## Introduction

I'm building an HTML5 web application that creates a visual representation of a binary search tree from a given list of numbers.

Currently, I have an algorithm which calculates the visual spacing between nodes on each row based on the maximum depth of the tree (which is a base-0 value):

```
offset = 50
offset *= pow(2, maxDepth - currentDepth)
```

From here, the position of the node is determined using this offset and the x-position of its parent.

The algorithm works well, because it's always able to accommodate for the widest-possible tree of any depth. However, this also makes the tree unnecessarily wide at times.

## Examples

Tree branching to the left (too wide):

Tree branching to both sides (left and right sides could be closer together).

Ideally, the above tree should be shaped like a pyramid, with a smaller width and with the sides straight, as depicted below:

Balanced tree (case where the algorithm works best):

## Implementation

## Properties

I'm using Backbone.js to create nodes from a Node model. Each node has the following properties:

**parent**(the parent node)**left**(the left child node)**right**(the right child node)**x**(the x-position of the node in pixels)**y**(the y-position of the node in pixels)

The **x** and **y** properties above are calculated based on the direction the node branches from:

```
if (parent.get('left') === node) {
x = parentX - offsetX;
y = parentY + offsetY;
} else if (parent.get('right') === node) {
x = parentX + offsetX;
y = parentY + offsetY;
}
```

At this point, the **x** and **y** properties are the exact values used to position the nodes (each is positioned absolute within a container element).

### Methods

**getDepth()**(returns the base-0 depth of a node)**getMaxDepth()**(returns the depth of the last row in the tree)**getRow(n)**(returns an array of all nodes at depth-n)

## Question

Therefore, my question is simple:

What is the best algorithm to minimize the aesthetic width of my binary tree?