Anybody else thinks this answer deserves some more upvotes?

@AnderBiguri do you remember the strange bug where a figure becomes animated spontaneously? Do you have access to a setup that exhibits this behavior and can verify if the suggested solution stops it from happening?

What's up?

@Dev-iL Keyboard going nuts with tab completion... idk why. Anyways that was both a really good question and a very nice answer.

@Peter link?

the one you linked to. with oddly few upvotes considering the extensive answer.

Oh, I thought you were referring to a q&a about tab completion

no no... it was my own keyboard acting up causing those deleted lines... no idea why

@Peter The first revision of the answer was much shorter, perhaps that's the reason.... As for the question, thanks for the compliment :)

@Dev-iL ah trippy! I dont have those versions available now, as I am in Spain and hve only 2017

@AnderBiguri no more londonizing?

@flawr just a small break

ah I see:)

just found a neat expression for finding the smallest angle difference between two angles: atan2(sin(a-b), cos(a-b))

@flawr I'd expect min(mod(a-b, 2*pi), mod(b-a, 2*pi)) to be a lot faster and more readable :P

@AndrasDeak don't we need to add an absolute value somewhere?

That's what a-b vs b-a is supposed to do. I didn't test it though...

or in other words, is the output of mod assumed to be nonnegative?

yes

ok, well the atan2 expression can assume negative values

but the min-mod is really elegant I have to say!

Yeah, I get different results. What exactly is your specification?

get the signed difference with the least absolute value

I see

even the values where you've got a positive angle are different in mine, so it's probably buggy

wait, then maybe mine is wrong

D:

well, generate a mesh, compute the angle, plot it and see if it matches your expectations

a 2pi x 2pi grid should cover all cases at worst

in matlab both our versions give the same answers up to the sign!

hmmm

now that's weird

Are you sure?

for k = 1:1000;
    a = 4*pi*rand() - 2*pi;
    b = 4*pi*rand() - 2*pi;
    x = atan2(sin(a-b), cos(a-b));
    y = min(mod(a-b, 2*pi), mod(b-a, 2*pi));
    if abs(x - y) > 1e-5
        if abs(x + y) > 1e-5
            disp([x,y])
        end
    end
end

oh crap, I derped up my modulo

>>> a,b = np.mgrid[0:2*np.pi:100j, 0:2*np.pi:100j]
... np.allclose(abs(np.arctan2(np.sin(a-b), np.cos(a-b))), np.minimum((a-b) % (2*np.pi), (b-a) % (2*np.pi)))
True

I remembered to parenthesize (a-b) but not (2*np.pi)...

oh mgrid is nice

yup

a complete hack with using complex numbers:)

interesting, when you do np.mgrid[0:2:3j+5] you actually get 5 samples

hmm, I don't get it

@flawr it's a hack entirely

@flawr if it's complex it probably takes the abs()

>>> np.mgrid[0:2:3j]
array([0., 1., 2.])

>>> np.mgrid[0:2:3j+1]
array([0.        , 0.92495059, 1.84990118])

>>> np.mgrid[0:2:3j+2]
array([0.        , 0.76759188, 1.53518376])

>>> np.mgrid[0:2:3j+3]
array([0.        , 0.61678126, 1.23356251, 1.85034377])

>>> np.mgrid[0:2:3j+4]
array([0. , 0.5, 1. , 1.5, 2. ])

>>> abs(3j+4)
5.0

> then the integer part of its magnitude is interpreted as specifying the number of points

but why do we then get a different spacing?

oh to compute the interval length they still use the absolute value and not just its integer part!

hello all

@Sam hello!

@CrisLuengo your colon-analysis (can we call that a colonoscopy? :) was cited here: possiblywrong.wordpress.com/2020/08/02/…

*colonopscopy

@flawr LOL! "colonopsis" is less funny, but also less insulting... :p