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I'm trying to write an insert method for my binary search tree class. I want it to be able to insert a new value into a tree that already has an existing node with this same data value must cause a new node to be created in the right subtree of the existing node. Here's my code. I'm getting an unhandled exception error while trying to compile. I don't know what I did wrong there. If someone can explain the reason why the compiler is giving me error, it would be great. Thanks :)

template <class elemType>
void bSearchTreeType<elemType>::insert
                 (const elemType& insertItem)
    nodeType<elemType> *current; //pointer to traverse the tree
    nodeType<elemType> *trailCurrent; //pointer behind current
    nodeType<elemType> *newNode;  //pointer to create the node

    newNode = new nodeType<elemType>;
    newNode->info = insertItem;
    newNode->lLink = NULL;
    newNode->rLink = NULL;

    if (root == NULL)
        root = newNode;
        current = root;

        while (current != NULL)
            trailCurrent = current;

            if (current->info == insertItem)
                current = current->rLink;
                trailCurrent->rLink = newNode;
                if (newNode->info <= current->info) //this is where the compiler say the error is
                    newNode->rLink = current;
                    newNode->lLink = current;
            else if (current->info > insertItem)
                current = current->lLink;
                current = current->rLink;
        }//end while

        if (trailCurrent->info < insertItem)
            trailCurrent->rLink = newNode;
        else if (trailCurrent->info > insertItem)
            trailCurrent->lLink = newNode;
}//end insert
share|improve this question
Can you post the compile error? – CoryKramer May 20 '14 at 20:03
Unhandled exception at 0x00FB84FA in BinaryTree.exe: 0xC0000005: Access violation reading location 0x00000000. – Nguyen Tran May 20 '14 at 20:06
"...must cause a new node to be created in the right subtree of the existing code." I think you meant "existing node". Regardless, does this mean you want it to continue traversal until it finds a valid insertion point (a null pointer) or do you intend it to be hung directly to the right of the existing node and the rest of the (potentially already existing) subtree on the right side to be arranged according, hung on the right of the new node? There is a difference between the two. – WhozCraig May 20 '14 at 20:11
@WhozCraig I want it to be hung directly to the right of the existing node and then modify the already existing subtree to go on the correct side of the new node – Nguyen Tran May 20 '14 at 20:13
@NguyenTran ok, but note, there is only one "correct" side that existing subtree can be hung on. Because it was "greater" than the previous node and our new node is a duplicate of that, it can only logically be placed on the right of our new node (which goes on the right of the existing node). – WhozCraig May 20 '14 at 20:48
up vote 0 down vote accepted

I'm fairly certain this is what you're trying to do:

template <class elemType>
void bSearchTreeType<elemType>::insert(const elemType& insertItem)
    nodeType<elemType> **pp = &root;
    while (*pp)
        if (insertItem < (*pp)->info)
            pp = &(*pp)->lLink;
        else if ((*pp)->info < insertItem)
            pp = &(*pp)->rLink);
        else break;

    // note: this is cleaner if the the nodeType constructor
    //  is parameterized. (hint hint)
    nodeType<elemType> *p = new nodType<elemType>;
    p->info = insertItem;
    p->lLink = NULL;

    if (*pp)
        p->rLink = (*pp)->rLink;
        (*pp)->rLink = p;
        *pp = p;

How it works

The basics of finding an insertion point for a new non-existing key are mundane, so I'll not cover them. The case of locating an existing key is, however, interesting. We use a pointer-to-pointer to hold the address of each node pointer we encounter while walking down the tree. When we have a match the loop will exit and *pp will not be null. When that happens, our new node has it's right-pointer set to the matched right-pointer, and the matched node's right-pointer becomes the new node. The remainder of the tree remains as-is.

I.e. adding a second 7 in this:

   3        7
2     4  6     8

results in

   3        7
2     4  6     7

then adding another 3 results in:

   3           7
2     3     6     7
        4           8

All of this, of course, assuming i understood the problem.No attempt at rotations or balancing is done. That I leave to you.

share|improve this answer
This is exactly what I'm trying to do. Thanks – Nguyen Tran May 20 '14 at 21:55
@NguyenTran I suspected as much. Spend some time learning about, and practicing, tons of double-indirection code. There are many problems, particularly dynamic chained node problems (linked lists, trees, etc) where it greatly simplifies the algorithms by addressing the pointers in the data structure, not just their values. This is one such example. – WhozCraig May 20 '14 at 22:08

You should make a deal with yourself. This deal can be like this:

The left subtree will have values less or equal than the one in the root and so on.

In code you have:

if (trailCurrent->info < insertItem)
  trailCurrent->rLink = newNode;

which after the deal would be like this:

if (trailCurrent->info <= insertItem)
  trailCurrent->rLink = newNode;
share|improve this answer
I know what you mean. However, I don't want to insert the new node to the end of the tree. I want to insert it right below the node that have the same value and modify the structure of the tree, making the subtree below that node becomes the subtree of the new node – Nguyen Tran May 20 '14 at 20:11
Apply the same logic as mentioned, but in your inner nodes @NguyenTran. When you find were you want to put your new value, put a pointer to the left subtree (and one in the right one), so that you do not lose them. Insert the new value and make the the two subtrees the children of the new inserted node. I suggest you read this – gsamaras May 20 '14 at 20:19

Not sure if this is correct but

trialCurrent = current;

trialCurrent is equal to current

if(current->info == insertItem)
    current = current->rLink;
    trialCurrent->rlink = newnode;

current is equal to current->rLink, then wouldn't trialCurrent->rLink be equal to current?

share|improve this answer
This actually gets me pretty close. But I lost access to all the subtree after I create the node :D I will try to figure out the problem. Thanks – Nguyen Tran May 20 '14 at 20:32

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