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Below given is an example image where 'center-point' is (x0,y0) (the center of the wheel). Other points are the other ends of the spoke. The distance between 'center-point" and the other end of spoke may be different (spokes of different length). These all points are in cartesian coordinate system.

I need to find here the largest angle made by any two consecutive spoke. In this fig all the angles are same but assume that any one of the spoke is missing, then we will have that angle as the the largest angle at origin.

My take: I am calculating the angle created by each edge with respect to x axis one at a time subtracting with the previous one (that gives angle between two spoke). I am keeping track of the largest angle, everytime updating it if I encounter an angle larger than the previous. My method works but just wondering if any efficient method is available to find the same.

Wheel with spokes

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Is this homework? What have you tried? – GWW Aug 17 '12 at 13:28
Can you post the code you have now? – Kevin Aug 17 '12 at 13:33
not a homework for sure – user1597034 Aug 17 '12 at 13:35
It is unclear what you are asking, do you think you could write the question in a more mathematical way (what exactly are you trying to maximise? the angle in their polar coordinate representation?) "largest angle in the coordinate system" is too vague. – Andy Hayden Aug 17 '12 at 13:36
@hayden -- I think OP wants the largest angle between 2 adjacent "spokes". – mgilson Aug 17 '12 at 13:41

2 Answers 2

up vote 0 down vote accepted

Assuming you want the angle between two spokes, I suggest you convert the data points to polar/complex co-ordinates, this is made easy in the cmath module, and allows you to do something like this (phase takes out just the angle about centre):

import cmath

def largest_spoke_angle(centre, peripheral):
     per_from_centre = [complex(z[0]-centre[0], z[1]-centre[1]) for z in peripheral]
     per_angles = [cmath.phase(z) for z in per_from_centre]

     differences = [ per_angles[n+1]-per_angles[n] for n in range(len(per_angles)-1)] \
                    + [per_angles[0] +2*cmath.pi - per_angles[-1]]

     return max(differences)#in radians

centre = (0.,0.)
peripheral = [(1.,2.),(3.,4.),(3.,5.)]
print largest_spoke_angle(centre, peripheral)
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Not working for the following. Here the center is (1,0). The output should be pi, however, the above code outputs pi/2. centre = (1.,0.) peripheral = [(0.,0.),(1.,1.),(2.,0.)] print largest_spoke_angle(centre, peripheral) – user1597034 Aug 17 '12 at 15:47
@user1597034 thanks, fixed (bug was in the second line of differences). Hopefully it works now, it does for that example. – Andy Hayden Aug 17 '12 at 16:20
Works! BTW, is it possible to get which spokes resulted in the largest angle? – user1597034 Aug 17 '12 at 16:43
@user1597034 yes, a hint for how to do that: the list [(x[n],n) for n in ...] will be sorted the same as [x[n] for n in ...]. – Andy Hayden Aug 17 '12 at 20:29

I think I would do something like this:

angles = [get_angle_from_xaxis(origin,point) for point in points]
#make sure the angles are in order
#need to compare last one with first one
angles.insert(0,angles[-1]-360.0)  #360 if degrees, otherwise 2*math.pi.
#Now calculate the difference between adjacent angles and take the maximum
maxangle = max( angles[i] - angle for i,angle in enumerate(angles[:-1],1) )

This is basically the solution you describe. The only thing I've added is a check between the last and first and a sort to make sure we have the angles in the right order.

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