# Calculate if line crosses circle, weird behavior at certain angles

Okay, I want to be able to calculate whether a line crosses a circle(at least a part of the line inside the circle). I found several answers to this, but I thought they were too complicated so I came up with this. I'm no math guy, so I'm kinda stuck now. When the line is aligned vertically the "radius >= Math.sqrt(len * len + len * len - o);" becomes true( with 45° angles it becomes 0). I have no clue why this happens. Thanks :)

``````function lineInCircle(sx, sy, x, y, cx, cy, radius) {
cx -= sx; x -= sx; //sx is the first point's x position
cy -= sy; y -= sy;//sy is the first point's y position
len = Math.sqrt((cy * cy) + (cx * cx))//hypotenuse of circle (cy, cx) to (0, 0) (with offset)
atanx = Math.atan(y / x); //angle of  (0, 0) to (x, y) in radians
atany = atanx - Math.atan(cy / cx); //to center
var o = 2 * len * len * Math.cos(atany);
var o = o < 0 ? -o:o//Had to do this, at some point the value can become inverted
return radius >= Math.sqrt(len * len + len * len - o);
}
``````

Edit:

``````function lineInCircle(sx, sy, x, y, cx, cy, radius) {
cx -= sx; x -= sx; //sx is the first point's x position
cy -= sy; y -= sy;//sy is the first point's y position
ctp = Math.sin(Math.atan(y / x) - Math.atan(cy / cx)) * Math.sqrt((cy * cy) + (cx * cx));
}
``````

Works pretty much the same but is faster. The problem is that it calculates an infinite line. How would I fix that?

Edit 2:

``````function lineInCircle(sx, sy, x, y, cx, cy, radius) {
cx -= sx; x -= sx;
cy -= sy; y -= sy;
var h = Math.sqrt(cy * cy + cx * cx)
ctp = Math.sin(Math.atan(y / x) - Math.atan(cy / cx)) * h;
sideb = Math.sqrt(h * h - ctp * ctp);
line = Math.sqrt(x * x + y * y)
if (sideb - radius > line) {return false}
}
``````

Partial fix, doesn't go on to infinity for one direction from the line(line end)

Edit 3: A bit longer but more than twice as fast, back to square one

``````function lineInCircle2(sx, sy, x, y, cx, cy, radius) {
var ysy = y - sy
var xsx = x - sx
var k = ((y-sy) * (cx-sx) - (x-sx) * (cy-sy)) / (ysy * ysy + xsx * xsx)
var ncx = cx - k * (y-sy)
var ncy = cy + k * (x-sx)
ncx -= cx
ncy -= cy
var ctp = Math.sqrt(ncx * ncx + ncy * ncy)
}
``````

Edit 4: Success!

``````function lineInCircle(sx, sy, x, y, cx, cy, radius) {
if (sx > cx + radius && x > cx + radius || x < cx - radius && sx < cx - radius) {return false;}
if (sy > cy + radius && y > cy + radius || y < cy - radius && sy < cy - radius) {return false;}
var k = ((y - sy) * (cx - sx) - (x - sx) * (cy - sy)) / ((y - sy) * (y - sy) + (x - sx) * (x - sx))
var ncx = k * (y - sy)
var ncy = k * (x - sx)
return radius >= Math.sqrt(ncx * ncx + ncy * ncy);
}
``````

Does exactly what I want, I optimized it down to 4.5 - 4.6 seconds for 100000000 iterations compared for 10+ secs for the first version and still is much more accurate(meaning no more weird behavior in certain angles). I'm satisfied :D

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Your question currently just consists of a bunch of code. What is the logic behind this code? Perhaps posting a diagram would help. – Oliver Charlesworth Jun 1 '12 at 20:17
Perhaps this question can help: stackoverflow.com/questions/1073336/… – Fernando Jun 1 '12 at 20:27
I'm making a "game" which consists of 9 dots, you know the "think outside of the box" game. This was to try and see what you can do with a html5 canvas. And for one to complete it, you have to get all those 4 line to cover all the dots. – thabubble Jun 1 '12 at 21:09
@Fernando. Yeah, I've read that. I don't know why but I have no clue what to do with it. I can't wrap my head around it. – thabubble Jun 1 '12 at 21:10

Too much work. Find the normal that passes through the center, and see if the intersection is closer than the radius.

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And how would you suggest I do that? – thabubble Jun 1 '12 at 21:04
Put the line in general form, rotate it 90°, find the constant term for the parallel line that passes through the center, find the intersection, and calculate the distance. – Ignacio Vazquez-Abrams Jun 1 '12 at 21:10
And how fast would that be? I'm not sure if I know how to do that though. – thabubble Jun 1 '12 at 21:13
Isn't finding the normal what I am doing? – thabubble Jun 1 '12 at 21:28
``````function lineInCircle(sx, sy, x, y, cx, cy, radius) {
if (sx > cx + radius && x > cx + radius || x < cx - radius && sx < cx - radius) {return false;}
if (sy > cy + radius && y > cy + radius || y < cy - radius && sy < cy - radius) {return false;}
var k = ((y - sy) * (cx - sx) - (x - sx) * (cy - sy)) / ((y - sy) * (y - sy) + (x - sx) * (x - sx))
var ncx = k * (y - sy)
var ncy = k * (x - sx)
return radius >= Math.sqrt(ncx * ncx + ncy * ncy);
}
``````

Takes about 4.5 - 4.6 seconds for 100000000 iterations to finish on my machine.

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