src/HOL/Data_Structures/Tree234_Map.thy

--- /dev/null	Thu Jan 01 00:00:00 1970 +0000
+++ b/src/HOL/Data_Structures/Tree234_Map.thy	Sun Oct 25 17:31:14 2015 +0100
@@ -0,0 +1,193 @@
+(* Author: Tobias Nipkow *)
+
+section \<open>A 2-3-4 Tree Implementation of Maps\<close>
+
+theory Tree234_Map
+imports
+  Tree234_Set
+  "../Data_Structures/Map_by_Ordered"
+begin
+
+subsection \<open>Map operations on 2-3-4 trees\<close>
+
+fun lookup :: "('a::linorder * 'b) tree234 \<Rightarrow> 'a \<Rightarrow> 'b option" where
+"lookup Leaf x = None" |
+"lookup (Node2 l (a,b) r) x =
+  (if x < a then lookup l x else
+  if a < x then lookup r x else Some b)" |
+"lookup (Node3 l (a1,b1) m (a2,b2) r) x =
+  (if x < a1 then lookup l x else
+   if x = a1 then Some b1 else
+   if x < a2 then lookup m x else
+   if x = a2 then Some b2
+   else lookup r x)" |
+"lookup (Node4 l (a1,b1) m (a2,b2) n (a3,b3) r) x =
+  (if x < a2 then
+     if x = a1 then Some b1 else
+     if x < a1 then lookup l x else lookup m x
+   else
+     if x = a2 then Some b2 else
+     if x = a3 then Some b3 else
+     if x < a3 then lookup n x
+     else lookup r x)"
+
+fun upd :: "'a::linorder \<Rightarrow> 'b \<Rightarrow> ('a*'b) tree234 \<Rightarrow> ('a*'b) up\<^sub>i" where
+"upd x y Leaf = Up\<^sub>i Leaf (x,y) Leaf" |
+"upd x y (Node2 l ab r) =
+   (if x < fst ab then
+        (case upd x y l of
+           T\<^sub>i l' => T\<^sub>i (Node2 l' ab r)
+         | Up\<^sub>i l1 q l2 => T\<^sub>i (Node3 l1 q l2 ab r))
+    else if x = fst ab then T\<^sub>i (Node2 l (x,y) r)
+    else
+        (case upd x y r of
+           T\<^sub>i r' => T\<^sub>i (Node2 l ab r')
+         | Up\<^sub>i r1 q r2 => T\<^sub>i (Node3 l ab r1 q r2)))" |
+"upd x y (Node3 l ab1 m ab2 r) =
+   (if x < fst ab1 then
+        (case upd x y l of
+           T\<^sub>i l' => T\<^sub>i (Node3 l' ab1 m ab2 r)
+         | Up\<^sub>i l1 q l2 => Up\<^sub>i (Node2 l1 q l2) ab1 (Node2 m ab2 r))
+    else if x = fst ab1 then T\<^sub>i (Node3 l (x,y) m ab2 r)
+    else if x < fst ab2 then
+             (case upd x y m of
+                T\<^sub>i m' => T\<^sub>i (Node3 l ab1 m' ab2 r)
+              | Up\<^sub>i m1 q m2 => Up\<^sub>i (Node2 l ab1 m1) q (Node2 m2 ab2 r))
+         else if x = fst ab2 then T\<^sub>i (Node3 l ab1 m (x,y) r)
+         else
+             (case upd x y r of
+                T\<^sub>i r' => T\<^sub>i (Node3 l ab1 m ab2 r')
+              | Up\<^sub>i r1 q r2 => Up\<^sub>i (Node2 l ab1 m) ab2 (Node2 r1 q r2)))" |
+"upd x y (Node4 l ab1 m ab2 n ab3 r) =
+   (if x < fst ab2 then
+      if x < fst ab1 then
+        (case upd x y l of
+           T\<^sub>i l' => T\<^sub>i (Node4 l' ab1 m ab2 n ab3 r)
+         | Up\<^sub>i l1 q l2 => Up\<^sub>i (Node2 l1 q l2) ab1 (Node3 m ab2 n ab3 r))
+      else
+      if x = fst ab1 then T\<^sub>i (Node4 l (x,y) m ab2 n ab3 r)
+      else
+        (case upd x y m of
+           T\<^sub>i m' => T\<^sub>i (Node4 l ab1 m' ab2 n ab3 r)
+         | Up\<^sub>i m1 q m2 => Up\<^sub>i (Node2 l ab1 m1) q (Node3 m2 ab2 n ab3 r))
+    else
+    if x = fst ab2 then T\<^sub>i (Node4 l ab1 m (x,y) n ab3 r) else
+    if x < fst ab3 then
+      (case upd x y n of
+         T\<^sub>i n' => T\<^sub>i (Node4 l ab1 m ab2 n' ab3 r)
+       | Up\<^sub>i n1 q n2 => Up\<^sub>i (Node2 l ab1 m) ab2(*q*) (Node3 n1 q n2 ab3 r))
+    else
+    if x = fst ab3 then T\<^sub>i (Node4 l ab1 m ab2 n (x,y) r)
+    else
+      (case upd x y r of
+         T\<^sub>i r' => T\<^sub>i (Node4 l ab1 m ab2 n ab3 r')
+       | Up\<^sub>i r1 q r2 => Up\<^sub>i (Node2 l ab1 m) ab2 (Node3 n ab3 r1 q r2)))"
+
+definition update :: "'a::linorder \<Rightarrow> 'b \<Rightarrow> ('a*'b) tree234 \<Rightarrow> ('a*'b) tree234" where
+"update a b t = tree\<^sub>i(upd a b t)"
+
+fun del :: "'a::linorder \<Rightarrow> ('a*'b) tree234 \<Rightarrow> ('a*'b) up\<^sub>d"
+where
+"del k Leaf = T\<^sub>d Leaf" |
+"del k (Node2 Leaf p Leaf) = (if k=fst p then Up\<^sub>d Leaf else T\<^sub>d(Node2 Leaf p Leaf))" |
+"del k (Node3 Leaf p Leaf q Leaf) =
+  T\<^sub>d(if k=fst p then Node2 Leaf q Leaf else
+     if k=fst q then Node2 Leaf p Leaf
+     else Node3 Leaf p Leaf q Leaf)" |
+"del k (Node4 Leaf ab1 Leaf ab2 Leaf ab3 Leaf) =
+  T\<^sub>d(if k=fst ab1 then Node3 Leaf ab2 Leaf ab3 Leaf else
+     if k=fst ab2 then Node3 Leaf ab1 Leaf ab3 Leaf else
+     if k=fst ab3 then Node3 Leaf ab1 Leaf ab2 Leaf
+     else Node4 Leaf ab1 Leaf ab2 Leaf ab3 Leaf)" |
+"del k (Node2 l a r) =
+  (if k<fst a then node21 (del k l) a r else
+   if k > fst a then node22 l a (del k r)
+   else let (a',t) = del_min r in node22 l a' t)" |
+"del k (Node3 l a m b r) =
+  (if k<fst a then node31 (del k l) a m b r else
+   if k = fst a then let (a',m') = del_min m in node32 l a' m' b r else
+   if k < fst b then node32 l a (del k m) b r else
+   if k = fst b then let (b',r') = del_min r in node33 l a m b' r'
+   else node33 l a m b (del k r))" |
+"del x (Node4 l ab1 m ab2 n ab3 r) =
+  (if x < fst ab2 then
+     if x < fst ab1 then node41 (del x l) ab1 m ab2 n ab3 r else
+     if x = fst ab1 then let (ab',m') = del_min m in node42 l ab' m' ab2 n ab3 r
+     else node42 l ab1 (del x m) ab2 n ab3 r
+   else
+     if x = fst ab2 then let (ab',n') = del_min n in node43 l ab1 m ab' n' ab3 r else
+     if x < fst ab3 then node43 l ab1 m ab2 (del x n) ab3 r else
+     if x = fst ab3 then let (ab',r') = del_min r in node44 l ab1 m ab2 n ab' r'
+     else node44 l ab1 m ab2 n ab3 (del x r))"
+
+definition delete :: "'a::linorder \<Rightarrow> ('a*'b) tree234 \<Rightarrow> ('a*'b) tree234" where
+"delete k t = tree\<^sub>d(del k t)"
+
+
+subsection "Functional correctness"
+
+lemma lookup: "sorted1(inorder t) \<Longrightarrow> lookup t x = map_of (inorder t) x"
+by (induction t) (auto simp: map_of_simps split: option.split)
+
+
+lemma inorder_upd:
+  "sorted1(inorder t) \<Longrightarrow> inorder(tree\<^sub>i(upd a b t)) = upd_list a b (inorder t)"
+by(induction t)
+  (auto simp: upd_list_simps, auto simp: upd_list_simps split: up\<^sub>i.splits)
+
+lemma inorder_update:
+  "sorted1(inorder t) \<Longrightarrow> inorder(update a b t) = upd_list a b (inorder t)"
+by(simp add: update_def inorder_upd)
+
+
+lemma inorder_del: "\<lbrakk> bal t ; sorted1(inorder t) \<rbrakk> \<Longrightarrow>
+  inorder(tree\<^sub>d (del x t)) = del_list x (inorder t)"
+by(induction t rule: del.induct)
+  ((auto simp: del_list_simps inorder_nodes del_minD split: prod.splits)[1])+
+(* 290 secs (2015) *)
+
+lemma inorder_delete: "\<lbrakk> bal t ; sorted1(inorder t) \<rbrakk> \<Longrightarrow>
+  inorder(delete x t) = del_list x (inorder t)"
+by(simp add: delete_def inorder_del)
+
+
+subsection \<open>Balancedness\<close>
+
+lemma bal_upd: "bal t \<Longrightarrow> bal (tree\<^sub>i(upd x y t)) \<and> height(upd x y t) = height t"
+by (induct t) (auto, auto split: up\<^sub>i.split) (* 33 secs (2015) *)
+
+lemma bal_update: "bal t \<Longrightarrow> bal (update x y t)"
+by (simp add: update_def bal_upd)
+
+
+lemma height_del: "bal t \<Longrightarrow> height(del x t) = height t"
+by(induction x t rule: del.induct)
+  (auto simp add: heights height_del_min split: prod.split)
+
+lemma bal_tree\<^sub>d_del: "bal t \<Longrightarrow> bal(tree\<^sub>d(del x t))"
+by(induction x t rule: del.induct)
+  (auto simp: bals bal_del_min height_del height_del_min split: prod.split)
+(* 110 secs (2015) *)
+
+corollary bal_delete: "bal t \<Longrightarrow> bal(delete x t)"
+by(simp add: delete_def bal_tree\<^sub>d_del)
+
+
+subsection \<open>Overall Correctness\<close>
+
+interpretation T234_Map: Map_by_Ordered
+where empty = Leaf and lookup = lookup and update = update and delete = delete
+and inorder = inorder and wf = bal
+proof (standard, goal_cases)
+  case 2 thus ?case by(simp add: lookup)
+next
+  case 3 thus ?case by(simp add: inorder_update)
+next
+  case 4 thus ?case by(simp add: inorder_delete)
+next
+  case 6 thus ?case by(simp add: bal_update)
+next
+  case 7 thus ?case by(simp add: bal_delete)
+qed simp+
+
+end