@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.
Hy all, just one question: var data = <?php echo $data; ?>; (before that i use json_encode($data)), where data describe results from DB query.
now i want to populate table via JS from this JSON object, but i dont know how to access to number of columns(elements) in that object, apropos how to get data[i].length or something like that. Please help.
@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.
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?
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.
@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.
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
@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
@Daniel Let's say "If it rains tomorrow, I'll dance" , in what conditions is that true? If it did not rain tomorrow, it's true if I dance and if I didn't. If it does rain tomorrow and I dance it's true It is only false if it does rain tomorrow, and I don't dance
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
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.
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"
- The first → is justifiable from the definition of even numbers - The second → is justifiable because there is only one successor for each natural number - The third → is by definition of division
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.
while searching i found this: DOM MutationObserver Do anyone have ever tried this? here is an article from hack mdn http://hacks.mozilla.org/2012/05/dom-mutationobserver-reacting-to-dom-changes-without-killing-browser-performance/
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.
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 .
@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
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?
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)
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 :)
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.