# can someone please explain the last two params of arcTo?

I'm trying to draw a rectangle with rounded corners. I have a javascript path that does this, but the javascript arcTo method takes a rectangle (to define its oval) and then one param which sets the sweep.

However, in the Android version there are three params. the rectangle oval (which I think I have defined correctly) and then the startAngle and sweepAngle (which I'm not understanding the usage of), but my arcs don't look anything like what I'm expecting when I noodle with how I'm guessing they should work.

Does anyone know of a good tutorial on this?

Specifically I'm trying to understand what would the two params look like if I was trying to draw an arc (on a clock face) from 12 - 3, and then assuming I had a line that ran down from the 3 and then needed to round the corner from 3 to 6 and so forth.

Here's my code (disregard the arc numbers in there now... that's just the latest iteration of my guessing at how this may work, having failed on the previous, more sensible attempts):

``````Path ctx = new Path();
ctx.moveTo(X+5,Y); //A
ctx.lineTo(X+W-5,Y);//B
ctx.arcTo(new RectF(X+W, Y, X+W, Y+5), -180, 90); //B arc

ctx.lineTo(X+W,Y+H-5); //C
ctx.arcTo(new RectF(X+W,Y+H,X+W-5,Y+H),90,180); //C arc

ctx.lineTo(X+W/2 +6,Y+H);
ctx.lineTo(X+W/2,Y+H+8);
ctx.lineTo(X+W/2-6,Y+H);
ctx.lineTo(X+5,Y+H);
ctx.arcTo(new RectF(X,Y+H,X,Y+H-5),180,270);

ctx.lineTo(X,Y+5);
ctx.arcTo(new RectF(X,Y,X+5,Y),270,0);
Paint p = new Paint();
p.setColor(0xffff00ff);

canvas.drawPath(ctx, p);
``````

much obliged.

odd that no one piped in with an answer, once I found it (it wasn't easy to find) it was really straight forward.

So, the way it works is this: Assuming you want to draw a rounded corner at 12 - 3 (using clock reference): you start your path and when you need the line to arc you define a rectangle whose upper left corner is the place where your line is currently terminated and whose lower right corner is the place that you want the arc to go to, so if you imagine a square whose X,Y is 12 (on the clock) and whose X+W,Y+H is 3 that's the square you need.

Now, imagine that you have an oval in that square (in this example it's a circular oval, if you want your curve to be more oval-ish, then define your square as a rectangle), you can take any slice of that circle using the last two params of the method. The first param defines the angle where you want to start cutting. If we're using a compass, 0 degrees is East (not sure why, I'm not a geometry expert... is this normal? I always think of 0 being North, but all the programming geometry examples I see have 0 as East, maybe someone will comment on why that is).

The second param defines how much of the circle you want. If you want the whole circle you put 360 if you want half the circle you put 180 etc.

So, in our case since we want to round the corner from 12 to 3, we put 270 as our starting degree and grab 90 degrees of the circle.

Lastly, when you're done with this process, the line now thinks of itself as being at 3pm so you can continue lineTo(ing) from there. So... here's my fixed code for my shape (it has a little triangle in it, but that's neither here nor there, the actual rounded parts are B-C, D-E, I-J, and K-A. All the rest are straight lines.

``````int arc = 25;
public Cursor(int X, int Y, int W, int H){
/*
*   A            B
* K                C
* J                D
*   I   H   F    E
G
*/
int Ax = X+ arc;
int Ay = Y;
int Bx = X + W - arc;
int By = Y;
int Cx = X + W;
int Cy = Y + arc;
int Dx = Cx;
int Dy = (Y + arc) + (H - arc*2);
int Ex = Bx;
int Ey = Y + H;
int Fx = X+W/2 +6;
int Fy = Ey;
int Gx = X+W/2;
int Gy = Y+H+8;
int Hx = X+W/2-6;
int Hy = Ey;
int Ix = Ax;
int Iy = Hy;
int Jx = X;
int Jy = Dy;
int Kx = X;
int Ky = Cy;

Path ctx = new Path();
ctx.moveTo(Ax,Ay); //A
ctx.lineTo(Bx,By);//B
ctx.arcTo(new RectF(Bx, By, Cx, Cy), 270, 90); //B-C arc

ctx.lineTo(Dx,Dy); //D
ctx.arcTo(new RectF(Dx - arc, Dy, Ex + arc, Ey),0,90); //D-E arc

ctx.lineTo(Fx, Fy); //E-F
ctx.lineTo(Gx, Gy); //F-G
ctx.lineTo(Hx, Hy); //G-H
ctx.lineTo(Ix, Iy); //H - I
ctx.arcTo(new RectF(Jx, Jy, Ix, Iy),90,90);// I = J arc

ctx.lineTo(Kx, Ky); //K
ctx.arcTo(new RectF(Ax - arc, Ay, Kx + arc, Ky),180,90); //K - A arc
ctx.lineTo(Ax, Ay); //K

Paint p = new Paint();
p.setAntiAlias(true);
p.setColor(0xffffffff);
p.setStyle(Style.FILL);
canvas.drawPath(ctx, p);
p.setColor(0xff000000);
p.setStyle(Style.STROKE);
p.setStrokeWidth(3);
canvas.drawPath(ctx, p);

}
``````
• Hey, I'm having problem while drawing arcs in a path, i tried to follow your recommendations but I couldn't get it.. could you see the question I asked? There I have my problem detailed so it is better for you to understand. stackoverflow.com/questions/17449339/… Thanks ! :) – Felipe Mosso Jul 3 '13 at 13:46
• imagine your arc to be enclosed by a rectangle (and extending all the way around the inside of that rectangle, even though only the part you want shown will be shown). The first parameter is the degree inside your oval where the point will start, and the second is the number of degrees you want to grab of the full oval to be the segment that is your arc. – Genia S. Jul 3 '13 at 17:18
• Thanks! I figured out what I was doing wrong. I was passing the final degree value to sweepAngle parameter. I had to pass how many degrees I want do grab considering the startAngle parameter, and not the finalAngle – Felipe Mosso Jul 3 '13 at 18:01
• This helped but also mislead in a very important way. The approach doesn't apply to the general case and is imprecise. Drawing an arc from 12 - 3, given their coordinates, is done by defining a rectangle that circumscribes the clock (not with upper-left at 12/lower-right at 3) and specifying a starting angle of 270 and sweep angle of 90. The code doesn't draw arc from B to C, e.g., rather a straight line from B that is half the length of the rect, then an arc, then a straight line half the length of rect to C. If B and C are not at 90 angle, it fails. This got me started though, so thanks! – Jayz7522 Feb 13 '15 at 3:14
• @GeniaS., Sure, but perhaps reread my above, which is fairly precise. The quickest way to illustrate what I describe is to edit your code like so: choose a corner, say upper right, and draw the rect in some noticeable color. Instead of starting your arc at 270 (on the rect), start it at 300, e.g. You'll notice that the arc does not begin at the upper left hand corner of the rect, but at 300th deg. of a circle inscribed in your rect. Your answer implies that if drawing an arc from point A to B, one should choose a rect with upper left corner A, lower right B, which is not the case. – Jayz7522 Feb 14 '15 at 3:23

Thanks for this example, it makes the parameters very clear to understand. From what I read in the dev docs of Android you can probably spare yourself some of the "lineTo()" calls (except those to points F,G,H), since arcTo automatically adds a lineTo when the first point of the arc is not the last point drawn...

As for why 0 starts East, it is so because of math and trigonometry lessons generally assume that the 0 degrees mark is the point where the trigonometric circle (circle with center 0,0 and radius 1) intersects with the X-axis, which is East (these same lessons however generally count the angles counter-clockwise, so 90 degrees becomes north and 270 is south, whereas on Android it seems the angles are counted clockwise)

• thanks for that additional info! – Genia S. Jun 29 '11 at 18:38

Here's some sample code (pieced together from one of my classes) to draw a filled, rounded corner rectangle and then adding a stroked rectangle to give it a border:

``````//Initializing some stuff
_paint = new Paint();
_rect = new RectF();
_bgColor = 0xFFFFFFFF;
_borderColor = 0xFFCCCCCC;

//Doing dimension calculations
_rect.left = 0;
_rect.top = 0;
_rect.right = this.getWidth() - 1;
_rect.bottom = this.getHeight() - 1;

//painting
//draw the background
_paint.setColor(_bgColor);
_paint.setStyle(Style.FILL_AND_STROKE);