CHATLAB and Talktave

Dev-iL

6:11 AM

More interesting to read the notes on the side... figma.com/proto/2t44qjxWBPVxTXudWuAcAz/…

I see how that could work...

Dev-iL

6:34 AM

Also, victory is mine (kinda)! (meta.stackoverflow.com/q/295776/3372061)

Ander Biguri

8:40 AM

@Dev-iL ugh, I am starting to be not sane. I need some sports/go out

Dev-iL

9:11 AM

@AnderBiguri e-sports count? :)

Ander Biguri

no :(

I already do some videogaming, but doesnt help

I want climbing, a beer in a pub, some out, in general

Adriaan

@AnderBiguri agreed. I luckily have a forest (well, sort of, a small one) at 200m from home. I like to do night walks there. But I do sorely miss cycling from work, stopping at the pub next to house, and drinking a Guinness or two whilst reading a book.

We can still go walking/cycling luckily, so we did 70km on our bicycle last Saturday

Speaking about cycling: @AnderBiguri you happen to know who operates trains between Newcastle and Aberdeen? Me and the missus plan to cycle Kirkwall-Edinburgh

Ander Biguri

whoever the local train company is

why you want to know?

likely 2 separate companies in fact

Adriaan

Because we're planning to cycle from Kirkwall to Edinburgh, and need to get to Kirkwall :P

I presume Edinburgh - Aberdeen to be operated by ScottRail?

Ander Biguri

just check thetrainline

or nationalrail

both webpages will give you all options and you can buy tickets for good price (often cheaper than in the day)

I generally use trainline

Adriaan

9:19 AM

Cool, thanks.

What?!? 123 FRANCS to go less than four hours?!?

Ander Biguri

Not sure how much is that

Adriaan

Ah, you can get 30-ish pound tickets about 3 months in advance.

@AnderBiguri 100 pounds, or thereabouts

Ander Biguri

but UK trains are not cheap, at all

also check times. "peak time" is generally x3 the price

I could buy London Bristol for 30 to 150, depending on the time of day

I used to fly from Southampton to Edibourgh because it was significantly cheaper than taking the train

Dev-iL

Maybe they should institute differential ticket pricing here as well....

Ander Biguri

they have a oligarchy here in the UK, the train companies

Adriaan

9:24 AM

Problem is that we're taking bicycles. Ferry IJmuiden - Newcastle, then train to Aberdeen and another ferry to Kirkwall

Ander Biguri

@Dev-iL problem is that then you isolate a large amount of the population.

Dev-iL

@Adriaan Sounds like it's cheaper to rent a car for a day

Ander Biguri

Much cheaper def

Renting a car in the UK is like, 30£/day

Adriaan

@Dev-iL Mwoah. With bicycles, and pick-up point different from delivery point?

Dev-iL

@Adriaan It could be possible, just something to consider

different pickup/dropoff is not that unusual

@AnderBiguri Do you no longer think in Euros?

Ander Biguri

9:28 AM

6 years here

Adriaan

@Dev-iL cost us 40 quid on Iceland, but Iceland's notoriously expensive for car hire

@AnderBiguri poor sod. You starting to like that foamless ale, don't you?

Ander Biguri

I do.... I do.....

For coronavirus reasons, I bought 2 crates of craft beer :D

the end of the world will come, but I will have beer to enjoy it all going down

Dev-iL

@AnderBiguri Sounds reasonable

Craft beer comes in smaller bottles, no?

Ander Biguri

cans and bottles both

but some are big

"flabourly" is the company I used

Adriaan

The student union here does a digital beer tasting. You order your own box (12 beers minimum), including the 6 beers specified, and then you join the online-stream for the tasting :P

Dev-iL

9:32 AM

I means smaller "quantities"

@Adriaan Yurop....

Adriaan

@AnderBiguri I probably told you this several times, try Black Isle Brewery. It was glorious back when I tried it in 2015 (or 2016)

Dev-iL

Do they use the same logo as the game company?

Ander Biguri

@Dev-iL Black Mesa

Adriaan

blackislebrewery.com

Ander Biguri

To be honest, I irdered the crates from where it was cheaper. I was not being picky

Dev-iL

9:36 AM

As far as alcohol and respiratory illnesses are concerned, my parents decided to stick to the age-old folk medicine of drinking a shot of vodka in the morning and evening

Adriaan

Damn, zooming into Scotland on Google maps is hard for me. Everywhere you look are distilleries

Ander Biguri

@Dev-iL hahahaha

killing coronavirus with vodka, bold move

Dev-iL

@AnderBiguri not killing coronavirus - merely prophylactically

Dev-iL

10:33 AM

I need your help interpreting some result I'm getting

I have some function from R3 to C1

The gradient of this function is therefore in C3

Now suppose I find the phase angle of the output, s.t. φ = mod( angle(H), 2π) (H is the name of the output of R3->C1)

Clearly, φ here is a real value (represents an angle in radians). If I evaluate the gradient of φ using finite differences, I obviously also get real values.

So the question is as follows - suppose I know the gradient of the function symbolically, I can evaluate it to get 3 complex values, but how do I get from them to the real gradient computed before? I suppose the crux of the issue is the differentiation of the angle operator (atan2?)

Ander Biguri

"the real gradient" as in, the gradient of the angle, real valued. Right?

Dev-iL

yeah

Ander Biguri

Ultimately you are describing some function f: R3->C1->R1

Dev-iL

yeah

Ander Biguri

Can you describe this function and take its gradient? Is the atan2 the problem?

Dev-iL

10:44 AM

The function is known analytically and is differentiable (analytically), if that's what you're asking

atan+mod are the problem, I suppose

Ander Biguri

Yes, bu can you make f2: f1->R1 ?

Dev-iL

@AnderBiguri No comprendo, isn't this just φ = mod( angle(H), 2π)?

Ander Biguri

yes yes, can you not take the derivative of f2 ?

Dev-iL

BTW congrats on message #48980000 ;)

Ander Biguri

hahaha

try forgetting the mod for a sec, only with angle(H)

Dev-iL

10:47 AM

I suppose it comes down to the derivative of atan2, no?

maybe I should just stay with complex numbers

Atan2

The function atan2 ⁡ ( y , x ) {\displaystyle \operatorname {atan2} (y,x)} or arctan2 ⁡ ( y , x ) {\displaystyle \operatorname {arctan2} (y,x)} (from "2-argument arctangent") is defined as the angle in the Euclidean plane, given in radians, between the positive x axis and the ray to the point (x, y) ≠ (0, 0). The function atan2 ⁡ ( y , x )...

Ander Biguri

hum, I think you can imagine that you have f: R3->R2

Adriaan

@AndrasDeak is this simply a typo because OP uses square brackets instead of double parentheses (())?

Ander Biguri

@Adriaan yes

Adriaan

kk. I already voted as no MCVE, OP wasn't happy about that.

Ah no it's not. the entire syntax of that function is wrong.

It needs parenthesis and commas, not square brackets and colons

If my Python serves me

Ander Biguri

Do you see what I mean @Dev-iL ? If you make a function C1->R2 (simply take C1 and make it Real+Imag) then you can define your function as R3->R2, which then you can ignore complex numbers as a whole (not really necesary, but likely useful to keep better mental track of the problem). Then you have R2->R1 (angle()) so you have f2:R3->R1, which sounds differenciable

particularly if that C1->R2 does always map to the unit circle (or just circle, depedns if you want to normalize, which you can in your case, if you onyl want the angle), you don't need mod()

Dev-iL

10:58 AM

the reason I have mod there is because by default the result of atan2 is in [-π,π] but I need (?) it in [0, 2π]

Ander Biguri

is that +pi?

Dev-iL

What else would it be? :)

Ander Biguri

mod([-π,π],2π) will only give you π as maximum value

Dev-iL

why abs?

Ander Biguri

let me rephrase

if you want that range change you just want to add +π, instead of mod, right?

Dev-iL

11:01 AM

>> mod ( linspace (-pi, pi, 10), 2*pi)
ans =
    3.1416    3.8397    4.5379    5.2360    5.9341    0.3491    1.0472    1.7453    2.4435    3.1416

looks pretty [0, 2π] to me

Ander Biguri

huh it is

Dev-iL

@AnderBiguri Absolutely not, because that changes the angle by 180 degrees

the only way is to add 2pi to negative numbers, then those values end up being >=1*pi

Ander Biguri

11:36 AM

Sorry was in a meeting

my question really here would be: how relevant is really that range?

Can you not ignore that change for now? for the erivative purposes

flawr

@Dev-iL the gradient of atan2 is actually quite simple!

grad atan2 (x, y) = (-y, x) / (x^2 + y^2)

(note that in most languages the y part comes before x, so you'd have to flip these two tuples)

Dev-iL

@flawr yeah, I saw it in the link... I need to see if I can get the same result as in the numeric gradient

flawr

@Dev-iL wouldn't a complex step derivative be nice here :)

Dev-iL

@flawr Isn't that just for improving precision...?

flawr

Yes

but it is one of the coolest things I learned here:)

Dev-iL

11:43 AM

It's just cheating

if MATLAB had ~~quad precision~~ a way to increase the bit depth of numbers, you wouldn't need it

flawr

unlucky me with my quarter precision floats

Dev-iL

quarter is what? 8 bit?

flawr

you could also use pytorch with its autograd if you want to compare numerical results

@Dev-iL yes

how complex is your function?

Ander Biguri

@flawr at least 5 complex

Dev-iL

@flawr not very

flawr

11:47 AM

if it is not too much work I can try to implement it!

Dev-iL

No need, I have it already

but thanks for offering, really!

flawr

@Dev-iL that looks a lot like it's coming form a CAS:)

Dev-iL

(A is A(x,y) ; B is B(y,z) ; so the gradient is [dHdx, dHdy dHdz] )

What's a CAS?
I have no idea where this comes from... This is just the task I got

flawr

computer algebra system

Dev-iL

Ah, sure. That screenshot is from Maple

flawr

12:00 PM

so is your problem solved now?

Dev-iL

Not really... I need to figure out how `[0.000262403258150469; 7969.94929568350
-1991.17530762973]` is related to `[9.40143300600827e-05 + 3.08497891788974e-05i; 986.742856094563 - 3012.78448842457i; -246.215642373340 + 753.350371052036i]`

where the top vector contains numerical derivatives of the real value, and the bottom values are the derivatives of the complex value.. They should be somehow related through atan2 or derivatives thereof

I'll think about this some more....

flawr

and you map the complex to the real by taking the angle?

Dev-iL

yes, when it comes to H, but these are its derivatives

flawr

so you have a function f(x) = complex_to_real( r3_to_c1(x)), and the first vector is gradient of f(x), and the second is the gradient of r3_to_c1

(where the complex_to_real = angle or atan2 or something like that)

is taht correct?

Dev-iL

φ = angle(H(x,y,z)) -> [dφ/dx, dφ/dy, dφ/dz] = f ( [dH/dx, dH/dy, dH/dz] ) -> f = ?

flawr

12:13 PM

so r3_to_c1 = H

Dev-iL

f = d(angle)/dH whatever that means :)

flawr

ok your f and my f don't match

in your case f is indeed dangle/dH (evaluated in H(x,y,z)) which is a matrix (if you consider the complex numbers as two real components)

dphi/d(x,y,z) = dangle/d H * dH/d(x,y,z)

so what you're missing is the dangle/dH

Dev-iL

of so if angle(H) == atan2( imag(H), real(H) )... suppose I want to use the chain rule here, wth is the definition of d( imag(H) )/ dH ??

flawr

that does get messy, I'd recommend just considering the output of H as two real numbers

(the complex derivative of imag(H) and real(H) doesn't exist)

Dev-iL

@flawr yeah, that's probably best

OTOH, splitting this problem into a real and imaginary part early on complicates the equations considerably

Ander Biguri

12:22 PM

ah, but thats ok I think. especially if you are going to number crunch that

Dev-iL

that's atan( imag(H) / real(H) )

Ander Biguri

@flawr +1, this is what I suggested

flawr

(note that "angle" also doesn't have a complex derivative)

Ander Biguri

@Dev-iL my question here was: do you need imag/real, or can you add an extra thing to your fucntion that maps imag/real to the unit circle? i.e., normalize it

Dev-iL

@AnderBiguri the issue is that A and B are some nasty expressions, resulting in something I'd rather avoid (just a sec, will show image)

Ander Biguri

12:23 PM

the angle will be the same

flawr

@AnderBiguri but atan2 automaticaly does that for you, hence the x^2+y^2 in the denominator of the gradient

Dev-iL

@AnderBiguri I am not sure, perhaps only the angle matters

Ander Biguri

@flawr ah yes

flawr

so again you have phi(x,y,z) = angle(H(x,y,z)) where H is a function from R3->R2

Dev-iL

and the derivatives quickly get out of hand:

Ander Biguri

12:27 PM

I'd say that is still quite OK

flawr

well do you want asingle formula without substitutions??? (tha tis gonna be numerically disadventageous)

Ander Biguri

that is why you are using a computer

its bulky, but its all sqrt(2)sqrt(w)*L thing

if almost all those are constants, this is just verbose, but not too long

Dev-iL

There are two competing considerations here: human-readability of the expressions involved vs. computability

Ander Biguri

Do you need the first one?

Dev-iL

just a sec, I'll explain

flawr

12:30 PM

@Dev-iL in both cases I'd avoid explicitly evaluating the compositions

Dev-iL

The code for computing phi using complex variable is shorter but uses more memory than two alternatives I explored with Im/Re separation

(not surprising)

at the end of the day I need the 4-quadrant angle of H and its gradient/jacobian

flawr

latex.codecogs.com/…

Ander Biguri

that doesnt work on my side

flawr

now the problem is, the entries in the right part are d Real(H(x,y,z))/dx etc

this product ends up being 1x3

and d Real(H(x,y,z))/dx cannot be computed using the complex derivative of H(x,y,z)

Dev-iL

right, sorry

so there's nothing I can do with the complex derivatives?

flawr

12:40 PM

yes I think that is the issue

does a complex derivative even make sense in this case?

Dev-iL

12:54 PM

¯\_(ツ)_/¯

flawr

Dev-iL

My intuition is very weak when it comes to complex derivatives

→ 1 message moved to friendly bin

flawr

1:10 PM

@Dev-iL haha same here. I have to say I'm not sure whether it is really not possible to use the complex derivative, but I think that depends on how well behaved A and B are

it has been too long since my functional analysis classes:)

Dev-iL

@flawr same here

flawr

@Dev-iL I guess a little bit longer in your case though:)

Dev-iL

A and B are positive real numbers

I did it in the spring of 2008 😬

flawr

@Dev-iL hm, when was I born??? :D

@Dev-iL yes but I mean how they depend on x,y,z (or in other words whether x |-> A(x,y,z) is analytic or not)

Dev-iL

should I test the cauchy-riemann equations?

flawr

1:20 PM

numerically? :)

Dev-iL

symbolically of course

flawr

I'm not sure, I'd probably have to dive deeper into it than i have time for right now:)

Dev-iL

I want to play around with the complex derivative a bit more to see if I can use it somehow

It's a good exercise I think

flawr

so you'd have to test if dRe(H(x,y,z))/dx = Re(dH(x,y,z)/x), right (where we use the complex derivative in the RHS)?

Dev-iL

That is the conclusion I will have to reach, but how to do it is the question

I suppose Maple can take care of it

flawr

1:24 PM

poor maple

at least first you could test it numerically just to see whether they are close enough

Dev-iL

2:29 PM

I have it on good authority that d/dx and Re() should be swappable. So now, in order to evaluate the dPhi I need to figure out what exactly to put in the derivatives of the tan

to be continued...

now I have 3 equations and 2 unknowns so it's easy to see if the equations work :)

flawr

3:00 PM

y is usually the imaginary value, x the real one

so we had grad atan2 (x, y) = (-y, x) / (x^2 + y^2), therefore you'd want to evaluate atan2(re(...), im(..))

why don't you use quaternions? :P

@AndrasDeak do you know the "right" way to reorder columns in a pandas dataframe?

d'oh

df = df[['new','column','order']]

not googling the wrong things helps a lot

Andras Deak

yup

flawr

3:17 PM

thanks:)

Luis Mendo

6:29 PM

Dark mode \o/

(Now I'm not sure if I'll get used to it...)

Ander Biguri

its weird

but I activated it

Andras Deak

should probably add rlemon's dark chat theme

flawr

7:35 PM

where can you do that

Andras Deak

7:49 PM

@flawr chrome github.com/rlemon/se-chat-dark-theme-plus, firefox addons.mozilla.org/en-US/firefox/addon/so-dark-chat-plus/…

flawr

8:25 PM

@AndrasDeak thx

Andras Deak

caveat: both rlemon and Madara have left SO :(

not sure if and how long they'll maintain those

then again it's not like anything is going to change in chat

Luis Mendo

8:51 PM

@AndrasDeak I like the idea, but why all those coloured thick horizontal lines?

Andras Deak

Do the colours correspond to users? They probably do

Luis Mendo

Yep

And it's an option

I removed it

Still, it's too much contrast for me

Font should be less light

Thanks for the hint anyway!

Similarly for the SO dark mode, I think

Andras Deak

no problem, I haven't been using it myself, I'm also unhappy with how it looks overall. Although partly because SO was light anyway. Now it might be better. I haven't checked yet

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CHATLAB and Talktave