My approach just constructs 2 circular arcs and fills the region in between. The tricky bit is figuring out the centers and radii of these arcs. Looks quite good provided the thicknesses are not too large. (Cut and paste and decide for yourself if it meet your needs.) Could possibly be improved by use of a clipping path.

```
- (void)drawRect:(CGRect)rect
{
CGContextRef context = UIGraphicsGetCurrentContext();
CGMutablePathRef path = CGPathCreateMutable();
// As appropriate for iOS, the code below assumes a coordinate system with
// the x-axis pointing to the right and the y-axis pointing down (flipped from the standard Cartesian convention).
// Therefore, 0 degrees = East, 90 degrees = South, 180 degrees = West,
// -90 degrees = 270 degrees = North (once again, flipped from the standard Cartesian convention).
CGFloat startingAngle = 90.0; // South
CGFloat endingAngle = -45.0; // North-East
BOOL weGoFromTheStartingAngleToTheEndingAngleInACounterClockwiseDirection = YES; // change this to NO if necessary
CGFloat startingThickness = 2.0;
CGFloat endingThickness = 12.0;
CGPoint center = CGPointMake(CGRectGetMidX(self.bounds), CGRectGetMidY(self.bounds));
CGFloat meanRadius = 0.9 * fminf(self.bounds.size.width / 2.0, self.bounds.size.height / 2.0);
// the parameters above should be supplied by the user
// the parameters below are derived from the parameters supplied above
CGFloat deltaAngle = fabsf(endingAngle - startingAngle);
// projectedEndingThickness is the ending thickness we would have if the two arcs
// subtended an angle of 180 degrees at their respective centers instead of deltaAngle
CGFloat projectedEndingThickness = startingThickness + (endingThickness - startingThickness) * (180.0 / deltaAngle);
CGFloat centerOffset = (projectedEndingThickness - startingThickness) / 4.0;
CGPoint centerForInnerArc = CGPointMake(center.x + centerOffset * cos(startingAngle * M_PI / 180.0),
center.y + centerOffset * sin(startingAngle * M_PI / 180.0));
CGPoint centerForOuterArc = CGPointMake(center.x - centerOffset * cos(startingAngle * M_PI / 180.0),
center.y - centerOffset * sin(startingAngle * M_PI / 180.0));
CGFloat radiusForInnerArc = meanRadius - (startingThickness + projectedEndingThickness) / 4.0;
CGFloat radiusForOuterArc = meanRadius + (startingThickness + projectedEndingThickness) / 4.0;
CGPathAddArc(path,
NULL,
centerForInnerArc.x,
centerForInnerArc.y,
radiusForInnerArc,
endingAngle * (M_PI / 180.0),
startingAngle * (M_PI / 180.0),
!weGoFromTheStartingAngleToTheEndingAngleInACounterClockwiseDirection
);
CGPathAddArc(path,
NULL,
centerForOuterArc.x,
centerForOuterArc.y,
radiusForOuterArc,
startingAngle * (M_PI / 180.0),
endingAngle * (M_PI / 180.0),
weGoFromTheStartingAngleToTheEndingAngleInACounterClockwiseDirection
);
CGContextAddPath(context, path);
CGContextSetFillColorWithColor(context, [UIColor redColor].CGColor);
CGContextFillPath(context);
CGPathRelease(path);
}
```