This is certainly one of my favourites: stackoverflow.com/questions/184618/…

The race has been stopped. :(

Did someone go splat on the tarmac?

Nah, there's torrential rain.

I've extended my timings fetching script. :)

paste.ubuntu.com/5681788

There are some ugly parts but it does the trick for now.

Oh, you could've improved #24-#31

Yea, that part is particularly ugly.

Also, you're aware you're using resp.json() twice?

items = resp.json()['items']
team = items[98]

Didn't even notice, I was watching the race while doing that, so all I wanted was to get it done real quick.

I should fix that now.

Also, Warframe hates me

@user1477699 Welcome to the JavaScript chat! Please review the room pseudo-rules. Please don't ask if you can ask or if anyone's around; just ask your question, and if anyone's free and interested they'll help.

@Zirak Oh? What's wrong?

Tried reinstalling twice, keeps "Downloading new content"ing me

:/

For 3 hours or so

nethogs says it's not downloading anything

The liar

:(

nethogs lies

@Srle Bananas.

@Zirak What?

Assuming that's an object, and you want to enumerate its keys, look into Object.keys(data)

@SomeKittens ?

@BenjaminGruenbaum There was this set of rules which expanded into the definition of natural numbers

There are several ways to build the natural numbers, one such famous way is the Peano Axioms

Like, "Every natural number n has a following number, noted as n" and "There is a number n for which there is no number m which satisfies m' = n

Yes, Peano Axioms!

Wait...is that?

Yes, those

Man, I hate not knowing the lingo: en.wikipedia.org/wiki/First-order_logic

First order logic is an important term

I'm trying to read through it, but my ignorance of these terms keeps hitting me

(Translate to English, then read gadial.net/2012/06/17/first_order_logic )

@BenjaminGruenbaum I don't think he'll need to do that

@AmaanCheval Read?

@AmaanCheval If you're implying where Zirak is from, I will not partake in that discussion. I believe that it's his right to stay anonymous.

Moreover, I think it's every man's right.

Yeah, for sure

can anyone give a help here?: stackoverflow.com/questions/16637017/…

Zirak is actually Dan Castellaneta!

^

@AmaanCheval When you partake in discussion that is aimed at un-anonymizing users, be it as trivial as it may, especially in a Google indexed chat. I find that offensive. Some people have perfectly valid reasons to not wanting to be found. Every person has the right for a clean slate on the internet, and every person has the right to not associate his personal life with his/her persona on the internet.

Yeah, I realized that after you pointed it out above

I was saying that more as a joke, but that doesn't make it any less intrusive

cool.

If a rabbit's foot was actually lucky, wouldn't it still be attached to the rabbit's leg?

does anyone know if its possible to get a hover transform on <strong> here is a fiddle jsfiddle.net/kNuLQ

@BenjaminGruenbaum How the hell do you, in hand writing, notice the difference between v and ∨ (logical disjunction)?

@Zirak V ( && ) is usually much bigger. Also, in logic "v" is rarely a variable

@Zirak They don't look alike.

The angle is wider than on the letter v

I so want to do a Pepsi test on you, but that means you win

you can turn your browser into a file server with sharefest... for example I share sharefest.me/webstorm

it's my open source proj, and we need more ppl in :)

@Zirak You can usually tell by context. You get used to it

@whadar Please don't come here posting spam. Flagged.

:/ it's not spam. it's a js project

Disregarding the fact you're sharing warez here. You just hopped in, dropped a URL advertising your project, and left. That's span in my book.

it's not warez either

It's trying to download a WebStorm 6.0 100 mb exe file.

and I thought this chat is for discussing any topic related to js

I may already have the answer, but: If you use "→" in logic, what room does "⇒" get? A ⇒ B seems identical in meaning to A → B, "if A then B". So is it just a question of what field you're in?

Nope, the two are completely different :)

this WebStorm exe is the free trial they, not something you can download anyway

While → is just arrow. It has meaning in the logic you define and work on . ⇒ which means "implies" is in the logic you work on.

When you define stuff like first order logic, even without saying this, you're using your own logic in order to prove stuff in that logic.

anyway, thanks for helping out

2 < 3 ⇒ 2+1 < 3+1 means "I imply that because of 2<3 then 2+1<3+1"

2 < 3 → 2+1 < 3+1 means "A tautology in my first order logic, that is, something that is always true"

So ⇒ is "implies", but → is "means"

The difference is in the scope we observe them really.

→ is in the current scope of discussion, ⇒ is always?

Then they can sometimes be used interchangeably, as in your example

When we describe our first order logic (or any other form of logic), even without being aware we have to use our own form of logic we know. ⇒ is part of that logic, the "meta" logic we use to describe the logical systems we build.

huh, ok

→ is just a symbol we define as having the following truth table in the logic we define:

That is, X → Y is only false if X is true and Y is false. Which makes sense.

That is some wacky truth table

It makes sense in context

Yep, → is one of the hardest things to understand correctly, but once you understand it it makes perfect sense.

(That's not first order logic, because ∃ (there exists) and ∈ (belongs to a set) are not a part of first order logic)

hey I can understand that. I'm not such a failure! woop!

ℕ is the set of natural numbers, for the example let's say it starts at 1 but it doesn't matter

The question was "what is the value of that expression"

...true?

Yes, and why is that?

@BenjaminGruenbaum I thought that was 'implies'.

Because there's an x > 1 in N for which x < x + 2

Whoops

∃x ∈ ℕ x>1 → x > x+2

What about now?

...false?

I'm walking straight into a trap

@FizzyTea Yes, but when we construct a logical system ourselves we want to distinct our meta logic from the logic we define?

@Zirak To be fair, I was the only one in the class to say true :)

Let's look at the statement carefully, what does it say?

Gimme another min

Out loud, it reads "There exists a natural number x such that: if x>1 then x > x+2"

Yes, that was my interpretation

Does there exist such a number, that if x is bigger than one then x > x+2?

facepalm

Let's look at the truth table again:

Yeah, I got my blindspot

Oh god, a discussion that's interesting. I can't believe it! :D

You figured it out pretty quickly :) It takes people almost an hour most of the time when they see it for the first time.

If the right expression doesn't hold, the left expression still holds

@Daniel Welcome to the JavaScript chat! Please review the room pseudo-rules. Please don't ask if you can ask or if anyone's around; just ask your question, and if anyone's free and interested they'll help.

For x=1, it holds because x is not bigger than 1 so that condition evaluates to true

When you think about it, all mathematical proof works exactly that way.

This is fun

Let's say we want to prove x>5 for all x > 6

That's the statement x > 6 → x > 5

It has to evaluate to true for x = 2, otherwise we didn't prove anything really.

eh?

@OctavianDamiean Let's say you take some arbitary x, you agree that x > 6 → x > 5 , right?

That holds for all x (x is a natural number)

i'm looking to detect over time whenever an iframe has been injected in a page and to record the src when it happen. i'm using jquery lib. any direction would be appreciated

Well, yea.

Even for x=2, that's still a logical statement, and it's still true

Since, for x=2 x is not bigger than 5, but that's not how implies work.

Well it's true that both would evaluate to false.

(F → F) = T

Implies only promises us that if the left side is true then the right side must also be true.

That's brilliant

Yea, got it.

That is brilliant, and it's the basic construct for mathematical proof

I read it wrong initially ...

Every mathematical proof is just a chain of → operators.

Can somebody explain why (F → F) = T?

Maybe I'm a nub but I don't get it.

@Daniel It takes second year math students quite some time too, don't worry about it :)

The → operator means implies. It means that if the left side is true then the right side must also be true.

If the left side is true, we know nothing about the right side

Ooh, this is interesting. I learned the basics in a course about Logic on Coursera

class.coursera.org/intrologic/lecture/index

Yea same here.

Might be of use even now

So basically ( rain → dance) is true if it does not rain (so rain is false) and I do not dance (dance is false) so (F→F)=T

Mathematically, → is just defined as an operator usually because it's so useful, but one can construct it from other logical operators.

//Another example, coding
var x="Hi";
if(x==="Boo"){
   alert("Yeah");
}

That code does not alert "Yeah", but it is correct code (that is correct JavaScript), this is another example of (F→F)=T (where T is the correctness of the code)

Someone name some basic mathematical proof they know

Something that is high school level

I can only think of geometric proofs and algebraic expansions

Induction?

Induction is an Axiom :)

I think that theory sucks.

When you say that 1 is a natural number, and that for every number n there exists a successor which you define as n+1. That's induction.

When you prove something by induction, you show that if the above statement holds it must also hold. You accept the above as a definition of natural numbers.

@Daniel → can be thought of as causation.

Maybe prove the square root of 2 is irrational, that is, can not be represented as p/q where p and q are integers?

heh, just noticed that chrome shows not only its own memory usage in chrome://memory but also that of any other browsers. that's totally not showing off :P

Maybe something more basic. Let's prove that if n is even, than n+1 is odd

So, the basic argument is this, "n is even, so there exists some k such that n=2k, so we know that n+1=2k+1, which we know is odd since 2k+1 is an number that is dividable by two plus a remainder of one"

meep meep

n is even → ∃k ∈ ℕ n=2k → n+1=2k+1 → n+1 is odd as a statement, holds even if n is not even for example.

I had a tiny orgasm just now as I realized that = is a binary operator. How didn't I see that before?

I blame years of schooling

= is very special

It is a binary operator, but it also has special meaning. Equality defines what an object is. There is only one number one. There is only one number 1000, and there is only one empty set.

We can also discuss equivalence, and the notion of a relation.

yeah, of course, but still...my brain always divided equations according to the =, when I just realized how weird that is

Logical, but weird.

There are two ways to look at logic, the first (and weaker) way is called "predicate logic" in which we evaluate things as binary statements, the second (and harder one) is called "relational logic"

If you think about it, the logic in JavaScript and the logic we're used to in math are two different logical systems.

Let's look at the number system in JavaScript, but assume infinite precision (so no floating point errors) for the sport

Let's call the set of all numbers in JavaScript "A"

What do we even know about it, I mean, how does = act on elements in "A"?

Does it hold that (∀ means 'for all'): ∀a∈ A a=a ?

@Happyninja Read the .src property, it's immutable. Even if the iframe navigates you'd still get the same .src .

I'm inclined to say yes, that equality is reflexive(?)

(Reflexive is the correct term for that, it's a term about the above mentioned relations btw)

Can you think of a number in JavaScript that is not equal to itself?

We always have our favourite NaN, but in this sport I imagine we don't include it.

Why not?

ok, then NaN it is

@BenjaminGruenbaum the part i was looking to track is the iframe element itself. Like react to any iframe injection over time (e.g there is no iframe when the page load) and once i "catch" an iframe injection i can get the src from there. Thing is I don't have any event to attach it too and i know nothing but the fact it is an iframe

NaN is a perfectly valid number. Unlike the set of numbers we're used to from school, I think NaN is perfectly valid in our logic system of JavaScript.

NaN is indeed very strange, that doesn't make the logic any less sound

For example, we couldn't define division by zero in school math, but that is not a problem we have here at all

Gah ... the weather pisses me off.

We can easily define 0/0 to be the only value that is not equal to itself for example.

Why is = a binary operator?

@FlorianMargaine = as equality, not assignment

So we can say that ∀(a∈ A, a != NaN) a=a is T

How is it a binary operator?

@FlorianMargaine Equality is either true, or false between two elements in the set

It accepts two arguments

A = B

Yeah

Oh, in that sense.

Yeah. I was very confused at first

@BenjaminGruenbaum That's not why it is a binary operator though, what Zirak said.

@OctavianDamiean Yeah, I pressed enter early

@BenjaminGruenbaum did you do a math degree?

Is equality transitive? That is, is "∀a,b,c∈A a=b ∧ b=c → a=c" a tautology (that is, always true)

@FlorianMargaine Yeah

To be honest, I'm still finishing it up, I'm doing it slowly because I'm enjoying it more that way :)

Gah, I wish they'd teach math in English here in Austria.

It's so tough for me participate in such discussions.

For me too :)

Takes ages to find the right expressions.

Because key terms may be lost in translation?

For numbers without aforementioned corner-case (which "screws up" equality), yes. With NaN it's not always true

Any Mac users here? I'm thinking about installing a Linux on my side-laptop in the hopes of coming closer to the "Mac web development experience" (console, compatible tools, etc.). Is there something to it?

@Zirak Yep, we can also easily define an order on the set A that is an operator > between two elements.

Did we actually define A?

Oh yea, never mind.

@OctavianDamiean Not well, no, A is all the numbers in JavaScript assuming infinite precision for this exercise

Just found it, yea.

Knowing NaN + number = NaN, can you prove that always NaN > NaN so it can not be ordered well?

I mean, we can't really define < for NaN, it breaks assuming the most basic assumptions about an order.

I have to read the transcript, wasn't following.

Is NaN > 2 ? Try to prove one way or another.

One of the things we assume is that we're in a field (that is, + and * are defined in A, every number has an additive and multiplicative inverse , and the result of these operators is also in A)

So we know that a > b -> a+x > b+x for any x,a,b

As I see it, a > b → a = k + b. So, NaN > 4 → NaN = 4 + k, which we know to not be true

That seems like a valid proof :)

Same goes for <, only with subtraction

Nice!

This is fun

Cool, cool cool cool.

We can say that >= is an anti symmetric relation, that is a<=b and a>=b if and only if a=b

if and only if is also an important operator

Also...I want to show-off/validate, defining "not" via "nand": ¬A = (A ∨ T) ↑ (A ∨ F)

Let's define if and only if as iff for brevity. (@AmaanCheval might know this)

It seems correct, but...well...is it?

@Zirak I'm not sure I'm allowing T or F, make them with NAND :P

can you think of a case where (A ∨ T) is false?

...that's a very good point

I just did the not transparently

Shit

Can you think of a case where it doesn't hold that (A ∨ F) = A ?

I'll get there

There's actually an interesting (and much less theoretic and more coding/practical) course here called "From NAND to tetris", the name pretty much tells it all, you start with only NAND

That's a pretty fun game though, assuming the ↑ operator, construct the ¬ operator and the ∧ operator and the ∨ operator :)

Wait, what's the ↑ operator?

How didn't I see that?

¬A = T ↑ A

@OctavianDamiean Opposite of AND

↑ is the actual NAND operator?

@Zirak You don't get T either :)

@BenjaminGruenbaum but...how...grrr

Cool.

I wonder why the didn't teach us the goddamn operator ...

Oh, I think I know this

@Zirak There is really only one thing to do, with your one operator

...yeah, I got there

That's freaky

Well, spill it out

I mean it's not like I didn't have to deal with NAND all day long at School ...

That can't be true

!A = A NAND A, right?

Right

¬A = A ↑ A

yeah...

That's so weird

Next one is ∧

You have only what you already built.

That's easy enough

We already have the opposite operator, so...

Yeah. Onto or

so what?

So you NAND them and then NOT them

A ∧ B = ¬ (A ↑ B)

Correct

Now ∨

Can I have T and F?

I like them

Hahaha

Only if you can make them yourself from what you already have

@Zirak You mean the table?

The actual values True and False

No, he means to use in making OR using only NAND

Ooh, got an idea

After you build ∨ build True and False, but built ∨ first. Hint, read only if you want hint, there is a very known 'law' which is often used to change the structure of if statements that can be applied here.

I wish I wasn't on mobile, though -.-