Bleh, two of my photos got posted on a facebook page with almost 700k followers and they didn't credit me (besides the watermark that's in all my photos) :/
guys, I'm trying to adapt jquery validation script to show a button if all fields are valid
this is what I came up with, but it isn't working:
onfocusout: function (element) {
$(element).valid();
if ($('#theform').valid()) {
$('#.blocked').css('display','none');
$('#.continue').css('display','block');
};
},
I am now going to test a "supposedly" new DDoS attack vector abusing Google spreadsheet's content fetching against StackOverflow and if it works I'll report it to the devs to fix.
Just so you're aware this is nothing to worry about and will be possibly something you'll not notice.
@user3669154 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.
the problem is that when you refresh the page, the hash navigation is still in the URL, but the way I am building it, pages are separate files loaded in at run time. So, when you refresh, it loads the login page, and everything works, but as soon as you click a "back" button that is supposed to go to the page you refreshed on, you go to the login page instead. I need a way around this
@FlorianMargaine Correct. I didn't want to touch on that too much, but generators are a special case of coroutines, used as an abstraction over iteration.
Say you have a function, it always gets invoked by getting an input, then it does some processing, then it is done and it returns, once it returns we are done with it, and we always start it from the same place.
Modern programming languages, like JS and C let us return from our functions in several places, for an obvious example:
function foo(){
if(Math.random() < 0.5) return 3;
return 5; // a second return spot
}
However, no matter how we call foo, it always starts by executing the if
That's impossible with normal JS functions, since once we start a function we must end it, because we can't pause it and resume it again in different places
So coroutines are just functions we can enter at different locations just like we can exit functions at different locations. generators are a special kind of coroutine that we always enter where we last left off, and subroutines (aka functions) are special kind of generators that we only enter and leave once - at the start until a return or it ends.
In JavaScript until ES6, because functions are subroutines, they have to manage state themselves, so in order to continue - you have to use a callback, or another mechanism that manages a callback for you (like a promise)
However, with coroutines, your functions can have state, and can yield control to the event loop themselves. Let's see an example and analyze what happened:
Basically, every time we yield a value, we add a .then handler to the promise, if it fulfills - we call .next progressing the generator, if it rejects we call .throw on a generator which does what you'd expect it to do (throws inside the generator function).
Every time you yield a promise, it will wait for its .then, when you return it returns the value and does .done, I wrote an implementation here iirc once
Good question, basically - like in the previous example: whenever we yield we give control over the function to someone else
In Bluebird's case - that's Bluebird, it is now in charge of running the function.
When it starts - the promise library runs it until the first yield, it only calls .next on it then in a .then handler of the promise yielded (like .delay(1000))
So the coroutine does not progress or keep running until the promise resolves
Yes, that's exactly what it is. A generator is a type of coroutine, and bluebird uses the fact it can yield control in order to wait for the yielded promise it gave control to to resolve.
function async(gen){ "use strict"; // asynchronous generator
gen = gen(); // invoke the generator to get the iterator
// make the following code throw safe
return Promise.resolve().then(function cont(a){
var n = gen.next(a); // yield the next value
if(n.done) return Promise.resolve(n.value); // a `return`
if(!n.value.then) return cont(n.value); // yield plain value
return n.value.catch(gen.throw.bind(gen)).then(cont); // yield the promise
});
};
A generator can be used to represent a sequence, like in the fibonacci example, or to represent concurrency control - which is a sequence in itself like in the Promise.coroutine example.
Using a coroutine for flow control is basically acknowledging that the sequence of numbers in the fibonacci sequence is just like the sequence of actions in program flow control. The two are the same.
Oh, it doesn't have to be a sequence, but then examples can't be in JS
That's because the other use case of coroutines which is fully fledged state machines isn't that popular - most people doing state machines either use languages better suited - or use gotos
Jumping into an arbitrary position in a function isn't too expected or commonly used. It's an interesting idea that people built and dropped. Like lots of things - goto itself, self modifying code etc.
I am making an app with camera filters & webrtc so far i have made GetUserMedia a service, so with the WebGL thingy that does so ? should i break down the logic further and rip off the defined filters as a seperate service ? Plus in directives i have a single directive that handles the whole viewing thing... should be broken down right ?
@TheWobbuffet See, I want to take you seriously, but you make it difficult. So if you don't actually form a coherent sentence and/or complaint which I can address, I'll start replying to everything you post with goat pictures.
Promise.all(['stuff', 'thing'].map(function(name) {
return Promise.coroutine(function*() {
var result = yield http('your' + name + 'url');
console.log('result is available: ' + result);
console.log('name is also available: ' + name);
return result;
});
})).then(function(results) {
// all results available, but you've done your work already
});
@TheWobbuffet that's not the liar's paradox at all. It is possible that he would say that just being aware of going to lie at some point in the future. That's not even the liar's paradox in temporal logic.