You will need to construct the whole tree, since you need to know the structure of the tree to be able to determine the X-coordinate.

However it shouldn't be a problem even with millions of nodes, if your algorithm is *linear*.

The algorithm seems pretty straightforward.

First we need to construct the tree structure. I would use a `Map<Integer, Node>`

when building the tree to access a specific `Node`

quickly (the map will be useful later as well).(or even a `Node[]`

would work fine if the `Node`

ids are integers in range `0..NodeCount-1`

)

`Node`

class should have a convenience method `addNode(Node node)`

which first adds `left`

Node and then the `right`

Node. It could look like this:

```
void addNode(Node node) {
if (left == null)
left = node;
else
right = node;
}
```

Concerning `addEdge(int from, int to)`

method, something like this should work

```
void addEdge(int from, int to) {
Node fromNode = nodes.get(from); // this should never be null, root should be added manually first
Node toNode = nodes.get(to);
if (toNode == null) {
toNode = new Node(to); // 'content' constructor
nodes.put(to, toNode);
}
fromNode.addNode(toNode);
}
```

Then, we need to assign the X-coordinates to the Nodes. I would use a recursive function, something like this:

```
int assignXY(Node node, int lastX, int y) {
node.y = y;
node.x = 1 + (node.left == null ? lastX: assignX(node.left, lastX, y - 1));
return (node.right == null ? node.x : assignX(node.right, node.x, y - 1);
}
```

And call it like this

```
assignXY(rootNode, -1, maxDepth);
```

Now, all Nodes have X-coordinates, so you can simply pull the `Node`

you're interested in from the `Map`

we defined earlier and return its `x`