Take the 2-minute tour ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free, no registration required.

I'm trying to draw a dashed line on a google map, so I can't use eshape.js. I need to create an array of points that approximate an elipse in a coordinate system. It's just for display so it doesn't have to be that precise.

If someone can just explain the math that's fine. Extra credit if you apply it in javascript ;)

share|improve this question
1  
A good place to start is the polar equation for ellipses. –  Kevin Aug 6 '12 at 16:03

2 Answers 2

up vote 2 down vote accepted

This is now something you can do within the Google Maps API. Recently, Google added Symbols to Polylines, allowing you to use SVG to style your lines: https://developers.google.com/maps/documentation/javascript/overlays#Symbols

share|improve this answer
    
Yes I know, now all I need is an eliptical line ;) –  Kristoffer Nolgren Aug 6 '12 at 19:52
    
Oh, nm this looks very promising! –  Kristoffer Nolgren Aug 6 '12 at 20:07

Give this a try (create a 1x1 bmp called blackpixel.bmp and add it next to the htm file you will create to contain the following code, should help you get waht you need. I found it here:

<HTML>
<HEAD>
<TITLE>
Ellipse example drawn to the screen, using a one-pixel black .bmp
image, for jackshu-ga
</TITLE>
<script type="text/javascript">

function draw()
{
coords=ellipseMaker(dataIn.foci1Top.value,dataIn.foci1Left.value,dataIn.foci2Top.value,dataIn.foci2Left.value,dataIn.semiMinor.value)

for(i=0;i<coords.length;i++)
   {
   document.write("<img src='blackpixel.bmp' id='pixel"+i+"' style='container: positioned; position: absolute; top: 50; left: 800'>")
   }

for(j=1;j<coords.length;j++)
   {
   document.images[j].style.top=coords[j][0]
   document.images[j].style.left=coords[j][1]
   }
}

function ellipseMaker(foci1Top, foci1Left, foci2Top, foci2Left,
semiMinor, jumpBy, streamline, increaseUnit, dontPopOutLast){
/* Requires gen 4 browsers: using concat(), shift(), pop()
* My thanks to G.E. Ivey from the sci/sci.math newsgroup 
* who helped with the (for me) complex ellipse translation/rotation
formula.
*/
//validate:
semiMinor=(semiMinor && !isNaN(parseFloat(semiMinor)) &&
parseFloat(semiMinor)>0)?
parseFloat(semiMinor):0.5;
foci1Top=(foci1Top && !isNaN(parseFloat(foci1Top)))?
parseFloat(foci1Top):0;
foci1Left=(foci1Left && !isNaN(parseFloat(foci1Left)))?
parseFloat(foci1Left):0;
foci2Top=(foci2Top && !isNaN(parseFloat(foci2Top)))?
parseFloat(foci2Top):0;
foci2Left=(foci2Left && !isNaN(parseFloat(foci2Left)))?
parseFloat(foci2Left):0;
increaseUnit=(increaseUnit && !isNaN(parseFloat(increaseUnit)))?
Math.abs( parseFloat(increaseUnit) ):0.5;
jumpBy=(jumpBy && !isNaN(parseFloat(jumpBy)))? parseFloat(jumpBy):0;
streamline= (streamline+""=="0")?0:1;
//initialize:
var major=Math.round( (Math.sqrt(
Math.pow(
(Math.max(foci1Top, foci2Top)-Math.min(foci1Top, foci2Top))
,2)+
Math.pow(
(Math.max(foci1Left, foci2Left)-Math.min(foci1Left, foci2Left))
,2)
))*1000 )/1000;
  /* an exception: no major axis length! : */
  var noMajor=0;
  if(!major){major=Math.round( (semiMinor*2)*100 )/100;
  noMajor=1;};
var center=new Array(
Math.round( (((foci1Top+foci2Top)*0.5)) *100)/100,
Math.round( (((foci1Left+foci2Left)*0.5)) *100)/100
);
var semiMajor=Math.round((major/2)*1000)/1000;
while(increaseUnit>semiMajor){/*validate more*/
increaseUnit-=semiMajor;
increaseUnit=Math.round( increaseUnit*10 )/10;
};
var quadrant1=new Array(0);
var quadrant2=new Array(0);
var quadrant3=new Array(0);
var quadrant4=new Array(0);
var output=new Array(0);
//sine, cosine: are ratios/a side length:
var thetaCos=(Math.max(foci1Left,foci2Left) -
Math.min(foci1Left,foci2Left))/major;
var thetaSin=(Math.max(foci1Top,foci2Top) -
Math.min(foci1Top,foci2Top))/major;
var SMsm=semiMajor/semiMinor;
var smSM=semiMinor/semiMajor;
var prevY=0;
//run:
for(var x=semiMajor, y=0; x>=0; x-=increaseUnit, y+=increaseUnit){
if(x<0){x=0;};
if(y>semiMinor){y=semiMinor;};
  /* used formula for Y: | (b/h) * SQRT( POW(h)-POW(x) ) | */
  var Y=Math.round(
Math.abs(
(smSM)*(Math.sqrt( Math.pow(semiMajor,2) - Math.pow(x,2) ))
)*1000
)/1000;
  var X=Math.round((x*1000))/1000;
  //streamline?  
  if(!noMajor && streamline && ( (Y-prevY)>increaseUnit) ){
  Y=Math.round((y*1000))/1000;
  X=Math.round(
Math.abs(
(SMsm)*(Math.sqrt( Math.pow(semiMinor,2) - Math.pow(y,2) ))
)*1000
)/1000;
x=X;
  }
  prevY=Y;
  //build path:
var q1=++quadrant1.length-1;
var q2=++quadrant2.length-1;
var q3=++quadrant3.length-1;
var q4=++quadrant4.length-1;
  /* formulas used below for ellipse position translation from center
in Origin (G.E. Ivey):
     x'= x*cos(theta)+ y*sin(theta)
  y'= -x*sin(theta)+ y*cos (theta)
   then, I reversed signs accordingly to the 4 quadrants.
  */
var xSin=X*thetaSin;
var ySin=Y*thetaSin;
var xCos=X*thetaCos;
var yCos=Y*thetaCos;
quadrant1[q1]=new Array(2);
  quadrant1[q1][0]= Math.round( (( (-xSin) + yCos) + center[0])
*10)/10;
  quadrant1[q1][1]= Math.round( ((xCos + ySin) + center[1]) *10)/10;
quadrant2[q2]=new Array(2);
  quadrant2[q2][0]= Math.round( ( ( xSin + yCos) + center[0]) *10)/10;
  quadrant2[q2][1]= Math.round( (( (-xCos) + ySin) + center[1])
*10)/10;
quadrant3[q3]=new Array(2);
  quadrant3[q3][0]= Math.round( (( xSin + (-yCos)) + center[0])
*10)/10;
  quadrant3[q3][1]= Math.round( (( (-xCos) + (-ySin)) + center[1])
*10)/10;
quadrant4[q4]=new Array(2);
  quadrant4[q4][0]= Math.round( (( (-xSin) + (-yCos)) + center[0])
*10)/10;
  quadrant4[q4][1]= Math.round( ((xCos + (-ySin)) + center[1])
*10)/10;
}
quadrant2=quadrant2.reverse();
quadrant2.shift();
quadrant3.shift();
quadrant4=quadrant4.reverse();
quadrant4.shift();
output=output.concat(quadrant1, quadrant2, quadrant3, quadrant4);
if(!dontPopOutLast){output.pop();};
if(jumpBy){
  if(jumpBy>output.length){
  var fakeOutput=new Array(0);
  fakeOutput[++fakeOutput.length-1]=output[output.length-1];
  return fakeOutput;};
var jumpedOutput=new Array(0);
  for(var j=0; j<output.length; j+=jumpBy){
    if((j+jumpBy) > output.length-1){
    jumpedOutput[++jumpedOutput.length-1]=output[output.length-1];
    break;
    }
  jumpedOutput[++jumpedOutput.length-1]=output[j];
  }
return jumpedOutput;}
return output;
/*keep this comment to reuse freely
http://www.unitedscripters.com */} 
</script>

</HEAD>
<BODY>
<H3>Fill out the information in the boxes, then click 'draw'</H3>
Note: you need a 1 x 1 pixel black bitmap (.bmp) image in the same
directory as this file, for it to work.<p>
<FORM id="dataIn">
<table cellspacing="0" cellpadding="0">
<tr><td>Pixels down the screen, leftmost ellipse tip:  </td><td><input
type="text" length=5 value="200" id="foci2Top"></td>
<tr><td>Pixels across the screen, leftmost ellipse tip: 
</td><td><input type="text" length=5 value="100" id="foci2Left"></td>
<tr><td>Pixels down the screen, rightmost ellipse tip: 
</td><td><input type="text" length=5 value="200" id="foci1Top"></td>
<tr><td>Pixels across the screen, rightmost ellipse tip: 
</td><td><input type="text" length=5 value="300" id="foci1Left"></td>
<tr><td>Enter half the 'squashed' width of the ellipse: 
</td><td><input type="text" length=5 value="130"id="semiMinor"></td>
<tr><td><input type=button value="Draw the ellipse" onClick =
"draw()"></td><td></td>
</tr>
</form>


</body>
</html>
share|improve this answer
    
this looks like way more code than what should be nessecary –  Kristoffer Nolgren Aug 6 '12 at 20:06
1  
Well you can extract from it what you need, it looks as if it is some kind of sample form or something to help get the size you are looking for. I am sure you probably could locate a lighter code example maybe 10 lines, I only spent 10 minutes searching. –  Mr Gray Aug 6 '12 at 20:30

Your Answer

 
discard

By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.