This could be rephrased as traverse a binary tree to find a node that is parent to the given one.

Suppose you have a

```
class Node {
int node;
Node left;
Node right;
Node(int node, Node left, Node right) {
this.node = node;
this.left = left;
this.right = right;
}
@Override
public String toString (){
return "("+node+")";
}
}
```

For simplicity we will just define global variables.

```
Node root;
int target;
boolean found;
```

They will be accessed by the next methods. First, we initialize a method call

```
public Node findParent(int target){
found = false;
this.target = target;
return internalFindParent(root, null);
}
```

Second, we write an implementation

```
private Node internalFindParent(Node node, Node parent){
if (found) return parent;
if (node.node == target) {
found = true;
return parent;
}
if (node.left == null) return null;
Node temp = internalFindParent(node.left, node);
if(temp != null)
return temp;
if (node.right == null) return null;
temp = internalFindParent(node.right, node);
if(temp != null)
return temp;
return null;
}
```

This method traverses a tree and returns results immediately if the given node is found. To demonstrate how it's worked we should create a sample tree and assign it to `root`

node. We numerate each node with the unique number used as a target.

```
public void init() {
root = new Node (0,
new Node(1,
new Node (2,
new Node (3,
new Node (4, null, null),
new Node (5, null, null)
),
new Node (6,
new Node (7, null, null),
new Node (8, null, null)
)
),
new Node (9,
new Node (10,
new Node (11, null, null),
new Node (12, null, null)
),
new Node (13,
new Node (14, null, null),
new Node (15, null, null)
)
)
),
new Node(21,
new Node (22,
new Node (23,
new Node (24, null, null),
new Node (25, null, null)
),
new Node (26,
new Node (27, null, null),
new Node (28, null, null)
)
),
new Node (29,
new Node (30,
new Node (31, null, null),
new Node (32, null, null)
),
new Node (33,
new Node (34, null, null),
new Node (35, null, null)
)
)
)
);
}
```

Just do all tests in the constructor for simplicity

```
FindingParent(){
init();
for (int i=0; i<=35; i++){
Node parent = findParent(i);
if (parent != null)
System.out.println("("+parent.node+", "+i+")");
}
}
/**
* @param args
*/
public static void main(String[] args) {
new FindingParent();
System.exit(0);
}
```

This output results as pairs of (parent, child) for each node in the tree.