isabelle: src/HOL/Library/Tree.thy@83231b558ce4 (annotated)

57250 cddaf5b93728 new theory of binary trees nipkow parents: diff changeset	1	(* Author: Tobias Nipkow *)
cddaf5b93728 new theory of binary trees nipkow parents: diff changeset	2
60500 903bb1495239 isabelle update_cartouches; wenzelm parents: 59928 diff changeset	3	section \<open>Binary Tree\<close>
57250 cddaf5b93728 new theory of binary trees nipkow parents: diff changeset	4
cddaf5b93728 new theory of binary trees nipkow parents: diff changeset	5	theory Tree
cddaf5b93728 new theory of binary trees nipkow parents: diff changeset	6	imports Main
cddaf5b93728 new theory of binary trees nipkow parents: diff changeset	7	begin
cddaf5b93728 new theory of binary trees nipkow parents: diff changeset	8
58424 cbbba613b6ab added nice standard syntax nipkow parents: 58310 diff changeset	9	datatype 'a tree =
cbbba613b6ab added nice standard syntax nipkow parents: 58310 diff changeset	10	Leaf ("\<langle>\<rangle>") \|
cbbba613b6ab added nice standard syntax nipkow parents: 58310 diff changeset	11	Node (left: "'a tree") (val: 'a) (right: "'a tree") ("\<langle>_, _, _\<rangle>")
57449 f81da03b9ebd Library/Tree: use datatype_new, bst is an inductive predicate hoelzl parents: 57250 diff changeset	12	where
f81da03b9ebd Library/Tree: use datatype_new, bst is an inductive predicate hoelzl parents: 57250 diff changeset	13	"left Leaf = Leaf"
f81da03b9ebd Library/Tree: use datatype_new, bst is an inductive predicate hoelzl parents: 57250 diff changeset	14	\| "right Leaf = Leaf"
57569 e20a999f7161 register tree with datatype_compat ot support QuickCheck hoelzl parents: 57530 diff changeset	15	datatype_compat tree
57250 cddaf5b93728 new theory of binary trees nipkow parents: diff changeset	16
60500 903bb1495239 isabelle update_cartouches; wenzelm parents: 59928 diff changeset	17	text\<open>Can be seen as counting the number of leaves rather than nodes:\<close>
58438 566117a31cc0 added function size1 nipkow parents: 58424 diff changeset	18
566117a31cc0 added function size1 nipkow parents: 58424 diff changeset	19	definition size1 :: "'a tree \<Rightarrow> nat" where
566117a31cc0 added function size1 nipkow parents: 58424 diff changeset	20	"size1 t = size t + 1"
566117a31cc0 added function size1 nipkow parents: 58424 diff changeset	21
566117a31cc0 added function size1 nipkow parents: 58424 diff changeset	22	lemma size1_simps[simp]:
566117a31cc0 added function size1 nipkow parents: 58424 diff changeset	23	"size1 \<langle>\<rangle> = 1"
566117a31cc0 added function size1 nipkow parents: 58424 diff changeset	24	"size1 \<langle>l, x, r\<rangle> = size1 l + size1 r"
566117a31cc0 added function size1 nipkow parents: 58424 diff changeset	25	by (simp_all add: size1_def)
566117a31cc0 added function size1 nipkow parents: 58424 diff changeset	26
60505 9e6584184315 added funs and lemmas nipkow parents: 59928 diff changeset	27	lemma size_0_iff_Leaf[simp]: "size t = 0 \<longleftrightarrow> t = Leaf"
9e6584184315 added funs and lemmas nipkow parents: 59928 diff changeset	28	by(cases t) auto
9e6584184315 added funs and lemmas nipkow parents: 59928 diff changeset	29
58424 cbbba613b6ab added nice standard syntax nipkow parents: 58310 diff changeset	30	lemma neq_Leaf_iff: "(t \<noteq> \<langle>\<rangle>) = (\<exists>l a r. t = \<langle>l, a, r\<rangle>)"
cbbba613b6ab added nice standard syntax nipkow parents: 58310 diff changeset	31	by (cases t) auto
57530 439f881c8744 added lemma nipkow parents: 57450 diff changeset	32
57687 cca7e8788481 added more functions and lemmas nipkow parents: 57569 diff changeset	33	lemma finite_set_tree[simp]: "finite(set_tree t)"
cca7e8788481 added more functions and lemmas nipkow parents: 57569 diff changeset	34	by(induction t) auto
cca7e8788481 added more functions and lemmas nipkow parents: 57569 diff changeset	35
59776 f54af3307334 added funs and lemmas nipkow parents: 59561 diff changeset	36	lemma size_map_tree[simp]: "size (map_tree f t) = size t"
f54af3307334 added funs and lemmas nipkow parents: 59561 diff changeset	37	by (induction t) auto
f54af3307334 added funs and lemmas nipkow parents: 59561 diff changeset	38
f54af3307334 added funs and lemmas nipkow parents: 59561 diff changeset	39	lemma size1_map_tree[simp]: "size1 (map_tree f t) = size1 t"
f54af3307334 added funs and lemmas nipkow parents: 59561 diff changeset	40	by (simp add: size1_def)
f54af3307334 added funs and lemmas nipkow parents: 59561 diff changeset	41
f54af3307334 added funs and lemmas nipkow parents: 59561 diff changeset	42
f54af3307334 added funs and lemmas nipkow parents: 59561 diff changeset	43	subsection "The depth"
f54af3307334 added funs and lemmas nipkow parents: 59561 diff changeset	44
f54af3307334 added funs and lemmas nipkow parents: 59561 diff changeset	45	fun depth :: "'a tree => nat" where
f54af3307334 added funs and lemmas nipkow parents: 59561 diff changeset	46	"depth Leaf = 0" \|
f54af3307334 added funs and lemmas nipkow parents: 59561 diff changeset	47	"depth (Node t1 a t2) = Suc (max (depth t1) (depth t2))"
f54af3307334 added funs and lemmas nipkow parents: 59561 diff changeset	48
f54af3307334 added funs and lemmas nipkow parents: 59561 diff changeset	49	lemma depth_map_tree[simp]: "depth (map_tree f t) = depth t"
f54af3307334 added funs and lemmas nipkow parents: 59561 diff changeset	50	by (induction t) auto
f54af3307334 added funs and lemmas nipkow parents: 59561 diff changeset	51
57687 cca7e8788481 added more functions and lemmas nipkow parents: 57569 diff changeset	52
cca7e8788481 added more functions and lemmas nipkow parents: 57569 diff changeset	53	subsection "The set of subtrees"
cca7e8788481 added more functions and lemmas nipkow parents: 57569 diff changeset	54
57250 cddaf5b93728 new theory of binary trees nipkow parents: diff changeset	55	fun subtrees :: "'a tree \<Rightarrow> 'a tree set" where
58424 cbbba613b6ab added nice standard syntax nipkow parents: 58310 diff changeset	56	"subtrees \<langle>\<rangle> = {\<langle>\<rangle>}" \|
cbbba613b6ab added nice standard syntax nipkow parents: 58310 diff changeset	57	"subtrees (\<langle>l, a, r\<rangle>) = insert \<langle>l, a, r\<rangle> (subtrees l \<union> subtrees r)"
57250 cddaf5b93728 new theory of binary trees nipkow parents: diff changeset	58
58424 cbbba613b6ab added nice standard syntax nipkow parents: 58310 diff changeset	59	lemma set_treeE: "a \<in> set_tree t \<Longrightarrow> \<exists>l r. \<langle>l, a, r\<rangle> \<in> subtrees t"
cbbba613b6ab added nice standard syntax nipkow parents: 58310 diff changeset	60	by (induction t)(auto)
57449 f81da03b9ebd Library/Tree: use datatype_new, bst is an inductive predicate hoelzl parents: 57250 diff changeset	61
57450 2baecef3207f Library/Tree: bst is preferred to be a function hoelzl parents: 57449 diff changeset	62	lemma Node_notin_subtrees_if[simp]: "a \<notin> set_tree t \<Longrightarrow> Node l a r \<notin> subtrees t"
58424 cbbba613b6ab added nice standard syntax nipkow parents: 58310 diff changeset	63	by (induction t) auto
57449 f81da03b9ebd Library/Tree: use datatype_new, bst is an inductive predicate hoelzl parents: 57250 diff changeset	64
58424 cbbba613b6ab added nice standard syntax nipkow parents: 58310 diff changeset	65	lemma in_set_tree_if: "\<langle>l, a, r\<rangle> \<in> subtrees t \<Longrightarrow> a \<in> set_tree t"
cbbba613b6ab added nice standard syntax nipkow parents: 58310 diff changeset	66	by (metis Node_notin_subtrees_if)
57449 f81da03b9ebd Library/Tree: use datatype_new, bst is an inductive predicate hoelzl parents: 57250 diff changeset	67
57687 cca7e8788481 added more functions and lemmas nipkow parents: 57569 diff changeset	68
59776 f54af3307334 added funs and lemmas nipkow parents: 59561 diff changeset	69	subsection "List of entries"
f54af3307334 added funs and lemmas nipkow parents: 59561 diff changeset	70
f54af3307334 added funs and lemmas nipkow parents: 59561 diff changeset	71	fun preorder :: "'a tree \<Rightarrow> 'a list" where
f54af3307334 added funs and lemmas nipkow parents: 59561 diff changeset	72	"preorder \<langle>\<rangle> = []" \|
f54af3307334 added funs and lemmas nipkow parents: 59561 diff changeset	73	"preorder \<langle>l, x, r\<rangle> = x # preorder l @ preorder r"
57687 cca7e8788481 added more functions and lemmas nipkow parents: 57569 diff changeset	74
57250 cddaf5b93728 new theory of binary trees nipkow parents: diff changeset	75	fun inorder :: "'a tree \<Rightarrow> 'a list" where
58424 cbbba613b6ab added nice standard syntax nipkow parents: 58310 diff changeset	76	"inorder \<langle>\<rangle> = []" \|
cbbba613b6ab added nice standard syntax nipkow parents: 58310 diff changeset	77	"inorder \<langle>l, x, r\<rangle> = inorder l @ [x] @ inorder r"
57250 cddaf5b93728 new theory of binary trees nipkow parents: diff changeset	78
57449 f81da03b9ebd Library/Tree: use datatype_new, bst is an inductive predicate hoelzl parents: 57250 diff changeset	79	lemma set_inorder[simp]: "set (inorder t) = set_tree t"
58424 cbbba613b6ab added nice standard syntax nipkow parents: 58310 diff changeset	80	by (induction t) auto
57250 cddaf5b93728 new theory of binary trees nipkow parents: diff changeset	81
59776 f54af3307334 added funs and lemmas nipkow parents: 59561 diff changeset	82	lemma set_preorder[simp]: "set (preorder t) = set_tree t"
f54af3307334 added funs and lemmas nipkow parents: 59561 diff changeset	83	by (induction t) auto
f54af3307334 added funs and lemmas nipkow parents: 59561 diff changeset	84
f54af3307334 added funs and lemmas nipkow parents: 59561 diff changeset	85	lemma length_preorder[simp]: "length (preorder t) = size t"
f54af3307334 added funs and lemmas nipkow parents: 59561 diff changeset	86	by (induction t) auto
f54af3307334 added funs and lemmas nipkow parents: 59561 diff changeset	87
f54af3307334 added funs and lemmas nipkow parents: 59561 diff changeset	88	lemma length_inorder[simp]: "length (inorder t) = size t"
f54af3307334 added funs and lemmas nipkow parents: 59561 diff changeset	89	by (induction t) auto
f54af3307334 added funs and lemmas nipkow parents: 59561 diff changeset	90
f54af3307334 added funs and lemmas nipkow parents: 59561 diff changeset	91	lemma preorder_map: "preorder (map_tree f t) = map f (preorder t)"
f54af3307334 added funs and lemmas nipkow parents: 59561 diff changeset	92	by (induction t) auto
f54af3307334 added funs and lemmas nipkow parents: 59561 diff changeset	93
f54af3307334 added funs and lemmas nipkow parents: 59561 diff changeset	94	lemma inorder_map: "inorder (map_tree f t) = map f (inorder t)"
f54af3307334 added funs and lemmas nipkow parents: 59561 diff changeset	95	by (induction t) auto
f54af3307334 added funs and lemmas nipkow parents: 59561 diff changeset	96
57687 cca7e8788481 added more functions and lemmas nipkow parents: 57569 diff changeset	97
60500 903bb1495239 isabelle update_cartouches; wenzelm parents: 59928 diff changeset	98	subsection \<open>Binary Search Tree predicate\<close>
57250 cddaf5b93728 new theory of binary trees nipkow parents: diff changeset	99
57450 2baecef3207f Library/Tree: bst is preferred to be a function hoelzl parents: 57449 diff changeset	100	fun (in linorder) bst :: "'a tree \<Rightarrow> bool" where
58424 cbbba613b6ab added nice standard syntax nipkow parents: 58310 diff changeset	101	"bst \<langle>\<rangle> \<longleftrightarrow> True" \|
cbbba613b6ab added nice standard syntax nipkow parents: 58310 diff changeset	102	"bst \<langle>l, a, r\<rangle> \<longleftrightarrow> bst l \<and> bst r \<and> (\<forall>x\<in>set_tree l. x < a) \<and> (\<forall>x\<in>set_tree r. a < x)"
57250 cddaf5b93728 new theory of binary trees nipkow parents: diff changeset	103
60500 903bb1495239 isabelle update_cartouches; wenzelm parents: 59928 diff changeset	104	text\<open>In case there are duplicates:\<close>
59561 1a84beaa239b added new tree material nipkow parents: 58881 diff changeset	105
1a84beaa239b added new tree material nipkow parents: 58881 diff changeset	106	fun (in linorder) bst_eq :: "'a tree \<Rightarrow> bool" where
1a84beaa239b added new tree material nipkow parents: 58881 diff changeset	107	"bst_eq \<langle>\<rangle> \<longleftrightarrow> True" \|
1a84beaa239b added new tree material nipkow parents: 58881 diff changeset	108	"bst_eq \<langle>l,a,r\<rangle> \<longleftrightarrow>
1a84beaa239b added new tree material nipkow parents: 58881 diff changeset	109	bst_eq l \<and> bst_eq r \<and> (\<forall>x\<in>set_tree l. x \<le> a) \<and> (\<forall>x\<in>set_tree r. a \<le> x)"
1a84beaa239b added new tree material nipkow parents: 58881 diff changeset	110
59928 b9b7f913a19a new theory Library/Tree_Multiset.thy nipkow parents: 59776 diff changeset	111	lemma (in linorder) bst_eq_if_bst: "bst t \<Longrightarrow> bst_eq t"
b9b7f913a19a new theory Library/Tree_Multiset.thy nipkow parents: 59776 diff changeset	112	by (induction t) (auto)
b9b7f913a19a new theory Library/Tree_Multiset.thy nipkow parents: 59776 diff changeset	113
59561 1a84beaa239b added new tree material nipkow parents: 58881 diff changeset	114	lemma (in linorder) bst_eq_imp_sorted: "bst_eq t \<Longrightarrow> sorted (inorder t)"
1a84beaa239b added new tree material nipkow parents: 58881 diff changeset	115	apply (induction t)
1a84beaa239b added new tree material nipkow parents: 58881 diff changeset	116	apply(simp)
1a84beaa239b added new tree material nipkow parents: 58881 diff changeset	117	by (fastforce simp: sorted_append sorted_Cons intro: less_imp_le less_trans)
1a84beaa239b added new tree material nipkow parents: 58881 diff changeset	118
59928 b9b7f913a19a new theory Library/Tree_Multiset.thy nipkow parents: 59776 diff changeset	119	lemma (in linorder) distinct_preorder_if_bst: "bst t \<Longrightarrow> distinct (preorder t)"
b9b7f913a19a new theory Library/Tree_Multiset.thy nipkow parents: 59776 diff changeset	120	apply (induction t)
b9b7f913a19a new theory Library/Tree_Multiset.thy nipkow parents: 59776 diff changeset	121	apply simp
b9b7f913a19a new theory Library/Tree_Multiset.thy nipkow parents: 59776 diff changeset	122	apply(fastforce elim: order.asym)
b9b7f913a19a new theory Library/Tree_Multiset.thy nipkow parents: 59776 diff changeset	123	done
b9b7f913a19a new theory Library/Tree_Multiset.thy nipkow parents: 59776 diff changeset	124
b9b7f913a19a new theory Library/Tree_Multiset.thy nipkow parents: 59776 diff changeset	125	lemma (in linorder) distinct_inorder_if_bst: "bst t \<Longrightarrow> distinct (inorder t)"
b9b7f913a19a new theory Library/Tree_Multiset.thy nipkow parents: 59776 diff changeset	126	apply (induction t)
b9b7f913a19a new theory Library/Tree_Multiset.thy nipkow parents: 59776 diff changeset	127	apply simp
b9b7f913a19a new theory Library/Tree_Multiset.thy nipkow parents: 59776 diff changeset	128	apply(fastforce elim: order.asym)
b9b7f913a19a new theory Library/Tree_Multiset.thy nipkow parents: 59776 diff changeset	129	done
b9b7f913a19a new theory Library/Tree_Multiset.thy nipkow parents: 59776 diff changeset	130
59776 f54af3307334 added funs and lemmas nipkow parents: 59561 diff changeset	131
60505 9e6584184315 added funs and lemmas nipkow parents: 59928 diff changeset	132	subsection "The heap predicate"
9e6584184315 added funs and lemmas nipkow parents: 59928 diff changeset	133
9e6584184315 added funs and lemmas nipkow parents: 59928 diff changeset	134	fun heap :: "'a::linorder tree \<Rightarrow> bool" where
9e6584184315 added funs and lemmas nipkow parents: 59928 diff changeset	135	"heap Leaf = True" \|
9e6584184315 added funs and lemmas nipkow parents: 59928 diff changeset	136	"heap (Node l m r) =
9e6584184315 added funs and lemmas nipkow parents: 59928 diff changeset	137	(heap l \<and> heap r \<and> (\<forall>x \<in> set_tree l \<union> set_tree r. m \<le> x))"
9e6584184315 added funs and lemmas nipkow parents: 59928 diff changeset	138
9e6584184315 added funs and lemmas nipkow parents: 59928 diff changeset	139
59561 1a84beaa239b added new tree material nipkow parents: 58881 diff changeset	140	subsection "Function @{text mirror}"
1a84beaa239b added new tree material nipkow parents: 58881 diff changeset	141
1a84beaa239b added new tree material nipkow parents: 58881 diff changeset	142	fun mirror :: "'a tree \<Rightarrow> 'a tree" where
1a84beaa239b added new tree material nipkow parents: 58881 diff changeset	143	"mirror \<langle>\<rangle> = Leaf" \|
1a84beaa239b added new tree material nipkow parents: 58881 diff changeset	144	"mirror \<langle>l,x,r\<rangle> = \<langle>mirror r, x, mirror l\<rangle>"
1a84beaa239b added new tree material nipkow parents: 58881 diff changeset	145
1a84beaa239b added new tree material nipkow parents: 58881 diff changeset	146	lemma mirror_Leaf[simp]: "mirror t = \<langle>\<rangle> \<longleftrightarrow> t = \<langle>\<rangle>"
1a84beaa239b added new tree material nipkow parents: 58881 diff changeset	147	by (induction t) simp_all
1a84beaa239b added new tree material nipkow parents: 58881 diff changeset	148
1a84beaa239b added new tree material nipkow parents: 58881 diff changeset	149	lemma size_mirror[simp]: "size(mirror t) = size t"
1a84beaa239b added new tree material nipkow parents: 58881 diff changeset	150	by (induction t) simp_all
1a84beaa239b added new tree material nipkow parents: 58881 diff changeset	151
1a84beaa239b added new tree material nipkow parents: 58881 diff changeset	152	lemma size1_mirror[simp]: "size1(mirror t) = size1 t"
1a84beaa239b added new tree material nipkow parents: 58881 diff changeset	153	by (simp add: size1_def)
1a84beaa239b added new tree material nipkow parents: 58881 diff changeset	154
59776 f54af3307334 added funs and lemmas nipkow parents: 59561 diff changeset	155	lemma depth_mirror[simp]: "depth(mirror t) = depth t"
f54af3307334 added funs and lemmas nipkow parents: 59561 diff changeset	156	by (induction t) simp_all
f54af3307334 added funs and lemmas nipkow parents: 59561 diff changeset	157
f54af3307334 added funs and lemmas nipkow parents: 59561 diff changeset	158	lemma inorder_mirror: "inorder(mirror t) = rev(inorder t)"
f54af3307334 added funs and lemmas nipkow parents: 59561 diff changeset	159	by (induction t) simp_all
f54af3307334 added funs and lemmas nipkow parents: 59561 diff changeset	160
f54af3307334 added funs and lemmas nipkow parents: 59561 diff changeset	161	lemma map_mirror: "map_tree f (mirror t) = mirror (map_tree f t)"
f54af3307334 added funs and lemmas nipkow parents: 59561 diff changeset	162	by (induction t) simp_all
f54af3307334 added funs and lemmas nipkow parents: 59561 diff changeset	163
59561 1a84beaa239b added new tree material nipkow parents: 58881 diff changeset	164	lemma mirror_mirror[simp]: "mirror(mirror t) = t"
1a84beaa239b added new tree material nipkow parents: 58881 diff changeset	165	by (induction t) simp_all
1a84beaa239b added new tree material nipkow parents: 58881 diff changeset	166
57687 cca7e8788481 added more functions and lemmas nipkow parents: 57569 diff changeset	167
cca7e8788481 added more functions and lemmas nipkow parents: 57569 diff changeset	168	subsection "Deletion of the rightmost entry"
cca7e8788481 added more functions and lemmas nipkow parents: 57569 diff changeset	169
cca7e8788481 added more functions and lemmas nipkow parents: 57569 diff changeset	170	fun del_rightmost :: "'a tree \<Rightarrow> 'a tree * 'a" where
58424 cbbba613b6ab added nice standard syntax nipkow parents: 58310 diff changeset	171	"del_rightmost \<langle>l, a, \<langle>\<rangle>\<rangle> = (l,a)" \|
cbbba613b6ab added nice standard syntax nipkow parents: 58310 diff changeset	172	"del_rightmost \<langle>l, a, r\<rangle> = (let (r',x) = del_rightmost r in (\<langle>l, a, r'\<rangle>, x))"
57687 cca7e8788481 added more functions and lemmas nipkow parents: 57569 diff changeset	173
cca7e8788481 added more functions and lemmas nipkow parents: 57569 diff changeset	174	lemma del_rightmost_set_tree_if_bst:
cca7e8788481 added more functions and lemmas nipkow parents: 57569 diff changeset	175	"\<lbrakk> del_rightmost t = (t',x); bst t; t \<noteq> Leaf \<rbrakk>
cca7e8788481 added more functions and lemmas nipkow parents: 57569 diff changeset	176	\<Longrightarrow> x \<in> set_tree t \<and> set_tree t' = set_tree t - {x}"
cca7e8788481 added more functions and lemmas nipkow parents: 57569 diff changeset	177	apply(induction t arbitrary: t' rule: del_rightmost.induct)
cca7e8788481 added more functions and lemmas nipkow parents: 57569 diff changeset	178	apply (fastforce simp: ball_Un split: prod.splits)+
cca7e8788481 added more functions and lemmas nipkow parents: 57569 diff changeset	179	done
cca7e8788481 added more functions and lemmas nipkow parents: 57569 diff changeset	180
cca7e8788481 added more functions and lemmas nipkow parents: 57569 diff changeset	181	lemma del_rightmost_set_tree:
58424 cbbba613b6ab added nice standard syntax nipkow parents: 58310 diff changeset	182	"\<lbrakk> del_rightmost t = (t',x); t \<noteq> \<langle>\<rangle> \<rbrakk> \<Longrightarrow> set_tree t = insert x (set_tree t')"
57687 cca7e8788481 added more functions and lemmas nipkow parents: 57569 diff changeset	183	apply(induction t arbitrary: t' rule: del_rightmost.induct)
cca7e8788481 added more functions and lemmas nipkow parents: 57569 diff changeset	184	by (auto split: prod.splits) auto
cca7e8788481 added more functions and lemmas nipkow parents: 57569 diff changeset	185
cca7e8788481 added more functions and lemmas nipkow parents: 57569 diff changeset	186	lemma del_rightmost_bst:
58424 cbbba613b6ab added nice standard syntax nipkow parents: 58310 diff changeset	187	"\<lbrakk> del_rightmost t = (t',x); bst t; t \<noteq> \<langle>\<rangle> \<rbrakk> \<Longrightarrow> bst t'"
57687 cca7e8788481 added more functions and lemmas nipkow parents: 57569 diff changeset	188	proof(induction t arbitrary: t' rule: del_rightmost.induct)
cca7e8788481 added more functions and lemmas nipkow parents: 57569 diff changeset	189	case (2 l a rl b rr)
cca7e8788481 added more functions and lemmas nipkow parents: 57569 diff changeset	190	let ?r = "Node rl b rr"
cca7e8788481 added more functions and lemmas nipkow parents: 57569 diff changeset	191	from "2.prems"(1) obtain r' where 1: "del_rightmost ?r = (r',x)" and [simp]: "t' = Node l a r'"
cca7e8788481 added more functions and lemmas nipkow parents: 57569 diff changeset	192	by(simp split: prod.splits)
cca7e8788481 added more functions and lemmas nipkow parents: 57569 diff changeset	193	from "2.prems"(2) 1 del_rightmost_set_tree[OF 1] show ?case by(auto)(simp add: "2.IH")
cca7e8788481 added more functions and lemmas nipkow parents: 57569 diff changeset	194	qed auto
cca7e8788481 added more functions and lemmas nipkow parents: 57569 diff changeset	195
cca7e8788481 added more functions and lemmas nipkow parents: 57569 diff changeset	196
58424 cbbba613b6ab added nice standard syntax nipkow parents: 58310 diff changeset	197	lemma del_rightmost_greater: "\<lbrakk> del_rightmost t = (t',x); bst t; t \<noteq> \<langle>\<rangle> \<rbrakk>
57687 cca7e8788481 added more functions and lemmas nipkow parents: 57569 diff changeset	198	\<Longrightarrow> \<forall>a\<in>set_tree t'. a < x"
cca7e8788481 added more functions and lemmas nipkow parents: 57569 diff changeset	199	proof(induction t arbitrary: t' rule: del_rightmost.induct)
cca7e8788481 added more functions and lemmas nipkow parents: 57569 diff changeset	200	case (2 l a rl b rr)
cca7e8788481 added more functions and lemmas nipkow parents: 57569 diff changeset	201	from "2.prems"(1) obtain r'
cca7e8788481 added more functions and lemmas nipkow parents: 57569 diff changeset	202	where dm: "del_rightmost (Node rl b rr) = (r',x)" and [simp]: "t' = Node l a r'"
cca7e8788481 added more functions and lemmas nipkow parents: 57569 diff changeset	203	by(simp split: prod.splits)
cca7e8788481 added more functions and lemmas nipkow parents: 57569 diff changeset	204	show ?case using "2.prems"(2) "2.IH"[OF dm] del_rightmost_set_tree_if_bst[OF dm]
cca7e8788481 added more functions and lemmas nipkow parents: 57569 diff changeset	205	by (fastforce simp add: ball_Un)
cca7e8788481 added more functions and lemmas nipkow parents: 57569 diff changeset	206	qed simp_all
cca7e8788481 added more functions and lemmas nipkow parents: 57569 diff changeset	207
cca7e8788481 added more functions and lemmas nipkow parents: 57569 diff changeset	208	lemma del_rightmost_Max:
58424 cbbba613b6ab added nice standard syntax nipkow parents: 58310 diff changeset	209	"\<lbrakk> del_rightmost t = (t',x); bst t; t \<noteq> \<langle>\<rangle> \<rbrakk> \<Longrightarrow> x = Max(set_tree t)"
58467 6a3da58f7233 moved to HOL and generalized haftmann parents: 58438 diff changeset	210	by (metis Max_insert2 del_rightmost_greater del_rightmost_set_tree finite_set_tree less_le_not_le)
57687 cca7e8788481 added more functions and lemmas nipkow parents: 57569 diff changeset	211
57250 cddaf5b93728 new theory of binary trees nipkow parents: diff changeset	212	end

author	nipkow
	Wed, 17 Jun 2015 20:22:01 +0200
changeset 60506	83231b558ce4
parent 60500	903bb1495239
parent 60505	9e6584184315
child 60507	16993a3f4967
permissions	-rw-r--r--