Question

link1, link2.

Variant 1: Given a Binary Search Tree, serialize and deserialize it.

Variant 2: Given a Binary Tree, serialize and deserialize it.

Variant 1 - Binary search tree

We must only use pre-order.

Think about why, or read link1. So, serialization is simple - preorder traversal.

The desecialization would make use of the first element, and range validation method. This is very similar to another question ‘validate BST’. Rmb the key is:

Each time we add a number, we also pass the valid range within which the number can lie between.

Code

The code is concise, but may not be easy to write:

void readBSTHelper(int min, int max, int &insertVal,
                   BinaryTree *&p, ifstream &fin) {
  if (insertVal > min && insertVal < max) {
    int val = insertVal;
    p = new BinaryTree(val);
    if (fin >> insertVal) {
      readBSTHelper(min, val, insertVal, p->left, fin);
      readBSTHelper(val, max, insertVal, p->right, fin);
    }
  }
}

void readBST(BinaryTree *&root, ifstream &fin) {
  int val;
  fin >> val;
  readBSTHelper(INT_MIN, INT_MAX, val, root, fin);
}

Variant 2 - Binary tree

For binary tree, we could not use above solution any more. We must use some NULL pointers to fill in empty slots. For this variant, pre-order and level-order both would work.

Then which of these 2 is a better choice?

   1
  / \
2    3

Given the tree above:

The pre-order serialization is: {1, 2, #, #, 3, #, # }

The level-order serialization is: {1, 2, 3}

We can see that level-order is a better idea, because last level null pointers need not be handled.

Code (preorder)

The serializaion is a simple traversal.

void writeBinaryTree(BinaryTree *p, ostream &out) {
  if (!p) {
    out << "# ";
  } else {
    out << p->data << " ";
    writeBinaryTree(p->left, out);
    writeBinaryTree(p->right, out);
  }
}

The deserialization is a little bit like “convert linked list to balanced tree” (where we use first element of the list as root of the tree).

void readBinaryTree(BinaryTree *&p, ifstream &fin) {
  int token;
  bool isNumber;
  if (!readNextToken(token, fin, isNumber))
    return;
  if (isNumber) {
    p = new BinaryTree(token);
    readBinaryTree(p->left, fin);
    readBinaryTree(p->right, fin);
  }
}

I did not find any code for level-order, but it’s similar to ‘level-order traversal’.

One more thing

A Binary Search Tree (BST) is useful for storing phone book records in a memory limited device, such as a cell phone. The records are always maintained in sorted order, inserting and deleting a record takes O(lg n) time (slower than linked list, but much better than array).

One more one-more-thing

This post we use # as a sentinel. There is also another idea of doing both Inorder and Preorder traversal to searialize the tree data, and use the solution to “Construct Binary Tree from Preorder and Inorder” to deserialize it.