I could not find anything on search to satisfy my question, if it exists, I'm sorry!

I am working on a college assignment about threaded binary trees. I.e. various kinds of traversals - inorder, postorder and preorder on double TBT.

This is the TBTNode struct:

```
struct TBTNode {
TBTNode *left, *right, *parent;
char data;
bool left_normal, right_normal;
TBTNode(char d) {
data = d;
left = NULL;
right = NULL;
parent = NULL;
left_normal = true;
right_normal = true;
}
};
```

As you can see, there is not much distinction between a Binary Tree node and a TBT node, except that the node's properties, viz. {left,right}_normal are set to true when required.

To create the tree, I have this:

```
class TBT {
TBTNode *root;
public:
TBT() {
root = new TBTNode(0);
root->right = root;
root->right_normal = true;
cout << "Root:" ;
root->left = create();
if(root->left)
root->left_normal = true;
}
TBTNode* create();
};
TBTNode* TBT::create() {
char data;
TBTNode *node = NULL;
cout << endl << "Enter data (0 to quit): ";
cin >> data;
if(data == '0')
return NULL;
node = new TBTNode(data);
cout << endl << "Enter left child of " << data;
node->left = create();
if(node->left)
node->left->parent = node;
else {
node->left = root;
node->right = node->parent;
node->left_normal = node->right_normal = false;
}
cout << endl << "Enter right child of " << data;
node->right = create();
if(node->right)
node->right->parent = node;
else {
node->left = node;
node->right = node->parent->parent;
node->left_normal = node->right_normal = false;
}
return node;
}
```

After the tree gets recursively created using the above code, I want to convert it into a double threaded binary tree. I know the concept that left child is linked to the child's inorder predecessor and right to inorder successor, but I am unable to create an algorithm. Can someone help me?