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I'm working on an application that records strokes, which you paint with a pointing device.

enter image description here

In the image above, I've drawn a single stroke, which contains 453 data points. My goal would be to drastically reduce the amount of data points while still maintaining the shape of the original stroke.

For those interested, the coordinates for the stroke pictured above are available as a gist on GitHub.

As a matter of fact, Adobe Illustrator has a great implementation of what I'm trying to achieve. If I draw a similar stroke (with a calligraphic brush) in Illustrator, the resulting shape will be simplified to what we see below. While drawing the stroke, it will look very similar to the one in my application. Once I release the mouse button, the curve will be simplified to what we see here:

enter image description here

As we can see, the stroke only has 14 data points. Though there are additional control points which define the inclination of the bezier spline (or whatever spline it is they're using). Here we can see a few of those control points:

enter image description here

I have looked at algorithms like Ramer–Douglas–Peucker algorithm, but those seem to only remove points from the input set. If I'm not mistaken, the approach I'm looking for would also have to introduce new points into the set to achieve the desired curve.

I have come across questions like iPhone smooth sketch drawing algorithm which seem related. But those seem to focus on creating a smooth curve from a small set of input points. I feel like I have the opposite case.

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Are your data points stored as a sequence (preserving the order they were drawn), or a set (just a cloud of points, with no defined order)? –  mbeckish Jul 2 '13 at 13:01
@mbeckish: The former. It's actually a List<Point> which gets filled with the coordinates in the order they were recorded. –  Oliver Salzburg Jul 2 '13 at 13:02
This probably doesn't answer your question, because it relies on MatLab libraries, but it might provide some insight: http://stackoverflow.com/q/12674532/21727. –  mbeckish Jul 2 '13 at 13:05
See also here. –  mbeckish Jul 2 '13 at 13:07
So it sounds like you know B-Splines are the way to go, you're just wondering how to calculate what the knots should be? I'd look into using Chebyshev polynomials. –  Seth Moore Jul 2 '13 at 13:28

1 Answer 1

up vote 8 down vote accepted

I came across the question Smoothing a hand-drawn curve (which this question might actually be a dupe of), which has an answer that proposes using Ramer-Douglas-Peucker and then applying curve fitting according to Philip J. Schneiders approach.

A quick adaptation of the provided sample code to my drawing methods results in the following curve:

enter image description here

The input data from the question has been reduced to 28 points (which are being drawn using Bezier splines).

I'm not sure which approach exactly Adobe is using, but this one serves me extremely well so far.


So, the code provided by Kris is written for WPF and makes some assumptions in that regard. To work for my case (and because I didn't want to adjust his code), I wrote the following snippet:

private List<Point> OptimizeCurve( List<Point> curve ) {
  const float tolerance = 1.5f;
  const double error    = 100.0;

  // Remember the first point in the series.
  Point startPoint = curve.First();
  // Simplify the input curve.
  List<Point> simplified = Douglas.DouglasPeuckerReduction( curve, tolerance ).ToList();
  // Create a new curve from the simplified one.
  List<System.Windows.Point> fitted = FitCurves.FitCurve( simplified.Select( p => new System.Windows.Point( p.X, p.Y ) ).ToArray(), error );
  // Convert the points back to our desired type.
  List<Point> fittedPoints = fitted.Select( p => new Point( (int)p.X, (int)p.Y ) ).ToList();
  // Add back our first point.
  fittedPoints.Insert( 0, startPoint );
  return fittedPoints;

The resulting list will be in the format Start Point, Control Point 1, Control Point 2, End Point.

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