protected void PreOrderI() { // requires stack data structure Node curr = getRoot(); if (curr == null) { return; } cStack s = new cStack(); s.push(curr); while (!s.isEmpty()) { curr = (Node)s.pop(); Console.Write("{0} ", curr.val); if (curr.left != null) { s.push(curr.left); } if (curr.right != null) { s.push(curr.right); } } }
protected void InOrderI() { /* * this require Stack data structure. If you don't * want to use stack you can check InOrderI2() which * uses Morris tree traversal algorithm */ cStack stack = new cStack(); Node curr = getRoot(); while (1 == 1) { if (curr != null) { stack.push(curr); curr = curr.left; } else { if (stack.isEmpty()) { return; } else { curr = (Node)stack.pop(); Console.Write("{0} ", curr.val); curr = curr.right; } } // curr!=null end } // while end }
protected void PostOrderI() { // requires stack data structure Node curr = getRoot(); if (curr == null) { return; } cStack s = new cStack(); do { while (curr != null) { if (curr.right != null) { s.push(curr.right); } s.push(curr); curr = curr.left; } curr = (Node)s.pop(); if (curr.right != null && (Node)s.peek() == curr.right) { s.pop(); s.push(curr); curr = curr.right; } else { Console.Write("{0} ", curr.val); curr = null; } } while(!s.isEmpty()); }
protected bool isBstI() { Node curr = getRoot(); if (curr == null) { return(false); } // if only root than it is bst if (curr.right == null && curr.left == null) { return(true); } Node last = null; cStack s = new cStack(); while (!s.isEmpty() && curr != null) { if (curr != null) { s.push(curr); curr = curr.left; } else { curr = (Node)s.pop(); if (last != null && curr.val < last.val) { return(false); } last = curr; curr = curr.right; } } // while end return(true); }