isabelle: src/HOL/Library/RBT_Impl.thy@9728342bcd56 (annotated)

36147 b43b22f63665 theory RBT with abstract type of red-black trees backed by implementation RBT_Impl haftmann parents: 35618 diff changeset	1	(* Title: RBT_Impl.thy
26192 52617dca8386 new theory of red-black trees, an efficient implementation of finite maps. krauss parents: diff changeset	2	Author: Markus Reiter, TU Muenchen
52617dca8386 new theory of red-black trees, an efficient implementation of finite maps. krauss parents: diff changeset	3	Author: Alexander Krauss, TU Muenchen
52617dca8386 new theory of red-black trees, an efficient implementation of finite maps. krauss parents: diff changeset	4	*)
52617dca8386 new theory of red-black trees, an efficient implementation of finite maps. krauss parents: diff changeset	5
36147 b43b22f63665 theory RBT with abstract type of red-black trees backed by implementation RBT_Impl haftmann parents: 35618 diff changeset	6	header {* Implementation of Red-Black Trees *}
26192 52617dca8386 new theory of red-black trees, an efficient implementation of finite maps. krauss parents: diff changeset	7
36147 b43b22f63665 theory RBT with abstract type of red-black trees backed by implementation RBT_Impl haftmann parents: 35618 diff changeset	8	theory RBT_Impl
37458 4a76497f2eaa prefer fold over foldl haftmann parents: 36176 diff changeset	9	imports Main More_List
26192 52617dca8386 new theory of red-black trees, an efficient implementation of finite maps. krauss parents: diff changeset	10	begin
52617dca8386 new theory of red-black trees, an efficient implementation of finite maps. krauss parents: diff changeset	11
36147 b43b22f63665 theory RBT with abstract type of red-black trees backed by implementation RBT_Impl haftmann parents: 35618 diff changeset	12	text {*
b43b22f63665 theory RBT with abstract type of red-black trees backed by implementation RBT_Impl haftmann parents: 35618 diff changeset	13	For applications, you should use theory @{text RBT} which defines
b43b22f63665 theory RBT with abstract type of red-black trees backed by implementation RBT_Impl haftmann parents: 35618 diff changeset	14	an abstract type of red-black tree obeying the invariant.
b43b22f63665 theory RBT with abstract type of red-black trees backed by implementation RBT_Impl haftmann parents: 35618 diff changeset	15	*}
b43b22f63665 theory RBT with abstract type of red-black trees backed by implementation RBT_Impl haftmann parents: 35618 diff changeset	16
35550 e2bc7f8d8d51 restructured RBT theory haftmann parents: 35534 diff changeset	17	subsection {* Datatype of RB trees *}
e2bc7f8d8d51 restructured RBT theory haftmann parents: 35534 diff changeset	18
26192 52617dca8386 new theory of red-black trees, an efficient implementation of finite maps. krauss parents: diff changeset	19	datatype color = R \| B
35534 14d8d72f8b1f more explicit naming scheme haftmann parents: 32245 diff changeset	20	datatype ('a, 'b) rbt = Empty \| Branch color "('a, 'b) rbt" 'a 'b "('a, 'b) rbt"
14d8d72f8b1f more explicit naming scheme haftmann parents: 32245 diff changeset	21
14d8d72f8b1f more explicit naming scheme haftmann parents: 32245 diff changeset	22	lemma rbt_cases:
14d8d72f8b1f more explicit naming scheme haftmann parents: 32245 diff changeset	23	obtains (Empty) "t = Empty"
14d8d72f8b1f more explicit naming scheme haftmann parents: 32245 diff changeset	24	\| (Red) l k v r where "t = Branch R l k v r"
14d8d72f8b1f more explicit naming scheme haftmann parents: 32245 diff changeset	25	\| (Black) l k v r where "t = Branch B l k v r"
14d8d72f8b1f more explicit naming scheme haftmann parents: 32245 diff changeset	26	proof (cases t)
14d8d72f8b1f more explicit naming scheme haftmann parents: 32245 diff changeset	27	case Empty with that show thesis by blast
14d8d72f8b1f more explicit naming scheme haftmann parents: 32245 diff changeset	28	next
14d8d72f8b1f more explicit naming scheme haftmann parents: 32245 diff changeset	29	case (Branch c) with that show thesis by (cases c) blast+
14d8d72f8b1f more explicit naming scheme haftmann parents: 32245 diff changeset	30	qed
14d8d72f8b1f more explicit naming scheme haftmann parents: 32245 diff changeset	31
35550 e2bc7f8d8d51 restructured RBT theory haftmann parents: 35534 diff changeset	32	subsection {* Tree properties *}
35534 14d8d72f8b1f more explicit naming scheme haftmann parents: 32245 diff changeset	33
35550 e2bc7f8d8d51 restructured RBT theory haftmann parents: 35534 diff changeset	34	subsubsection {* Content of a tree *}
e2bc7f8d8d51 restructured RBT theory haftmann parents: 35534 diff changeset	35
e2bc7f8d8d51 restructured RBT theory haftmann parents: 35534 diff changeset	36	primrec entries :: "('a, 'b) rbt \<Rightarrow> ('a \<times> 'b) list"
35534 14d8d72f8b1f more explicit naming scheme haftmann parents: 32245 diff changeset	37	where
14d8d72f8b1f more explicit naming scheme haftmann parents: 32245 diff changeset	38	"entries Empty = []"
14d8d72f8b1f more explicit naming scheme haftmann parents: 32245 diff changeset	39	\| "entries (Branch _ l k v r) = entries l @ (k,v) # entries r"
26192 52617dca8386 new theory of red-black trees, an efficient implementation of finite maps. krauss parents: diff changeset	40
35550 e2bc7f8d8d51 restructured RBT theory haftmann parents: 35534 diff changeset	41	abbreviation (input) entry_in_tree :: "'a \<Rightarrow> 'b \<Rightarrow> ('a, 'b) rbt \<Rightarrow> bool"
26192 52617dca8386 new theory of red-black trees, an efficient implementation of finite maps. krauss parents: diff changeset	42	where
35550 e2bc7f8d8d51 restructured RBT theory haftmann parents: 35534 diff changeset	43	"entry_in_tree k v t \<equiv> (k, v) \<in> set (entries t)"
e2bc7f8d8d51 restructured RBT theory haftmann parents: 35534 diff changeset	44
e2bc7f8d8d51 restructured RBT theory haftmann parents: 35534 diff changeset	45	definition keys :: "('a, 'b) rbt \<Rightarrow> 'a list" where
e2bc7f8d8d51 restructured RBT theory haftmann parents: 35534 diff changeset	46	"keys t = map fst (entries t)"
26192 52617dca8386 new theory of red-black trees, an efficient implementation of finite maps. krauss parents: diff changeset	47
35550 e2bc7f8d8d51 restructured RBT theory haftmann parents: 35534 diff changeset	48	lemma keys_simps [simp, code]:
e2bc7f8d8d51 restructured RBT theory haftmann parents: 35534 diff changeset	49	"keys Empty = []"
e2bc7f8d8d51 restructured RBT theory haftmann parents: 35534 diff changeset	50	"keys (Branch c l k v r) = keys l @ k # keys r"
e2bc7f8d8d51 restructured RBT theory haftmann parents: 35534 diff changeset	51	by (simp_all add: keys_def)
26192 52617dca8386 new theory of red-black trees, an efficient implementation of finite maps. krauss parents: diff changeset	52
35534 14d8d72f8b1f more explicit naming scheme haftmann parents: 32245 diff changeset	53	lemma entry_in_tree_keys:
35550 e2bc7f8d8d51 restructured RBT theory haftmann parents: 35534 diff changeset	54	assumes "(k, v) \<in> set (entries t)"
e2bc7f8d8d51 restructured RBT theory haftmann parents: 35534 diff changeset	55	shows "k \<in> set (keys t)"
e2bc7f8d8d51 restructured RBT theory haftmann parents: 35534 diff changeset	56	proof -
e2bc7f8d8d51 restructured RBT theory haftmann parents: 35534 diff changeset	57	from assms have "fst (k, v) \<in> fst ` set (entries t)" by (rule imageI)
e2bc7f8d8d51 restructured RBT theory haftmann parents: 35534 diff changeset	58	then show ?thesis by (simp add: keys_def)
e2bc7f8d8d51 restructured RBT theory haftmann parents: 35534 diff changeset	59	qed
e2bc7f8d8d51 restructured RBT theory haftmann parents: 35534 diff changeset	60
35602 e814157560e8 various refinements haftmann parents: 35550 diff changeset	61	lemma keys_entries:
e814157560e8 various refinements haftmann parents: 35550 diff changeset	62	"k \<in> set (keys t) \<longleftrightarrow> (\<exists>v. (k, v) \<in> set (entries t))"
e814157560e8 various refinements haftmann parents: 35550 diff changeset	63	by (auto intro: entry_in_tree_keys) (auto simp add: keys_def)
e814157560e8 various refinements haftmann parents: 35550 diff changeset	64
35550 e2bc7f8d8d51 restructured RBT theory haftmann parents: 35534 diff changeset	65
e2bc7f8d8d51 restructured RBT theory haftmann parents: 35534 diff changeset	66	subsubsection {* Search tree properties *}
26192 52617dca8386 new theory of red-black trees, an efficient implementation of finite maps. krauss parents: diff changeset	67
35534 14d8d72f8b1f more explicit naming scheme haftmann parents: 32245 diff changeset	68	definition tree_less :: "'a\<Colon>order \<Rightarrow> ('a, 'b) rbt \<Rightarrow> bool"
26192 52617dca8386 new theory of red-black trees, an efficient implementation of finite maps. krauss parents: diff changeset	69	where
35550 e2bc7f8d8d51 restructured RBT theory haftmann parents: 35534 diff changeset	70	tree_less_prop: "tree_less k t \<longleftrightarrow> (\<forall>x\<in>set (keys t). x < k)"
35534 14d8d72f8b1f more explicit naming scheme haftmann parents: 32245 diff changeset	71
14d8d72f8b1f more explicit naming scheme haftmann parents: 32245 diff changeset	72	abbreviation tree_less_symbol (infix "\|\<guillemotleft>" 50)
14d8d72f8b1f more explicit naming scheme haftmann parents: 32245 diff changeset	73	where "t \|\<guillemotleft> x \<equiv> tree_less x t"
26192 52617dca8386 new theory of red-black trees, an efficient implementation of finite maps. krauss parents: diff changeset	74
35534 14d8d72f8b1f more explicit naming scheme haftmann parents: 32245 diff changeset	75	definition tree_greater :: "'a\<Colon>order \<Rightarrow> ('a, 'b) rbt \<Rightarrow> bool" (infix "\<guillemotleft>\|" 50)
14d8d72f8b1f more explicit naming scheme haftmann parents: 32245 diff changeset	76	where
35550 e2bc7f8d8d51 restructured RBT theory haftmann parents: 35534 diff changeset	77	tree_greater_prop: "tree_greater k t = (\<forall>x\<in>set (keys t). k < x)"
26192 52617dca8386 new theory of red-black trees, an efficient implementation of finite maps. krauss parents: diff changeset	78
35534 14d8d72f8b1f more explicit naming scheme haftmann parents: 32245 diff changeset	79	lemma tree_less_simps [simp]:
14d8d72f8b1f more explicit naming scheme haftmann parents: 32245 diff changeset	80	"tree_less k Empty = True"
14d8d72f8b1f more explicit naming scheme haftmann parents: 32245 diff changeset	81	"tree_less k (Branch c lt kt v rt) \<longleftrightarrow> kt < k \<and> tree_less k lt \<and> tree_less k rt"
14d8d72f8b1f more explicit naming scheme haftmann parents: 32245 diff changeset	82	by (auto simp add: tree_less_prop)
26192 52617dca8386 new theory of red-black trees, an efficient implementation of finite maps. krauss parents: diff changeset	83
35534 14d8d72f8b1f more explicit naming scheme haftmann parents: 32245 diff changeset	84	lemma tree_greater_simps [simp]:
14d8d72f8b1f more explicit naming scheme haftmann parents: 32245 diff changeset	85	"tree_greater k Empty = True"
14d8d72f8b1f more explicit naming scheme haftmann parents: 32245 diff changeset	86	"tree_greater k (Branch c lt kt v rt) \<longleftrightarrow> k < kt \<and> tree_greater k lt \<and> tree_greater k rt"
14d8d72f8b1f more explicit naming scheme haftmann parents: 32245 diff changeset	87	by (auto simp add: tree_greater_prop)
26192 52617dca8386 new theory of red-black trees, an efficient implementation of finite maps. krauss parents: diff changeset	88
35534 14d8d72f8b1f more explicit naming scheme haftmann parents: 32245 diff changeset	89	lemmas tree_ord_props = tree_less_prop tree_greater_prop
26192 52617dca8386 new theory of red-black trees, an efficient implementation of finite maps. krauss parents: diff changeset	90
35534 14d8d72f8b1f more explicit naming scheme haftmann parents: 32245 diff changeset	91	lemmas tree_greater_nit = tree_greater_prop entry_in_tree_keys
14d8d72f8b1f more explicit naming scheme haftmann parents: 32245 diff changeset	92	lemmas tree_less_nit = tree_less_prop entry_in_tree_keys
26192 52617dca8386 new theory of red-black trees, an efficient implementation of finite maps. krauss parents: diff changeset	93
35550 e2bc7f8d8d51 restructured RBT theory haftmann parents: 35534 diff changeset	94	lemma tree_less_eq_trans: "l \|\<guillemotleft> u \<Longrightarrow> u \<le> v \<Longrightarrow> l \|\<guillemotleft> v"
e2bc7f8d8d51 restructured RBT theory haftmann parents: 35534 diff changeset	95	and tree_less_trans: "t \|\<guillemotleft> x \<Longrightarrow> x < y \<Longrightarrow> t \|\<guillemotleft> y"
e2bc7f8d8d51 restructured RBT theory haftmann parents: 35534 diff changeset	96	and tree_greater_eq_trans: "u \<le> v \<Longrightarrow> v \<guillemotleft>\| r \<Longrightarrow> u \<guillemotleft>\| r"
35534 14d8d72f8b1f more explicit naming scheme haftmann parents: 32245 diff changeset	97	and tree_greater_trans: "x < y \<Longrightarrow> y \<guillemotleft>\| t \<Longrightarrow> x \<guillemotleft>\| t"
35550 e2bc7f8d8d51 restructured RBT theory haftmann parents: 35534 diff changeset	98	by (auto simp: tree_ord_props)
26192 52617dca8386 new theory of red-black trees, an efficient implementation of finite maps. krauss parents: diff changeset	99
35534 14d8d72f8b1f more explicit naming scheme haftmann parents: 32245 diff changeset	100	primrec sorted :: "('a::linorder, 'b) rbt \<Rightarrow> bool"
26192 52617dca8386 new theory of red-black trees, an efficient implementation of finite maps. krauss parents: diff changeset	101	where
35534 14d8d72f8b1f more explicit naming scheme haftmann parents: 32245 diff changeset	102	"sorted Empty = True"
14d8d72f8b1f more explicit naming scheme haftmann parents: 32245 diff changeset	103	\| "sorted (Branch c l k v r) = (l \|\<guillemotleft> k \<and> k \<guillemotleft>\| r \<and> sorted l \<and> sorted r)"
26192 52617dca8386 new theory of red-black trees, an efficient implementation of finite maps. krauss parents: diff changeset	104
35550 e2bc7f8d8d51 restructured RBT theory haftmann parents: 35534 diff changeset	105	lemma sorted_entries:
e2bc7f8d8d51 restructured RBT theory haftmann parents: 35534 diff changeset	106	"sorted t \<Longrightarrow> List.sorted (List.map fst (entries t))"
e2bc7f8d8d51 restructured RBT theory haftmann parents: 35534 diff changeset	107	by (induct t)
e2bc7f8d8d51 restructured RBT theory haftmann parents: 35534 diff changeset	108	(force simp: sorted_append sorted_Cons tree_ord_props
e2bc7f8d8d51 restructured RBT theory haftmann parents: 35534 diff changeset	109	dest!: entry_in_tree_keys)+
e2bc7f8d8d51 restructured RBT theory haftmann parents: 35534 diff changeset	110
e2bc7f8d8d51 restructured RBT theory haftmann parents: 35534 diff changeset	111	lemma distinct_entries:
e2bc7f8d8d51 restructured RBT theory haftmann parents: 35534 diff changeset	112	"sorted t \<Longrightarrow> distinct (List.map fst (entries t))"
e2bc7f8d8d51 restructured RBT theory haftmann parents: 35534 diff changeset	113	by (induct t)
e2bc7f8d8d51 restructured RBT theory haftmann parents: 35534 diff changeset	114	(force simp: sorted_append sorted_Cons tree_ord_props
e2bc7f8d8d51 restructured RBT theory haftmann parents: 35534 diff changeset	115	dest!: entry_in_tree_keys)+
e2bc7f8d8d51 restructured RBT theory haftmann parents: 35534 diff changeset	116
e2bc7f8d8d51 restructured RBT theory haftmann parents: 35534 diff changeset	117
e2bc7f8d8d51 restructured RBT theory haftmann parents: 35534 diff changeset	118	subsubsection {* Tree lookup *}
e2bc7f8d8d51 restructured RBT theory haftmann parents: 35534 diff changeset	119
35534 14d8d72f8b1f more explicit naming scheme haftmann parents: 32245 diff changeset	120	primrec lookup :: "('a\<Colon>linorder, 'b) rbt \<Rightarrow> 'a \<rightharpoonup> 'b"
14d8d72f8b1f more explicit naming scheme haftmann parents: 32245 diff changeset	121	where
14d8d72f8b1f more explicit naming scheme haftmann parents: 32245 diff changeset	122	"lookup Empty k = None"
14d8d72f8b1f more explicit naming scheme haftmann parents: 32245 diff changeset	123	\| "lookup (Branch _ l x y r) k = (if k < x then lookup l k else if x < k then lookup r k else Some y)"
14d8d72f8b1f more explicit naming scheme haftmann parents: 32245 diff changeset	124
35550 e2bc7f8d8d51 restructured RBT theory haftmann parents: 35534 diff changeset	125	lemma lookup_keys: "sorted t \<Longrightarrow> dom (lookup t) = set (keys t)"
e2bc7f8d8d51 restructured RBT theory haftmann parents: 35534 diff changeset	126	by (induct t) (auto simp: dom_def tree_greater_prop tree_less_prop)
e2bc7f8d8d51 restructured RBT theory haftmann parents: 35534 diff changeset	127
e2bc7f8d8d51 restructured RBT theory haftmann parents: 35534 diff changeset	128	lemma dom_lookup_Branch:
e2bc7f8d8d51 restructured RBT theory haftmann parents: 35534 diff changeset	129	"sorted (Branch c t1 k v t2) \<Longrightarrow>
e2bc7f8d8d51 restructured RBT theory haftmann parents: 35534 diff changeset	130	dom (lookup (Branch c t1 k v t2))
e2bc7f8d8d51 restructured RBT theory haftmann parents: 35534 diff changeset	131	= Set.insert k (dom (lookup t1) \<union> dom (lookup t2))"
e2bc7f8d8d51 restructured RBT theory haftmann parents: 35534 diff changeset	132	proof -
e2bc7f8d8d51 restructured RBT theory haftmann parents: 35534 diff changeset	133	assume "sorted (Branch c t1 k v t2)"
e2bc7f8d8d51 restructured RBT theory haftmann parents: 35534 diff changeset	134	moreover from this have "sorted t1" "sorted t2" by simp_all
e2bc7f8d8d51 restructured RBT theory haftmann parents: 35534 diff changeset	135	ultimately show ?thesis by (simp add: lookup_keys)
e2bc7f8d8d51 restructured RBT theory haftmann parents: 35534 diff changeset	136	qed
e2bc7f8d8d51 restructured RBT theory haftmann parents: 35534 diff changeset	137
e2bc7f8d8d51 restructured RBT theory haftmann parents: 35534 diff changeset	138	lemma finite_dom_lookup [simp, intro!]: "finite (dom (lookup t))"
e2bc7f8d8d51 restructured RBT theory haftmann parents: 35534 diff changeset	139	proof (induct t)
e2bc7f8d8d51 restructured RBT theory haftmann parents: 35534 diff changeset	140	case Empty then show ?case by simp
e2bc7f8d8d51 restructured RBT theory haftmann parents: 35534 diff changeset	141	next
e2bc7f8d8d51 restructured RBT theory haftmann parents: 35534 diff changeset	142	case (Branch color t1 a b t2)
e2bc7f8d8d51 restructured RBT theory haftmann parents: 35534 diff changeset	143	let ?A = "Set.insert a (dom (lookup t1) \<union> dom (lookup t2))"
e2bc7f8d8d51 restructured RBT theory haftmann parents: 35534 diff changeset	144	have "dom (lookup (Branch color t1 a b t2)) \<subseteq> ?A" by (auto split: split_if_asm)
e2bc7f8d8d51 restructured RBT theory haftmann parents: 35534 diff changeset	145	moreover from Branch have "finite (insert a (dom (lookup t1) \<union> dom (lookup t2)))" by simp
e2bc7f8d8d51 restructured RBT theory haftmann parents: 35534 diff changeset	146	ultimately show ?case by (rule finite_subset)
e2bc7f8d8d51 restructured RBT theory haftmann parents: 35534 diff changeset	147	qed
e2bc7f8d8d51 restructured RBT theory haftmann parents: 35534 diff changeset	148
35534 14d8d72f8b1f more explicit naming scheme haftmann parents: 32245 diff changeset	149	lemma lookup_tree_less[simp]: "t \|\<guillemotleft> k \<Longrightarrow> lookup t k = None"
26192 52617dca8386 new theory of red-black trees, an efficient implementation of finite maps. krauss parents: diff changeset	150	by (induct t) auto
52617dca8386 new theory of red-black trees, an efficient implementation of finite maps. krauss parents: diff changeset	151
35534 14d8d72f8b1f more explicit naming scheme haftmann parents: 32245 diff changeset	152	lemma lookup_tree_greater[simp]: "k \<guillemotleft>\| t \<Longrightarrow> lookup t k = None"
26192 52617dca8386 new theory of red-black trees, an efficient implementation of finite maps. krauss parents: diff changeset	153	by (induct t) auto
52617dca8386 new theory of red-black trees, an efficient implementation of finite maps. krauss parents: diff changeset	154
35534 14d8d72f8b1f more explicit naming scheme haftmann parents: 32245 diff changeset	155	lemma lookup_Empty: "lookup Empty = empty"
26192 52617dca8386 new theory of red-black trees, an efficient implementation of finite maps. krauss parents: diff changeset	156	by (rule ext) simp
52617dca8386 new theory of red-black trees, an efficient implementation of finite maps. krauss parents: diff changeset	157
35618 b7bfd4cbcfc0 some lemma refinements haftmann parents: 35606 diff changeset	158	lemma map_of_entries:
b7bfd4cbcfc0 some lemma refinements haftmann parents: 35606 diff changeset	159	"sorted t \<Longrightarrow> map_of (entries t) = lookup t"
35550 e2bc7f8d8d51 restructured RBT theory haftmann parents: 35534 diff changeset	160	proof (induct t)
e2bc7f8d8d51 restructured RBT theory haftmann parents: 35534 diff changeset	161	case Empty thus ?case by (simp add: lookup_Empty)
e2bc7f8d8d51 restructured RBT theory haftmann parents: 35534 diff changeset	162	next
e2bc7f8d8d51 restructured RBT theory haftmann parents: 35534 diff changeset	163	case (Branch c t1 k v t2)
e2bc7f8d8d51 restructured RBT theory haftmann parents: 35534 diff changeset	164	have "lookup (Branch c t1 k v t2) = lookup t2 ++ [k\<mapsto>v] ++ lookup t1"
e2bc7f8d8d51 restructured RBT theory haftmann parents: 35534 diff changeset	165	proof (rule ext)
e2bc7f8d8d51 restructured RBT theory haftmann parents: 35534 diff changeset	166	fix x
e2bc7f8d8d51 restructured RBT theory haftmann parents: 35534 diff changeset	167	from Branch have SORTED: "sorted (Branch c t1 k v t2)" by simp
e2bc7f8d8d51 restructured RBT theory haftmann parents: 35534 diff changeset	168	let ?thesis = "lookup (Branch c t1 k v t2) x = (lookup t2 ++ [k \<mapsto> v] ++ lookup t1) x"
e2bc7f8d8d51 restructured RBT theory haftmann parents: 35534 diff changeset	169
e2bc7f8d8d51 restructured RBT theory haftmann parents: 35534 diff changeset	170	have DOM_T1: "!!k'. k'\<in>dom (lookup t1) \<Longrightarrow> k>k'"
e2bc7f8d8d51 restructured RBT theory haftmann parents: 35534 diff changeset	171	proof -
e2bc7f8d8d51 restructured RBT theory haftmann parents: 35534 diff changeset	172	fix k'
e2bc7f8d8d51 restructured RBT theory haftmann parents: 35534 diff changeset	173	from SORTED have "t1 \|\<guillemotleft> k" by simp
e2bc7f8d8d51 restructured RBT theory haftmann parents: 35534 diff changeset	174	with tree_less_prop have "\<forall>k'\<in>set (keys t1). k>k'" by auto
e2bc7f8d8d51 restructured RBT theory haftmann parents: 35534 diff changeset	175	moreover assume "k'\<in>dom (lookup t1)"
e2bc7f8d8d51 restructured RBT theory haftmann parents: 35534 diff changeset	176	ultimately show "k>k'" using lookup_keys SORTED by auto
e2bc7f8d8d51 restructured RBT theory haftmann parents: 35534 diff changeset	177	qed
e2bc7f8d8d51 restructured RBT theory haftmann parents: 35534 diff changeset	178
e2bc7f8d8d51 restructured RBT theory haftmann parents: 35534 diff changeset	179	have DOM_T2: "!!k'. k'\<in>dom (lookup t2) \<Longrightarrow> k<k'"
e2bc7f8d8d51 restructured RBT theory haftmann parents: 35534 diff changeset	180	proof -
e2bc7f8d8d51 restructured RBT theory haftmann parents: 35534 diff changeset	181	fix k'
e2bc7f8d8d51 restructured RBT theory haftmann parents: 35534 diff changeset	182	from SORTED have "k \<guillemotleft>\| t2" by simp
e2bc7f8d8d51 restructured RBT theory haftmann parents: 35534 diff changeset	183	with tree_greater_prop have "\<forall>k'\<in>set (keys t2). k<k'" by auto
e2bc7f8d8d51 restructured RBT theory haftmann parents: 35534 diff changeset	184	moreover assume "k'\<in>dom (lookup t2)"
e2bc7f8d8d51 restructured RBT theory haftmann parents: 35534 diff changeset	185	ultimately show "k<k'" using lookup_keys SORTED by auto
e2bc7f8d8d51 restructured RBT theory haftmann parents: 35534 diff changeset	186	qed
e2bc7f8d8d51 restructured RBT theory haftmann parents: 35534 diff changeset	187
e2bc7f8d8d51 restructured RBT theory haftmann parents: 35534 diff changeset	188	{
e2bc7f8d8d51 restructured RBT theory haftmann parents: 35534 diff changeset	189	assume C: "x<k"
e2bc7f8d8d51 restructured RBT theory haftmann parents: 35534 diff changeset	190	hence "lookup (Branch c t1 k v t2) x = lookup t1 x" by simp
e2bc7f8d8d51 restructured RBT theory haftmann parents: 35534 diff changeset	191	moreover from C have "x\<notin>dom [k\<mapsto>v]" by simp
e2bc7f8d8d51 restructured RBT theory haftmann parents: 35534 diff changeset	192	moreover have "x\<notin>dom (lookup t2)" proof
e2bc7f8d8d51 restructured RBT theory haftmann parents: 35534 diff changeset	193	assume "x\<in>dom (lookup t2)"
e2bc7f8d8d51 restructured RBT theory haftmann parents: 35534 diff changeset	194	with DOM_T2 have "k<x" by blast
e2bc7f8d8d51 restructured RBT theory haftmann parents: 35534 diff changeset	195	with C show False by simp
e2bc7f8d8d51 restructured RBT theory haftmann parents: 35534 diff changeset	196	qed
e2bc7f8d8d51 restructured RBT theory haftmann parents: 35534 diff changeset	197	ultimately have ?thesis by (simp add: map_add_upd_left map_add_dom_app_simps)
e2bc7f8d8d51 restructured RBT theory haftmann parents: 35534 diff changeset	198	} moreover {
e2bc7f8d8d51 restructured RBT theory haftmann parents: 35534 diff changeset	199	assume [simp]: "x=k"
e2bc7f8d8d51 restructured RBT theory haftmann parents: 35534 diff changeset	200	hence "lookup (Branch c t1 k v t2) x = [k \<mapsto> v] x" by simp
e2bc7f8d8d51 restructured RBT theory haftmann parents: 35534 diff changeset	201	moreover have "x\<notin>dom (lookup t1)" proof
e2bc7f8d8d51 restructured RBT theory haftmann parents: 35534 diff changeset	202	assume "x\<in>dom (lookup t1)"
e2bc7f8d8d51 restructured RBT theory haftmann parents: 35534 diff changeset	203	with DOM_T1 have "k>x" by blast
e2bc7f8d8d51 restructured RBT theory haftmann parents: 35534 diff changeset	204	thus False by simp
e2bc7f8d8d51 restructured RBT theory haftmann parents: 35534 diff changeset	205	qed
e2bc7f8d8d51 restructured RBT theory haftmann parents: 35534 diff changeset	206	ultimately have ?thesis by (simp add: map_add_upd_left map_add_dom_app_simps)
e2bc7f8d8d51 restructured RBT theory haftmann parents: 35534 diff changeset	207	} moreover {
e2bc7f8d8d51 restructured RBT theory haftmann parents: 35534 diff changeset	208	assume C: "x>k"
e2bc7f8d8d51 restructured RBT theory haftmann parents: 35534 diff changeset	209	hence "lookup (Branch c t1 k v t2) x = lookup t2 x" by (simp add: less_not_sym[of k x])
e2bc7f8d8d51 restructured RBT theory haftmann parents: 35534 diff changeset	210	moreover from C have "x\<notin>dom [k\<mapsto>v]" by simp
e2bc7f8d8d51 restructured RBT theory haftmann parents: 35534 diff changeset	211	moreover have "x\<notin>dom (lookup t1)" proof
e2bc7f8d8d51 restructured RBT theory haftmann parents: 35534 diff changeset	212	assume "x\<in>dom (lookup t1)"
e2bc7f8d8d51 restructured RBT theory haftmann parents: 35534 diff changeset	213	with DOM_T1 have "k>x" by simp
e2bc7f8d8d51 restructured RBT theory haftmann parents: 35534 diff changeset	214	with C show False by simp
e2bc7f8d8d51 restructured RBT theory haftmann parents: 35534 diff changeset	215	qed
e2bc7f8d8d51 restructured RBT theory haftmann parents: 35534 diff changeset	216	ultimately have ?thesis by (simp add: map_add_upd_left map_add_dom_app_simps)
e2bc7f8d8d51 restructured RBT theory haftmann parents: 35534 diff changeset	217	} ultimately show ?thesis using less_linear by blast
e2bc7f8d8d51 restructured RBT theory haftmann parents: 35534 diff changeset	218	qed
e2bc7f8d8d51 restructured RBT theory haftmann parents: 35534 diff changeset	219	also from Branch have "lookup t2 ++ [k \<mapsto> v] ++ lookup t1 = map_of (entries (Branch c t1 k v t2))" by simp
35618 b7bfd4cbcfc0 some lemma refinements haftmann parents: 35606 diff changeset	220	finally show ?case by simp
35550 e2bc7f8d8d51 restructured RBT theory haftmann parents: 35534 diff changeset	221	qed
e2bc7f8d8d51 restructured RBT theory haftmann parents: 35534 diff changeset	222
35602 e814157560e8 various refinements haftmann parents: 35550 diff changeset	223	lemma lookup_in_tree: "sorted t \<Longrightarrow> lookup t k = Some v \<longleftrightarrow> (k, v) \<in> set (entries t)"
35618 b7bfd4cbcfc0 some lemma refinements haftmann parents: 35606 diff changeset	224	by (simp add: map_of_entries [symmetric] distinct_entries)
35602 e814157560e8 various refinements haftmann parents: 35550 diff changeset	225
e814157560e8 various refinements haftmann parents: 35550 diff changeset	226	lemma set_entries_inject:
e814157560e8 various refinements haftmann parents: 35550 diff changeset	227	assumes sorted: "sorted t1" "sorted t2"
e814157560e8 various refinements haftmann parents: 35550 diff changeset	228	shows "set (entries t1) = set (entries t2) \<longleftrightarrow> entries t1 = entries t2"
e814157560e8 various refinements haftmann parents: 35550 diff changeset	229	proof -
e814157560e8 various refinements haftmann parents: 35550 diff changeset	230	from sorted have "distinct (map fst (entries t1))"
e814157560e8 various refinements haftmann parents: 35550 diff changeset	231	"distinct (map fst (entries t2))"
e814157560e8 various refinements haftmann parents: 35550 diff changeset	232	by (auto intro: distinct_entries)
e814157560e8 various refinements haftmann parents: 35550 diff changeset	233	with sorted show ?thesis
e814157560e8 various refinements haftmann parents: 35550 diff changeset	234	by (auto intro: map_sorted_distinct_set_unique sorted_entries simp add: distinct_map)
e814157560e8 various refinements haftmann parents: 35550 diff changeset	235	qed
35550 e2bc7f8d8d51 restructured RBT theory haftmann parents: 35534 diff changeset	236
e2bc7f8d8d51 restructured RBT theory haftmann parents: 35534 diff changeset	237	lemma entries_eqI:
e2bc7f8d8d51 restructured RBT theory haftmann parents: 35534 diff changeset	238	assumes sorted: "sorted t1" "sorted t2"
e2bc7f8d8d51 restructured RBT theory haftmann parents: 35534 diff changeset	239	assumes lookup: "lookup t1 = lookup t2"
35602 e814157560e8 various refinements haftmann parents: 35550 diff changeset	240	shows "entries t1 = entries t2"
35550 e2bc7f8d8d51 restructured RBT theory haftmann parents: 35534 diff changeset	241	proof -
e2bc7f8d8d51 restructured RBT theory haftmann parents: 35534 diff changeset	242	from sorted lookup have "map_of (entries t1) = map_of (entries t2)"
35618 b7bfd4cbcfc0 some lemma refinements haftmann parents: 35606 diff changeset	243	by (simp add: map_of_entries)
35602 e814157560e8 various refinements haftmann parents: 35550 diff changeset	244	with sorted have "set (entries t1) = set (entries t2)"
e814157560e8 various refinements haftmann parents: 35550 diff changeset	245	by (simp add: map_of_inject_set distinct_entries)
e814157560e8 various refinements haftmann parents: 35550 diff changeset	246	with sorted show ?thesis by (simp add: set_entries_inject)
e814157560e8 various refinements haftmann parents: 35550 diff changeset	247	qed
35550 e2bc7f8d8d51 restructured RBT theory haftmann parents: 35534 diff changeset	248
35602 e814157560e8 various refinements haftmann parents: 35550 diff changeset	249	lemma entries_lookup:
e814157560e8 various refinements haftmann parents: 35550 diff changeset	250	assumes "sorted t1" "sorted t2"
e814157560e8 various refinements haftmann parents: 35550 diff changeset	251	shows "entries t1 = entries t2 \<longleftrightarrow> lookup t1 = lookup t2"
35618 b7bfd4cbcfc0 some lemma refinements haftmann parents: 35606 diff changeset	252	using assms by (auto intro: entries_eqI simp add: map_of_entries [symmetric])
35602 e814157560e8 various refinements haftmann parents: 35550 diff changeset	253
35550 e2bc7f8d8d51 restructured RBT theory haftmann parents: 35534 diff changeset	254	lemma lookup_from_in_tree:
35602 e814157560e8 various refinements haftmann parents: 35550 diff changeset	255	assumes "sorted t1" "sorted t2"
e814157560e8 various refinements haftmann parents: 35550 diff changeset	256	and "\<And>v. (k\<Colon>'a\<Colon>linorder, v) \<in> set (entries t1) \<longleftrightarrow> (k, v) \<in> set (entries t2)"
35534 14d8d72f8b1f more explicit naming scheme haftmann parents: 32245 diff changeset	257	shows "lookup t1 k = lookup t2 k"
35602 e814157560e8 various refinements haftmann parents: 35550 diff changeset	258	proof -
e814157560e8 various refinements haftmann parents: 35550 diff changeset	259	from assms have "k \<in> dom (lookup t1) \<longleftrightarrow> k \<in> dom (lookup t2)"
e814157560e8 various refinements haftmann parents: 35550 diff changeset	260	by (simp add: keys_entries lookup_keys)
e814157560e8 various refinements haftmann parents: 35550 diff changeset	261	with assms show ?thesis by (auto simp add: lookup_in_tree [symmetric])
26192 52617dca8386 new theory of red-black trees, an efficient implementation of finite maps. krauss parents: diff changeset	262	qed
52617dca8386 new theory of red-black trees, an efficient implementation of finite maps. krauss parents: diff changeset	263
35550 e2bc7f8d8d51 restructured RBT theory haftmann parents: 35534 diff changeset	264
e2bc7f8d8d51 restructured RBT theory haftmann parents: 35534 diff changeset	265	subsubsection {* Red-black properties *}
26192 52617dca8386 new theory of red-black trees, an efficient implementation of finite maps. krauss parents: diff changeset	266
35534 14d8d72f8b1f more explicit naming scheme haftmann parents: 32245 diff changeset	267	primrec color_of :: "('a, 'b) rbt \<Rightarrow> color"
26192 52617dca8386 new theory of red-black trees, an efficient implementation of finite maps. krauss parents: diff changeset	268	where
35534 14d8d72f8b1f more explicit naming scheme haftmann parents: 32245 diff changeset	269	"color_of Empty = B"
14d8d72f8b1f more explicit naming scheme haftmann parents: 32245 diff changeset	270	\| "color_of (Branch c _ _ _ _) = c"
26192 52617dca8386 new theory of red-black trees, an efficient implementation of finite maps. krauss parents: diff changeset	271
35534 14d8d72f8b1f more explicit naming scheme haftmann parents: 32245 diff changeset	272	primrec bheight :: "('a,'b) rbt \<Rightarrow> nat"
14d8d72f8b1f more explicit naming scheme haftmann parents: 32245 diff changeset	273	where
14d8d72f8b1f more explicit naming scheme haftmann parents: 32245 diff changeset	274	"bheight Empty = 0"
14d8d72f8b1f more explicit naming scheme haftmann parents: 32245 diff changeset	275	\| "bheight (Branch c lt k v rt) = (if c = B then Suc (bheight lt) else bheight lt)"
14d8d72f8b1f more explicit naming scheme haftmann parents: 32245 diff changeset	276
14d8d72f8b1f more explicit naming scheme haftmann parents: 32245 diff changeset	277	primrec inv1 :: "('a, 'b) rbt \<Rightarrow> bool"
26192 52617dca8386 new theory of red-black trees, an efficient implementation of finite maps. krauss parents: diff changeset	278	where
52617dca8386 new theory of red-black trees, an efficient implementation of finite maps. krauss parents: diff changeset	279	"inv1 Empty = True"
35534 14d8d72f8b1f more explicit naming scheme haftmann parents: 32245 diff changeset	280	\| "inv1 (Branch c lt k v rt) \<longleftrightarrow> inv1 lt \<and> inv1 rt \<and> (c = B \<or> color_of lt = B \<and> color_of rt = B)"
26192 52617dca8386 new theory of red-black trees, an efficient implementation of finite maps. krauss parents: diff changeset	281
35534 14d8d72f8b1f more explicit naming scheme haftmann parents: 32245 diff changeset	282	primrec inv1l :: "('a, 'b) rbt \<Rightarrow> bool" -- {* Weaker version *}
26192 52617dca8386 new theory of red-black trees, an efficient implementation of finite maps. krauss parents: diff changeset	283	where
52617dca8386 new theory of red-black trees, an efficient implementation of finite maps. krauss parents: diff changeset	284	"inv1l Empty = True"
35534 14d8d72f8b1f more explicit naming scheme haftmann parents: 32245 diff changeset	285	\| "inv1l (Branch c l k v r) = (inv1 l \<and> inv1 r)"
26192 52617dca8386 new theory of red-black trees, an efficient implementation of finite maps. krauss parents: diff changeset	286	lemma [simp]: "inv1 t \<Longrightarrow> inv1l t" by (cases t) simp+
52617dca8386 new theory of red-black trees, an efficient implementation of finite maps. krauss parents: diff changeset	287
35534 14d8d72f8b1f more explicit naming scheme haftmann parents: 32245 diff changeset	288	primrec inv2 :: "('a, 'b) rbt \<Rightarrow> bool"
26192 52617dca8386 new theory of red-black trees, an efficient implementation of finite maps. krauss parents: diff changeset	289	where
52617dca8386 new theory of red-black trees, an efficient implementation of finite maps. krauss parents: diff changeset	290	"inv2 Empty = True"
35534 14d8d72f8b1f more explicit naming scheme haftmann parents: 32245 diff changeset	291	\| "inv2 (Branch c lt k v rt) = (inv2 lt \<and> inv2 rt \<and> bheight lt = bheight rt)"
26192 52617dca8386 new theory of red-black trees, an efficient implementation of finite maps. krauss parents: diff changeset	292
35534 14d8d72f8b1f more explicit naming scheme haftmann parents: 32245 diff changeset	293	definition is_rbt :: "('a\<Colon>linorder, 'b) rbt \<Rightarrow> bool" where
14d8d72f8b1f more explicit naming scheme haftmann parents: 32245 diff changeset	294	"is_rbt t \<longleftrightarrow> inv1 t \<and> inv2 t \<and> color_of t = B \<and> sorted t"
26192 52617dca8386 new theory of red-black trees, an efficient implementation of finite maps. krauss parents: diff changeset	295
35534 14d8d72f8b1f more explicit naming scheme haftmann parents: 32245 diff changeset	296	lemma is_rbt_sorted [simp]:
14d8d72f8b1f more explicit naming scheme haftmann parents: 32245 diff changeset	297	"is_rbt t \<Longrightarrow> sorted t" by (simp add: is_rbt_def)
26192 52617dca8386 new theory of red-black trees, an efficient implementation of finite maps. krauss parents: diff changeset	298
35534 14d8d72f8b1f more explicit naming scheme haftmann parents: 32245 diff changeset	299	theorem Empty_is_rbt [simp]:
14d8d72f8b1f more explicit naming scheme haftmann parents: 32245 diff changeset	300	"is_rbt Empty" by (simp add: is_rbt_def)
26192 52617dca8386 new theory of red-black trees, an efficient implementation of finite maps. krauss parents: diff changeset	301
52617dca8386 new theory of red-black trees, an efficient implementation of finite maps. krauss parents: diff changeset	302
52617dca8386 new theory of red-black trees, an efficient implementation of finite maps. krauss parents: diff changeset	303	subsection {* Insertion *}
52617dca8386 new theory of red-black trees, an efficient implementation of finite maps. krauss parents: diff changeset	304
52617dca8386 new theory of red-black trees, an efficient implementation of finite maps. krauss parents: diff changeset	305	fun (* slow, due to massive case splitting *)
52617dca8386 new theory of red-black trees, an efficient implementation of finite maps. krauss parents: diff changeset	306	balance :: "('a,'b) rbt \<Rightarrow> 'a \<Rightarrow> 'b \<Rightarrow> ('a,'b) rbt \<Rightarrow> ('a,'b) rbt"
52617dca8386 new theory of red-black trees, an efficient implementation of finite maps. krauss parents: diff changeset	307	where
35534 14d8d72f8b1f more explicit naming scheme haftmann parents: 32245 diff changeset	308	"balance (Branch R a w x b) s t (Branch R c y z d) = Branch R (Branch B a w x b) s t (Branch B c y z d)" \|
14d8d72f8b1f more explicit naming scheme haftmann parents: 32245 diff changeset	309	"balance (Branch R (Branch R a w x b) s t c) y z d = Branch R (Branch B a w x b) s t (Branch B c y z d)" \|
14d8d72f8b1f more explicit naming scheme haftmann parents: 32245 diff changeset	310	"balance (Branch R a w x (Branch R b s t c)) y z d = Branch R (Branch B a w x b) s t (Branch B c y z d)" \|
14d8d72f8b1f more explicit naming scheme haftmann parents: 32245 diff changeset	311	"balance a w x (Branch R b s t (Branch R c y z d)) = Branch R (Branch B a w x b) s t (Branch B c y z d)" \|
14d8d72f8b1f more explicit naming scheme haftmann parents: 32245 diff changeset	312	"balance a w x (Branch R (Branch R b s t c) y z d) = Branch R (Branch B a w x b) s t (Branch B c y z d)" \|
14d8d72f8b1f more explicit naming scheme haftmann parents: 32245 diff changeset	313	"balance a s t b = Branch B a s t b"
26192 52617dca8386 new theory of red-black trees, an efficient implementation of finite maps. krauss parents: diff changeset	314
52617dca8386 new theory of red-black trees, an efficient implementation of finite maps. krauss parents: diff changeset	315	lemma balance_inv1: "\<lbrakk>inv1l l; inv1l r\<rbrakk> \<Longrightarrow> inv1 (balance l k v r)"
52617dca8386 new theory of red-black trees, an efficient implementation of finite maps. krauss parents: diff changeset	316	by (induct l k v r rule: balance.induct) auto
52617dca8386 new theory of red-black trees, an efficient implementation of finite maps. krauss parents: diff changeset	317
35534 14d8d72f8b1f more explicit naming scheme haftmann parents: 32245 diff changeset	318	lemma balance_bheight: "bheight l = bheight r \<Longrightarrow> bheight (balance l k v r) = Suc (bheight l)"
26192 52617dca8386 new theory of red-black trees, an efficient implementation of finite maps. krauss parents: diff changeset	319	by (induct l k v r rule: balance.induct) auto
52617dca8386 new theory of red-black trees, an efficient implementation of finite maps. krauss parents: diff changeset	320
52617dca8386 new theory of red-black trees, an efficient implementation of finite maps. krauss parents: diff changeset	321	lemma balance_inv2:
35534 14d8d72f8b1f more explicit naming scheme haftmann parents: 32245 diff changeset	322	assumes "inv2 l" "inv2 r" "bheight l = bheight r"
26192 52617dca8386 new theory of red-black trees, an efficient implementation of finite maps. krauss parents: diff changeset	323	shows "inv2 (balance l k v r)"
52617dca8386 new theory of red-black trees, an efficient implementation of finite maps. krauss parents: diff changeset	324	using assms
52617dca8386 new theory of red-black trees, an efficient implementation of finite maps. krauss parents: diff changeset	325	by (induct l k v r rule: balance.induct) auto
52617dca8386 new theory of red-black trees, an efficient implementation of finite maps. krauss parents: diff changeset	326
35534 14d8d72f8b1f more explicit naming scheme haftmann parents: 32245 diff changeset	327	lemma balance_tree_greater[simp]: "(v \<guillemotleft>\| balance a k x b) = (v \<guillemotleft>\| a \<and> v \<guillemotleft>\| b \<and> v < k)"
26192 52617dca8386 new theory of red-black trees, an efficient implementation of finite maps. krauss parents: diff changeset	328	by (induct a k x b rule: balance.induct) auto
52617dca8386 new theory of red-black trees, an efficient implementation of finite maps. krauss parents: diff changeset	329
35534 14d8d72f8b1f more explicit naming scheme haftmann parents: 32245 diff changeset	330	lemma balance_tree_less[simp]: "(balance a k x b \|\<guillemotleft> v) = (a \|\<guillemotleft> v \<and> b \|\<guillemotleft> v \<and> k < v)"
26192 52617dca8386 new theory of red-black trees, an efficient implementation of finite maps. krauss parents: diff changeset	331	by (induct a k x b rule: balance.induct) auto
52617dca8386 new theory of red-black trees, an efficient implementation of finite maps. krauss parents: diff changeset	332
35534 14d8d72f8b1f more explicit naming scheme haftmann parents: 32245 diff changeset	333	lemma balance_sorted:
26192 52617dca8386 new theory of red-black trees, an efficient implementation of finite maps. krauss parents: diff changeset	334	fixes k :: "'a::linorder"
35534 14d8d72f8b1f more explicit naming scheme haftmann parents: 32245 diff changeset	335	assumes "sorted l" "sorted r" "l \|\<guillemotleft> k" "k \<guillemotleft>\| r"
14d8d72f8b1f more explicit naming scheme haftmann parents: 32245 diff changeset	336	shows "sorted (balance l k v r)"
26192 52617dca8386 new theory of red-black trees, an efficient implementation of finite maps. krauss parents: diff changeset	337	using assms proof (induct l k v r rule: balance.induct)
52617dca8386 new theory of red-black trees, an efficient implementation of finite maps. krauss parents: diff changeset	338	case ("2_2" a x w b y t c z s va vb vd vc)
35534 14d8d72f8b1f more explicit naming scheme haftmann parents: 32245 diff changeset	339	hence "y < z \<and> z \<guillemotleft>\| Branch B va vb vd vc"
14d8d72f8b1f more explicit naming scheme haftmann parents: 32245 diff changeset	340	by (auto simp add: tree_ord_props)
14d8d72f8b1f more explicit naming scheme haftmann parents: 32245 diff changeset	341	hence "tree_greater y (Branch B va vb vd vc)" by (blast dest: tree_greater_trans)
26192 52617dca8386 new theory of red-black trees, an efficient implementation of finite maps. krauss parents: diff changeset	342	with "2_2" show ?case by simp
52617dca8386 new theory of red-black trees, an efficient implementation of finite maps. krauss parents: diff changeset	343	next
52617dca8386 new theory of red-black trees, an efficient implementation of finite maps. krauss parents: diff changeset	344	case ("3_2" va vb vd vc x w b y s c z)
35534 14d8d72f8b1f more explicit naming scheme haftmann parents: 32245 diff changeset	345	from "3_2" have "x < y \<and> tree_less x (Branch B va vb vd vc)"
14d8d72f8b1f more explicit naming scheme haftmann parents: 32245 diff changeset	346	by simp
14d8d72f8b1f more explicit naming scheme haftmann parents: 32245 diff changeset	347	hence "tree_less y (Branch B va vb vd vc)" by (blast dest: tree_less_trans)
26192 52617dca8386 new theory of red-black trees, an efficient implementation of finite maps. krauss parents: diff changeset	348	with "3_2" show ?case by simp
52617dca8386 new theory of red-black trees, an efficient implementation of finite maps. krauss parents: diff changeset	349	next
52617dca8386 new theory of red-black trees, an efficient implementation of finite maps. krauss parents: diff changeset	350	case ("3_3" x w b y s c z t va vb vd vc)
35534 14d8d72f8b1f more explicit naming scheme haftmann parents: 32245 diff changeset	351	from "3_3" have "y < z \<and> tree_greater z (Branch B va vb vd vc)" by simp
14d8d72f8b1f more explicit naming scheme haftmann parents: 32245 diff changeset	352	hence "tree_greater y (Branch B va vb vd vc)" by (blast dest: tree_greater_trans)
26192 52617dca8386 new theory of red-black trees, an efficient implementation of finite maps. krauss parents: diff changeset	353	with "3_3" show ?case by simp
52617dca8386 new theory of red-black trees, an efficient implementation of finite maps. krauss parents: diff changeset	354	next
52617dca8386 new theory of red-black trees, an efficient implementation of finite maps. krauss parents: diff changeset	355	case ("3_4" vd ve vg vf x w b y s c z t va vb vii vc)
35534 14d8d72f8b1f more explicit naming scheme haftmann parents: 32245 diff changeset	356	hence "x < y \<and> tree_less x (Branch B vd ve vg vf)" by simp
14d8d72f8b1f more explicit naming scheme haftmann parents: 32245 diff changeset	357	hence 1: "tree_less y (Branch B vd ve vg vf)" by (blast dest: tree_less_trans)
14d8d72f8b1f more explicit naming scheme haftmann parents: 32245 diff changeset	358	from "3_4" have "y < z \<and> tree_greater z (Branch B va vb vii vc)" by simp
14d8d72f8b1f more explicit naming scheme haftmann parents: 32245 diff changeset	359	hence "tree_greater y (Branch B va vb vii vc)" by (blast dest: tree_greater_trans)
26192 52617dca8386 new theory of red-black trees, an efficient implementation of finite maps. krauss parents: diff changeset	360	with 1 "3_4" show ?case by simp
52617dca8386 new theory of red-black trees, an efficient implementation of finite maps. krauss parents: diff changeset	361	next
52617dca8386 new theory of red-black trees, an efficient implementation of finite maps. krauss parents: diff changeset	362	case ("4_2" va vb vd vc x w b y s c z t dd)
35534 14d8d72f8b1f more explicit naming scheme haftmann parents: 32245 diff changeset	363	hence "x < y \<and> tree_less x (Branch B va vb vd vc)" by simp
14d8d72f8b1f more explicit naming scheme haftmann parents: 32245 diff changeset	364	hence "tree_less y (Branch B va vb vd vc)" by (blast dest: tree_less_trans)
26192 52617dca8386 new theory of red-black trees, an efficient implementation of finite maps. krauss parents: diff changeset	365	with "4_2" show ?case by simp
52617dca8386 new theory of red-black trees, an efficient implementation of finite maps. krauss parents: diff changeset	366	next
52617dca8386 new theory of red-black trees, an efficient implementation of finite maps. krauss parents: diff changeset	367	case ("5_2" x w b y s c z t va vb vd vc)
35534 14d8d72f8b1f more explicit naming scheme haftmann parents: 32245 diff changeset	368	hence "y < z \<and> tree_greater z (Branch B va vb vd vc)" by simp
14d8d72f8b1f more explicit naming scheme haftmann parents: 32245 diff changeset	369	hence "tree_greater y (Branch B va vb vd vc)" by (blast dest: tree_greater_trans)
26192 52617dca8386 new theory of red-black trees, an efficient implementation of finite maps. krauss parents: diff changeset	370	with "5_2" show ?case by simp
52617dca8386 new theory of red-black trees, an efficient implementation of finite maps. krauss parents: diff changeset	371	next
52617dca8386 new theory of red-black trees, an efficient implementation of finite maps. krauss parents: diff changeset	372	case ("5_3" va vb vd vc x w b y s c z t)
35534 14d8d72f8b1f more explicit naming scheme haftmann parents: 32245 diff changeset	373	hence "x < y \<and> tree_less x (Branch B va vb vd vc)" by simp
14d8d72f8b1f more explicit naming scheme haftmann parents: 32245 diff changeset	374	hence "tree_less y (Branch B va vb vd vc)" by (blast dest: tree_less_trans)
26192 52617dca8386 new theory of red-black trees, an efficient implementation of finite maps. krauss parents: diff changeset	375	with "5_3" show ?case by simp
52617dca8386 new theory of red-black trees, an efficient implementation of finite maps. krauss parents: diff changeset	376	next
52617dca8386 new theory of red-black trees, an efficient implementation of finite maps. krauss parents: diff changeset	377	case ("5_4" va vb vg vc x w b y s c z t vd ve vii vf)
35534 14d8d72f8b1f more explicit naming scheme haftmann parents: 32245 diff changeset	378	hence "x < y \<and> tree_less x (Branch B va vb vg vc)" by simp
14d8d72f8b1f more explicit naming scheme haftmann parents: 32245 diff changeset	379	hence 1: "tree_less y (Branch B va vb vg vc)" by (blast dest: tree_less_trans)
14d8d72f8b1f more explicit naming scheme haftmann parents: 32245 diff changeset	380	from "5_4" have "y < z \<and> tree_greater z (Branch B vd ve vii vf)" by simp
14d8d72f8b1f more explicit naming scheme haftmann parents: 32245 diff changeset	381	hence "tree_greater y (Branch B vd ve vii vf)" by (blast dest: tree_greater_trans)
26192 52617dca8386 new theory of red-black trees, an efficient implementation of finite maps. krauss parents: diff changeset	382	with 1 "5_4" show ?case by simp
52617dca8386 new theory of red-black trees, an efficient implementation of finite maps. krauss parents: diff changeset	383	qed simp+
52617dca8386 new theory of red-black trees, an efficient implementation of finite maps. krauss parents: diff changeset	384
35550 e2bc7f8d8d51 restructured RBT theory haftmann parents: 35534 diff changeset	385	lemma entries_balance [simp]:
e2bc7f8d8d51 restructured RBT theory haftmann parents: 35534 diff changeset	386	"entries (balance l k v r) = entries l @ (k, v) # entries r"
e2bc7f8d8d51 restructured RBT theory haftmann parents: 35534 diff changeset	387	by (induct l k v r rule: balance.induct) auto
26192 52617dca8386 new theory of red-black trees, an efficient implementation of finite maps. krauss parents: diff changeset	388
35550 e2bc7f8d8d51 restructured RBT theory haftmann parents: 35534 diff changeset	389	lemma keys_balance [simp]:
e2bc7f8d8d51 restructured RBT theory haftmann parents: 35534 diff changeset	390	"keys (balance l k v r) = keys l @ k # keys r"
e2bc7f8d8d51 restructured RBT theory haftmann parents: 35534 diff changeset	391	by (simp add: keys_def)
e2bc7f8d8d51 restructured RBT theory haftmann parents: 35534 diff changeset	392
e2bc7f8d8d51 restructured RBT theory haftmann parents: 35534 diff changeset	393	lemma balance_in_tree:
e2bc7f8d8d51 restructured RBT theory haftmann parents: 35534 diff changeset	394	"entry_in_tree k x (balance l v y r) \<longleftrightarrow> entry_in_tree k x l \<or> k = v \<and> x = y \<or> entry_in_tree k x r"
e2bc7f8d8d51 restructured RBT theory haftmann parents: 35534 diff changeset	395	by (auto simp add: keys_def)
26192 52617dca8386 new theory of red-black trees, an efficient implementation of finite maps. krauss parents: diff changeset	396
35534 14d8d72f8b1f more explicit naming scheme haftmann parents: 32245 diff changeset	397	lemma lookup_balance[simp]:
26192 52617dca8386 new theory of red-black trees, an efficient implementation of finite maps. krauss parents: diff changeset	398	fixes k :: "'a::linorder"
35534 14d8d72f8b1f more explicit naming scheme haftmann parents: 32245 diff changeset	399	assumes "sorted l" "sorted r" "l \|\<guillemotleft> k" "k \<guillemotleft>\| r"
14d8d72f8b1f more explicit naming scheme haftmann parents: 32245 diff changeset	400	shows "lookup (balance l k v r) x = lookup (Branch B l k v r) x"
35550 e2bc7f8d8d51 restructured RBT theory haftmann parents: 35534 diff changeset	401	by (rule lookup_from_in_tree) (auto simp:assms balance_in_tree balance_sorted)
26192 52617dca8386 new theory of red-black trees, an efficient implementation of finite maps. krauss parents: diff changeset	402
52617dca8386 new theory of red-black trees, an efficient implementation of finite maps. krauss parents: diff changeset	403	primrec paint :: "color \<Rightarrow> ('a,'b) rbt \<Rightarrow> ('a,'b) rbt"
52617dca8386 new theory of red-black trees, an efficient implementation of finite maps. krauss parents: diff changeset	404	where
52617dca8386 new theory of red-black trees, an efficient implementation of finite maps. krauss parents: diff changeset	405	"paint c Empty = Empty"
35534 14d8d72f8b1f more explicit naming scheme haftmann parents: 32245 diff changeset	406	\| "paint c (Branch _ l k v r) = Branch c l k v r"
26192 52617dca8386 new theory of red-black trees, an efficient implementation of finite maps. krauss parents: diff changeset	407
52617dca8386 new theory of red-black trees, an efficient implementation of finite maps. krauss parents: diff changeset	408	lemma paint_inv1l[simp]: "inv1l t \<Longrightarrow> inv1l (paint c t)" by (cases t) auto
52617dca8386 new theory of red-black trees, an efficient implementation of finite maps. krauss parents: diff changeset	409	lemma paint_inv1[simp]: "inv1l t \<Longrightarrow> inv1 (paint B t)" by (cases t) auto
52617dca8386 new theory of red-black trees, an efficient implementation of finite maps. krauss parents: diff changeset	410	lemma paint_inv2[simp]: "inv2 t \<Longrightarrow> inv2 (paint c t)" by (cases t) auto
35534 14d8d72f8b1f more explicit naming scheme haftmann parents: 32245 diff changeset	411	lemma paint_color_of[simp]: "color_of (paint B t) = B" by (cases t) auto
14d8d72f8b1f more explicit naming scheme haftmann parents: 32245 diff changeset	412	lemma paint_sorted[simp]: "sorted t \<Longrightarrow> sorted (paint c t)" by (cases t) auto
35550 e2bc7f8d8d51 restructured RBT theory haftmann parents: 35534 diff changeset	413	lemma paint_in_tree[simp]: "entry_in_tree k x (paint c t) = entry_in_tree k x t" by (cases t) auto
35534 14d8d72f8b1f more explicit naming scheme haftmann parents: 32245 diff changeset	414	lemma paint_lookup[simp]: "lookup (paint c t) = lookup t" by (rule ext) (cases t, auto)
14d8d72f8b1f more explicit naming scheme haftmann parents: 32245 diff changeset	415	lemma paint_tree_greater[simp]: "(v \<guillemotleft>\| paint c t) = (v \<guillemotleft>\| t)" by (cases t) auto
14d8d72f8b1f more explicit naming scheme haftmann parents: 32245 diff changeset	416	lemma paint_tree_less[simp]: "(paint c t \|\<guillemotleft> v) = (t \|\<guillemotleft> v)" by (cases t) auto
26192 52617dca8386 new theory of red-black trees, an efficient implementation of finite maps. krauss parents: diff changeset	417
52617dca8386 new theory of red-black trees, an efficient implementation of finite maps. krauss parents: diff changeset	418	fun
52617dca8386 new theory of red-black trees, an efficient implementation of finite maps. krauss parents: diff changeset	419	ins :: "('a\<Colon>linorder \<Rightarrow> 'b \<Rightarrow> 'b \<Rightarrow> 'b) \<Rightarrow> 'a \<Rightarrow> 'b \<Rightarrow> ('a,'b) rbt \<Rightarrow> ('a,'b) rbt"
52617dca8386 new theory of red-black trees, an efficient implementation of finite maps. krauss parents: diff changeset	420	where
35534 14d8d72f8b1f more explicit naming scheme haftmann parents: 32245 diff changeset	421	"ins f k v Empty = Branch R Empty k v Empty" \|
14d8d72f8b1f more explicit naming scheme haftmann parents: 32245 diff changeset	422	"ins f k v (Branch B l x y r) = (if k < x then balance (ins f k v l) x y r
26192 52617dca8386 new theory of red-black trees, an efficient implementation of finite maps. krauss parents: diff changeset	423	else if k > x then balance l x y (ins f k v r)
35534 14d8d72f8b1f more explicit naming scheme haftmann parents: 32245 diff changeset	424	else Branch B l x (f k y v) r)" \|
14d8d72f8b1f more explicit naming scheme haftmann parents: 32245 diff changeset	425	"ins f k v (Branch R l x y r) = (if k < x then Branch R (ins f k v l) x y r
14d8d72f8b1f more explicit naming scheme haftmann parents: 32245 diff changeset	426	else if k > x then Branch R l x y (ins f k v r)
14d8d72f8b1f more explicit naming scheme haftmann parents: 32245 diff changeset	427	else Branch R l x (f k y v) r)"
26192 52617dca8386 new theory of red-black trees, an efficient implementation of finite maps. krauss parents: diff changeset	428
52617dca8386 new theory of red-black trees, an efficient implementation of finite maps. krauss parents: diff changeset	429	lemma ins_inv1_inv2:
52617dca8386 new theory of red-black trees, an efficient implementation of finite maps. krauss parents: diff changeset	430	assumes "inv1 t" "inv2 t"
35534 14d8d72f8b1f more explicit naming scheme haftmann parents: 32245 diff changeset	431	shows "inv2 (ins f k x t)" "bheight (ins f k x t) = bheight t"
14d8d72f8b1f more explicit naming scheme haftmann parents: 32245 diff changeset	432	"color_of t = B \<Longrightarrow> inv1 (ins f k x t)" "inv1l (ins f k x t)"
26192 52617dca8386 new theory of red-black trees, an efficient implementation of finite maps. krauss parents: diff changeset	433	using assms
35534 14d8d72f8b1f more explicit naming scheme haftmann parents: 32245 diff changeset	434	by (induct f k x t rule: ins.induct) (auto simp: balance_inv1 balance_inv2 balance_bheight)
26192 52617dca8386 new theory of red-black trees, an efficient implementation of finite maps. krauss parents: diff changeset	435
35534 14d8d72f8b1f more explicit naming scheme haftmann parents: 32245 diff changeset	436	lemma ins_tree_greater[simp]: "(v \<guillemotleft>\| ins f k x t) = (v \<guillemotleft>\| t \<and> k > v)"
26192 52617dca8386 new theory of red-black trees, an efficient implementation of finite maps. krauss parents: diff changeset	437	by (induct f k x t rule: ins.induct) auto
35534 14d8d72f8b1f more explicit naming scheme haftmann parents: 32245 diff changeset	438	lemma ins_tree_less[simp]: "(ins f k x t \|\<guillemotleft> v) = (t \|\<guillemotleft> v \<and> k < v)"
26192 52617dca8386 new theory of red-black trees, an efficient implementation of finite maps. krauss parents: diff changeset	439	by (induct f k x t rule: ins.induct) auto
35534 14d8d72f8b1f more explicit naming scheme haftmann parents: 32245 diff changeset	440	lemma ins_sorted[simp]: "sorted t \<Longrightarrow> sorted (ins f k x t)"
14d8d72f8b1f more explicit naming scheme haftmann parents: 32245 diff changeset	441	by (induct f k x t rule: ins.induct) (auto simp: balance_sorted)
26192 52617dca8386 new theory of red-black trees, an efficient implementation of finite maps. krauss parents: diff changeset	442
35550 e2bc7f8d8d51 restructured RBT theory haftmann parents: 35534 diff changeset	443	lemma keys_ins: "set (keys (ins f k v t)) = { k } \<union> set (keys t)"
e2bc7f8d8d51 restructured RBT theory haftmann parents: 35534 diff changeset	444	by (induct f k v t rule: ins.induct) auto
26192 52617dca8386 new theory of red-black trees, an efficient implementation of finite maps. krauss parents: diff changeset	445
35534 14d8d72f8b1f more explicit naming scheme haftmann parents: 32245 diff changeset	446	lemma lookup_ins:
26192 52617dca8386 new theory of red-black trees, an efficient implementation of finite maps. krauss parents: diff changeset	447	fixes k :: "'a::linorder"
35534 14d8d72f8b1f more explicit naming scheme haftmann parents: 32245 diff changeset	448	assumes "sorted t"
14d8d72f8b1f more explicit naming scheme haftmann parents: 32245 diff changeset	449	shows "lookup (ins f k v t) x = ((lookup t)(k \|-> case lookup t k of None \<Rightarrow> v
26192 52617dca8386 new theory of red-black trees, an efficient implementation of finite maps. krauss parents: diff changeset	450	\| Some w \<Rightarrow> f k w v)) x"
52617dca8386 new theory of red-black trees, an efficient implementation of finite maps. krauss parents: diff changeset	451	using assms by (induct f k v t rule: ins.induct) auto
52617dca8386 new theory of red-black trees, an efficient implementation of finite maps. krauss parents: diff changeset	452
52617dca8386 new theory of red-black trees, an efficient implementation of finite maps. krauss parents: diff changeset	453	definition
35550 e2bc7f8d8d51 restructured RBT theory haftmann parents: 35534 diff changeset	454	insert_with_key :: "('a\<Colon>linorder \<Rightarrow> 'b \<Rightarrow> 'b \<Rightarrow> 'b) \<Rightarrow> 'a \<Rightarrow> 'b \<Rightarrow> ('a,'b) rbt \<Rightarrow> ('a,'b) rbt"
26192 52617dca8386 new theory of red-black trees, an efficient implementation of finite maps. krauss parents: diff changeset	455	where
35550 e2bc7f8d8d51 restructured RBT theory haftmann parents: 35534 diff changeset	456	"insert_with_key f k v t = paint B (ins f k v t)"
26192 52617dca8386 new theory of red-black trees, an efficient implementation of finite maps. krauss parents: diff changeset	457
35550 e2bc7f8d8d51 restructured RBT theory haftmann parents: 35534 diff changeset	458	lemma insertwk_sorted: "sorted t \<Longrightarrow> sorted (insert_with_key f k x t)"
e2bc7f8d8d51 restructured RBT theory haftmann parents: 35534 diff changeset	459	by (auto simp: insert_with_key_def)
26192 52617dca8386 new theory of red-black trees, an efficient implementation of finite maps. krauss parents: diff changeset	460
35534 14d8d72f8b1f more explicit naming scheme haftmann parents: 32245 diff changeset	461	theorem insertwk_is_rbt:
14d8d72f8b1f more explicit naming scheme haftmann parents: 32245 diff changeset	462	assumes inv: "is_rbt t"
35550 e2bc7f8d8d51 restructured RBT theory haftmann parents: 35534 diff changeset	463	shows "is_rbt (insert_with_key f k x t)"
26192 52617dca8386 new theory of red-black trees, an efficient implementation of finite maps. krauss parents: diff changeset	464	using assms
35550 e2bc7f8d8d51 restructured RBT theory haftmann parents: 35534 diff changeset	465	unfolding insert_with_key_def is_rbt_def
26192 52617dca8386 new theory of red-black trees, an efficient implementation of finite maps. krauss parents: diff changeset	466	by (auto simp: ins_inv1_inv2)
52617dca8386 new theory of red-black trees, an efficient implementation of finite maps. krauss parents: diff changeset	467
35534 14d8d72f8b1f more explicit naming scheme haftmann parents: 32245 diff changeset	468	lemma lookup_insertwk:
14d8d72f8b1f more explicit naming scheme haftmann parents: 32245 diff changeset	469	assumes "sorted t"
35550 e2bc7f8d8d51 restructured RBT theory haftmann parents: 35534 diff changeset	470	shows "lookup (insert_with_key f k v t) x = ((lookup t)(k \|-> case lookup t k of None \<Rightarrow> v
26192 52617dca8386 new theory of red-black trees, an efficient implementation of finite maps. krauss parents: diff changeset	471	\| Some w \<Rightarrow> f k w v)) x"
35550 e2bc7f8d8d51 restructured RBT theory haftmann parents: 35534 diff changeset	472	unfolding insert_with_key_def using assms
35534 14d8d72f8b1f more explicit naming scheme haftmann parents: 32245 diff changeset	473	by (simp add:lookup_ins)
26192 52617dca8386 new theory of red-black trees, an efficient implementation of finite maps. krauss parents: diff changeset	474
52617dca8386 new theory of red-black trees, an efficient implementation of finite maps. krauss parents: diff changeset	475	definition
35550 e2bc7f8d8d51 restructured RBT theory haftmann parents: 35534 diff changeset	476	insertw_def: "insert_with f = insert_with_key (\<lambda>_. f)"
26192 52617dca8386 new theory of red-black trees, an efficient implementation of finite maps. krauss parents: diff changeset	477
35550 e2bc7f8d8d51 restructured RBT theory haftmann parents: 35534 diff changeset	478	lemma insertw_sorted: "sorted t \<Longrightarrow> sorted (insert_with f k v t)" by (simp add: insertwk_sorted insertw_def)
e2bc7f8d8d51 restructured RBT theory haftmann parents: 35534 diff changeset	479	theorem insertw_is_rbt: "is_rbt t \<Longrightarrow> is_rbt (insert_with f k v t)" by (simp add: insertwk_is_rbt insertw_def)
26192 52617dca8386 new theory of red-black trees, an efficient implementation of finite maps. krauss parents: diff changeset	480
35534 14d8d72f8b1f more explicit naming scheme haftmann parents: 32245 diff changeset	481	lemma lookup_insertw:
14d8d72f8b1f more explicit naming scheme haftmann parents: 32245 diff changeset	482	assumes "is_rbt t"
35550 e2bc7f8d8d51 restructured RBT theory haftmann parents: 35534 diff changeset	483	shows "lookup (insert_with f k v t) = (lookup t)(k \<mapsto> (if k:dom (lookup t) then f (the (lookup t k)) v else v))"
26192 52617dca8386 new theory of red-black trees, an efficient implementation of finite maps. krauss parents: diff changeset	484	using assms
52617dca8386 new theory of red-black trees, an efficient implementation of finite maps. krauss parents: diff changeset	485	unfolding insertw_def
35534 14d8d72f8b1f more explicit naming scheme haftmann parents: 32245 diff changeset	486	by (rule_tac ext) (cases "lookup t k", auto simp:lookup_insertwk dom_def)
26192 52617dca8386 new theory of red-black trees, an efficient implementation of finite maps. krauss parents: diff changeset	487
35534 14d8d72f8b1f more explicit naming scheme haftmann parents: 32245 diff changeset	488	definition insert :: "'a\<Colon>linorder \<Rightarrow> 'b \<Rightarrow> ('a, 'b) rbt \<Rightarrow> ('a, 'b) rbt" where
35550 e2bc7f8d8d51 restructured RBT theory haftmann parents: 35534 diff changeset	489	"insert = insert_with_key (\<lambda>_ _ nv. nv)"
26192 52617dca8386 new theory of red-black trees, an efficient implementation of finite maps. krauss parents: diff changeset	490
35534 14d8d72f8b1f more explicit naming scheme haftmann parents: 32245 diff changeset	491	lemma insert_sorted: "sorted t \<Longrightarrow> sorted (insert k v t)" by (simp add: insertwk_sorted insert_def)
35550 e2bc7f8d8d51 restructured RBT theory haftmann parents: 35534 diff changeset	492	theorem insert_is_rbt [simp]: "is_rbt t \<Longrightarrow> is_rbt (insert k v t)" by (simp add: insertwk_is_rbt insert_def)
26192 52617dca8386 new theory of red-black trees, an efficient implementation of finite maps. krauss parents: diff changeset	493
35534 14d8d72f8b1f more explicit naming scheme haftmann parents: 32245 diff changeset	494	lemma lookup_insert:
14d8d72f8b1f more explicit naming scheme haftmann parents: 32245 diff changeset	495	assumes "is_rbt t"
14d8d72f8b1f more explicit naming scheme haftmann parents: 32245 diff changeset	496	shows "lookup (insert k v t) = (lookup t)(k\<mapsto>v)"
14d8d72f8b1f more explicit naming scheme haftmann parents: 32245 diff changeset	497	unfolding insert_def
26192 52617dca8386 new theory of red-black trees, an efficient implementation of finite maps. krauss parents: diff changeset	498	using assms
35534 14d8d72f8b1f more explicit naming scheme haftmann parents: 32245 diff changeset	499	by (rule_tac ext) (simp add: lookup_insertwk split:option.split)
26192 52617dca8386 new theory of red-black trees, an efficient implementation of finite maps. krauss parents: diff changeset	500
52617dca8386 new theory of red-black trees, an efficient implementation of finite maps. krauss parents: diff changeset	501
52617dca8386 new theory of red-black trees, an efficient implementation of finite maps. krauss parents: diff changeset	502	subsection {* Deletion *}
52617dca8386 new theory of red-black trees, an efficient implementation of finite maps. krauss parents: diff changeset	503
35534 14d8d72f8b1f more explicit naming scheme haftmann parents: 32245 diff changeset	504	lemma bheight_paintR'[simp]: "color_of t = B \<Longrightarrow> bheight (paint R t) = bheight t - 1"
26192 52617dca8386 new theory of red-black trees, an efficient implementation of finite maps. krauss parents: diff changeset	505	by (cases t rule: rbt_cases) auto
52617dca8386 new theory of red-black trees, an efficient implementation of finite maps. krauss parents: diff changeset	506
52617dca8386 new theory of red-black trees, an efficient implementation of finite maps. krauss parents: diff changeset	507	fun
35550 e2bc7f8d8d51 restructured RBT theory haftmann parents: 35534 diff changeset	508	balance_left :: "('a,'b) rbt \<Rightarrow> 'a \<Rightarrow> 'b \<Rightarrow> ('a,'b) rbt \<Rightarrow> ('a,'b) rbt"
26192 52617dca8386 new theory of red-black trees, an efficient implementation of finite maps. krauss parents: diff changeset	509	where
35550 e2bc7f8d8d51 restructured RBT theory haftmann parents: 35534 diff changeset	510	"balance_left (Branch R a k x b) s y c = Branch R (Branch B a k x b) s y c" \|
e2bc7f8d8d51 restructured RBT theory haftmann parents: 35534 diff changeset	511	"balance_left bl k x (Branch B a s y b) = balance bl k x (Branch R a s y b)" \|
e2bc7f8d8d51 restructured RBT theory haftmann parents: 35534 diff changeset	512	"balance_left bl k x (Branch R (Branch B a s y b) t z c) = Branch R (Branch B bl k x a) s y (balance b t z (paint R c))" \|
e2bc7f8d8d51 restructured RBT theory haftmann parents: 35534 diff changeset	513	"balance_left t k x s = Empty"
26192 52617dca8386 new theory of red-black trees, an efficient implementation of finite maps. krauss parents: diff changeset	514
35550 e2bc7f8d8d51 restructured RBT theory haftmann parents: 35534 diff changeset	515	lemma balance_left_inv2_with_inv1:
35534 14d8d72f8b1f more explicit naming scheme haftmann parents: 32245 diff changeset	516	assumes "inv2 lt" "inv2 rt" "bheight lt + 1 = bheight rt" "inv1 rt"
35550 e2bc7f8d8d51 restructured RBT theory haftmann parents: 35534 diff changeset	517	shows "bheight (balance_left lt k v rt) = bheight lt + 1"
e2bc7f8d8d51 restructured RBT theory haftmann parents: 35534 diff changeset	518	and "inv2 (balance_left lt k v rt)"
26192 52617dca8386 new theory of red-black trees, an efficient implementation of finite maps. krauss parents: diff changeset	519	using assms
35550 e2bc7f8d8d51 restructured RBT theory haftmann parents: 35534 diff changeset	520	by (induct lt k v rt rule: balance_left.induct) (auto simp: balance_inv2 balance_bheight)
26192 52617dca8386 new theory of red-black trees, an efficient implementation of finite maps. krauss parents: diff changeset	521
35550 e2bc7f8d8d51 restructured RBT theory haftmann parents: 35534 diff changeset	522	lemma balance_left_inv2_app:
35534 14d8d72f8b1f more explicit naming scheme haftmann parents: 32245 diff changeset	523	assumes "inv2 lt" "inv2 rt" "bheight lt + 1 = bheight rt" "color_of rt = B"
35550 e2bc7f8d8d51 restructured RBT theory haftmann parents: 35534 diff changeset	524	shows "inv2 (balance_left lt k v rt)"
e2bc7f8d8d51 restructured RBT theory haftmann parents: 35534 diff changeset	525	"bheight (balance_left lt k v rt) = bheight rt"
26192 52617dca8386 new theory of red-black trees, an efficient implementation of finite maps. krauss parents: diff changeset	526	using assms
35550 e2bc7f8d8d51 restructured RBT theory haftmann parents: 35534 diff changeset	527	by (induct lt k v rt rule: balance_left.induct) (auto simp add: balance_inv2 balance_bheight)+
26192 52617dca8386 new theory of red-black trees, an efficient implementation of finite maps. krauss parents: diff changeset	528
35550 e2bc7f8d8d51 restructured RBT theory haftmann parents: 35534 diff changeset	529	lemma balance_left_inv1: "\<lbrakk>inv1l a; inv1 b; color_of b = B\<rbrakk> \<Longrightarrow> inv1 (balance_left a k x b)"
e2bc7f8d8d51 restructured RBT theory haftmann parents: 35534 diff changeset	530	by (induct a k x b rule: balance_left.induct) (simp add: balance_inv1)+
26192 52617dca8386 new theory of red-black trees, an efficient implementation of finite maps. krauss parents: diff changeset	531
35550 e2bc7f8d8d51 restructured RBT theory haftmann parents: 35534 diff changeset	532	lemma balance_left_inv1l: "\<lbrakk> inv1l lt; inv1 rt \<rbrakk> \<Longrightarrow> inv1l (balance_left lt k x rt)"
e2bc7f8d8d51 restructured RBT theory haftmann parents: 35534 diff changeset	533	by (induct lt k x rt rule: balance_left.induct) (auto simp: balance_inv1)
26192 52617dca8386 new theory of red-black trees, an efficient implementation of finite maps. krauss parents: diff changeset	534
35550 e2bc7f8d8d51 restructured RBT theory haftmann parents: 35534 diff changeset	535	lemma balance_left_sorted: "\<lbrakk> sorted l; sorted r; tree_less k l; tree_greater k r \<rbrakk> \<Longrightarrow> sorted (balance_left l k v r)"
e2bc7f8d8d51 restructured RBT theory haftmann parents: 35534 diff changeset	536	apply (induct l k v r rule: balance_left.induct)
35534 14d8d72f8b1f more explicit naming scheme haftmann parents: 32245 diff changeset	537	apply (auto simp: balance_sorted)
14d8d72f8b1f more explicit naming scheme haftmann parents: 32245 diff changeset	538	apply (unfold tree_greater_prop tree_less_prop)
26192 52617dca8386 new theory of red-black trees, an efficient implementation of finite maps. krauss parents: diff changeset	539	by force+
52617dca8386 new theory of red-black trees, an efficient implementation of finite maps. krauss parents: diff changeset	540
35550 e2bc7f8d8d51 restructured RBT theory haftmann parents: 35534 diff changeset	541	lemma balance_left_tree_greater:
26192 52617dca8386 new theory of red-black trees, an efficient implementation of finite maps. krauss parents: diff changeset	542	fixes k :: "'a::order"
52617dca8386 new theory of red-black trees, an efficient implementation of finite maps. krauss parents: diff changeset	543	assumes "k \<guillemotleft>\| a" "k \<guillemotleft>\| b" "k < x"
35550 e2bc7f8d8d51 restructured RBT theory haftmann parents: 35534 diff changeset	544	shows "k \<guillemotleft>\| balance_left a x t b"
26192 52617dca8386 new theory of red-black trees, an efficient implementation of finite maps. krauss parents: diff changeset	545	using assms
35550 e2bc7f8d8d51 restructured RBT theory haftmann parents: 35534 diff changeset	546	by (induct a x t b rule: balance_left.induct) auto
26192 52617dca8386 new theory of red-black trees, an efficient implementation of finite maps. krauss parents: diff changeset	547
35550 e2bc7f8d8d51 restructured RBT theory haftmann parents: 35534 diff changeset	548	lemma balance_left_tree_less:
26192 52617dca8386 new theory of red-black trees, an efficient implementation of finite maps. krauss parents: diff changeset	549	fixes k :: "'a::order"
52617dca8386 new theory of red-black trees, an efficient implementation of finite maps. krauss parents: diff changeset	550	assumes "a \|\<guillemotleft> k" "b \|\<guillemotleft> k" "x < k"
35550 e2bc7f8d8d51 restructured RBT theory haftmann parents: 35534 diff changeset	551	shows "balance_left a x t b \|\<guillemotleft> k"
26192 52617dca8386 new theory of red-black trees, an efficient implementation of finite maps. krauss parents: diff changeset	552	using assms
35550 e2bc7f8d8d51 restructured RBT theory haftmann parents: 35534 diff changeset	553	by (induct a x t b rule: balance_left.induct) auto
26192 52617dca8386 new theory of red-black trees, an efficient implementation of finite maps. krauss parents: diff changeset	554
35550 e2bc7f8d8d51 restructured RBT theory haftmann parents: 35534 diff changeset	555	lemma balance_left_in_tree:
35534 14d8d72f8b1f more explicit naming scheme haftmann parents: 32245 diff changeset	556	assumes "inv1l l" "inv1 r" "bheight l + 1 = bheight r"
35550 e2bc7f8d8d51 restructured RBT theory haftmann parents: 35534 diff changeset	557	shows "entry_in_tree k v (balance_left l a b r) = (entry_in_tree k v l \<or> k = a \<and> v = b \<or> entry_in_tree k v r)"
26192 52617dca8386 new theory of red-black trees, an efficient implementation of finite maps. krauss parents: diff changeset	558	using assms
35550 e2bc7f8d8d51 restructured RBT theory haftmann parents: 35534 diff changeset	559	by (induct l k v r rule: balance_left.induct) (auto simp: balance_in_tree)
26192 52617dca8386 new theory of red-black trees, an efficient implementation of finite maps. krauss parents: diff changeset	560
52617dca8386 new theory of red-black trees, an efficient implementation of finite maps. krauss parents: diff changeset	561	fun
35550 e2bc7f8d8d51 restructured RBT theory haftmann parents: 35534 diff changeset	562	balance_right :: "('a,'b) rbt \<Rightarrow> 'a \<Rightarrow> 'b \<Rightarrow> ('a,'b) rbt \<Rightarrow> ('a,'b) rbt"
26192 52617dca8386 new theory of red-black trees, an efficient implementation of finite maps. krauss parents: diff changeset	563	where
35550 e2bc7f8d8d51 restructured RBT theory haftmann parents: 35534 diff changeset	564	"balance_right a k x (Branch R b s y c) = Branch R a k x (Branch B b s y c)" \|
e2bc7f8d8d51 restructured RBT theory haftmann parents: 35534 diff changeset	565	"balance_right (Branch B a k x b) s y bl = balance (Branch R a k x b) s y bl" \|
e2bc7f8d8d51 restructured RBT theory haftmann parents: 35534 diff changeset	566	"balance_right (Branch R a k x (Branch B b s y c)) t z bl = Branch R (balance (paint R a) k x b) s y (Branch B c t z bl)" \|
e2bc7f8d8d51 restructured RBT theory haftmann parents: 35534 diff changeset	567	"balance_right t k x s = Empty"
26192 52617dca8386 new theory of red-black trees, an efficient implementation of finite maps. krauss parents: diff changeset	568
35550 e2bc7f8d8d51 restructured RBT theory haftmann parents: 35534 diff changeset	569	lemma balance_right_inv2_with_inv1:
35534 14d8d72f8b1f more explicit naming scheme haftmann parents: 32245 diff changeset	570	assumes "inv2 lt" "inv2 rt" "bheight lt = bheight rt + 1" "inv1 lt"
35550 e2bc7f8d8d51 restructured RBT theory haftmann parents: 35534 diff changeset	571	shows "inv2 (balance_right lt k v rt) \<and> bheight (balance_right lt k v rt) = bheight lt"
26192 52617dca8386 new theory of red-black trees, an efficient implementation of finite maps. krauss parents: diff changeset	572	using assms
35550 e2bc7f8d8d51 restructured RBT theory haftmann parents: 35534 diff changeset	573	by (induct lt k v rt rule: balance_right.induct) (auto simp: balance_inv2 balance_bheight)
26192 52617dca8386 new theory of red-black trees, an efficient implementation of finite maps. krauss parents: diff changeset	574
35550 e2bc7f8d8d51 restructured RBT theory haftmann parents: 35534 diff changeset	575	lemma balance_right_inv1: "\<lbrakk>inv1 a; inv1l b; color_of a = B\<rbrakk> \<Longrightarrow> inv1 (balance_right a k x b)"
e2bc7f8d8d51 restructured RBT theory haftmann parents: 35534 diff changeset	576	by (induct a k x b rule: balance_right.induct) (simp add: balance_inv1)+
26192 52617dca8386 new theory of red-black trees, an efficient implementation of finite maps. krauss parents: diff changeset	577
35550 e2bc7f8d8d51 restructured RBT theory haftmann parents: 35534 diff changeset	578	lemma balance_right_inv1l: "\<lbrakk> inv1 lt; inv1l rt \<rbrakk> \<Longrightarrow>inv1l (balance_right lt k x rt)"
e2bc7f8d8d51 restructured RBT theory haftmann parents: 35534 diff changeset	579	by (induct lt k x rt rule: balance_right.induct) (auto simp: balance_inv1)
26192 52617dca8386 new theory of red-black trees, an efficient implementation of finite maps. krauss parents: diff changeset	580
35550 e2bc7f8d8d51 restructured RBT theory haftmann parents: 35534 diff changeset	581	lemma balance_right_sorted: "\<lbrakk> sorted l; sorted r; tree_less k l; tree_greater k r \<rbrakk> \<Longrightarrow> sorted (balance_right l k v r)"
e2bc7f8d8d51 restructured RBT theory haftmann parents: 35534 diff changeset	582	apply (induct l k v r rule: balance_right.induct)
35534 14d8d72f8b1f more explicit naming scheme haftmann parents: 32245 diff changeset	583	apply (auto simp:balance_sorted)
14d8d72f8b1f more explicit naming scheme haftmann parents: 32245 diff changeset	584	apply (unfold tree_less_prop tree_greater_prop)
26192 52617dca8386 new theory of red-black trees, an efficient implementation of finite maps. krauss parents: diff changeset	585	by force+
52617dca8386 new theory of red-black trees, an efficient implementation of finite maps. krauss parents: diff changeset	586
35550 e2bc7f8d8d51 restructured RBT theory haftmann parents: 35534 diff changeset	587	lemma balance_right_tree_greater:
26192 52617dca8386 new theory of red-black trees, an efficient implementation of finite maps. krauss parents: diff changeset	588	fixes k :: "'a::order"
52617dca8386 new theory of red-black trees, an efficient implementation of finite maps. krauss parents: diff changeset	589	assumes "k \<guillemotleft>\| a" "k \<guillemotleft>\| b" "k < x"
35550 e2bc7f8d8d51 restructured RBT theory haftmann parents: 35534 diff changeset	590	shows "k \<guillemotleft>\| balance_right a x t b"
e2bc7f8d8d51 restructured RBT theory haftmann parents: 35534 diff changeset	591	using assms by (induct a x t b rule: balance_right.induct) auto
26192 52617dca8386 new theory of red-black trees, an efficient implementation of finite maps. krauss parents: diff changeset	592
35550 e2bc7f8d8d51 restructured RBT theory haftmann parents: 35534 diff changeset	593	lemma balance_right_tree_less:
26192 52617dca8386 new theory of red-black trees, an efficient implementation of finite maps. krauss parents: diff changeset	594	fixes k :: "'a::order"
52617dca8386 new theory of red-black trees, an efficient implementation of finite maps. krauss parents: diff changeset	595	assumes "a \|\<guillemotleft> k" "b \|\<guillemotleft> k" "x < k"
35550 e2bc7f8d8d51 restructured RBT theory haftmann parents: 35534 diff changeset	596	shows "balance_right a x t b \|\<guillemotleft> k"
e2bc7f8d8d51 restructured RBT theory haftmann parents: 35534 diff changeset	597	using assms by (induct a x t b rule: balance_right.induct) auto
26192 52617dca8386 new theory of red-black trees, an efficient implementation of finite maps. krauss parents: diff changeset	598
35550 e2bc7f8d8d51 restructured RBT theory haftmann parents: 35534 diff changeset	599	lemma balance_right_in_tree:
35534 14d8d72f8b1f more explicit naming scheme haftmann parents: 32245 diff changeset	600	assumes "inv1 l" "inv1l r" "bheight l = bheight r + 1" "inv2 l" "inv2 r"
35550 e2bc7f8d8d51 restructured RBT theory haftmann parents: 35534 diff changeset	601	shows "entry_in_tree x y (balance_right l k v r) = (entry_in_tree x y l \<or> x = k \<and> y = v \<or> entry_in_tree x y r)"
e2bc7f8d8d51 restructured RBT theory haftmann parents: 35534 diff changeset	602	using assms by (induct l k v r rule: balance_right.induct) (auto simp: balance_in_tree)
26192 52617dca8386 new theory of red-black trees, an efficient implementation of finite maps. krauss parents: diff changeset	603
52617dca8386 new theory of red-black trees, an efficient implementation of finite maps. krauss parents: diff changeset	604	fun
35550 e2bc7f8d8d51 restructured RBT theory haftmann parents: 35534 diff changeset	605	combine :: "('a,'b) rbt \<Rightarrow> ('a,'b) rbt \<Rightarrow> ('a,'b) rbt"
26192 52617dca8386 new theory of red-black trees, an efficient implementation of finite maps. krauss parents: diff changeset	606	where
35550 e2bc7f8d8d51 restructured RBT theory haftmann parents: 35534 diff changeset	607	"combine Empty x = x"
e2bc7f8d8d51 restructured RBT theory haftmann parents: 35534 diff changeset	608	\| "combine x Empty = x"
e2bc7f8d8d51 restructured RBT theory haftmann parents: 35534 diff changeset	609	\| "combine (Branch R a k x b) (Branch R c s y d) = (case (combine b c) of
35534 14d8d72f8b1f more explicit naming scheme haftmann parents: 32245 diff changeset	610	Branch R b2 t z c2 \<Rightarrow> (Branch R (Branch R a k x b2) t z (Branch R c2 s y d)) \|
14d8d72f8b1f more explicit naming scheme haftmann parents: 32245 diff changeset	611	bc \<Rightarrow> Branch R a k x (Branch R bc s y d))"
35550 e2bc7f8d8d51 restructured RBT theory haftmann parents: 35534 diff changeset	612	\| "combine (Branch B a k x b) (Branch B c s y d) = (case (combine b c) of
35534 14d8d72f8b1f more explicit naming scheme haftmann parents: 32245 diff changeset	613	Branch R b2 t z c2 \<Rightarrow> Branch R (Branch B a k x b2) t z (Branch B c2 s y d) \|
35550 e2bc7f8d8d51 restructured RBT theory haftmann parents: 35534 diff changeset	614	bc \<Rightarrow> balance_left a k x (Branch B bc s y d))"
e2bc7f8d8d51 restructured RBT theory haftmann parents: 35534 diff changeset	615	\| "combine a (Branch R b k x c) = Branch R (combine a b) k x c"
e2bc7f8d8d51 restructured RBT theory haftmann parents: 35534 diff changeset	616	\| "combine (Branch R a k x b) c = Branch R a k x (combine b c)"
26192 52617dca8386 new theory of red-black trees, an efficient implementation of finite maps. krauss parents: diff changeset	617
35550 e2bc7f8d8d51 restructured RBT theory haftmann parents: 35534 diff changeset	618	lemma combine_inv2:
35534 14d8d72f8b1f more explicit naming scheme haftmann parents: 32245 diff changeset	619	assumes "inv2 lt" "inv2 rt" "bheight lt = bheight rt"
35550 e2bc7f8d8d51 restructured RBT theory haftmann parents: 35534 diff changeset	620	shows "bheight (combine lt rt) = bheight lt" "inv2 (combine lt rt)"
26192 52617dca8386 new theory of red-black trees, an efficient implementation of finite maps. krauss parents: diff changeset	621	using assms
35550 e2bc7f8d8d51 restructured RBT theory haftmann parents: 35534 diff changeset	622	by (induct lt rt rule: combine.induct)
e2bc7f8d8d51 restructured RBT theory haftmann parents: 35534 diff changeset	623	(auto simp: balance_left_inv2_app split: rbt.splits color.splits)
26192 52617dca8386 new theory of red-black trees, an efficient implementation of finite maps. krauss parents: diff changeset	624
35550 e2bc7f8d8d51 restructured RBT theory haftmann parents: 35534 diff changeset	625	lemma combine_inv1:
26192 52617dca8386 new theory of red-black trees, an efficient implementation of finite maps. krauss parents: diff changeset	626	assumes "inv1 lt" "inv1 rt"
35550 e2bc7f8d8d51 restructured RBT theory haftmann parents: 35534 diff changeset	627	shows "color_of lt = B \<Longrightarrow> color_of rt = B \<Longrightarrow> inv1 (combine lt rt)"
e2bc7f8d8d51 restructured RBT theory haftmann parents: 35534 diff changeset	628	"inv1l (combine lt rt)"
26192 52617dca8386 new theory of red-black trees, an efficient implementation of finite maps. krauss parents: diff changeset	629	using assms
35550 e2bc7f8d8d51 restructured RBT theory haftmann parents: 35534 diff changeset	630	by (induct lt rt rule: combine.induct)
e2bc7f8d8d51 restructured RBT theory haftmann parents: 35534 diff changeset	631	(auto simp: balance_left_inv1 split: rbt.splits color.splits)
26192 52617dca8386 new theory of red-black trees, an efficient implementation of finite maps. krauss parents: diff changeset	632
35550 e2bc7f8d8d51 restructured RBT theory haftmann parents: 35534 diff changeset	633	lemma combine_tree_greater[simp]:
26192 52617dca8386 new theory of red-black trees, an efficient implementation of finite maps. krauss parents: diff changeset	634	fixes k :: "'a::linorder"
52617dca8386 new theory of red-black trees, an efficient implementation of finite maps. krauss parents: diff changeset	635	assumes "k \<guillemotleft>\| l" "k \<guillemotleft>\| r"
35550 e2bc7f8d8d51 restructured RBT theory haftmann parents: 35534 diff changeset	636	shows "k \<guillemotleft>\| combine l r"
26192 52617dca8386 new theory of red-black trees, an efficient implementation of finite maps. krauss parents: diff changeset	637	using assms
35550 e2bc7f8d8d51 restructured RBT theory haftmann parents: 35534 diff changeset	638	by (induct l r rule: combine.induct)
e2bc7f8d8d51 restructured RBT theory haftmann parents: 35534 diff changeset	639	(auto simp: balance_left_tree_greater split:rbt.splits color.splits)
26192 52617dca8386 new theory of red-black trees, an efficient implementation of finite maps. krauss parents: diff changeset	640
35550 e2bc7f8d8d51 restructured RBT theory haftmann parents: 35534 diff changeset	641	lemma combine_tree_less[simp]:
26192 52617dca8386 new theory of red-black trees, an efficient implementation of finite maps. krauss parents: diff changeset	642	fixes k :: "'a::linorder"
52617dca8386 new theory of red-black trees, an efficient implementation of finite maps. krauss parents: diff changeset	643	assumes "l \|\<guillemotleft> k" "r \|\<guillemotleft> k"
35550 e2bc7f8d8d51 restructured RBT theory haftmann parents: 35534 diff changeset	644	shows "combine l r \|\<guillemotleft> k"
26192 52617dca8386 new theory of red-black trees, an efficient implementation of finite maps. krauss parents: diff changeset	645	using assms
35550 e2bc7f8d8d51 restructured RBT theory haftmann parents: 35534 diff changeset	646	by (induct l r rule: combine.induct)
e2bc7f8d8d51 restructured RBT theory haftmann parents: 35534 diff changeset	647	(auto simp: balance_left_tree_less split:rbt.splits color.splits)
26192 52617dca8386 new theory of red-black trees, an efficient implementation of finite maps. krauss parents: diff changeset	648
35550 e2bc7f8d8d51 restructured RBT theory haftmann parents: 35534 diff changeset	649	lemma combine_sorted:
26192 52617dca8386 new theory of red-black trees, an efficient implementation of finite maps. krauss parents: diff changeset	650	fixes k :: "'a::linorder"
35534 14d8d72f8b1f more explicit naming scheme haftmann parents: 32245 diff changeset	651	assumes "sorted l" "sorted r" "l \|\<guillemotleft> k" "k \<guillemotleft>\| r"
35550 e2bc7f8d8d51 restructured RBT theory haftmann parents: 35534 diff changeset	652	shows "sorted (combine l r)"
e2bc7f8d8d51 restructured RBT theory haftmann parents: 35534 diff changeset	653	using assms proof (induct l r rule: combine.induct)
26192 52617dca8386 new theory of red-black trees, an efficient implementation of finite maps. krauss parents: diff changeset	654	case (3 a x v b c y w d)
52617dca8386 new theory of red-black trees, an efficient implementation of finite maps. krauss parents: diff changeset	655	hence ineqs: "a \|\<guillemotleft> x" "x \<guillemotleft>\| b" "b \|\<guillemotleft> k" "k \<guillemotleft>\| c" "c \|\<guillemotleft> y" "y \<guillemotleft>\| d"
52617dca8386 new theory of red-black trees, an efficient implementation of finite maps. krauss parents: diff changeset	656	by auto
52617dca8386 new theory of red-black trees, an efficient implementation of finite maps. krauss parents: diff changeset	657	with 3
52617dca8386 new theory of red-black trees, an efficient implementation of finite maps. krauss parents: diff changeset	658	show ?case
35550 e2bc7f8d8d51 restructured RBT theory haftmann parents: 35534 diff changeset	659	by (cases "combine b c" rule: rbt_cases)
e2bc7f8d8d51 restructured RBT theory haftmann parents: 35534 diff changeset	660	(auto, (metis combine_tree_greater combine_tree_less ineqs ineqs tree_less_simps(2) tree_greater_simps(2) tree_greater_trans tree_less_trans)+)
26192 52617dca8386 new theory of red-black trees, an efficient implementation of finite maps. krauss parents: diff changeset	661	next
52617dca8386 new theory of red-black trees, an efficient implementation of finite maps. krauss parents: diff changeset	662	case (4 a x v b c y w d)
35534 14d8d72f8b1f more explicit naming scheme haftmann parents: 32245 diff changeset	663	hence "x < k \<and> tree_greater k c" by simp
14d8d72f8b1f more explicit naming scheme haftmann parents: 32245 diff changeset	664	hence "tree_greater x c" by (blast dest: tree_greater_trans)
35550 e2bc7f8d8d51 restructured RBT theory haftmann parents: 35534 diff changeset	665	with 4 have 2: "tree_greater x (combine b c)" by (simp add: combine_tree_greater)
35534 14d8d72f8b1f more explicit naming scheme haftmann parents: 32245 diff changeset	666	from 4 have "k < y \<and> tree_less k b" by simp
14d8d72f8b1f more explicit naming scheme haftmann parents: 32245 diff changeset	667	hence "tree_less y b" by (blast dest: tree_less_trans)
35550 e2bc7f8d8d51 restructured RBT theory haftmann parents: 35534 diff changeset	668	with 4 have 3: "tree_less y (combine b c)" by (simp add: combine_tree_less)
26192 52617dca8386 new theory of red-black trees, an efficient implementation of finite maps. krauss parents: diff changeset	669	show ?case
35550 e2bc7f8d8d51 restructured RBT theory haftmann parents: 35534 diff changeset	670	proof (cases "combine b c" rule: rbt_cases)
26192 52617dca8386 new theory of red-black trees, an efficient implementation of finite maps. krauss parents: diff changeset	671	case Empty
35534 14d8d72f8b1f more explicit naming scheme haftmann parents: 32245 diff changeset	672	from 4 have "x < y \<and> tree_greater y d" by auto
14d8d72f8b1f more explicit naming scheme haftmann parents: 32245 diff changeset	673	hence "tree_greater x d" by (blast dest: tree_greater_trans)
14d8d72f8b1f more explicit naming scheme haftmann parents: 32245 diff changeset	674	with 4 Empty have "sorted a" and "sorted (Branch B Empty y w d)" and "tree_less x a" and "tree_greater x (Branch B Empty y w d)" by auto
35550 e2bc7f8d8d51 restructured RBT theory haftmann parents: 35534 diff changeset	675	with Empty show ?thesis by (simp add: balance_left_sorted)
26192 52617dca8386 new theory of red-black trees, an efficient implementation of finite maps. krauss parents: diff changeset	676	next
52617dca8386 new theory of red-black trees, an efficient implementation of finite maps. krauss parents: diff changeset	677	case (Red lta va ka rta)
35534 14d8d72f8b1f more explicit naming scheme haftmann parents: 32245 diff changeset	678	with 2 4 have "x < va \<and> tree_less x a" by simp
14d8d72f8b1f more explicit naming scheme haftmann parents: 32245 diff changeset	679	hence 5: "tree_less va a" by (blast dest: tree_less_trans)
14d8d72f8b1f more explicit naming scheme haftmann parents: 32245 diff changeset	680	from Red 3 4 have "va < y \<and> tree_greater y d" by simp
14d8d72f8b1f more explicit naming scheme haftmann parents: 32245 diff changeset	681	hence "tree_greater va d" by (blast dest: tree_greater_trans)
26192 52617dca8386 new theory of red-black trees, an efficient implementation of finite maps. krauss parents: diff changeset	682	with Red 2 3 4 5 show ?thesis by simp
52617dca8386 new theory of red-black trees, an efficient implementation of finite maps. krauss parents: diff changeset	683	next
52617dca8386 new theory of red-black trees, an efficient implementation of finite maps. krauss parents: diff changeset	684	case (Black lta va ka rta)
35534 14d8d72f8b1f more explicit naming scheme haftmann parents: 32245 diff changeset	685	from 4 have "x < y \<and> tree_greater y d" by auto
14d8d72f8b1f more explicit naming scheme haftmann parents: 32245 diff changeset	686	hence "tree_greater x d" by (blast dest: tree_greater_trans)
35550 e2bc7f8d8d51 restructured RBT theory haftmann parents: 35534 diff changeset	687	with Black 2 3 4 have "sorted a" and "sorted (Branch B (combine b c) y w d)" and "tree_less x a" and "tree_greater x (Branch B (combine b c) y w d)" by auto
e2bc7f8d8d51 restructured RBT theory haftmann parents: 35534 diff changeset	688	with Black show ?thesis by (simp add: balance_left_sorted)
26192 52617dca8386 new theory of red-black trees, an efficient implementation of finite maps. krauss parents: diff changeset	689	qed
52617dca8386 new theory of red-black trees, an efficient implementation of finite maps. krauss parents: diff changeset	690	next
52617dca8386 new theory of red-black trees, an efficient implementation of finite maps. krauss parents: diff changeset	691	case (5 va vb vd vc b x w c)
35534 14d8d72f8b1f more explicit naming scheme haftmann parents: 32245 diff changeset	692	hence "k < x \<and> tree_less k (Branch B va vb vd vc)" by simp
14d8d72f8b1f more explicit naming scheme haftmann parents: 32245 diff changeset	693	hence "tree_less x (Branch B va vb vd vc)" by (blast dest: tree_less_trans)
35550 e2bc7f8d8d51 restructured RBT theory haftmann parents: 35534 diff changeset	694	with 5 show ?case by (simp add: combine_tree_less)
26192 52617dca8386 new theory of red-black trees, an efficient implementation of finite maps. krauss parents: diff changeset	695	next
52617dca8386 new theory of red-black trees, an efficient implementation of finite maps. krauss parents: diff changeset	696	case (6 a x v b va vb vd vc)
35534 14d8d72f8b1f more explicit naming scheme haftmann parents: 32245 diff changeset	697	hence "x < k \<and> tree_greater k (Branch B va vb vd vc)" by simp
14d8d72f8b1f more explicit naming scheme haftmann parents: 32245 diff changeset	698	hence "tree_greater x (Branch B va vb vd vc)" by (blast dest: tree_greater_trans)
35550 e2bc7f8d8d51 restructured RBT theory haftmann parents: 35534 diff changeset	699	with 6 show ?case by (simp add: combine_tree_greater)
26192 52617dca8386 new theory of red-black trees, an efficient implementation of finite maps. krauss parents: diff changeset	700	qed simp+
52617dca8386 new theory of red-black trees, an efficient implementation of finite maps. krauss parents: diff changeset	701
35550 e2bc7f8d8d51 restructured RBT theory haftmann parents: 35534 diff changeset	702	lemma combine_in_tree:
35534 14d8d72f8b1f more explicit naming scheme haftmann parents: 32245 diff changeset	703	assumes "inv2 l" "inv2 r" "bheight l = bheight r" "inv1 l" "inv1 r"
35550 e2bc7f8d8d51 restructured RBT theory haftmann parents: 35534 diff changeset	704	shows "entry_in_tree k v (combine l r) = (entry_in_tree k v l \<or> entry_in_tree k v r)"
26192 52617dca8386 new theory of red-black trees, an efficient implementation of finite maps. krauss parents: diff changeset	705	using assms
35550 e2bc7f8d8d51 restructured RBT theory haftmann parents: 35534 diff changeset	706	proof (induct l r rule: combine.induct)
26192 52617dca8386 new theory of red-black trees, an efficient implementation of finite maps. krauss parents: diff changeset	707	case (4 _ _ _ b c)
35550 e2bc7f8d8d51 restructured RBT theory haftmann parents: 35534 diff changeset	708	hence a: "bheight (combine b c) = bheight b" by (simp add: combine_inv2)
e2bc7f8d8d51 restructured RBT theory haftmann parents: 35534 diff changeset	709	from 4 have b: "inv1l (combine b c)" by (simp add: combine_inv1)
26192 52617dca8386 new theory of red-black trees, an efficient implementation of finite maps. krauss parents: diff changeset	710
52617dca8386 new theory of red-black trees, an efficient implementation of finite maps. krauss parents: diff changeset	711	show ?case
35550 e2bc7f8d8d51 restructured RBT theory haftmann parents: 35534 diff changeset	712	proof (cases "combine b c" rule: rbt_cases)
26192 52617dca8386 new theory of red-black trees, an efficient implementation of finite maps. krauss parents: diff changeset	713	case Empty
35550 e2bc7f8d8d51 restructured RBT theory haftmann parents: 35534 diff changeset	714	with 4 a show ?thesis by (auto simp: balance_left_in_tree)
26192 52617dca8386 new theory of red-black trees, an efficient implementation of finite maps. krauss parents: diff changeset	715	next
52617dca8386 new theory of red-black trees, an efficient implementation of finite maps. krauss parents: diff changeset	716	case (Red lta ka va rta)
52617dca8386 new theory of red-black trees, an efficient implementation of finite maps. krauss parents: diff changeset	717	with 4 show ?thesis by auto
52617dca8386 new theory of red-black trees, an efficient implementation of finite maps. krauss parents: diff changeset	718	next
52617dca8386 new theory of red-black trees, an efficient implementation of finite maps. krauss parents: diff changeset	719	case (Black lta ka va rta)
35550 e2bc7f8d8d51 restructured RBT theory haftmann parents: 35534 diff changeset	720	with a b 4 show ?thesis by (auto simp: balance_left_in_tree)
26192 52617dca8386 new theory of red-black trees, an efficient implementation of finite maps. krauss parents: diff changeset	721	qed
52617dca8386 new theory of red-black trees, an efficient implementation of finite maps. krauss parents: diff changeset	722	qed (auto split: rbt.splits color.splits)
52617dca8386 new theory of red-black trees, an efficient implementation of finite maps. krauss parents: diff changeset	723
52617dca8386 new theory of red-black trees, an efficient implementation of finite maps. krauss parents: diff changeset	724	fun
35550 e2bc7f8d8d51 restructured RBT theory haftmann parents: 35534 diff changeset	725	del_from_left :: "('a\<Colon>linorder) \<Rightarrow> ('a,'b) rbt \<Rightarrow> 'a \<Rightarrow> 'b \<Rightarrow> ('a,'b) rbt \<Rightarrow> ('a,'b) rbt" and
e2bc7f8d8d51 restructured RBT theory haftmann parents: 35534 diff changeset	726	del_from_right :: "('a\<Colon>linorder) \<Rightarrow> ('a,'b) rbt \<Rightarrow> 'a \<Rightarrow> 'b \<Rightarrow> ('a,'b) rbt \<Rightarrow> ('a,'b) rbt" and
26192 52617dca8386 new theory of red-black trees, an efficient implementation of finite maps. krauss parents: diff changeset	727	del :: "('a\<Colon>linorder) \<Rightarrow> ('a,'b) rbt \<Rightarrow> ('a,'b) rbt"
52617dca8386 new theory of red-black trees, an efficient implementation of finite maps. krauss parents: diff changeset	728	where
52617dca8386 new theory of red-black trees, an efficient implementation of finite maps. krauss parents: diff changeset	729	"del x Empty = Empty" \|
35550 e2bc7f8d8d51 restructured RBT theory haftmann parents: 35534 diff changeset	730	"del x (Branch c a y s b) = (if x < y then del_from_left x a y s b else (if x > y then del_from_right x a y s b else combine a b))" \|
e2bc7f8d8d51 restructured RBT theory haftmann parents: 35534 diff changeset	731	"del_from_left x (Branch B lt z v rt) y s b = balance_left (del x (Branch B lt z v rt)) y s b" \|
e2bc7f8d8d51 restructured RBT theory haftmann parents: 35534 diff changeset	732	"del_from_left x a y s b = Branch R (del x a) y s b" \|
e2bc7f8d8d51 restructured RBT theory haftmann parents: 35534 diff changeset	733	"del_from_right x a y s (Branch B lt z v rt) = balance_right a y s (del x (Branch B lt z v rt))" \|
e2bc7f8d8d51 restructured RBT theory haftmann parents: 35534 diff changeset	734	"del_from_right x a y s b = Branch R a y s (del x b)"
26192 52617dca8386 new theory of red-black trees, an efficient implementation of finite maps. krauss parents: diff changeset	735
52617dca8386 new theory of red-black trees, an efficient implementation of finite maps. krauss parents: diff changeset	736	lemma
52617dca8386 new theory of red-black trees, an efficient implementation of finite maps. krauss parents: diff changeset	737	assumes "inv2 lt" "inv1 lt"
52617dca8386 new theory of red-black trees, an efficient implementation of finite maps. krauss parents: diff changeset	738	shows
35534 14d8d72f8b1f more explicit naming scheme haftmann parents: 32245 diff changeset	739	"\<lbrakk>inv2 rt; bheight lt = bheight rt; inv1 rt\<rbrakk> \<Longrightarrow>
35550 e2bc7f8d8d51 restructured RBT theory haftmann parents: 35534 diff changeset	740	inv2 (del_from_left x lt k v rt) \<and> bheight (del_from_left x lt k v rt) = bheight lt \<and> (color_of lt = B \<and> color_of rt = B \<and> inv1 (del_from_left x lt k v rt) \<or> (color_of lt \<noteq> B \<or> color_of rt \<noteq> B) \<and> inv1l (del_from_left x lt k v rt))"
35534 14d8d72f8b1f more explicit naming scheme haftmann parents: 32245 diff changeset	741	and "\<lbrakk>inv2 rt; bheight lt = bheight rt; inv1 rt\<rbrakk> \<Longrightarrow>
35550 e2bc7f8d8d51 restructured RBT theory haftmann parents: 35534 diff changeset	742	inv2 (del_from_right x lt k v rt) \<and> bheight (del_from_right x lt k v rt) = bheight lt \<and> (color_of lt = B \<and> color_of rt = B \<and> inv1 (del_from_right x lt k v rt) \<or> (color_of lt \<noteq> B \<or> color_of rt \<noteq> B) \<and> inv1l (del_from_right x lt k v rt))"
35534 14d8d72f8b1f more explicit naming scheme haftmann parents: 32245 diff changeset	743	and del_inv1_inv2: "inv2 (del x lt) \<and> (color_of lt = R \<and> bheight (del x lt) = bheight lt \<and> inv1 (del x lt)
14d8d72f8b1f more explicit naming scheme haftmann parents: 32245 diff changeset	744	\<or> color_of lt = B \<and> bheight (del x lt) = bheight lt - 1 \<and> inv1l (del x lt))"
26192 52617dca8386 new theory of red-black trees, an efficient implementation of finite maps. krauss parents: diff changeset	745	using assms
35550 e2bc7f8d8d51 restructured RBT theory haftmann parents: 35534 diff changeset	746	proof (induct x lt k v rt and x lt k v rt and x lt rule: del_from_left_del_from_right_del.induct)
26192 52617dca8386 new theory of red-black trees, an efficient implementation of finite maps. krauss parents: diff changeset	747	case (2 y c _ y')
52617dca8386 new theory of red-black trees, an efficient implementation of finite maps. krauss parents: diff changeset	748	have "y = y' \<or> y < y' \<or> y > y'" by auto
52617dca8386 new theory of red-black trees, an efficient implementation of finite maps. krauss parents: diff changeset	749	thus ?case proof (elim disjE)
52617dca8386 new theory of red-black trees, an efficient implementation of finite maps. krauss parents: diff changeset	750	assume "y = y'"
35550 e2bc7f8d8d51 restructured RBT theory haftmann parents: 35534 diff changeset	751	with 2 show ?thesis by (cases c) (simp add: combine_inv2 combine_inv1)+
26192 52617dca8386 new theory of red-black trees, an efficient implementation of finite maps. krauss parents: diff changeset	752	next
52617dca8386 new theory of red-black trees, an efficient implementation of finite maps. krauss parents: diff changeset	753	assume "y < y'"
52617dca8386 new theory of red-black trees, an efficient implementation of finite maps. krauss parents: diff changeset	754	with 2 show ?thesis by (cases c) auto
52617dca8386 new theory of red-black trees, an efficient implementation of finite maps. krauss parents: diff changeset	755	next
52617dca8386 new theory of red-black trees, an efficient implementation of finite maps. krauss parents: diff changeset	756	assume "y' < y"
52617dca8386 new theory of red-black trees, an efficient implementation of finite maps. krauss parents: diff changeset	757	with 2 show ?thesis by (cases c) auto
52617dca8386 new theory of red-black trees, an efficient implementation of finite maps. krauss parents: diff changeset	758	qed
52617dca8386 new theory of red-black trees, an efficient implementation of finite maps. krauss parents: diff changeset	759	next
52617dca8386 new theory of red-black trees, an efficient implementation of finite maps. krauss parents: diff changeset	760	case (3 y lt z v rta y' ss bb)
35550 e2bc7f8d8d51 restructured RBT theory haftmann parents: 35534 diff changeset	761	thus ?case by (cases "color_of (Branch B lt z v rta) = B \<and> color_of bb = B") (simp add: balance_left_inv2_with_inv1 balance_left_inv1 balance_left_inv1l)+
26192 52617dca8386 new theory of red-black trees, an efficient implementation of finite maps. krauss parents: diff changeset	762	next
52617dca8386 new theory of red-black trees, an efficient implementation of finite maps. krauss parents: diff changeset	763	case (5 y a y' ss lt z v rta)
35550 e2bc7f8d8d51 restructured RBT theory haftmann parents: 35534 diff changeset	764	thus ?case by (cases "color_of a = B \<and> color_of (Branch B lt z v rta) = B") (simp add: balance_right_inv2_with_inv1 balance_right_inv1 balance_right_inv1l)+
26192 52617dca8386 new theory of red-black trees, an efficient implementation of finite maps. krauss parents: diff changeset	765	next
35534 14d8d72f8b1f more explicit naming scheme haftmann parents: 32245 diff changeset	766	case ("6_1" y a y' ss) thus ?case by (cases "color_of a = B \<and> color_of Empty = B") simp+
26192 52617dca8386 new theory of red-black trees, an efficient implementation of finite maps. krauss parents: diff changeset	767	qed auto
52617dca8386 new theory of red-black trees, an efficient implementation of finite maps. krauss parents: diff changeset	768
52617dca8386 new theory of red-black trees, an efficient implementation of finite maps. krauss parents: diff changeset	769	lemma
35550 e2bc7f8d8d51 restructured RBT theory haftmann parents: 35534 diff changeset	770	del_from_left_tree_less: "\<lbrakk>tree_less v lt; tree_less v rt; k < v\<rbrakk> \<Longrightarrow> tree_less v (del_from_left x lt k y rt)"
e2bc7f8d8d51 restructured RBT theory haftmann parents: 35534 diff changeset	771	and del_from_right_tree_less: "\<lbrakk>tree_less v lt; tree_less v rt; k < v\<rbrakk> \<Longrightarrow> tree_less v (del_from_right x lt k y rt)"
35534 14d8d72f8b1f more explicit naming scheme haftmann parents: 32245 diff changeset	772	and del_tree_less: "tree_less v lt \<Longrightarrow> tree_less v (del x lt)"
35550 e2bc7f8d8d51 restructured RBT theory haftmann parents: 35534 diff changeset	773	by (induct x lt k y rt and x lt k y rt and x lt rule: del_from_left_del_from_right_del.induct)
e2bc7f8d8d51 restructured RBT theory haftmann parents: 35534 diff changeset	774	(auto simp: balance_left_tree_less balance_right_tree_less)
26192 52617dca8386 new theory of red-black trees, an efficient implementation of finite maps. krauss parents: diff changeset	775
35550 e2bc7f8d8d51 restructured RBT theory haftmann parents: 35534 diff changeset	776	lemma del_from_left_tree_greater: "\<lbrakk>tree_greater v lt; tree_greater v rt; k > v\<rbrakk> \<Longrightarrow> tree_greater v (del_from_left x lt k y rt)"
e2bc7f8d8d51 restructured RBT theory haftmann parents: 35534 diff changeset	777	and del_from_right_tree_greater: "\<lbrakk>tree_greater v lt; tree_greater v rt; k > v\<rbrakk> \<Longrightarrow> tree_greater v (del_from_right x lt k y rt)"
35534 14d8d72f8b1f more explicit naming scheme haftmann parents: 32245 diff changeset	778	and del_tree_greater: "tree_greater v lt \<Longrightarrow> tree_greater v (del x lt)"
35550 e2bc7f8d8d51 restructured RBT theory haftmann parents: 35534 diff changeset	779	by (induct x lt k y rt and x lt k y rt and x lt rule: del_from_left_del_from_right_del.induct)
e2bc7f8d8d51 restructured RBT theory haftmann parents: 35534 diff changeset	780	(auto simp: balance_left_tree_greater balance_right_tree_greater)
26192 52617dca8386 new theory of red-black trees, an efficient implementation of finite maps. krauss parents: diff changeset	781
35550 e2bc7f8d8d51 restructured RBT theory haftmann parents: 35534 diff changeset	782	lemma "\<lbrakk>sorted lt; sorted rt; tree_less k lt; tree_greater k rt\<rbrakk> \<Longrightarrow> sorted (del_from_left x lt k y rt)"
e2bc7f8d8d51 restructured RBT theory haftmann parents: 35534 diff changeset	783	and "\<lbrakk>sorted lt; sorted rt; tree_less k lt; tree_greater k rt\<rbrakk> \<Longrightarrow> sorted (del_from_right x lt k y rt)"
35534 14d8d72f8b1f more explicit naming scheme haftmann parents: 32245 diff changeset	784	and del_sorted: "sorted lt \<Longrightarrow> sorted (del x lt)"
35550 e2bc7f8d8d51 restructured RBT theory haftmann parents: 35534 diff changeset	785	proof (induct x lt k y rt and x lt k y rt and x lt rule: del_from_left_del_from_right_del.induct)
26192 52617dca8386 new theory of red-black trees, an efficient implementation of finite maps. krauss parents: diff changeset	786	case (3 x lta zz v rta yy ss bb)
35534 14d8d72f8b1f more explicit naming scheme haftmann parents: 32245 diff changeset	787	from 3 have "tree_less yy (Branch B lta zz v rta)" by simp
14d8d72f8b1f more explicit naming scheme haftmann parents: 32245 diff changeset	788	hence "tree_less yy (del x (Branch B lta zz v rta))" by (rule del_tree_less)
35550 e2bc7f8d8d51 restructured RBT theory haftmann parents: 35534 diff changeset	789	with 3 show ?case by (simp add: balance_left_sorted)
26192 52617dca8386 new theory of red-black trees, an efficient implementation of finite maps. krauss parents: diff changeset	790	next
52617dca8386 new theory of red-black trees, an efficient implementation of finite maps. krauss parents: diff changeset	791	case ("4_2" x vaa vbb vdd vc yy ss bb)
35534 14d8d72f8b1f more explicit naming scheme haftmann parents: 32245 diff changeset	792	hence "tree_less yy (Branch R vaa vbb vdd vc)" by simp
14d8d72f8b1f more explicit naming scheme haftmann parents: 32245 diff changeset	793	hence "tree_less yy (del x (Branch R vaa vbb vdd vc))" by (rule del_tree_less)
26192 52617dca8386 new theory of red-black trees, an efficient implementation of finite maps. krauss parents: diff changeset	794	with "4_2" show ?case by simp
52617dca8386 new theory of red-black trees, an efficient implementation of finite maps. krauss parents: diff changeset	795	next
52617dca8386 new theory of red-black trees, an efficient implementation of finite maps. krauss parents: diff changeset	796	case (5 x aa yy ss lta zz v rta)
35534 14d8d72f8b1f more explicit naming scheme haftmann parents: 32245 diff changeset	797	hence "tree_greater yy (Branch B lta zz v rta)" by simp
14d8d72f8b1f more explicit naming scheme haftmann parents: 32245 diff changeset	798	hence "tree_greater yy (del x (Branch B lta zz v rta))" by (rule del_tree_greater)
35550 e2bc7f8d8d51 restructured RBT theory haftmann parents: 35534 diff changeset	799	with 5 show ?case by (simp add: balance_right_sorted)
26192 52617dca8386 new theory of red-black trees, an efficient implementation of finite maps. krauss parents: diff changeset	800	next
52617dca8386 new theory of red-black trees, an efficient implementation of finite maps. krauss parents: diff changeset	801	case ("6_2" x aa yy ss vaa vbb vdd vc)
35534 14d8d72f8b1f more explicit naming scheme haftmann parents: 32245 diff changeset	802	hence "tree_greater yy (Branch R vaa vbb vdd vc)" by simp
14d8d72f8b1f more explicit naming scheme haftmann parents: 32245 diff changeset	803	hence "tree_greater yy (del x (Branch R vaa vbb vdd vc))" by (rule del_tree_greater)
26192 52617dca8386 new theory of red-black trees, an efficient implementation of finite maps. krauss parents: diff changeset	804	with "6_2" show ?case by simp
35550 e2bc7f8d8d51 restructured RBT theory haftmann parents: 35534 diff changeset	805	qed (auto simp: combine_sorted)
26192 52617dca8386 new theory of red-black trees, an efficient implementation of finite maps. krauss parents: diff changeset	806
35550 e2bc7f8d8d51 restructured RBT theory haftmann parents: 35534 diff changeset	807	lemma "\<lbrakk>sorted lt; sorted rt; tree_less kt lt; tree_greater kt rt; inv1 lt; inv1 rt; inv2 lt; inv2 rt; bheight lt = bheight rt; x < kt\<rbrakk> \<Longrightarrow> entry_in_tree k v (del_from_left x lt kt y rt) = (False \<or> (x \<noteq> k \<and> entry_in_tree k v (Branch c lt kt y rt)))"
e2bc7f8d8d51 restructured RBT theory haftmann parents: 35534 diff changeset	808	and "\<lbrakk>sorted lt; sorted rt; tree_less kt lt; tree_greater kt rt; inv1 lt; inv1 rt; inv2 lt; inv2 rt; bheight lt = bheight rt; x > kt\<rbrakk> \<Longrightarrow> entry_in_tree k v (del_from_right x lt kt y rt) = (False \<or> (x \<noteq> k \<and> entry_in_tree k v (Branch c lt kt y rt)))"
e2bc7f8d8d51 restructured RBT theory haftmann parents: 35534 diff changeset	809	and del_in_tree: "\<lbrakk>sorted t; inv1 t; inv2 t\<rbrakk> \<Longrightarrow> entry_in_tree k v (del x t) = (False \<or> (x \<noteq> k \<and> entry_in_tree k v t))"
e2bc7f8d8d51 restructured RBT theory haftmann parents: 35534 diff changeset	810	proof (induct x lt kt y rt and x lt kt y rt and x t rule: del_from_left_del_from_right_del.induct)
26192 52617dca8386 new theory of red-black trees, an efficient implementation of finite maps. krauss parents: diff changeset	811	case (2 xx c aa yy ss bb)
52617dca8386 new theory of red-black trees, an efficient implementation of finite maps. krauss parents: diff changeset	812	have "xx = yy \<or> xx < yy \<or> xx > yy" by auto
52617dca8386 new theory of red-black trees, an efficient implementation of finite maps. krauss parents: diff changeset	813	from this 2 show ?case proof (elim disjE)
52617dca8386 new theory of red-black trees, an efficient implementation of finite maps. krauss parents: diff changeset	814	assume "xx = yy"
52617dca8386 new theory of red-black trees, an efficient implementation of finite maps. krauss parents: diff changeset	815	with 2 show ?thesis proof (cases "xx = k")
52617dca8386 new theory of red-black trees, an efficient implementation of finite maps. krauss parents: diff changeset	816	case True
35534 14d8d72f8b1f more explicit naming scheme haftmann parents: 32245 diff changeset	817	from 2 `xx = yy` `xx = k` have "sorted (Branch c aa yy ss bb) \<and> k = yy" by simp
14d8d72f8b1f more explicit naming scheme haftmann parents: 32245 diff changeset	818	hence "\<not> entry_in_tree k v aa" "\<not> entry_in_tree k v bb" by (auto simp: tree_less_nit tree_greater_prop)
35550 e2bc7f8d8d51 restructured RBT theory haftmann parents: 35534 diff changeset	819	with `xx = yy` 2 `xx = k` show ?thesis by (simp add: combine_in_tree)
e2bc7f8d8d51 restructured RBT theory haftmann parents: 35534 diff changeset	820	qed (simp add: combine_in_tree)
26192 52617dca8386 new theory of red-black trees, an efficient implementation of finite maps. krauss parents: diff changeset	821	qed simp+
52617dca8386 new theory of red-black trees, an efficient implementation of finite maps. krauss parents: diff changeset	822	next
52617dca8386 new theory of red-black trees, an efficient implementation of finite maps. krauss parents: diff changeset	823	case (3 xx lta zz vv rta yy ss bb)
35534 14d8d72f8b1f more explicit naming scheme haftmann parents: 32245 diff changeset	824	def mt[simp]: mt == "Branch B lta zz vv rta"
26192 52617dca8386 new theory of red-black trees, an efficient implementation of finite maps. krauss parents: diff changeset	825	from 3 have "inv2 mt \<and> inv1 mt" by simp
35534 14d8d72f8b1f more explicit naming scheme haftmann parents: 32245 diff changeset	826	hence "inv2 (del xx mt) \<and> (color_of mt = R \<and> bheight (del xx mt) = bheight mt \<and> inv1 (del xx mt) \<or> color_of mt = B \<and> bheight (del xx mt) = bheight mt - 1 \<and> inv1l (del xx mt))" by (blast dest: del_inv1_inv2)
35550 e2bc7f8d8d51 restructured RBT theory haftmann parents: 35534 diff changeset	827	with 3 have 4: "entry_in_tree k v (del_from_left xx mt yy ss bb) = (False \<or> xx \<noteq> k \<and> entry_in_tree k v mt \<or> (k = yy \<and> v = ss) \<or> entry_in_tree k v bb)" by (simp add: balance_left_in_tree)
26192 52617dca8386 new theory of red-black trees, an efficient implementation of finite maps. krauss parents: diff changeset	828	thus ?case proof (cases "xx = k")
52617dca8386 new theory of red-black trees, an efficient implementation of finite maps. krauss parents: diff changeset	829	case True
35534 14d8d72f8b1f more explicit naming scheme haftmann parents: 32245 diff changeset	830	from 3 True have "tree_greater yy bb \<and> yy > k" by simp
14d8d72f8b1f more explicit naming scheme haftmann parents: 32245 diff changeset	831	hence "tree_greater k bb" by (blast dest: tree_greater_trans)
14d8d72f8b1f more explicit naming scheme haftmann parents: 32245 diff changeset	832	with 3 4 True show ?thesis by (auto simp: tree_greater_nit)
26192 52617dca8386 new theory of red-black trees, an efficient implementation of finite maps. krauss parents: diff changeset	833	qed auto
52617dca8386 new theory of red-black trees, an efficient implementation of finite maps. krauss parents: diff changeset	834	next
52617dca8386 new theory of red-black trees, an efficient implementation of finite maps. krauss parents: diff changeset	835	case ("4_1" xx yy ss bb)
52617dca8386 new theory of red-black trees, an efficient implementation of finite maps. krauss parents: diff changeset	836	show ?case proof (cases "xx = k")
52617dca8386 new theory of red-black trees, an efficient implementation of finite maps. krauss parents: diff changeset	837	case True
35534 14d8d72f8b1f more explicit naming scheme haftmann parents: 32245 diff changeset	838	with "4_1" have "tree_greater yy bb \<and> k < yy" by simp
14d8d72f8b1f more explicit naming scheme haftmann parents: 32245 diff changeset	839	hence "tree_greater k bb" by (blast dest: tree_greater_trans)
26192 52617dca8386 new theory of red-black trees, an efficient implementation of finite maps. krauss parents: diff changeset	840	with "4_1" `xx = k`
35534 14d8d72f8b1f more explicit naming scheme haftmann parents: 32245 diff changeset	841	have "entry_in_tree k v (Branch R Empty yy ss bb) = entry_in_tree k v Empty" by (auto simp: tree_greater_nit)
26192 52617dca8386 new theory of red-black trees, an efficient implementation of finite maps. krauss parents: diff changeset	842	thus ?thesis by auto
52617dca8386 new theory of red-black trees, an efficient implementation of finite maps. krauss parents: diff changeset	843	qed simp+
52617dca8386 new theory of red-black trees, an efficient implementation of finite maps. krauss parents: diff changeset	844	next
52617dca8386 new theory of red-black trees, an efficient implementation of finite maps. krauss parents: diff changeset	845	case ("4_2" xx vaa vbb vdd vc yy ss bb)
52617dca8386 new theory of red-black trees, an efficient implementation of finite maps. krauss parents: diff changeset	846	thus ?case proof (cases "xx = k")
52617dca8386 new theory of red-black trees, an efficient implementation of finite maps. krauss parents: diff changeset	847	case True
35534 14d8d72f8b1f more explicit naming scheme haftmann parents: 32245 diff changeset	848	with "4_2" have "k < yy \<and> tree_greater yy bb" by simp
14d8d72f8b1f more explicit naming scheme haftmann parents: 32245 diff changeset	849	hence "tree_greater k bb" by (blast dest: tree_greater_trans)
14d8d72f8b1f more explicit naming scheme haftmann parents: 32245 diff changeset	850	with True "4_2" show ?thesis by (auto simp: tree_greater_nit)
35550 e2bc7f8d8d51 restructured RBT theory haftmann parents: 35534 diff changeset	851	qed auto
26192 52617dca8386 new theory of red-black trees, an efficient implementation of finite maps. krauss parents: diff changeset	852	next
52617dca8386 new theory of red-black trees, an efficient implementation of finite maps. krauss parents: diff changeset	853	case (5 xx aa yy ss lta zz vv rta)
35534 14d8d72f8b1f more explicit naming scheme haftmann parents: 32245 diff changeset	854	def mt[simp]: mt == "Branch B lta zz vv rta"
26192 52617dca8386 new theory of red-black trees, an efficient implementation of finite maps. krauss parents: diff changeset	855	from 5 have "inv2 mt \<and> inv1 mt" by simp
35534 14d8d72f8b1f more explicit naming scheme haftmann parents: 32245 diff changeset	856	hence "inv2 (del xx mt) \<and> (color_of mt = R \<and> bheight (del xx mt) = bheight mt \<and> inv1 (del xx mt) \<or> color_of mt = B \<and> bheight (del xx mt) = bheight mt - 1 \<and> inv1l (del xx mt))" by (blast dest: del_inv1_inv2)
35550 e2bc7f8d8d51 restructured RBT theory haftmann parents: 35534 diff changeset	857	with 5 have 3: "entry_in_tree k v (del_from_right xx aa yy ss mt) = (entry_in_tree k v aa \<or> (k = yy \<and> v = ss) \<or> False \<or> xx \<noteq> k \<and> entry_in_tree k v mt)" by (simp add: balance_right_in_tree)
26192 52617dca8386 new theory of red-black trees, an efficient implementation of finite maps. krauss parents: diff changeset	858	thus ?case proof (cases "xx = k")
52617dca8386 new theory of red-black trees, an efficient implementation of finite maps. krauss parents: diff changeset	859	case True
35534 14d8d72f8b1f more explicit naming scheme haftmann parents: 32245 diff changeset	860	from 5 True have "tree_less yy aa \<and> yy < k" by simp
14d8d72f8b1f more explicit naming scheme haftmann parents: 32245 diff changeset	861	hence "tree_less k aa" by (blast dest: tree_less_trans)
14d8d72f8b1f more explicit naming scheme haftmann parents: 32245 diff changeset	862	with 3 5 True show ?thesis by (auto simp: tree_less_nit)
26192 52617dca8386 new theory of red-black trees, an efficient implementation of finite maps. krauss parents: diff changeset	863	qed auto
52617dca8386 new theory of red-black trees, an efficient implementation of finite maps. krauss parents: diff changeset	864	next
52617dca8386 new theory of red-black trees, an efficient implementation of finite maps. krauss parents: diff changeset	865	case ("6_1" xx aa yy ss)
52617dca8386 new theory of red-black trees, an efficient implementation of finite maps. krauss parents: diff changeset	866	show ?case proof (cases "xx = k")
52617dca8386 new theory of red-black trees, an efficient implementation of finite maps. krauss parents: diff changeset	867	case True
35534 14d8d72f8b1f more explicit naming scheme haftmann parents: 32245 diff changeset	868	with "6_1" have "tree_less yy aa \<and> k > yy" by simp
14d8d72f8b1f more explicit naming scheme haftmann parents: 32245 diff changeset	869	hence "tree_less k aa" by (blast dest: tree_less_trans)
14d8d72f8b1f more explicit naming scheme haftmann parents: 32245 diff changeset	870	with "6_1" `xx = k` show ?thesis by (auto simp: tree_less_nit)
26192 52617dca8386 new theory of red-black trees, an efficient implementation of finite maps. krauss parents: diff changeset	871	qed simp
52617dca8386 new theory of red-black trees, an efficient implementation of finite maps. krauss parents: diff changeset	872	next
52617dca8386 new theory of red-black trees, an efficient implementation of finite maps. krauss parents: diff changeset	873	case ("6_2" xx aa yy ss vaa vbb vdd vc)
52617dca8386 new theory of red-black trees, an efficient implementation of finite maps. krauss parents: diff changeset	874	thus ?case proof (cases "xx = k")
52617dca8386 new theory of red-black trees, an efficient implementation of finite maps. krauss parents: diff changeset	875	case True
35534 14d8d72f8b1f more explicit naming scheme haftmann parents: 32245 diff changeset	876	with "6_2" have "k > yy \<and> tree_less yy aa" by simp
14d8d72f8b1f more explicit naming scheme haftmann parents: 32245 diff changeset	877	hence "tree_less k aa" by (blast dest: tree_less_trans)
14d8d72f8b1f more explicit naming scheme haftmann parents: 32245 diff changeset	878	with True "6_2" show ?thesis by (auto simp: tree_less_nit)
35550 e2bc7f8d8d51 restructured RBT theory haftmann parents: 35534 diff changeset	879	qed auto
26192 52617dca8386 new theory of red-black trees, an efficient implementation of finite maps. krauss parents: diff changeset	880	qed simp
52617dca8386 new theory of red-black trees, an efficient implementation of finite maps. krauss parents: diff changeset	881
52617dca8386 new theory of red-black trees, an efficient implementation of finite maps. krauss parents: diff changeset	882
52617dca8386 new theory of red-black trees, an efficient implementation of finite maps. krauss parents: diff changeset	883	definition delete where
52617dca8386 new theory of red-black trees, an efficient implementation of finite maps. krauss parents: diff changeset	884	delete_def: "delete k t = paint B (del k t)"
52617dca8386 new theory of red-black trees, an efficient implementation of finite maps. krauss parents: diff changeset	885
35550 e2bc7f8d8d51 restructured RBT theory haftmann parents: 35534 diff changeset	886	theorem delete_is_rbt [simp]: assumes "is_rbt t" shows "is_rbt (delete k t)"
26192 52617dca8386 new theory of red-black trees, an efficient implementation of finite maps. krauss parents: diff changeset	887	proof -
35534 14d8d72f8b1f more explicit naming scheme haftmann parents: 32245 diff changeset	888	from assms have "inv2 t" and "inv1 t" unfolding is_rbt_def by auto
14d8d72f8b1f more explicit naming scheme haftmann parents: 32245 diff changeset	889	hence "inv2 (del k t) \<and> (color_of t = R \<and> bheight (del k t) = bheight t \<and> inv1 (del k t) \<or> color_of t = B \<and> bheight (del k t) = bheight t - 1 \<and> inv1l (del k t))" by (rule del_inv1_inv2)
14d8d72f8b1f more explicit naming scheme haftmann parents: 32245 diff changeset	890	hence "inv2 (del k t) \<and> inv1l (del k t)" by (cases "color_of t") auto
26192 52617dca8386 new theory of red-black trees, an efficient implementation of finite maps. krauss parents: diff changeset	891	with assms show ?thesis
35534 14d8d72f8b1f more explicit naming scheme haftmann parents: 32245 diff changeset	892	unfolding is_rbt_def delete_def
14d8d72f8b1f more explicit naming scheme haftmann parents: 32245 diff changeset	893	by (auto intro: paint_sorted del_sorted)
26192 52617dca8386 new theory of red-black trees, an efficient implementation of finite maps. krauss parents: diff changeset	894	qed
52617dca8386 new theory of red-black trees, an efficient implementation of finite maps. krauss parents: diff changeset	895
35550 e2bc7f8d8d51 restructured RBT theory haftmann parents: 35534 diff changeset	896	lemma delete_in_tree:
35534 14d8d72f8b1f more explicit naming scheme haftmann parents: 32245 diff changeset	897	assumes "is_rbt t"
14d8d72f8b1f more explicit naming scheme haftmann parents: 32245 diff changeset	898	shows "entry_in_tree k v (delete x t) = (x \<noteq> k \<and> entry_in_tree k v t)"
14d8d72f8b1f more explicit naming scheme haftmann parents: 32245 diff changeset	899	using assms unfolding is_rbt_def delete_def
35550 e2bc7f8d8d51 restructured RBT theory haftmann parents: 35534 diff changeset	900	by (auto simp: del_in_tree)
26192 52617dca8386 new theory of red-black trees, an efficient implementation of finite maps. krauss parents: diff changeset	901
35534 14d8d72f8b1f more explicit naming scheme haftmann parents: 32245 diff changeset	902	lemma lookup_delete:
14d8d72f8b1f more explicit naming scheme haftmann parents: 32245 diff changeset	903	assumes is_rbt: "is_rbt t"
14d8d72f8b1f more explicit naming scheme haftmann parents: 32245 diff changeset	904	shows "lookup (delete k t) = (lookup t)\|`(-{k})"
26192 52617dca8386 new theory of red-black trees, an efficient implementation of finite maps. krauss parents: diff changeset	905	proof
52617dca8386 new theory of red-black trees, an efficient implementation of finite maps. krauss parents: diff changeset	906	fix x
35534 14d8d72f8b1f more explicit naming scheme haftmann parents: 32245 diff changeset	907	show "lookup (delete k t) x = (lookup t \|` (-{k})) x"
26192 52617dca8386 new theory of red-black trees, an efficient implementation of finite maps. krauss parents: diff changeset	908	proof (cases "x = k")
52617dca8386 new theory of red-black trees, an efficient implementation of finite maps. krauss parents: diff changeset	909	assume "x = k"
35534 14d8d72f8b1f more explicit naming scheme haftmann parents: 32245 diff changeset	910	with is_rbt show ?thesis
35550 e2bc7f8d8d51 restructured RBT theory haftmann parents: 35534 diff changeset	911	by (cases "lookup (delete k t) k") (auto simp: lookup_in_tree delete_in_tree)
26192 52617dca8386 new theory of red-black trees, an efficient implementation of finite maps. krauss parents: diff changeset	912	next
52617dca8386 new theory of red-black trees, an efficient implementation of finite maps. krauss parents: diff changeset	913	assume "x \<noteq> k"
52617dca8386 new theory of red-black trees, an efficient implementation of finite maps. krauss parents: diff changeset	914	thus ?thesis
35550 e2bc7f8d8d51 restructured RBT theory haftmann parents: 35534 diff changeset	915	by auto (metis is_rbt delete_is_rbt delete_in_tree is_rbt_sorted lookup_from_in_tree)
26192 52617dca8386 new theory of red-black trees, an efficient implementation of finite maps. krauss parents: diff changeset	916	qed
52617dca8386 new theory of red-black trees, an efficient implementation of finite maps. krauss parents: diff changeset	917	qed
52617dca8386 new theory of red-black trees, an efficient implementation of finite maps. krauss parents: diff changeset	918
35550 e2bc7f8d8d51 restructured RBT theory haftmann parents: 35534 diff changeset	919
26192 52617dca8386 new theory of red-black trees, an efficient implementation of finite maps. krauss parents: diff changeset	920	subsection {* Union *}
52617dca8386 new theory of red-black trees, an efficient implementation of finite maps. krauss parents: diff changeset	921
52617dca8386 new theory of red-black trees, an efficient implementation of finite maps. krauss parents: diff changeset	922	primrec
35550 e2bc7f8d8d51 restructured RBT theory haftmann parents: 35534 diff changeset	923	union_with_key :: "('a\<Colon>linorder \<Rightarrow> 'b \<Rightarrow> 'b \<Rightarrow> 'b) \<Rightarrow> ('a,'b) rbt \<Rightarrow> ('a,'b) rbt \<Rightarrow> ('a,'b) rbt"
26192 52617dca8386 new theory of red-black trees, an efficient implementation of finite maps. krauss parents: diff changeset	924	where
35550 e2bc7f8d8d51 restructured RBT theory haftmann parents: 35534 diff changeset	925	"union_with_key f t Empty = t"
e2bc7f8d8d51 restructured RBT theory haftmann parents: 35534 diff changeset	926	\| "union_with_key f t (Branch c lt k v rt) = union_with_key f (union_with_key f (insert_with_key f k v t) lt) rt"
26192 52617dca8386 new theory of red-black trees, an efficient implementation of finite maps. krauss parents: diff changeset	927
35550 e2bc7f8d8d51 restructured RBT theory haftmann parents: 35534 diff changeset	928	lemma unionwk_sorted: "sorted lt \<Longrightarrow> sorted (union_with_key f lt rt)"
35534 14d8d72f8b1f more explicit naming scheme haftmann parents: 32245 diff changeset	929	by (induct rt arbitrary: lt) (auto simp: insertwk_sorted)
35550 e2bc7f8d8d51 restructured RBT theory haftmann parents: 35534 diff changeset	930	theorem unionwk_is_rbt[simp]: "is_rbt lt \<Longrightarrow> is_rbt (union_with_key f lt rt)"
35534 14d8d72f8b1f more explicit naming scheme haftmann parents: 32245 diff changeset	931	by (induct rt arbitrary: lt) (simp add: insertwk_is_rbt)+
26192 52617dca8386 new theory of red-black trees, an efficient implementation of finite maps. krauss parents: diff changeset	932
52617dca8386 new theory of red-black trees, an efficient implementation of finite maps. krauss parents: diff changeset	933	definition
35550 e2bc7f8d8d51 restructured RBT theory haftmann parents: 35534 diff changeset	934	union_with where
e2bc7f8d8d51 restructured RBT theory haftmann parents: 35534 diff changeset	935	"union_with f = union_with_key (\<lambda>_. f)"
26192 52617dca8386 new theory of red-black trees, an efficient implementation of finite maps. krauss parents: diff changeset	936
35550 e2bc7f8d8d51 restructured RBT theory haftmann parents: 35534 diff changeset	937	theorem unionw_is_rbt: "is_rbt lt \<Longrightarrow> is_rbt (union_with f lt rt)" unfolding union_with_def by simp
26192 52617dca8386 new theory of red-black trees, an efficient implementation of finite maps. krauss parents: diff changeset	938
52617dca8386 new theory of red-black trees, an efficient implementation of finite maps. krauss parents: diff changeset	939	definition union where
35550 e2bc7f8d8d51 restructured RBT theory haftmann parents: 35534 diff changeset	940	"union = union_with_key (%_ _ rv. rv)"
26192 52617dca8386 new theory of red-black trees, an efficient implementation of finite maps. krauss parents: diff changeset	941
35534 14d8d72f8b1f more explicit naming scheme haftmann parents: 32245 diff changeset	942	theorem union_is_rbt: "is_rbt lt \<Longrightarrow> is_rbt (union lt rt)" unfolding union_def by simp
26192 52617dca8386 new theory of red-black trees, an efficient implementation of finite maps. krauss parents: diff changeset	943
35534 14d8d72f8b1f more explicit naming scheme haftmann parents: 32245 diff changeset	944	lemma union_Branch[simp]:
14d8d72f8b1f more explicit naming scheme haftmann parents: 32245 diff changeset	945	"union t (Branch c lt k v rt) = union (union (insert k v t) lt) rt"
14d8d72f8b1f more explicit naming scheme haftmann parents: 32245 diff changeset	946	unfolding union_def insert_def
26192 52617dca8386 new theory of red-black trees, an efficient implementation of finite maps. krauss parents: diff changeset	947	by simp
52617dca8386 new theory of red-black trees, an efficient implementation of finite maps. krauss parents: diff changeset	948
35534 14d8d72f8b1f more explicit naming scheme haftmann parents: 32245 diff changeset	949	lemma lookup_union:
14d8d72f8b1f more explicit naming scheme haftmann parents: 32245 diff changeset	950	assumes "is_rbt s" "sorted t"
14d8d72f8b1f more explicit naming scheme haftmann parents: 32245 diff changeset	951	shows "lookup (union s t) = lookup s ++ lookup t"
26192 52617dca8386 new theory of red-black trees, an efficient implementation of finite maps. krauss parents: diff changeset	952	using assms
52617dca8386 new theory of red-black trees, an efficient implementation of finite maps. krauss parents: diff changeset	953	proof (induct t arbitrary: s)
52617dca8386 new theory of red-black trees, an efficient implementation of finite maps. krauss parents: diff changeset	954	case Empty thus ?case by (auto simp: union_def)
52617dca8386 new theory of red-black trees, an efficient implementation of finite maps. krauss parents: diff changeset	955	next
35534 14d8d72f8b1f more explicit naming scheme haftmann parents: 32245 diff changeset	956	case (Branch c l k v r s)
35550 e2bc7f8d8d51 restructured RBT theory haftmann parents: 35534 diff changeset	957	then have "sorted r" "sorted l" "l \|\<guillemotleft> k" "k \<guillemotleft>\| r" by auto
26192 52617dca8386 new theory of red-black trees, an efficient implementation of finite maps. krauss parents: diff changeset	958
35534 14d8d72f8b1f more explicit naming scheme haftmann parents: 32245 diff changeset	959	have meq: "lookup s(k \<mapsto> v) ++ lookup l ++ lookup r =
14d8d72f8b1f more explicit naming scheme haftmann parents: 32245 diff changeset	960	lookup s ++
14d8d72f8b1f more explicit naming scheme haftmann parents: 32245 diff changeset	961	(\<lambda>a. if a < k then lookup l a
14d8d72f8b1f more explicit naming scheme haftmann parents: 32245 diff changeset	962	else if k < a then lookup r a else Some v)" (is "?m1 = ?m2")
26192 52617dca8386 new theory of red-black trees, an efficient implementation of finite maps. krauss parents: diff changeset	963	proof (rule ext)
52617dca8386 new theory of red-black trees, an efficient implementation of finite maps. krauss parents: diff changeset	964	fix a
52617dca8386 new theory of red-black trees, an efficient implementation of finite maps. krauss parents: diff changeset	965
52617dca8386 new theory of red-black trees, an efficient implementation of finite maps. krauss parents: diff changeset	966	have "k < a \<or> k = a \<or> k > a" by auto
52617dca8386 new theory of red-black trees, an efficient implementation of finite maps. krauss parents: diff changeset	967	thus "?m1 a = ?m2 a"
52617dca8386 new theory of red-black trees, an efficient implementation of finite maps. krauss parents: diff changeset	968	proof (elim disjE)
52617dca8386 new theory of red-black trees, an efficient implementation of finite maps. krauss parents: diff changeset	969	assume "k < a"
35534 14d8d72f8b1f more explicit naming scheme haftmann parents: 32245 diff changeset	970	with `l \|\<guillemotleft> k` have "l \|\<guillemotleft> a" by (rule tree_less_trans)
26192 52617dca8386 new theory of red-black trees, an efficient implementation of finite maps. krauss parents: diff changeset	971	with `k < a` show ?thesis
52617dca8386 new theory of red-black trees, an efficient implementation of finite maps. krauss parents: diff changeset	972	by (auto simp: map_add_def split: option.splits)
52617dca8386 new theory of red-black trees, an efficient implementation of finite maps. krauss parents: diff changeset	973	next
52617dca8386 new theory of red-black trees, an efficient implementation of finite maps. krauss parents: diff changeset	974	assume "k = a"
52617dca8386 new theory of red-black trees, an efficient implementation of finite maps. krauss parents: diff changeset	975	with `l \|\<guillemotleft> k` `k \<guillemotleft>\| r`
52617dca8386 new theory of red-black trees, an efficient implementation of finite maps. krauss parents: diff changeset	976	show ?thesis by (auto simp: map_add_def)
52617dca8386 new theory of red-black trees, an efficient implementation of finite maps. krauss parents: diff changeset	977	next
52617dca8386 new theory of red-black trees, an efficient implementation of finite maps. krauss parents: diff changeset	978	assume "a < k"
35534 14d8d72f8b1f more explicit naming scheme haftmann parents: 32245 diff changeset	979	from this `k \<guillemotleft>\| r` have "a \<guillemotleft>\| r" by (rule tree_greater_trans)
26192 52617dca8386 new theory of red-black trees, an efficient implementation of finite maps. krauss parents: diff changeset	980	with `a < k` show ?thesis
52617dca8386 new theory of red-black trees, an efficient implementation of finite maps. krauss parents: diff changeset	981	by (auto simp: map_add_def split: option.splits)
52617dca8386 new theory of red-black trees, an efficient implementation of finite maps. krauss parents: diff changeset	982	qed
52617dca8386 new theory of red-black trees, an efficient implementation of finite maps. krauss parents: diff changeset	983	qed
52617dca8386 new theory of red-black trees, an efficient implementation of finite maps. krauss parents: diff changeset	984
36147 b43b22f63665 theory RBT with abstract type of red-black trees backed by implementation RBT_Impl haftmann parents: 35618 diff changeset	985	from Branch have is_rbt: "is_rbt (RBT_Impl.union (RBT_Impl.insert k v s) l)"
35550 e2bc7f8d8d51 restructured RBT theory haftmann parents: 35534 diff changeset	986	by (auto intro: union_is_rbt insert_is_rbt)
e2bc7f8d8d51 restructured RBT theory haftmann parents: 35534 diff changeset	987	with Branch have IHs:
35534 14d8d72f8b1f more explicit naming scheme haftmann parents: 32245 diff changeset	988	"lookup (union (union (insert k v s) l) r) = lookup (union (insert k v s) l) ++ lookup r"
14d8d72f8b1f more explicit naming scheme haftmann parents: 32245 diff changeset	989	"lookup (union (insert k v s) l) = lookup (insert k v s) ++ lookup l"
35550 e2bc7f8d8d51 restructured RBT theory haftmann parents: 35534 diff changeset	990	by auto
26192 52617dca8386 new theory of red-black trees, an efficient implementation of finite maps. krauss parents: diff changeset	991
52617dca8386 new theory of red-black trees, an efficient implementation of finite maps. krauss parents: diff changeset	992	with meq show ?case
35534 14d8d72f8b1f more explicit naming scheme haftmann parents: 32245 diff changeset	993	by (auto simp: lookup_insert[OF Branch(3)])
35550 e2bc7f8d8d51 restructured RBT theory haftmann parents: 35534 diff changeset	994
26192 52617dca8386 new theory of red-black trees, an efficient implementation of finite maps. krauss parents: diff changeset	995	qed
52617dca8386 new theory of red-black trees, an efficient implementation of finite maps. krauss parents: diff changeset	996
35550 e2bc7f8d8d51 restructured RBT theory haftmann parents: 35534 diff changeset	997
e2bc7f8d8d51 restructured RBT theory haftmann parents: 35534 diff changeset	998	subsection {* Modifying existing entries *}
26192 52617dca8386 new theory of red-black trees, an efficient implementation of finite maps. krauss parents: diff changeset	999
52617dca8386 new theory of red-black trees, an efficient implementation of finite maps. krauss parents: diff changeset	1000	primrec
35602 e814157560e8 various refinements haftmann parents: 35550 diff changeset	1001	map_entry :: "'a\<Colon>linorder \<Rightarrow> ('b \<Rightarrow> 'b) \<Rightarrow> ('a, 'b) rbt \<Rightarrow> ('a, 'b) rbt"
26192 52617dca8386 new theory of red-black trees, an efficient implementation of finite maps. krauss parents: diff changeset	1002	where
35602 e814157560e8 various refinements haftmann parents: 35550 diff changeset	1003	"map_entry k f Empty = Empty"
e814157560e8 various refinements haftmann parents: 35550 diff changeset	1004	\| "map_entry k f (Branch c lt x v rt) =
e814157560e8 various refinements haftmann parents: 35550 diff changeset	1005	(if k < x then Branch c (map_entry k f lt) x v rt
e814157560e8 various refinements haftmann parents: 35550 diff changeset	1006	else if k > x then (Branch c lt x v (map_entry k f rt))
e814157560e8 various refinements haftmann parents: 35550 diff changeset	1007	else Branch c lt x (f v) rt)"
26192 52617dca8386 new theory of red-black trees, an efficient implementation of finite maps. krauss parents: diff changeset	1008
35602 e814157560e8 various refinements haftmann parents: 35550 diff changeset	1009	lemma map_entry_color_of: "color_of (map_entry k f t) = color_of t" by (induct t) simp+
e814157560e8 various refinements haftmann parents: 35550 diff changeset	1010	lemma map_entry_inv1: "inv1 (map_entry k f t) = inv1 t" by (induct t) (simp add: map_entry_color_of)+
e814157560e8 various refinements haftmann parents: 35550 diff changeset	1011	lemma map_entry_inv2: "inv2 (map_entry k f t) = inv2 t" "bheight (map_entry k f t) = bheight t" by (induct t) simp+
e814157560e8 various refinements haftmann parents: 35550 diff changeset	1012	lemma map_entry_tree_greater: "tree_greater a (map_entry k f t) = tree_greater a t" by (induct t) simp+
e814157560e8 various refinements haftmann parents: 35550 diff changeset	1013	lemma map_entry_tree_less: "tree_less a (map_entry k f t) = tree_less a t" by (induct t) simp+
e814157560e8 various refinements haftmann parents: 35550 diff changeset	1014	lemma map_entry_sorted: "sorted (map_entry k f t) = sorted t"
e814157560e8 various refinements haftmann parents: 35550 diff changeset	1015	by (induct t) (simp_all add: map_entry_tree_less map_entry_tree_greater)
26192 52617dca8386 new theory of red-black trees, an efficient implementation of finite maps. krauss parents: diff changeset	1016
35602 e814157560e8 various refinements haftmann parents: 35550 diff changeset	1017	theorem map_entry_is_rbt [simp]: "is_rbt (map_entry k f t) = is_rbt t"
e814157560e8 various refinements haftmann parents: 35550 diff changeset	1018	unfolding is_rbt_def by (simp add: map_entry_inv2 map_entry_color_of map_entry_sorted map_entry_inv1 )
26192 52617dca8386 new theory of red-black trees, an efficient implementation of finite maps. krauss parents: diff changeset	1019
35618 b7bfd4cbcfc0 some lemma refinements haftmann parents: 35606 diff changeset	1020	theorem lookup_map_entry:
b7bfd4cbcfc0 some lemma refinements haftmann parents: 35606 diff changeset	1021	"lookup (map_entry k f t) = (lookup t)(k := Option.map f (lookup t k))"
b7bfd4cbcfc0 some lemma refinements haftmann parents: 35606 diff changeset	1022	by (induct t) (auto split: option.splits simp add: expand_fun_eq)
26192 52617dca8386 new theory of red-black trees, an efficient implementation of finite maps. krauss parents: diff changeset	1023
52617dca8386 new theory of red-black trees, an efficient implementation of finite maps. krauss parents: diff changeset	1024
35550 e2bc7f8d8d51 restructured RBT theory haftmann parents: 35534 diff changeset	1025	subsection {* Mapping all entries *}
26192 52617dca8386 new theory of red-black trees, an efficient implementation of finite maps. krauss parents: diff changeset	1026
52617dca8386 new theory of red-black trees, an efficient implementation of finite maps. krauss parents: diff changeset	1027	primrec
35602 e814157560e8 various refinements haftmann parents: 35550 diff changeset	1028	map :: "('a \<Rightarrow> 'b \<Rightarrow> 'c) \<Rightarrow> ('a, 'b) rbt \<Rightarrow> ('a, 'c) rbt"
26192 52617dca8386 new theory of red-black trees, an efficient implementation of finite maps. krauss parents: diff changeset	1029	where
35550 e2bc7f8d8d51 restructured RBT theory haftmann parents: 35534 diff changeset	1030	"map f Empty = Empty"
e2bc7f8d8d51 restructured RBT theory haftmann parents: 35534 diff changeset	1031	\| "map f (Branch c lt k v rt) = Branch c (map f lt) k (f k v) (map f rt)"
32237 cdc76a42fed4 added missing proof of RBT.map_of_alist_of (contributed by Peter Lammich) krauss parents: 30738 diff changeset	1032
35550 e2bc7f8d8d51 restructured RBT theory haftmann parents: 35534 diff changeset	1033	lemma map_entries [simp]: "entries (map f t) = List.map (\<lambda>(k, v). (k, f k v)) (entries t)"
e2bc7f8d8d51 restructured RBT theory haftmann parents: 35534 diff changeset	1034	by (induct t) auto
e2bc7f8d8d51 restructured RBT theory haftmann parents: 35534 diff changeset	1035	lemma map_keys [simp]: "keys (map f t) = keys t" by (simp add: keys_def split_def)
e2bc7f8d8d51 restructured RBT theory haftmann parents: 35534 diff changeset	1036	lemma map_tree_greater: "tree_greater k (map f t) = tree_greater k t" by (induct t) simp+
e2bc7f8d8d51 restructured RBT theory haftmann parents: 35534 diff changeset	1037	lemma map_tree_less: "tree_less k (map f t) = tree_less k t" by (induct t) simp+
e2bc7f8d8d51 restructured RBT theory haftmann parents: 35534 diff changeset	1038	lemma map_sorted: "sorted (map f t) = sorted t" by (induct t) (simp add: map_tree_less map_tree_greater)+
e2bc7f8d8d51 restructured RBT theory haftmann parents: 35534 diff changeset	1039	lemma map_color_of: "color_of (map f t) = color_of t" by (induct t) simp+
e2bc7f8d8d51 restructured RBT theory haftmann parents: 35534 diff changeset	1040	lemma map_inv1: "inv1 (map f t) = inv1 t" by (induct t) (simp add: map_color_of)+
e2bc7f8d8d51 restructured RBT theory haftmann parents: 35534 diff changeset	1041	lemma map_inv2: "inv2 (map f t) = inv2 t" "bheight (map f t) = bheight t" by (induct t) simp+
e2bc7f8d8d51 restructured RBT theory haftmann parents: 35534 diff changeset	1042	theorem map_is_rbt [simp]: "is_rbt (map f t) = is_rbt t"
e2bc7f8d8d51 restructured RBT theory haftmann parents: 35534 diff changeset	1043	unfolding is_rbt_def by (simp add: map_inv1 map_inv2 map_sorted map_color_of)
32237 cdc76a42fed4 added missing proof of RBT.map_of_alist_of (contributed by Peter Lammich) krauss parents: 30738 diff changeset	1044
35618 b7bfd4cbcfc0 some lemma refinements haftmann parents: 35606 diff changeset	1045	theorem lookup_map: "lookup (map f t) x = Option.map (f x) (lookup t x)"
b7bfd4cbcfc0 some lemma refinements haftmann parents: 35606 diff changeset	1046	by (induct t) auto
26192 52617dca8386 new theory of red-black trees, an efficient implementation of finite maps. krauss parents: diff changeset	1047
35550 e2bc7f8d8d51 restructured RBT theory haftmann parents: 35534 diff changeset	1048
e2bc7f8d8d51 restructured RBT theory haftmann parents: 35534 diff changeset	1049	subsection {* Folding over entries *}
e2bc7f8d8d51 restructured RBT theory haftmann parents: 35534 diff changeset	1050
e2bc7f8d8d51 restructured RBT theory haftmann parents: 35534 diff changeset	1051	definition fold :: "('a \<Rightarrow> 'b \<Rightarrow> 'c \<Rightarrow> 'c) \<Rightarrow> ('a, 'b) rbt \<Rightarrow> 'c \<Rightarrow> 'c" where
37458 4a76497f2eaa prefer fold over foldl haftmann parents: 36176 diff changeset	1052	"fold f t = More_List.fold (prod_case f) (entries t)"
26192 52617dca8386 new theory of red-black trees, an efficient implementation of finite maps. krauss parents: diff changeset	1053
35550 e2bc7f8d8d51 restructured RBT theory haftmann parents: 35534 diff changeset	1054	lemma fold_simps [simp, code]:
e2bc7f8d8d51 restructured RBT theory haftmann parents: 35534 diff changeset	1055	"fold f Empty = id"
e2bc7f8d8d51 restructured RBT theory haftmann parents: 35534 diff changeset	1056	"fold f (Branch c lt k v rt) = fold f rt \<circ> f k v \<circ> fold f lt"
e2bc7f8d8d51 restructured RBT theory haftmann parents: 35534 diff changeset	1057	by (simp_all add: fold_def expand_fun_eq)
35534 14d8d72f8b1f more explicit naming scheme haftmann parents: 32245 diff changeset	1058
35606 7c5b40c7e8c4 added bulkload; tuned document haftmann parents: 35603 diff changeset	1059
7c5b40c7e8c4 added bulkload; tuned document haftmann parents: 35603 diff changeset	1060	subsection {* Bulkloading a tree *}
7c5b40c7e8c4 added bulkload; tuned document haftmann parents: 35603 diff changeset	1061
35618 b7bfd4cbcfc0 some lemma refinements haftmann parents: 35606 diff changeset	1062	definition bulkload :: "('a \<times> 'b) list \<Rightarrow> ('a\<Colon>linorder, 'b) rbt" where
36147 b43b22f63665 theory RBT with abstract type of red-black trees backed by implementation RBT_Impl haftmann parents: 35618 diff changeset	1063	"bulkload xs = foldr (\<lambda>(k, v). insert k v) xs Empty"
35606 7c5b40c7e8c4 added bulkload; tuned document haftmann parents: 35603 diff changeset	1064
7c5b40c7e8c4 added bulkload; tuned document haftmann parents: 35603 diff changeset	1065	lemma bulkload_is_rbt [simp, intro]:
7c5b40c7e8c4 added bulkload; tuned document haftmann parents: 35603 diff changeset	1066	"is_rbt (bulkload xs)"
7c5b40c7e8c4 added bulkload; tuned document haftmann parents: 35603 diff changeset	1067	unfolding bulkload_def by (induct xs) auto
7c5b40c7e8c4 added bulkload; tuned document haftmann parents: 35603 diff changeset	1068
7c5b40c7e8c4 added bulkload; tuned document haftmann parents: 35603 diff changeset	1069	lemma lookup_bulkload:
36147 b43b22f63665 theory RBT with abstract type of red-black trees backed by implementation RBT_Impl haftmann parents: 35618 diff changeset	1070	"lookup (bulkload xs) = map_of xs"
35606 7c5b40c7e8c4 added bulkload; tuned document haftmann parents: 35603 diff changeset	1071	proof -
7c5b40c7e8c4 added bulkload; tuned document haftmann parents: 35603 diff changeset	1072	obtain ys where "ys = rev xs" by simp
7c5b40c7e8c4 added bulkload; tuned document haftmann parents: 35603 diff changeset	1073	have "\<And>t. is_rbt t \<Longrightarrow>
37458 4a76497f2eaa prefer fold over foldl haftmann parents: 36176 diff changeset	1074	lookup (More_List.fold (prod_case insert) ys t) = lookup t ++ map_of (rev ys)"
4a76497f2eaa prefer fold over foldl haftmann parents: 36176 diff changeset	1075	by (induct ys) (simp_all add: bulkload_def lookup_insert prod_case_beta)
35606 7c5b40c7e8c4 added bulkload; tuned document haftmann parents: 35603 diff changeset	1076	from this Empty_is_rbt have
37458 4a76497f2eaa prefer fold over foldl haftmann parents: 36176 diff changeset	1077	"lookup (More_List.fold (prod_case insert) (rev xs) Empty) = lookup Empty ++ map_of xs"
35606 7c5b40c7e8c4 added bulkload; tuned document haftmann parents: 35603 diff changeset	1078	by (simp add: `ys = rev xs`)
37591 d3daea901123 merged constants "split" and "prod_case" haftmann parents: 37458 diff changeset	1079	then show ?thesis by (simp add: bulkload_def lookup_Empty foldr_fold_rev)
35606 7c5b40c7e8c4 added bulkload; tuned document haftmann parents: 35603 diff changeset	1080	qed
7c5b40c7e8c4 added bulkload; tuned document haftmann parents: 35603 diff changeset	1081
36176 3fe7e97ccca8 replaced generic 'hide' command by more conventional 'hide_class', 'hide_type', 'hide_const', 'hide_fact' -- frees some popular keywords; wenzelm parents: 36147 diff changeset	1082	hide_const (open) Empty insert delete entries keys bulkload lookup map_entry map fold union sorted
26192 52617dca8386 new theory of red-black trees, an efficient implementation of finite maps. krauss parents: diff changeset	1083
52617dca8386 new theory of red-black trees, an efficient implementation of finite maps. krauss parents: diff changeset	1084	end

author	haftmann
	Sat, 24 Jul 2010 18:08:41 +0200
changeset 37958	9728342bcd56
parent 37591	d3daea901123
child 39198	f967a16dfcdd
permissions	-rw-r--r--