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A friend of mine helped me immensely in producing a web app that performs Boolean Operations on SVG paths quite accurately. However the library we implemented to do that required the SVG paths to be converted to polygons first which means that the output now are SVG elements that are highly polygonized( usually >4000 nodes per shape), to have the same visual result as a curve.

If you zoom close enough however you can see that the SVG is in effect a polygon of course and not a true curve.

My question is, how does someone go and convert a polygon shape to a true curve shape in Javascript?

I have seen this solution: http://jsdraw2d.jsfiction.com/ but this seems to be dealing with something called VML and not SVG.

Is there something out-of-the-box that can be used to accurately convert a polygon to a path without ANY loss of quality?

When i say path i don't mean a path with >4000 nodes. I mean a path with curves instead of many nodes. Which in turn means reducing the node count dramatically since the polygons would be converted into curves.

This is the JSfiddle of an example of one of my SVG polygon examples: http://jsfiddle.net/nJEtS/

The language i am working on is Javascript

Many thanks, if the question is confusing please comment so i can change it. I did my best.

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If I recall correctly the freehand tool in SVG-Edit/Method Draw has something similar to this, it creates curves from a set of points (your mouse movement). I don't have time to dive in and find it, just a heads up! –  Duopixel Aug 14 '13 at 14:53
    
seems like it does, i'll have a look! thanks mark –  Nicholas Kyriakides Aug 14 '13 at 15:24

1 Answer 1

up vote 1 down vote accepted

I assume, that while polygonizing, you sampled points on the curve, and joined them with straight lines. The reverse process is curve fitting.

You want to do a "Hermite fitting of curve through a set of points". A little search will help you out.

There are more such fitting algorithms. This is maths based and the under the hood solution to what you want. This is also how most such problems are solved.

If you want a quick solution, you would have to find a library that does it for you. i.e take a set of points, and fits a curve through them.

Note: I assume that fitting a curve through more than 4000 nodes is going to be costly. You could try it and see the performance for yourself, as I am not sure how costly would this be. But, I would suggest that if you needed to maintain the accuracy of your boolean operation. You should not have polygonized them at first. It is just redundancy of efforts to lose accuracy only to gain it back. Boolean set operations can be be done, and are done, without polygonizing the curve data.

Links for reference, and demos

http://en.wikipedia.org/wiki/Spline_interpolation

http://www.math.ucla.edu/~baker/java/hoefer/Spline.htm

http://www.math.ucla.edu/~baker/java/hoefer/Lagrange.htm

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indeed the most correct solution is to use a ''curvy'' boolean operations algorithm from the very beginning. However i am quite convinced that such algorithms are highly unreliable and they do not really handle all polygon cases(self intersecting and some other forms). I used Clipper from Angus Johnson which is the fastest, most reliable and handles almost all polygon cases. The only disadvantage is that it does not handle curves. Although in my case the boolean operations must happen in real time, the curve fitting is a one-time thing, only when the user decides to export the file. –  Nicholas Kyriakides Aug 19 '13 at 7:41
    
We are quite used to seeing polygonal problems. Lots of solutions are available, mainly because the gaming and graphics industry uses a lot of polylines. In industries like CAD and modelling, the requirement is more towards accuracy and as such a lot of methods and research are already present for curvy intersection problems. It is a tad bit harder, at time slower, but it exists for sure. I work on one. :) –  Kshitij Banerjee Aug 19 '13 at 8:28
    
The problem is just harder, as an analogy , its easy to juggle 2 balls than 3. The striaght line problem has in a way 2 dimensions, while the curve problem has 3. It exists, is reliable and the relevant research and algorithms are there. Its just not as simple as the straight line approach . :) –  Kshitij Banerjee Aug 19 '13 at 8:32
    
Do you actually have a boolean operations library that handles all polygon cases and it works with curves? I would be really glad to have a look, although i doubt you have it with a non-restricting license(its just my instinct:) ) –  Nicholas Kyriakides Aug 19 '13 at 8:55
    
:) yes. The one i work on(ACIS) is licensed. Handling spline curves are the basic building blocks for geometry kernel libraries. You may check CGAL, which is free and i assume will have these things. –  Kshitij Banerjee Aug 19 '13 at 14:27

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