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First, just to give a visual idea of what I'm after, here's the closest result (yet not exactly what I'm after) image that I've found:

enter image description here

Here's the entire site-reference:

BUT, it doesn't exactly solve the problem I'm after. I would like to store an array of points of a very specific spiral algorithm.

  • The points are evenly distributed
  • The 360 degree cycles have an even gap

If I'm not mistaken, the first two points would be:

  • point[ 0 ] = new Point(0,0);
  • point[ 1 ] = new Point(1,0);

But where to go from here?

The only arguments I'd like to provide are:

  • the quantity of points I wish to resolve (length of array).
  • the distance between each points (pixels gap).
  • the distance between cycles.

It almost sounds, to me, that I have to calculate the "spiral-circumference" (if there's such a term) in order to plot the evenly distributed points along the spiral.

Can 2*PI*radius be reliably used for this calculation you think?

If it's been done before, please show some code example!

share|improve this question
By "Each points are evenly distributed", do you mean "The angle between consecutive points is a constant", or something else? – mbeckish Dec 3 '10 at 20:04
This question is probably a better match for . – Jim Lewis Dec 3 '10 at 20:05
By "Each 360degree cycles have an even gap", do you mean "The difference between the radius at angle x and the radius at angle x + 2*Pi is a constant", or something else? – mbeckish Dec 3 '10 at 20:07
@mbeckish I mean evenly distributed distance between each point. The angle would probably vary as you approach the end of the spiral (since the angles wouldn't have to be as "steep" to yield to the next point). Does that make sense? – bigp Dec 3 '10 at 20:13
@Jim Lewis - Sorry, you're probably right. It's intended to be used in Flash AS3, but yeah this is applicable to any language really. – bigp Dec 3 '10 at 20:14
up vote 16 down vote accepted

Fun little problem :)

If you look at the diagram closer, the sequence is clearly stated:

spiral diagram

There are probably many solutions to drawing these, maybe more elegant, but here's mine:

You know the hypotenuse is square root of the current segment count+1 and the opposite side of the triangle is always 1.

Also you know that Sine(Math.sin) of the angle is equal to the opposite side divided by the hypotenuse. from the old mnenonic SOH(Sine,Opposite,Hypotenuse),-CAH-TOA.

Math.sin(angle) = opp/hyp

You know the value of the sine for the angle, you know the two sides, but you don't know the angle yet, but you can use the arc sine function(Math.asin) for that

angle = Math.asin(opp/hyp)

Now you know the angle for each segment, and notice it increments with each line.

Now that you have an angle and a radius(the hypotenuse) you can use for polar to cartesian formula to convert that angle,radius pair to a x,y pair.

x = Math.cos(angle) * radius;
y = Math.sin(angle) * radius;

Since you asked for an actionscript solution, there Point class already provides this function for you through the polar() method. You pass it a radius and angle and it returns your x and y in a Point object.

Here's a little snippet which plots the spiral. You can control the number of segments by moving the mouse on the Y axis.

var sw:Number = stage.stageWidth,sh:Number = stage.stageHeight;
function update(event:Event):void{
//draw points
function drawTheodorus(segments:int,x:Number,y:Number,scale:Number):void{
    var points:Array = getTheodorus(segments,scale);
    for(var i:int = 0 ; i < segments; i++){
        graphics.moveTo(x,y);//move to centre
        graphics.lineTo(points[i].x,points[i].y);//draw hypotenuse
        if(i > 0) graphics.lineTo(points[i-1].x,points[i-1].y);//draw opposite
//calculate points
function getTheodorus(segments:int = 1,scale:Number = 10):Array{
    var result = [];
    var radius:Number = 0;
    var angle:Number = 0;
    for(var i:int = 0 ; i < segments ; i++){
        radius = Math.sqrt(i+1);
        angle += Math.asin(1/radius);//sin(angle) = opposite/hypothenuse => used asin to get angle
        result[i] = Point.polar(radius*scale,angle);//same as new Point(Math.cos(angle)*radius.scale,Math.sin(angle)*radius.scale)
    return result;

This could've been written in less lines, but I wanted to split this into two functions: one that deals only with computing the numbers, and the other which deals with drawing the lines.

Here are some screenshots:

spiral 1

spiral 2

spiral 3

For fun I added a version of this using ProcessingJS here. Runs a bit slow, so I would recommend Chromium/Chrome for this.

Now you can actually run this code right here (move the mouse up and down):

var totalSegments = 850,hw = 320,hh = 240,segments;
var len = 10;
points = [];
function setup(){
  //println("move cursor vertically");
function draw(){
  segments = floor(totalSegments*(mouseY/height));
  points = getTheodorus(segments,len);
  for(var i = 0 ; i < segments ; i++){
    stroke(255-((i/segments) * 255),100,100,260-((i/segments) * 255));
    // strokeWeight(1+(i*(i/segments)*.01));
    if(i > 0) line(points[i].x,points[i].y,points[i-1].x,points[i-1].y);
function getTheodorus(segments,len){
  var result = [];
  var radius = 0;
  var angle = 0;
  for(var i = 0 ; i < segments ; i++){
    radius = sqrt(i+1);
    angle += asin(1/radius);
    result[i] = new p5.Vector(cos(angle) * radius*len,sin(angle) * radius*len);
  return result;
<script src=""></script>

share|improve this answer
Dude... I'm still looking at this and quite blown away it could be resolved with that few lines of code (at least to me it ain't a whole lot). That's exactly how I would of seperated the code too (drawing / generating points). This is fabulous! Wish I could vote up a few extra on your answer :D – bigp Dec 3 '10 at 23:40
Also... thanks for showing a very practical use of Point.polar - I never realized it could resolve such a long expression. So basically, in this case, is it used to "snap" the point along the "Archimedean" path? – bigp Dec 3 '10 at 23:48
@bigp Glad I could help. Regarding Point.polar, "snap" might be way to look at it. I'd rather imagine moving about on circles, not to grids. Say imagine you're the handle of a watch and you want to move to 3 o'clock, or 12 o'clock...that would be your angle and how far from the center you want to go would be your radius. You easily draw circles, but if you increment the radius, then the circles stop overlapping and become a spiral. Imagine drawing circles with a compass/divider. Now imagine attempting to drawing a circle, but every now and then you increase the distance between handles. – George Profenza Dec 3 '10 at 23:59
Excellent way to look at it. I'll consider using this in my next application of trigonometry (games, apps or components). Looks like a cleaner (and hopefully more performant) way of solving the X and Y components of a known angle and radius. – bigp Dec 4 '10 at 5:23

George's answer was excellent! I was looking for the solution for quite a while.

Here's the same code adjusted for PHP, in case it helps someone. I use the script to draw dots (= cities) for a map with X, Y coordinates. X starts from left, Y starts from bottom left.

 * Initialize variables

// MAXIMUM width & height of canvas (X: 0->400, Y: 0->400)
$width = 400;

// For loop iteration amount, adjust this manually
$segments = 10000;

// Scale for radius
$radiusScale = 2;

// Draw dot (e.g. a city in a game) for every N'th drawn point
$cityForEveryNthDot = 14; 

 * Private variables
$radius = 0;
$angle = 0;
$centerPoint = $width/2;

 * Container print
print("<div style=\"width: ${width}px; height: ${width}px; background: #cdcdcd; z-index: 1; position: absolute; left: 0; top: 0;\"></div>");

 * Looper
for($i=0;$i<$segments;$i++) {
    // calculate radius and angle
    $radius = sqrt($i+1) * $radiusScale;
    $angle += asin(1/$radius);

    // skip this point, if city won't be created here
    if($i % $cityForEveryNthDot != 0) {

    // calculate X & Y (from top left) for this point
    $x = cos($angle) * $radius;
    $y = sin($angle) * $radius;

    // print dot
    print("<div style=\"width: 1px; height: 1px; background: black; position: absolute; z-index: 2; left: " . round($x+$centerPoint) . "; top: " . round($y+$centerPoint) . ";\"></div>");

    // calculate rounded X & Y (from bottom left)
    $xNew = round($x+$centerPoint);
    $yNew = round($width - ($y+$centerPoint));

    // just some internal checks
    if($xNew > 1 && $yNew > 1 && $xNew < $width && $yNew < $width) {
         * do something (e.g. store to database). Use xNew and yNew
share|improve this answer
Thanks for sharing that! Neat to see how it can be reproduced in other languages and different contexts :) – bigp Jun 13 '11 at 12:31

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