I need to draw a smooth line through a set of vertices. The set of vertices is compiled by a user dragging their finger across a touch screen, the set tends to be fairly large and the distance between the vertices is fairly small. However, if I simply connect each vertex with a straight line, the result is very rough (not-smooth).

I found solutions to this which use spline interpolation (and/or other things I don't understand) to smooth the line by adding a bunch of additional vertices. These work nicely, but because the list of vertices is already fairly large, increasing it by 10x or so has significant performance implications.

It seems like the smoothing should be accomplishable by using Bezier curves without adding additional vertices.

Below is some code based on the solution here:

http://www.antigrain.com/research/bezier_interpolation/

It works well when the distance between the vertices is large, but doesn't work very well when the vertices are close together.

Any suggestions for a better way to draw a smooth curve through a large set of vertices, without adding additional vertices?

```
Vector<PointF> gesture;
protected void onDraw(Canvas canvas)
{
if(gesture.size() > 4 )
{
Path gesturePath = new Path();
gesturePath.moveTo(gesture.get(0).x, gesture.get(0).y);
gesturePath.lineTo(gesture.get(1).x, gesture.get(1).y);
for (int i = 2; i < gesture.size() - 1; i++)
{
float[] ctrl = getControlPoint(gesture.get(i), gesture.get(i - 1), gesture.get(i), gesture.get(i + 1));
gesturePath.cubicTo(ctrl[0], ctrl[1], ctrl[2], ctrl[3], gesture.get(i).x, gesture.get(i).y);
}
gesturePath.lineTo(gesture.get(gesture.size() - 1).x, gesture.get(gesture.size() - 1).y);
canvas.drawPath(gesturePath, mPaint);
}
}
}
private float[] getControlPoint(PointF p0, PointF p1, PointF p2, PointF p3)
{
float x0 = p0.x;
float x1 = p1.x;
float x2 = p2.x;
float x3 = p3.x;
float y0 = p0.y;
float y1 = p1.y;
float y2 = p2.y;
float y3 = p3.y;
double xc1 = (x0 + x1) / 2.0;
double yc1 = (y0 + y1) / 2.0;
double xc2 = (x1 + x2) / 2.0;
double yc2 = (y1 + y2) / 2.0;
double xc3 = (x2 + x3) / 2.0;
double yc3 = (y2 + y3) / 2.0;
double len1 = Math.sqrt((x1-x0) * (x1-x0) + (y1-y0) * (y1-y0));
double len2 = Math.sqrt((x2-x1) * (x2-x1) + (y2-y1) * (y2-y1));
double len3 = Math.sqrt((x3-x2) * (x3-x2) + (y3-y2) * (y3-y2));
double k1 = len1 / (len1 + len2);
double k2 = len2 / (len2 + len3);
double xm1 = xc1 + (xc2 - xc1) * k1;
double ym1 = yc1 + (yc2 - yc1) * k1;
double xm2 = xc2 + (xc3 - xc2) * k2;
double ym2 = yc2 + (yc3 - yc2) * k2;
// Resulting control points. Here smooth_value is mentioned
// above coefficient K whose value should be in range [0...1].
double k = .1;
float ctrl1_x = (float) (xm1 + (xc2 - xm1) * k + x1 - xm1);
float ctrl1_y = (float) (ym1 + (yc2 - ym1) * k + y1 - ym1);
float ctrl2_x = (float) (xm2 + (xc2 - xm2) * k + x2 - xm2);
float ctrl2_y = (float) (ym2 + (yc2 - ym2) * k + y2 - ym2);
return new float[]{ctrl1_x, ctrl1_y, ctrl2_x, ctrl2_y};
}
```