# calculate the x, y position of a canvas point

I'm trying to learn some canvas in html5 and javascript and I want to create those typical Illustrator sun rays:

But my problem is that I want to automate it and make it full screen.

To calculate the coordinates of the points in the middle isn't hard, it's the outer points that I cant seem to get a grip on.

K, so this is what I got. The problem lies in the for-loop for creating an array for the outer coordinates.

So it starts calculating from the center of the screen. If it's the first point (we ignore the inner points for now) it takes the x_coordinate variable (which is the horizontal center of the screen) and adds the width_between_rays divided by two (because I want to mimic the picture above with some space between the two upper rays).

The rest of the points are checked if they are divided by two to see if I should add the width_between_rays (should probably be offset or something) or the width_of_rays to the last points cordinates.

Well this seems pretty straight forward but since the window size isn't a fixed size I need some way of calculating where the point should be if, for example; the position of a point is outside the width/height of the screen. So my way of calculating this doesn't work (I think).

Anyways, can someone (who's obviously smarter than me) point me in the right direction?

``````function sun_rays(z_index, element, color, number_of_rays, width_of_rays, width_between_rays) {
// Start the canvas stuff
var canvas = document.getElementById(element);
var ctx = canvas.getContext("2d");
console.log();
ctx.canvas.width  = \$(window).width();
ctx.canvas.height = \$(window).width();
ctx.fillStyle = color;

// calculate the window size and center position
var window_width = \$(window).width();
var window_hight = \$(window).height();
var x_coordinate = window_width / 2;
var y_coordinate = window_hight / 2;

// create an array for the center coordinates
var center_coordinate_array = new Array();
for(i=0; i < number_of_rays; i++){
center_coordinate_array[i] = new Array(x_coordinate, y_coordinate);
}

// create an array for the outer coordinates
var outer_coordinate_array = new Array();
for(i=1; i == number_of_rays*2; i++){

if(i == 1) {
// X
var last_outer_x_coordinate = x_coordinate + (width_between_rays/2);
// Y
if(last_outer_x_coordinate < window_width) {
last_outer_y_coordinate = last_outer_y_coordinate;
} else {
\$x_coordinate_difference = last_outer_x_coordinate - window_width;
last_outer_y_coordinate = x_coordinate_difference;
}

center_coordinate_array[i] = new Array(last_outer_x_coordinate, last_outer_y_coordinate);
} else {
if(i % 2 == 0) {
// X
last_outer_x_coordinate = last_outer_x_coordinate + width_of_rays;
// Y
//calculate the y position

center_coordinate_array[i] = new Array(last_outer_x_coordinate);
} else {
// X
last_outer_x_coordinate = last_outer_x_coordinate + width_between_rays;
// Y
//calculate the y position

center_coordinate_array[i] = new Array(last_outer_x_coordinate);
}
}

}
}
``````
-

It seems like you should use the trig functions to do something like this.

``````var coordinate_array = [];
var xCoord = 0;
var yCoord = 0;
var angleIncrement = 15;
var i = 0;

//iterate over angles (in degrees) from 0 to 360
for (var theta = 0; theta < 360; theta += angleIncrement) {
//angle is in sector from bottom right to top right corner
if (theta >= 315 || theta <= 45)
{
xCoord = \$(window).width();//point on right side of canvas
yCoord = abs(\$(window).width()/2 * tan(theta));
yCoord = tranformY(theta,yCoord);
}
//angle is in sector from top right to top left corner
else if (theta > 45 && theta <= 135)
{
yCoord = 0; //top is zero
xCoord = abs(\$(window).height()/2 * tan(theta));
xCoord = transformX(theta, xCoord);
}
//angle is in sector from top left to bottom left corner
else if (theta > 135 && theta <= 225)
{
xCoord = 0; //left edge on a canvas is zero
yCoord = abs(\$(window).width()/2 * tan(theta);
yCoord = transformY(theta, yCoord);
}
//angle is in sector from bottom left to bottom right corner
else // theta > 225 && theta < 315
{
yCoord = \$(window).height();
xCoord = abs(\$(window).height()/2 * tan(theta));
xCoord = transformX(theta, xCoord);
}
coordinate_array[i++] = new Array(xCoord, yCoord);
}

//Transform from cartesian coordinates to top left is 0,0
function tranformY(theta, y)
{
var centerYCoord = \$(window).height()/2;
//if angle falls in top half (Quadrant 1 or 2)
if(theta > 0 && theta < 180)
{
return centerYCoord - y;
}
elseif(theta > 180 && theta < 360)
{
return centerYCoord + y;
}
//coord falls on 0/360 or 180 (vert. median)
return centerYCoord;
}

//Transform from cartesian coordinates to top left is 0,0
function transformX(theta, x)
{
var centerXCoord = \$(window).width()/2;
//if angle falls in right half (Quadrant 1 or 4)
if(theta > 270 || theta < 90)
{
return centerXCoord + x;
}
elseif(theta > 90 && theta < 270)
{
return centerXCoord - x;
}
//coordinate falls on 270 or 90 (center)
return centerXCoord;
}

//now draw your rays from the center coordinates to the points in coordinate_array
//NOTE: This code will need to be cleaned up - I just wrote it in the textbox.
``````
-
I cant seems to figure that code out, or what it actually does. :/ So here is a fiddle so you can see what i've done. And maybe you can help me :) jsfiddle.net/Fnf3u – Patrik Apr 18 '11 at 9:18
I've just updated some things: jsfiddle.net/Fnf3u/3 – Patrik Apr 18 '11 at 9:31
I dont trust fiddle. Here is a working canvas on my page canvas.patrikelfstrom.se it uses the same html, css and some js – Patrik Apr 18 '11 at 9:37
I only see a black screen when I go to this URL in IE9. – Trey Carroll Apr 18 '11 at 13:16
Fiddle is black cus the code doesn't work. But canvas.patrikelfstrom.se works in Firefox, safari and chrome – Patrik Apr 18 '11 at 13:22

The previous code puts the coordinates for the red points into an array.

This problem is by its very nature related to the incremental change of an angle. Your solution is going to need to deal with the angles using trig functions.

-
That i figured out so i tried to merge that array with the array with the coordinates of the center points and print them out but the result is black. – Patrik Apr 18 '11 at 13:27
I see a problem with my code. I'm using transformed coordinates when multiplying by tan() and it's screwing things up. The tansformed value should be inserted after the calculation. – Trey Carroll Apr 18 '11 at 17:06
Thanks. Got some positive results now. jsfiddle.net/qARRb (seems to only work in Chrome & safari) canvas.patrikelfstrom.se (works in ff, chrome & safari). Though, not exactly what I'm after. I'll have to try it when I get home from work. btw, from where on the screen does it start counting the degrees? Center top? – Patrik Apr 19 '11 at 7:55
Center is at (\$(window).width()/2,\$(window).height()/2) – Trey Carroll Apr 19 '11 at 15:09
nvm that. canvas.patrikelfstrom.se it looks like sun rays but they aren't so symmetrical – Patrik Apr 21 '11 at 10:15