = x"
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	302	finally show "x \<sqsubseteq> y" .
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	303	qed
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	304
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	305	theorem join_connection: "(x \<sqsubseteq> y) = (x \<squnion> y = y)"
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	306	proof
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	307	assume "x \<sqsubseteq> y"
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	308	hence "is_sup x y y" ..
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	309	thus "x \<squnion> y = y" ..
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	310	next
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	311	have "x \<sqsubseteq> x \<squnion> y" ..
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	312	also assume "x \<squnion> y = y"
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	313	finally show "x \<sqsubseteq> y" .
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	314	qed
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	315
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	316	text {*
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	317	\medskip The most fundamental result of the meta-theory of lattices
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	318	is as follows (we do not prove it here).
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	319
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	320	Given a structure with binary operations @{text \<sqinter>} and @{text \<squnion>}
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	321	such that (A), (C), and (AB) hold (cf.\
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	322	\S\ref{sec:lattice-algebra}). This structure represents a lattice,
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	323	if the relation @{term "x \<sqsubseteq> y"} is defined as @{term "x \<sqinter> y = x"}
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	324	(alternatively as @{term "x \<squnion> y = y"}). Furthermore, infimum and
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	325	supremum with respect to this ordering coincide with the original
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	326	@{text \<sqinter>} and @{text \<squnion>} operations.
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	327	*}
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	328
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	329
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	330	subsection {* Example instances *}
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	331
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	332	subsubsection {* Linear orders *}
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	333
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	334	text {*
12818 e7b4c0731d57 fixed typos kleing parents: 12338 diff changeset	335	Linear orders with @{term minimum} and @{term maximum} operations
10157 6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	336	are a (degenerate) example of lattice structures.
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	337	*}
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	338
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	339	constdefs
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	340	minimum :: "'a::linear_order \<Rightarrow> 'a \<Rightarrow> 'a"
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	341	"minimum x y \<equiv> (if x \<sqsubseteq> y then x else y)"
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	342	maximum :: "'a::linear_order \<Rightarrow> 'a \<Rightarrow> 'a"
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	343	"maximum x y \<equiv> (if x \<sqsubseteq> y then y else x)"
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	344
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	345	lemma is_inf_minimum: "is_inf x y (minimum x y)"
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	346	proof
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	347	let ?min = "minimum x y"
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	348	from leq_linear show "?min \<sqsubseteq> x" by (auto simp add: minimum_def)
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	349	from leq_linear show "?min \<sqsubseteq> y" by (auto simp add: minimum_def)
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	350	fix z assume "z \<sqsubseteq> x" and "z \<sqsubseteq> y"
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	351	with leq_linear show "z \<sqsubseteq> ?min" by (auto simp add: minimum_def)
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	352	qed
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	353
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	354	lemma is_sup_maximum: "is_sup x y (maximum x y)" (* FIXME dualize!? *)
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	355	proof
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	356	let ?max = "maximum x y"
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	357	from leq_linear show "x \<sqsubseteq> ?max" by (auto simp add: maximum_def)
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	358	from leq_linear show "y \<sqsubseteq> ?max" by (auto simp add: maximum_def)
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	359	fix z assume "x \<sqsubseteq> z" and "y \<sqsubseteq> z"
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	360	with leq_linear show "?max \<sqsubseteq> z" by (auto simp add: maximum_def)
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	361	qed
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	362
11099 b301d1f72552 \<subseteq>; wenzelm parents: 10309 diff changeset	363	instance linear_order \<subseteq> lattice
10309 a7f961fb62c6 intro_classes by default; wenzelm parents: 10183 diff changeset	364	proof
10157 6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	365	fix x y :: "'a::linear_order"
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	366	from is_inf_minimum show "\<exists>inf. is_inf x y inf" ..
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	367	from is_sup_maximum show "\<exists>sup. is_sup x y sup" ..
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	368	qed
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	369
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	370	text {*
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	371	The lattice operations on linear orders indeed coincide with @{term
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	372	minimum} and @{term maximum}.
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	373	*}
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	374
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	375	theorem meet_mimimum: "x \<sqinter> y = minimum x y"
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	376	by (rule meet_equality) (rule is_inf_minimum)
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	377
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	378	theorem meet_maximum: "x \<squnion> y = maximum x y"
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	379	by (rule join_equality) (rule is_sup_maximum)
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	380
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	381
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	382
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	383	subsubsection {* Binary products *}
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	384
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	385	text {*
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	386	The class of lattices is closed under direct binary products (cf.\
10158 00fdd5c330ea tuned; wenzelm parents: 10157 diff changeset	387	\S\ref{sec:prod-order}).
10157 6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	388	*}
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	389
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	390	lemma is_inf_prod: "is_inf p q (fst p \<sqinter> fst q, snd p \<sqinter> snd q)"
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	391	proof
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	392	show "(fst p \<sqinter> fst q, snd p \<sqinter> snd q) \<sqsubseteq> p"
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	393	proof -
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	394	have "fst p \<sqinter> fst q \<sqsubseteq> fst p" ..
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	395	moreover have "snd p \<sqinter> snd q \<sqsubseteq> snd p" ..
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	396	ultimately show ?thesis by (simp add: leq_prod_def)
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	397	qed
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	398	show "(fst p \<sqinter> fst q, snd p \<sqinter> snd q) \<sqsubseteq> q"
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	399	proof -
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	400	have "fst p \<sqinter> fst q \<sqsubseteq> fst q" ..
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	401	moreover have "snd p \<sqinter> snd q \<sqsubseteq> snd q" ..
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	402	ultimately show ?thesis by (simp add: leq_prod_def)
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	403	qed
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	404	fix r assume rp: "r \<sqsubseteq> p" and rq: "r \<sqsubseteq> q"
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	405	show "r \<sqsubseteq> (fst p \<sqinter> fst q, snd p \<sqinter> snd q)"
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	406	proof -
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	407	have "fst r \<sqsubseteq> fst p \<sqinter> fst q"
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	408	proof
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	409	from rp show "fst r \<sqsubseteq> fst p" by (simp add: leq_prod_def)
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	410	from rq show "fst r \<sqsubseteq> fst q" by (simp add: leq_prod_def)
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	411	qed
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	412	moreover have "snd r \<sqsubseteq> snd p \<sqinter> snd q"
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	413	proof
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	414	from rp show "snd r \<sqsubseteq> snd p" by (simp add: leq_prod_def)
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	415	from rq show "snd r \<sqsubseteq> snd q" by (simp add: leq_prod_def)
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	416	qed
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	417	ultimately show ?thesis by (simp add: leq_prod_def)
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	418	qed
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	419	qed
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	420
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	421	lemma is_sup_prod: "is_sup p q (fst p \<squnion> fst q, snd p \<squnion> snd q)" (* FIXME dualize!? *)
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	422	proof
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	423	show "p \<sqsubseteq> (fst p \<squnion> fst q, snd p \<squnion> snd q)"
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	424	proof -
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	425	have "fst p \<sqsubseteq> fst p \<squnion> fst q" ..
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	426	moreover have "snd p \<sqsubseteq> snd p \<squnion> snd q" ..
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	427	ultimately show ?thesis by (simp add: leq_prod_def)
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	428	qed
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	429	show "q \<sqsubseteq> (fst p \<squnion> fst q, snd p \<squnion> snd q)"
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	430	proof -
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	431	have "fst q \<sqsubseteq> fst p \<squnion> fst q" ..
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	432	moreover have "snd q \<sqsubseteq> snd p \<squnion> snd q" ..
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	433	ultimately show ?thesis by (simp add: leq_prod_def)
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	434	qed
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	435	fix r assume "pr": "p \<sqsubseteq> r" and qr: "q \<sqsubseteq> r"
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	436	show "(fst p \<squnion> fst q, snd p \<squnion> snd q) \<sqsubseteq> r"
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	437	proof -
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	438	have "fst p \<squnion> fst q \<sqsubseteq> fst r"
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	439	proof
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	440	from "pr" show "fst p \<sqsubseteq> fst r" by (simp add: leq_prod_def)
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	441	from qr show "fst q \<sqsubseteq> fst r" by (simp add: leq_prod_def)
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	442	qed
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	443	moreover have "snd p \<squnion> snd q \<sqsubseteq> snd r"
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	444	proof
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	445	from "pr" show "snd p \<sqsubseteq> snd r" by (simp add: leq_prod_def)
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	446	from qr show "snd q \<sqsubseteq> snd r" by (simp add: leq_prod_def)
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	447	qed
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	448	ultimately show ?thesis by (simp add: leq_prod_def)
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	449	qed
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	450	qed
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	451
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	452	instance * :: (lattice, lattice) lattice
10309 a7f961fb62c6 intro_classes by default; wenzelm parents: 10183 diff changeset	453	proof
10157 6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	454	fix p q :: "'a::lattice \<times> 'b::lattice"
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	455	from is_inf_prod show "\<exists>inf. is_inf p q inf" ..
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	456	from is_sup_prod show "\<exists>sup. is_sup p q sup" ..
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	457	qed
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	458
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	459	text {*
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	460	The lattice operations on a binary product structure indeed coincide
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	461	with the products of the original ones.
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	462	*}
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	463
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	464	theorem meet_prod: "p \<sqinter> q = (fst p \<sqinter> fst q, snd p \<sqinter> snd q)"
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	465	by (rule meet_equality) (rule is_inf_prod)
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	466
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	467	theorem join_prod: "p \<squnion> q = (fst p \<squnion> fst q, snd p \<squnion> snd q)"
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	468	by (rule join_equality) (rule is_sup_prod)
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	469
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	470
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	471	subsubsection {* General products *}
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	472
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	473	text {*
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	474	The class of lattices is closed under general products (function
10158 00fdd5c330ea tuned; wenzelm parents: 10157 diff changeset	475	spaces) as well (cf.\ \S\ref{sec:fun-order}).
10157 6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	476	*}
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	477
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	478	lemma is_inf_fun: "is_inf f g (\<lambda>x. f x \<sqinter> g x)"
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	479	proof
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	480	show "(\<lambda>x. f x \<sqinter> g x) \<sqsubseteq> f"
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	481	proof
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	482	fix x show "f x \<sqinter> g x \<sqsubseteq> f x" ..
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	483	qed
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	484	show "(\<lambda>x. f x \<sqinter> g x) \<sqsubseteq> g"
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	485	proof
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	486	fix x show "f x \<sqinter> g x \<sqsubseteq> g x" ..
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	487	qed
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	488	fix h assume hf: "h \<sqsubseteq> f" and hg: "h \<sqsubseteq> g"
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	489	show "h \<sqsubseteq> (\<lambda>x. f x \<sqinter> g x)"
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	490	proof
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	491	fix x
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	492	show "h x \<sqsubseteq> f x \<sqinter> g x"
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	493	proof
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	494	from hf show "h x \<sqsubseteq> f x" ..
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	495	from hg show "h x \<sqsubseteq> g x" ..
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	496	qed
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	497	qed
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	498	qed
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	499
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	500	lemma is_sup_fun: "is_sup f g (\<lambda>x. f x \<squnion> g x)" (* FIXME dualize!? *)
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	501	proof
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	502	show "f \<sqsubseteq> (\<lambda>x. f x \<squnion> g x)"
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	503	proof
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	504	fix x show "f x \<sqsubseteq> f x \<squnion> g x" ..
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	505	qed
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	506	show "g \<sqsubseteq> (\<lambda>x. f x \<squnion> g x)"
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	507	proof
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	508	fix x show "g x \<sqsubseteq> f x \<squnion> g x" ..
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	509	qed
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	510	fix h assume fh: "f \<sqsubseteq> h" and gh: "g \<sqsubseteq> h"
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	511	show "(\<lambda>x. f x \<squnion> g x) \<sqsubseteq> h"
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	512	proof
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	513	fix x
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	514	show "f x \<squnion> g x \<sqsubseteq> h x"
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	515	proof
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	516	from fh show "f x \<sqsubseteq> h x" ..
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	517	from gh show "g x \<sqsubseteq> h x" ..
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	518	qed
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	519	qed
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	520	qed
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	521
12338 de0f4a63baa5 renamed class "term" to "type" (actually "HOL.type"); wenzelm parents: 12114 diff changeset	522	instance fun :: (type, lattice) lattice
10309 a7f961fb62c6 intro_classes by default; wenzelm parents: 10183 diff changeset	523	proof
10157 6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	524	fix f g :: "'a \<Rightarrow> 'b::lattice"
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	525	show "\<exists>inf. is_inf f g inf" by rule (rule is_inf_fun) (* FIXME @{text "from \<dots> show \<dots> .."} does not work!? unification incompleteness!? *)
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	526	show "\<exists>sup. is_sup f g sup" by rule (rule is_sup_fun)
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	527	qed
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	528
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	529	text {*
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	530	The lattice operations on a general product structure (function
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	531	space) indeed emerge by point-wise lifting of the original ones.
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	532	*}
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	533
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	534	theorem meet_fun: "f \<sqinter> g = (\<lambda>x. f x \<sqinter> g x)"
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	535	by (rule meet_equality) (rule is_inf_fun)
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	536
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	537	theorem join_fun: "f \<squnion> g = (\<lambda>x. f x \<squnion> g x)"
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	538	by (rule join_equality) (rule is_sup_fun)
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	539
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	540
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	541	subsection {* Monotonicity and semi-morphisms *}
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	542
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	543	text {*
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	544	The lattice operations are monotone in both argument positions. In
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	545	fact, monotonicity of the second position is trivial due to
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	546	commutativity.
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	547	*}
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	548
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	549	theorem meet_mono: "x \<sqsubseteq> z \<Longrightarrow> y \<sqsubseteq> w \<Longrightarrow> x \<sqinter> y \<sqsubseteq> z \<sqinter> w"
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	550	proof -
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	551	{
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	552	fix a b c :: "'a::lattice"
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	553	assume "a \<sqsubseteq> c" have "a \<sqinter> b \<sqsubseteq> c \<sqinter> b"
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	554	proof
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	555	have "a \<sqinter> b \<sqsubseteq> a" ..
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	556	also have "\<dots> \<sqsubseteq> c" .
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	557	finally show "a \<sqinter> b \<sqsubseteq> c" .
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	558	show "a \<sqinter> b \<sqsubseteq> b" ..
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	559	qed
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	560	} note this [elim?]
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	561	assume "x \<sqsubseteq> z" hence "x \<sqinter> y \<sqsubseteq> z \<sqinter> y" ..
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	562	also have "\<dots> = y \<sqinter> z" by (rule meet_commute)
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	563	also assume "y \<sqsubseteq> w" hence "y \<sqinter> z \<sqsubseteq> w \<sqinter> z" ..
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	564	also have "\<dots> = z \<sqinter> w" by (rule meet_commute)
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	565	finally show ?thesis .
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	566	qed
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	567
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	568	theorem join_mono: "x \<sqsubseteq> z \<Longrightarrow> y \<sqsubseteq> w \<Longrightarrow> x \<squnion> y \<sqsubseteq> z \<squnion> w"
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	569	proof -
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	570	assume "x \<sqsubseteq> z" hence "dual z \<sqsubseteq> dual x" ..
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	571	moreover assume "y \<sqsubseteq> w" hence "dual w \<sqsubseteq> dual y" ..
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	572	ultimately have "dual z \<sqinter> dual w \<sqsubseteq> dual x \<sqinter> dual y"
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	573	by (rule meet_mono)
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	574	hence "dual (z \<squnion> w) \<sqsubseteq> dual (x \<squnion> y)"
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	575	by (simp only: dual_join)
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	576	thus ?thesis ..
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	577	qed
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	578
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	579	text {*
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	580	\medskip A semi-morphisms is a function $f$ that preserves the
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	581	lattice operations in the following manner: @{term "f (x \<sqinter> y) \<sqsubseteq> f x
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	582	\<sqinter> f y"} and @{term "f x \<squnion> f y \<sqsubseteq> f (x \<squnion> y)"}, respectively. Any of
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	583	these properties is equivalent with monotonicity.
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	584	} ( FIXME dual version !? *)
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	585
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	586	theorem meet_semimorph:
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	587	"(\<And>x y. f (x \<sqinter> y) \<sqsubseteq> f x \<sqinter> f y) \<equiv> (\<And>x y. x \<sqsubseteq> y \<Longrightarrow> f x \<sqsubseteq> f y)"
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	588	proof
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	589	assume morph: "\<And>x y. f (x \<sqinter> y) \<sqsubseteq> f x \<sqinter> f y"
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	590	fix x y :: "'a::lattice"
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	591	assume "x \<sqsubseteq> y" hence "x \<sqinter> y = x" ..
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	592	hence "x = x \<sqinter> y" ..
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	593	also have "f \<dots> \<sqsubseteq> f x \<sqinter> f y" by (rule morph)
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	594	also have "\<dots> \<sqsubseteq> f y" ..
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	595	finally show "f x \<sqsubseteq> f y" .
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	596	next
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	597	assume mono: "\<And>x y. x \<sqsubseteq> y \<Longrightarrow> f x \<sqsubseteq> f y"
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	598	show "\<And>x y. f (x \<sqinter> y) \<sqsubseteq> f x \<sqinter> f y"
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	599	proof -
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	600	fix x y
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	601	show "f (x \<sqinter> y) \<sqsubseteq> f x \<sqinter> f y"
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	602	proof
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	603	have "x \<sqinter> y \<sqsubseteq> x" .. thus "f (x \<sqinter> y) \<sqsubseteq> f x" by (rule mono)
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	604	have "x \<sqinter> y \<sqsubseteq> y" .. thus "f (x \<sqinter> y) \<sqsubseteq> f y" by (rule mono)
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	605	qed
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	606	qed
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	607	qed
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	608
6d3987f3aad9 * HOL/Lattice: fundamental concepts of lattice theory and order structures; wenzelm parents: diff changeset	609	end

author	wenzelm
	Sun, 15 Jan 2006 19:58:55 +0100
changeset 18692	2270e25e9128
parent 16417	9bc16273c2d4
child 19736	d8d0f8f51d69
permissions	-rw-r--r--