I want to calculate a convex hull around a shape in a binary NxM matrix. The convex hull algorithm expects a list of coordinates, so I take numpy.argwhere(im) to have all shape point coordinates. However, most of those points are not contributing to the convex hull (they lie on the inside of the shape). Because convex hull computation time is at least proportional to the number of points that it gets as input, I devised an idea to filter the plethora of useless points on beforehand and only pass those that span the outline. The idea is quite simple, that for each row in the binary NxM matrix I take only the minimal and maximal indices. So for example:
im = np.array([[1,1,1,0], [1,0,1,1], [1,1,0,1], [0,0,0,0], [0,1,1,1]], dtype=np.bool) outline = somefunc(im)
Then outline should read (in tuples or as a 5x2 numpy array, I don't mind):
Any convex hull tight around this shape (im), must a subset of these points (outline). In other words, if "somefunc()" is efficient in filtering the inside points then it saves time for the convex hull computation.
I have code that does the above trick, but I am hoping someone has a more clever (read faster) approach since I need to run it many many times. The code I have is:
# I have a 2D binary field. random for the purpose of demonstration. import numpy as np im = np.random.random((320,360)) > 0.9 # This is my algorithm so far. Notice that coords is sorted. coords = np.argwhere(im) left = np.roll(coords[:,0], 1, axis=0) != coords[:,0] outline = np.vstack([coords[left], coords[left[1:]], coords[-1]])
Another idea I had was to use Python's reduce() so I'd need to run over the list of coords only once. But I have difficulty finding a good reducing function.
Any help would greatly be appreciated!
In the meanwhile I have found a faster way to go from
im directly to
outline. At least with large images this is significantly faster. In the apparent absence of an external solution I am positing it as the solution to this question.
Still, if somebody knows an even faster method, please speak up :)