here is an actionscript version, it's abit like JS, except that the line renderer/canvas is different in JS. it will lead you to more scripts, as tehre is a page full of translations of this code somewhere on the net:

this code is actually a port of some code from a page
http://rosettacode.org/wiki/Fractal_tree

[code]

```
/*
3D Fractal Tree
*/
public var depth = 9;
public var angleSpread = 21.0;
public var skew = 21.0;
public var branchMat : Material;
public var averaged = false;
private var deg_to_rad = 3.14159265 / 180.0;
private var scale = 0.50;
private var line : LineRenderer;
private var fractalTree : GameObject;
private var branch : GameObject;
function Start () {
//un-comment the line below to build the tree on start if not using MainController
buildNewTree();
}
function killOldTree(){
Destroy(fractalTree);
}
function buildNewTree(){
//Create a new empty gameObject to store our fractal tree
fractalTree = new GameObject ("Fractal_Tree");
fractalTree.transform.parent = gameObject.transform;
if(averaged){angleSpread*=2;}
drawTree(0.0, 0.0, 0.0, 0.0, 90.0, 90.0, depth);
}
//A recursive function used to draw the fractal tree
function drawTree( x1 : float, y1 : float, z1 : float, y3 : float, angle : float, angle2 : float, depth : int){
if (depth != 0){
//Set the x2 point
var x2 : float= x1 + (Mathf.Cos(angle * deg_to_rad) * depth * scale);
//Set the z2 point
var z2 : float= z1 + (Mathf.Cos(angle2 * deg_to_rad) * depth * scale);
//Set the y2 point
var y2 : float= y1 + (Mathf.Sin(angle * deg_to_rad) * depth * scale);
//Set the y4 point
var y4 : float= y3 + (Mathf.Sin(angle2 * deg_to_rad) * depth * scale);
//Average the y values
var n1 : float = (y3+y1)/2;
var n2 : float= (y4+y2)/2;
//Call the drawline function, provide the coordinate data
drawLine(x1, n1, z1, x2, n2, z2, depth);
//Iterate the function recursively, change the rotation of the branches
if(!averaged){
if(depth % 2 == 0 ){
drawTree(x2, y2, z2, y4, angle - angleSpread - skew, angle2 - angleSpread- skew, depth - 1);
drawTree(x2, y2, z2, y4, angle + angleSpread - skew, angle2 + angleSpread- skew, depth - 1);
}
if(depth % 2 == 1 ){
drawTree(x2, y2, z2, y4, angle + angleSpread - skew, angle2-angleSpread- skew, depth - 1);
drawTree(x2, y2, z2, y4, angle - angleSpread - skew, angle2+angleSpread- skew, depth - 1);
}
}
//Iterate the function recursively, change the rotation of the branches (rounded version)
if(averaged){
if(depth % 2 == 0 ){
drawTree(x2, y2, z2, y4, angle - angleSpread - skew, angle2 - skew, depth - 1);
drawTree(x2, y2, z2, y4, angle + angleSpread - skew, angle2 - skew, depth - 1);
}
if(depth % 2 == 1 ){
drawTree(x2, y2, z2, y4, angle - skew, angle2 - angleSpread - skew, depth - 1);
drawTree(x2, y2, z2, y4, angle - skew, angle2 + angleSpread - skew, depth - 1);
}
}
}
}
//Draws a single branch of the tree
function drawLine(x1 : float, y1 : float, z1 : float, x2 : float, y2 : float, z2 : float, color : int){
//Create a gameObject for the branch
branch = new GameObject ("branch");
//Make the branch child of the main gameobject
branch.transform.parent = fractalTree.transform;
//Add a line renderer to the branch gameobject
line = branch.AddComponent("LineRenderer") ;//as LineRenderer;
//Change the material of the LineRenderer
line.material = branchMat;
//Thin the branches through each iteration
line.SetWidth(color*0.04, color*0.02);
//Draw the line.
line.SetPosition(0, new Vector3(x1,y1,z1));
line.SetPosition(1, new Vector3(x2,y2,z2));
}
[/code]
```