I have a vector with a min of two points in space, e.g:
A = np.array([-1452.18133319 3285.44737438 -7075.49516676]) B = np.array([-1452.20175668 3285.29632734 -7075.49110863])
I want to find the tangent of the vector at a discrete points along the curve, g.g the beginning and end of the curve. I know how to do it in Matlab but I want to do it in Python. This is the code in Matlab:
A = [-1452.18133319 3285.44737438 -7075.49516676]; B = [-1452.20175668 3285.29632734 -7075.49110863]; points = [A; B]; distance = [0.; 0.1667]; pp = interp1(distance, points,'pchip','pp'); [breaks,coefs,l,k,d] = unmkpp(pp); dpp = mkpp(breaks,repmat(k-1:-1:1,d*l,1).*coefs(:,1:k-1),d); ntangent=zeros(length(distance),3); for j=1:length(distance) ntangent(j,:) = ppval(dpp, distance(j)); end %The solution would be at beginning and end: %ntangent = % -0.1225 -0.9061 0.0243 % -0.1225 -0.9061 0.0243
Any ideas? I tried to find the solution using numpy and scipy using multiple methods, e.g.
tck, u= scipy.interpolate.splprep(data)
but none of the methods seem satisfy what I want.