static void Main(string[] args)
{
//Stack
// StackDS<int> mystack = new StackDS<int>();
// mystack.push(5);
// mystack.push(4);
// mystack.push(3);
// mystack.push(2);
// mystack.push(1);
//while(mystack.count > 0)
// {
// // Console.WriteLine(mystack.pop() + " \n");
// }
//BinarySearchTree
//BinaryTree<int> bt = new BinaryTree<int>();
//bt.Root = new BinaryTreeNode<int>(13);
//bt.Root.left = new BinaryTreeNode<int>(10, new BinaryTreeNode<int>(2), new BinaryTreeNode<int>(12));
//bt.Root.right = new BinaryTreeNode<int>(25, new BinaryTreeNode<int>(20), new BinaryTreeNode<int>(31, new BinaryTreeNode<int>(29), null));
//Console.WriteLine("Preorder Traverse\n");
// preorder(bt.Root);
//Console.WriteLine("inorder Traverse\n");
// inorder(bt.Root);
// Console.WriteLine("Postorder Traverse\n");
// postorder(bt.Root);
// Console.WriteLine("No Of Nodes" + cnt);
// Console.ReadLine();
BinarySearchTree <int> tree = new BinarySearchTree <int>();
tree.AddNode(6);
tree.AddNode(4);
tree.AddNode(2);
tree.AddNode(1);
tree.AddNode(3);
tree.AddNode(5);
tree.AddNode(9);
tree.AddNode(10);
tree.AddNode(8);
tree.AddNode(7);
tree.InOrderTraversal(tree.Root);
Console.WriteLine("---------------------");
tree.PreOrderTraversal(tree.Root);
Console.WriteLine("---------------------");
tree.PostOrderTraversal(tree.Root);
Console.WriteLine("---------------------");
BinaryNode <int> parent;
BinaryNode <int> target = tree.FindWithParent(6, out parent);
tree.RemoveNode(6);
Console.WriteLine("---------------------");
tree.PreOrderTraversal(tree.Root);
Console.ReadLine();
}
static void Main(string[] args)
{
/********************************************************** IMPLEMENT QUEUE WITH TWO STACKS ***********************************************************************/
ImplementQueueWithTwoStacks iqTS = new ImplementQueueWithTwoStacks();
iqTS.Insert(10);
iqTS.Insert(20);
iqTS.Insert(30);
iqTS.Insert(40);
Console.WriteLine(iqTS.Delete()); // 10
Console.WriteLine(iqTS.Delete()); // 20
Console.WriteLine(iqTS.Delete()); // 30
/********************************************************** IMPLEMENT QUEUE WITH TWO STACKS ***********************************************************************/
// Console.WriteLine(new InfixToPostFixConversion(7).ConvertToPostfix("a+b*(c-d)"));
Console.WriteLine(new InfixToPostFixConversion("a+b*(c^d-e)^(f+g*h)-i".Length).ConvertToPostfix("a+b*(c^d-e)^(f+g*h)-i")); // abcd^e-fgh*+^*+i-
/**************************************************************** Trying to implement complete binary tree *****************************************************************/
TreePractice tr = new TreePractice();
tr.AddNode_BinaryTree(10, tr.root);
tr.AddNode_BinaryTree(20, tr.root);
tr.AddNode_BinaryTree(30, tr.root);
tr.AddNode_BinaryTree(40, tr.root);
tr.AddNode_BinaryTree(50, tr.root);
tr.AddNode_BinaryTree(60, tr.root);
/**************************************************************** Trying to implement complete binary tree *****************************************************************/
TreeTraversals trTraversal = new TreeTraversals();
trTraversal.Inorder(tr.root);
Console.WriteLine(new TreePractice().CountNumberOfNodes(tr.root));
Console.WriteLine(new TreePractice().CountNumberOfNodes_Meth2(tr.root));
Console.WriteLine(new TreePractice().CountNumberOfLeaves(tr.root));
Console.WriteLine("No of leaves:" + new TreePractice().CountNumberofLeaves_Meth2(tr.root));
Console.WriteLine("No of non-leaves:" + new TreePractice().CountNumberofNonLeaves_Meth2(tr.root));
/************************************************* Binary Search Tree ************************************/
BinarySearchTree bTree = new BinarySearchTree();
/* Add elements in Binary Search Tree */
bTree.AddNode(10, bTree.root);
bTree.AddNode(20, bTree.root);
bTree.AddNode(30, bTree.root);
bTree.AddNode(40, bTree.root);
bTree.AddNode(25, bTree.root);
bTree.AddNode(15, bTree.root);
bTree.AddNode(5, bTree.root);
bTree.AddNode(8, bTree.root);
bTree.AddNode(9, bTree.root);
Console.WriteLine("Maximum Element: " + bTree.FindMax(bTree.root));
Console.WriteLine("Minimum Element: " + bTree.FindMin(bTree.root));
bTree.DeleteNode(25, bTree.root);
NodePractice afterDelete = bTree.DeleteNode(40, bTree.root);
// bTree.DeleteNode(10, bTree.root);
Console.WriteLine(afterDelete.data);
trTraversal.Inorder(bTree.root); // should print all elements in a sorted order
Console.ReadLine();
}