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I have written the following code to check if a tree is a Binary search tree. Please help me check the code:

Okay! The code is edited now. This simple solution was suggested by someone in the posts below:

IsValidBST(root,-infinity,infinity);

bool IsValidBST(BinaryNode node, int MIN, int MAX) 
{
     if(node == null)
         return true;
     if(node.element > MIN 
         && node.element < MAX
         && IsValidBST(node.left,MIN,node.element)
         && IsValidBST(node.right,node.element,MAX))
         return true;
     else 
         return false;
}
share|improve this question
    
@TimeToCodeTheRoad - what language is this written in? It would be extremely helpful if you edit your question to tag your question appropriately. Also, you should use the code tag buttons ({}) to format your code for easier readability. Finally, what is wrong with your code? What exactly are we "checking" for, are you getting an error? –  LittleBobbyTables Jan 1 '11 at 19:37
    
this is java code, and i am checking whether a BinaryNode v satisfied the properties of a binary search tree –  TimeToCodeTheRoad Jan 1 '11 at 19:45
    
@TimeToCode, why do you return a Pair() ?? –  GeorgeAl Jan 1 '11 at 19:46
    
@muggen:cuz i need to keep track of max and min values –  TimeToCodeTheRoad Jan 1 '11 at 19:51
3  
@TimeToCodeTheRoad - I just made a joke:) You probably know who is Bobby Tables - xkcd.com/327 :) –  Petar Minchev Jan 1 '11 at 19:57

7 Answers 7

up vote 3 down vote accepted

A Method should only do one thing at a time. Also the way you do things are generally Weird. I will give you some almost-Java pseudocode. Sorry for that, but I have not touched Java for some Time. I hope it helps. Look at the comments I also did on the Question and I hope you sort it out!

Call your isBST like that :

public boolean isBst(BNode node)
{
    return isBinarySearchTree(node , Integer.MIN_VALUE , Integer.MIN_VALUE);
}

Internally :

public boolean isBinarySearchTree(BNode node , int min , int max)
{
    if(node.data < min || node.data > max)
        return false;
    //Check this node!
    //This algorithm doesn't recurse with null Arguments.
    //When a null is found the method returns true;
    //Look and you will find out.
    /*
     * Checking for Left SubTree
     */
    boolean leftIsBst = false;
    //If the Left Node Exists
    if(node.left != null)
    {
        //and the Left Data are Smaller than the Node Data
        if(node.left.data < node.data)
        {
            //Check if the subtree is Valid as well
            leftIsBst = isBinarySearchTree(node.left , min , node.data);
        }else
        {
            //Else if the Left data are Bigger return false;
            leftIsBst = false;
        }
    }else //if the Left Node Doesn't Exist return true;
    {
        leftIsBst = true;
    }

    /*
     * Checking for Right SubTree - Similar Logic
     */
    boolean rightIsBst = false;
    //If the Right Node Exists
    if(node.right != null)
    {
        //and the Right Data are Bigger (or Equal) than the Node Data
        if(node.right.data >= node.data)
        {
            //Check if the subtree is Valid as well
            rightIsBst = isBinarySearchTree(node.right , node.data+1 , max);
        }else
        {
            //Else if the Right data are Smaller return false;
            rightIsBst = false;
        }
    }else //if the Right Node Doesn't Exist return true;
    {
        rightIsBst = true;
    }

    //if both are true then this means that subtrees are BST too
    return (leftIsBst && rightIsBst);
}

Now : If you want to find the Min and Max Values of each Subtree you should use a Container (I used an ArrayList) and store a triplet of Node, Min, Max which represents the root node and the values (obviously).

eg.

/*
 * A Class which is used when getting subTrees Values
 */
class TreeValues
{
    BNode root; //Which node those values apply for
    int Min;
    int Max;
    TreeValues(BNode _node , _min , _max)
    {
        root = _node;
        Min = _min;
        Max = _max;
    }
}

And a :

/*
 * Use this as your container to store Min and Max of the whole
 */
ArrayList<TreeValues> myValues = new ArrayList<TreeValues>;

Now this is a method which finds the Min and Max values of a given node:

/*
 * Method Used to get Values for one Subtree
 * Returns a TreeValues Object containing that (sub-)trees values
 */ 
public TreeValues GetSubTreeValues(BNode node)
{
    //Keep information on the data of the Subtree's Startnode
    //We gonna need it later
    BNode SubtreeRoot = node;

    //The Min value of a BST Tree exists in the leftmost child
    //and the Max in the RightMost child

    int MinValue = 0;

    //If there is not a Left Child
    if(node.left == null)
    {
        //The Min Value is this node's data
        MinValue = node.data;
    }else
    {
        //Get me the Leftmost Child
        while(node.left != null)
        {
            node = node.left;
        }
        MinValue = node.data;
    }
    //Reset the node to original value
    node = SubtreeRoot; //Edit - fix
    //Similarly for the Right Child.
    if(node.right == null)
    {
        MaxValue = node.data;
    }else
    {
        int MaxValue = 0;
        //Similarly
        while(node.right != null)
        {
            node = node.right;
        }
        MaxValue = node.data;
    }
    //Return the info.
    return new TreeValues(SubtreeRoot , MinValue , MaxValue);   
}

But this returns Values for one Node only, So we gonna use this to find for the Whole Tree:

public void GetTreeValues(BNode node)
{
    //Add this node to the Container with Tree Data 
    myValues.add(GetSubTreeValues(node));

    //Get Left Child Values, if it exists ...
    if(node.left != null)
        GetTreeValues(node.left);
    //Similarly.
    if(node.right != null)
        GetTreeValues(node.right);
    //Nothing is returned, we put everything to the myValues container
    return; 
}

Using this methods, your call should look like

if(isBinarySearchTree(root))
    GetTreeValues(root);
//else ... Do Something

This is almost Java. It should work with some modification and fix. Find a good OO book, it will help you. Note, that this solution could be broke down into more methods.

share|improve this answer
    
@Muggen: i think your method to check isBST() is wrong. Try it on this tree: root node: 10, then children of root node are 9 and 12. Then children of 9 are 8 and 40. this is not a BST but your code says it is!!! if you agree, pls give me some credit and remove the -1 –  TimeToCodeTheRoad Jan 2 '11 at 13:22
    
@TimeToCode, which is the Root ? –  GeorgeAl Jan 2 '11 at 13:23
    
@TimeToCode I didn't give you the -1. I see what the problem is. Let me check and I will let you know. –  GeorgeAl Jan 2 '11 at 13:25
    
@TimeToCode , Try it now, becareful of the edit : use isBst(node) !! –  GeorgeAl Jan 2 '11 at 13:43
1  
@Muggen: ya, now it looks right :). I assume that for the left subtree you call isBST(v.left, min, v.data). Thanks for the advice. From next time , i will definitely give more examples. Thanks for your time and patience. moreover, for the right subtree, i think isBST(v.right, v.data, max) will also work. Overall, your logic seems cool and quite straightforward. Thanks a lot for your help again. Really appreciate it. –  TimeToCodeTheRoad Jan 2 '11 at 14:51

right, another simple solution is do an inorder visit

java code here

share|improve this answer

UPDATE: I just saw that this solution was suggested before. Sorry about this guys, maybe somebody still finds my version useful

Here is a solution that uses In-Order Traversal to check for BST property. Before I provide the solution, I am using a definition of a BST that doesn't allow duplicates. This means that each value in the BST is unique (this is just for simplicity).

Code for recursive inorder print:

void printInorder(Node root) {
    if(root == null) {                 // base case
        return;
    }
    printInorder(root.left);           // go left
    System.out.print(root.data + " "); // process (print) data
    printInorder(root.right);          // go right
}

After this inorder traversal on a BST, all the data should be printed in sorted ascending order. For example the tree:

        5
      3   7
     1 2 6 9

would have inorder print:

1 2 3 5 6 7 9

Now, instead of printing the node, we can keep track of the previous value in the In-Order sequence and compare it to the current node's value. If the current node's value is smaller than the previous value, this means that the sequence isn't in the ascending sorted order and that the BST property is violated.

For example, the tree:

        5
      3   7
     1 8 6 9

Has a violation. The right child of 3 is 8 and this would be ok if 3 was the root node. However, in a BST 8 would end up as a left child of 9 and not as a right child of 3. Therefore, this tree is not a BST. So, the code that follow this idea:

/* wrapper that keeps track of the previous value */
class PrevWrapper {
    int data = Integer.MIN_VALUE;
}

boolean isBST(Node root, PrevWrapper prev) {
    /* base case: we reached null*/
    if (root == null) {
        return true;
    }

    if(!isBST(root.left, prev)) {
        return false;
    }
    /* If previous in-order node's data is larger than
     * current node's data, BST property is violated */
    if (prev.data > root.data) {
        return false;
    }

    /* set the previous in-order data to the current node's data*/
    prev.data = root.data;

    return isBST(root.right, prev);
}

boolean isBST(Node root) {
    return isBST(root, new PrevWrapper());
}

The in-order traversal for the sample tree would fails the check for node 5 since previous in-order of 5 is 8, which is larger so BST property is violated.

share|improve this answer

It doesn't really make much sense to return INTEGER.MIN,INTEGER.MAX as the values for an empty tree. Perhaps use an Integer and return null instead.

share|improve this answer
    
do you think the code works –  TimeToCodeTheRoad Jan 2 '11 at 11:08
    
@anonymous:Why -1. pls justify because this is unacceptable. I am trying so hard to get the thing right and you just give a -1. –  TimeToCodeTheRoad Jan 2 '11 at 11:21
    boolean isBST(TreeNode root, int max, int min) {
        if (root == null) {
            return true;
        } else if (root.val >= max || root.val <= min) {
            return false;
        } else {
            return isBST(root.left, root.val, min) && isBST(root.right, max, root.val);
        }

    }

an alternative way solving this problem.. similar with your code

share|improve this answer
public void inorder()
     {
         min=min(root);
         //System.out.println(min);
         inorder(root);

     }

     private int min(BSTNode r)
         {

             while (r.left != null)
             {
                r=r.left;
             }
          return r.data;


     }


     private void inorder(BSTNode r)
     {

         if (r != null)
         {
             inorder(r.getLeft());
             System.out.println(r.getData());
             if(min<=r.getData())
             {
                 System.out.println(min+"<="+r.getData());
                 min=r.getData();
             }
             else
             System.out.println("nananan");
             //System.out.print(r.getData() +" ");
             inorder(r.getRight());
             return;
         }
     }
share|improve this answer
boolean bst = isBST(root, Integer.MIN_VALUE, Integer.MAX_VALUE);

public boolean isBST(Node root, int min, int max) {
    if(root == null) 
        return true;

    return (root.data > min &&
            root.data < max &&
            isBST(root.left, min, root.data) &&
            isBST(root.right, root.data, max));
    }
share|improve this answer

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