inpolygon

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AP
AP el 4 de Jun. de 2011
Editada: Walter Roberson el 3 de Jul. de 2018
Is there a faster function than inpolygon? It takes forever when I want to check 1280x1024 pixels of an image whether they are inside or outside of a closed polygon.
Thank you very much for your quick reply.
  1 comentario
Walter Roberson
Walter Roberson el 4 de Jun. de 2011
So your polygon is closed. Aren't they all?
Is your polygon convex? Does it have holes? Is it self-intersecting? Is it complicated or relatively simple?

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Respuestas (4)

Image Analyst
Image Analyst el 4 de Jun. de 2011
Editada: Walter Roberson el 3 de Jul. de 2018
What are you really wanting to do? Because there's a chance you can do it without using inpolygon. For example
[rows columns, numberOfColorChannels] = size(originalImage);
pixelsInPolygon = poly2mask(polygonXCoordinates, polygonYCoordinates, rows, columns)
should do what you asked. It will produce a map of which pixels "are" or "are not" inside your polygon. But I have a feeling that this is just one intermediate step in what you really want to do.

John D'Errico
John D'Errico el 4 de Jun. de 2011
No. In fact, inpolygon is already blazingly fast. But no matter how fast you make something, someone will throw a million plus points at it, or a billion points, or a trillion points, and then decide it is too slow for their purposes.
Computers are not infinitely large or infinitely fast. The creative (or the ignorant or the foolish or the lazy) can always find a way to exceed the capabilities of any algorithm on any machine. In fact, problems quickly tend to grow in size to always just exceed those capabilities.
In any problem, there may be tricks one can use to reduce the work. For example, if you feel it is too slow to throw 1.2 million pixels at the tool, perhaps you can decide that entire simple regions are inside the polygon, therefore nothing inside that sub-domain need be tested?

Jan
Jan el 4 de Jun. de 2011
There is a faster function than INPOLYGON. If it is not written yet, it is possible to do, e.g. as C-Mex or in assembler and achieve an acceleration of 10% or 500%. But your problem "takes forever". A factor 5 will not help to reduce this remarkably.
Most likely it will be more helpful to exploit the geometry of the polygon: Exclude all points outside enclosing rectangle (very cheap), exclude all points outside the convex hull (semi cheap), etc.

carl howell
carl howell el 28 de Oct. de 2011
Are there nan's at the end of your polygons? If you've read in a shapefile, than likely so... If so, try removing them (nan's) before you call inpolygon...
  2 comentarios
carl howell
carl howell el 28 de Oct. de 2011
Never mind, looks like I had a bug in my code making it seem like it was faster with nan's removed... Still working on similar problem...
Reema Alhassan
Reema Alhassan el 3 de Jul. de 2018
hello Carl, did you solve your problem? because I'm facing the same issue now and I couldn't find another way to do it ..

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