Computing average value of the elements in the binary tree Program plan: BinaryTree.java: Define the class “BinaryTree.java”. Declare the private variable root from class “Node”. Defining the constructor “BinaryTree” to generate an empty tree. Assign root to null. Define the parameterized constructor “BinaryTree(object rootData)” to generate a tree one root element. Generate root node. Define the parameterized constructor “public BinaryTree(Object rootData, BinaryTree left, BinaryTree right)”. Generates root and children nodes. Define the “preorder()” method for both tree with many nodes and a tree with one node. For a tree with one node and no children, “preorder(root,v)” is called. For a tree with multiple nodes, If (node == null) returns v.visit(node.data); If (node.left != null) then, preorder(node.left, v); If (node.right != null) then, preorder(node.right, v); Define the “inorder()” method for both tree with many nodes and a tree with one node. For a tree with one node and no children, “inorder(root,v)” is called. For a tree with multiple nodes, If (node.left != null) then, inorder(node.left, v) and v.visit(node.data); If (node.right != null) then, inorder(node.right, v); Define the “postorder()” method for both tree with many nodes and a tree with one node. For a tree with one node and no children, “postorder(root,v)” is called. For a tree with multiple nodes, If (node.left != null) then, postorder(v, node.left); If (node.right != null) then, postorder(v, node.right) and v.visit(node.data); Define the class “Node”. Declare “object data”. Declare “Node left”. Declare “Node right”. Define the function static “height()” If (n == null) returns the null value. Otherwise returns the value 1 + Math.max(height(n.left), height(n.right)). Define the function “height()” Returns the height of this tree. Define “isEmpty()” function: It checks whether this tree is empty. Return true value if this tree is empty. Define the “data()” function. Gets the data at the root of this tree. Returns the root data. Define “left()” and “right()” function. “left()” function return the left child of the root. “right()” function return the right child of the root. Visitor.java: Define interface “Visitor” Calls the “visit(object data)” BinaryTreeTester.java: Import the required header files. Define “BinaryTreeTester” class. Define the “main()” function. Create an object “questionTree” for “BinaryTree” with tree values. Define a class “Averager” which implements the “Visitor” class. Define “visit()” method which compute the sum of elements of the binary tree. Define “average()” method which computes the average value using “sum” value . Create object for “Averager” class and call the “inorder()” function by passing the “Averager” class object. Print the value of average.

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Chapter 17, Problem 8PE

Program Plan Intro

Computing average value of the elements in the binary tree

Program plan:

BinaryTree.java:

Define the class “BinaryTree.java”.

Declare the private variable root from class “Node”.

Defining the constructor “BinaryTree” to generate an empty tree.

Assign root to null.

Define the parameterized constructor “BinaryTree(object rootData)” to generate a tree one root element.

Generate root node.

Define the parameterized constructor “public BinaryTree(Object rootData, BinaryTree left, BinaryTree right)”.

Generates root and children nodes.

Define the “preorder()” method for both tree with many nodes and a tree with one node.

For a tree with one node and no children,

“preorder(root,v)” is called.

For a tree with multiple nodes,

If (node == null) returns v.visit(node.data);

If (node.left != null) then, preorder(node.left, v);

If (node.right != null) then, preorder(node.right, v);

Define the “inorder()” method for both tree with many nodes and a tree with one node.

For a tree with one node and no children,

“inorder(root,v)” is called.

For a tree with multiple nodes,

If (node.left != null) then, inorder(node.left, v) and v.visit(node.data);

If (node.right != null) then, inorder(node.right, v);

Define the “postorder()” method for both tree with many nodes and a tree with one node.

For a tree with one node and no children,

“postorder(root,v)” is called.

For a tree with multiple nodes,

If (node.left != null) then, postorder(v, node.left);

If (node.right != null) then, postorder(v, node.right) and v.visit(node.data);

Define the class “Node”.

Declare “object data”.

Declare “Node left”.

Declare “Node right”.

Define the function static “height()”

If (n == null) returns the null value.

Otherwise returns the value 1 + Math.max(height(n.left), height(n.right)).

Define the function “height()”

Returns the height of this tree.

Define “isEmpty()” function:

It checks whether this tree is empty.

Return true value if this tree is empty.

Define the “data()” function.

Gets the data at the root of this tree.

Returns the root data.

Define “left()” and “right()” function.

“left()” function return the left child of the root.

“right()” function return the right child of the root.

Visitor.java:

Define interface “Visitor”

Calls the “visit(object data)”

BinaryTreeTester.java:

Import the required header files.

Define “BinaryTreeTester” class.

Define the “main()” function.

Create an object “questionTree” for “BinaryTree” with tree values.

Define a class “Averager” which implements the “Visitor” class.

Define “visit()” method which compute the sum of elements of the binary tree.

Define “average()” method which computes the average value using “sum” value .

Create object for “Averager” class and call the “inorder()” function by passing the “Averager” class object.

Print the value of average.

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