I need help to understand the solution for the following data structure question:


Suggest an ADT containing integers that supports the following actions. Explain how these actions are implemented.

Init() - Initialize the ADT O(1)
Insert(x) - Insert x into the ADT, if it is not in ADT yet O(log n)
Delete(x) - Delete x from the ADT, if exists O(log n)
Delete_in_place(i) - Delete from the ADT an element, which is in the ith place (as determined by the order of insertion) among the elements that are in the ADT at that moment. O(log n)
Get_place(x) - Return the place (which is determined by the order of insertion) of x among the elements that are in the ADT at that moment. If x does not exist, return -1. O(log n)

For example, for the following sequence of actions: Insert(3), Insert(5), Insert(11), Insert(4), Insert(7), Delete(5) Get_place(7) returns 4, and Delete_in_place(2) will delete 11 from the tree


The ADT consists of 2 AVL trees.
- T1 stores the elements by their key.
- T2 stores the elements by the order of insertion (using a running counter). To this tree new element will be inserted as the greatest from all elements in this tree. The nodes of this tree store also the number of elements in their subtree – x.size. Each node has a pointer to his father. - There are pointers between all the trees connecting the nodes with the same key.

Here is an example of the two trees

Init() – initialize 2 empty trees
Insert(x) – insert an element by key into T1, insert the element as the biggest to T2, and update the pointers. Update the in T2 the field x.size in the insertion path. (The insertion is as in AVL tree)
Delete(x) – find the element in T1 (regular search), and delete it from both the trees. In T2 go up from the deleted element to the root and update x.size for all the nodes in this path. (The deletion is as in AVL tree)

Delete_by_place(i) –

Delete_by_place(i) – find the ith element in T2 in the following way:
 if x.size<i return
   if x.left = null
   if (i ≤ z)
   else if (i = z + 1)
     Delete(x) and break
   else // i > z+1
     i ← i – (z + 1)

Get_place(x) – find x in T1, go by its pointer to T2, then calculate the index of x in the tree – Go up from x to the root. In this path sum the number of nodes that are in the left subtree of the nodes in the path that are smaller than x:

 while (x.parent != null)
   if (x is left_child of x.parent)
   else //x is right child
 return place

My Questions -
How do I insert to T2 tree? in the attached photo there is an example of this tree and I don't understand how it was build?

Since it is written that this is an AVL tree, do we perform the rotations? how do we keep it balanced? it doesn't act as a BST...

How does Delete_in_place(i) works? i've tried to run it with the example in the photo and didn't received the correct index.

Thanks for the help.

  • Is it necessary to use two AVL trees, or an array for indexing can be used? – karastojko Oct 16 '16 at 6:13
  • You can use what you like as long as the time complexity is O(logn) – Nataly Rudnitsky Oct 16 '16 at 8:13

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