# Calculating the rotation angle to follow a line in Processing

I have a random line being drawn, and I want to trace along the line with a Letter, V in this case. I would like the bottom point of the V to rotate and follow the direction of the line no matter what angle or direction the line is drawn. But I'm honestly at a loss for how to calculate that angle. Below is some bare bones code to demonstrate my problem. You'll see the Red line being drawn, and I would like the V's bottom point to lead the line being drawn.

Thanks in advance for any suggestions.

``````float [ ] lineProgress = { 75, 350, 350, 350, 0 };
int lineSpeed = 25;
float angle = 0;

void setup() {
background (255);
size(400,400);
noFill();
frameRate(5);
}

void draw()
{
background (255);
strokeWeight(1);

stroke (0,255,0);
line(lineProgress[0],lineProgress[1],lineProgress[2],lineProgress[3]);

stroke (255,0,0);

fill(255, 0,0, 125);

float angle;
//How Do I calculate this based on the line being drawn?

line(
lineProgress[0]
, lineProgress[1]
, lerp(lineProgress[0], lineProgress[2],lineProgress[4]/lineSpeed)
, lerp(lineProgress[1], lineProgress[3],lineProgress[4]/lineSpeed)

);

rotLetter(
"V"
, lerp(lineProgress[0]
, lineProgress[2]
, lineProgress[4]/lineSpeed)
, lerp(lineProgress[1]
, lineProgress[3],lineProgress[4]/lineSpeed)
, angle
) ;

rotLetter("V", 200,200,angle) ;

lineProgress[4]++;
if (lineProgress[4]>lineSpeed)
{
lineProgress[4]=0;
lineProgress[0]=random(50,350);
lineProgress[1]=random(50,350);
lineProgress[2]=random(50,350);
lineProgress[3]=random(50,350);
}

}

void rotLetter(String l, float x, float y, float ang) {
pushMatrix(); // save state
textAlign(CENTER); // center letter horiz
translate(x, y); // move to position
rotate(ang); // rotate
// draw char centered on acsender
// this will work for most Caps, and some lc letters
// but it will not allways vert center letters
text(l, 0, textAscent()/2);
}
``````
-

Given a line from `(x0, y0)` to `(x1, y1)` with X offset `dx = x1 - x0` and Y offset `dy = y1 - y0`, the angle is:

``````atan2(dy, dx)
``````

which will be measured in radians.

Using `atan2(y, x)` instead of `atan(y / x)` ensures that the angle returned is in the right quadrant. `atan` only returns results from `-π/2` to `+π/2`, rather than the full `-π` to `+π`.

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1. Find the slope of line y=mx+c (m=slope). Angle=arctan(m)
2. Angle to rotate=2*Pi-Angle,clockwise
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Thanks guys.................. –  Lance Oct 19 '12 at 8:25

Your friend in calculating the rotation angle is the sine/cosine relations. You can use any of them, but the tangent one doesn't involve calculating the length of the hypotenuse:

``````tan A = a / b
``````

``````A = arctan( a / b )
``````

or in Java terms:

``````double angle = Math.atan( ( lineprogress[ 3 ] - lineprogress[ 1 ] ) /
( lineprogress[ 2 ] - lineprogress[ 0 ] ) );
``````

or as @Alnitak also writes, use atan2 to obtain results in the right quadrant:

``````double angle =  Math.atan2( lineprogress[ 2 ] - lineprogress[ 0 ] ,
lineprogress[ 3 ] - lineprogress[ 1 ] );
``````

assuming that (x1,y1) == ( lineprogress[ 0 ] , lineprogress[ 1 ] ) and congruently for (x2,y2)

Cheers,

-
Thanks guys... the prototype code works perfectly now. –  Lance Oct 19 '12 at 8:27