no UB, it's a nice compromise

you can write mutable code in haskell if you're a genious

@Lalaland Shiiiiny symbols

I made a lot of changes in my input system and it still works

Too many nonalnums

Shocking

@CatPlusPlus There's a bug hidden deep within

@Ell Actual projects.

@набиячлэвэлиь Gaussian integers and the related C++ proposal that wasn't accepted for reasons.

I even got the Y axis orientation right on the first go

or STBlah

@Elyse wow that answer

Follow up to this weekend's Extra Life marathon: we managed to grab about 1200$.

@EtiennedeMartel Kudos!

@Elyse no the code it self changes as you type

@EtiennedeMartel congrats :)

heya

@Mr.kbok Hi cutie ♥

what's up?

@EtiennedeMartel woot

Hi

run off with the money

@Mr.kbok rfold's penis

@AlexM. Kids these days.

because Haskell

Evening

@Morwenn I dunno if I'd bother. Forward iterators are so rare it's hardly worth the bother (and 99% of the time, if you're using them, the best fix is to quit using a linked list to start with).

@JerryCoffin I'll probably bother for the sake of it. Mostly because the other things I have planned for the library are tiresome to implement.

@Lalaland Those are input iterators, right?

@Lalaland Certainly possible, but also pretty unusual, at least in C++.

@OmnipotentEntity when we discussed it here no one liked it.

@Elyse When I was your age, I'd have said the same. In fact, I did say the same (frequently).

@Rapptz, why's that?

@OmnipotentEntity I think we all like never-empty-guarantees.

I like intrusive lists

ughhhh

Having a constant performance penalty for accessing is a stupid compromise.

fuck I can't even dlete it bcos no mose

Cheers, whoever deleted

The mouse works in 1-2 second spurts

@Ell You suck

@Elyse the lists where the links are stored in the data type directly

bcos I no into batteries

I ordered some eneloops on amazon, they were supposed to arrive yesterday but they will arrive tomorrow

Fucking submodules.

Next to implement: 50 shades of SFINAE.

Kill me already.

Also git, fucking git.

what's up with git?

@Rapptz I can understand that,

double buffering isn't that bad, but apparently some people were really against it

@Ell I suck.

@Nooble Dude, I can set up submodules for you

they're useful in C++ to join several elements ad hoc, without introducing extra indirection when working with polymorphic types

When someone asked Herb about "what happened to zero cost abstractions?" he dodged the question

@Elyse yeah something like that

@набиячлэвэлиь No, I will figure this out. JAHLSKJDFHAKSDJ

@Lalaland The current solution has costs with memory but no runtime performance penalty.

@Nooble right

@Nooble what did you do?

Herb's dodge was that "Zero cost abstraction applies to memory and not runtime characteristics" or something.

Which was a bit weird.

@TonyTheLion Suck at git.

I'll see if I can find the quote.

@TonyTheLion He cannot into git

that's v weird

and not true

@Nooble You have a lot to learn, young padawan

> Coroutines: a negative overhead abstraction.

@набиячлэвэлиь How do I set a directory for the submodule to be in?

@набиячлэвэлиь git gud

I have it the other way around never mind.

@Nooble Submodules suck

> As for variant, “zero overhead” means at run time — no extra space consumed, and no extra code executed — compared to writing it (correctly) by hand using a raw union and a discriminant tag.

don't use submodules for dependencies if that's what you're thinking of doing

@TonyTheLion I implemented that!

When I add a path at the end of the command, it makes the entire directory a submodule.

@CatPlusPlus I am aware.

@набиячлэвэлиь I distinctly remember

@Ell Why not?

@Nooble somedir/submod

@Lalaland ..?

This is Herb's quote about the new-variant.

that quote isn't that bad actually

@Nooble or run the command in the dir

It was a reply to Nicol Bolas' question.

> Does this not mean that every function that uses the variant must check its validity? How exactly is that “zero overhead”?

laffo

@набиячлэвэлиь Also git doesn't remember my login credentials anymore.

@Nooble Ыоу неед то сет уп а цредентиал сторе фор тчат

@Elyse Arrays are easier to understand

@Rapptz, seems that you only need to check validity after a copy assignment or move assignment, no?

I agree with @Elyse

@Nooble Never use HTTPS, set up an SSH key

@OmnipotentEntity If you take in a variant as a parameter how do you know if it's valid?

@Rapptz, you don't, but then that's really the caller's responsibility, no?

You hope for the best, because that's zero overhead!!!

@CatPlusPlus Hmm alright.

garbage in, garbage out

You are comparing the two at two very different level of abstractions

Understanding the memory layout of an array is much easier than that of a linked list

Neither you do for an array

@Elyse not true, both can be infinite, just linked lists are 'better' at dynamically growing.

A linked list can be circular though.

Infinite and circular collections is something you can implement with something else

Elyse, you can't directly address an element in a linked list without walking everything. It's the same problem just a different operation.

@Elyse That's true also for linked lists

@Elyse not true, if you skirt around the issue with allocated things, you just need to know that an array starts at an address and is contiguous from there, why can't you just decrement the starting number, and insert the new element there? (I know why you can't really 'just do that')

(what's the original point? It's lost in the mists of time)

I'll take that everyone already knows everything about this discussion but everybody is still arguing for the sake of it.

@Lalaland Not if the invariant of the variant is that there cannot be such an empty state

Maybe if the compromise wasn't so shitty

@Morwenn I don't, but I'll argue any way

I don't know why everyone is satisfied with it.

:<

There are people who talk about trivialities in the English language and people who convey actual ideas in English. In the end, the latter are the only ones that matter, regardless of their efficiency/proficiency in using it. The Lounge spends way too much time being the analogue of the former.

@Rapptz, I'm satisfied with it because it got me out of having to be bored this week in class.

@Rapptz Nobody is. Everyone only realized that this won't go anywhere and we won't ever have std::variant in the standard without the compromise.

@Lalaland like operator[] vs at?

@Nooble You need to set up a credential store for that

@Lalaland Now there's a compromise.

The compromise is that at least nobody won.

@Nooble just got SSL properly set up on one of my hosts ssllabs.com/ssltest/analyze.html?d=stack.press

@Lalaland it's seems reasonable that you could statically know what type you have in your variant, but then in that case, just use a union. the idea of a variant is to give back some type safety that you lose from using a union

@Elyse Understand algorithm complexity requires knowing the memory layout of both

@Elyse you can say the same triviality about any collection

Which is the memory layout of the data structure

Same thing for an array

same for an array

"Dereference next pointer" and "increment index by 1" is on the same level of knowledge

The fact that each element has next to it (or inside it) a pointer to the next is exactly memory layout.

that's why you call it an interface, because it's not tied (directly) to it's impl

Nothing else matters for most things

@Elyse cough vector

@Elyse scala.lang.Vector != scala.lang.Array

Resizability of the array really doesn't matter

@Elyse Not really. What you usually want are the side-effects of contiguous allocation (such as O(1) indexing).

and no, you don't use arrays because want contiguous memory, you use them because you want efficient random access, and that's (generally) best done via contiguous memory.

@Lalaland She capitalized the V, and the language with Vectors is Scala

@Lalaland I thought it was Haskell.

Into the fucking RTF with you

@Elyse No, but it's still the O(1) indexing that you want/care about. Contiguous allocation is only a means to an end (even if it's not the only means to that end).

@Elyse not for random access.

@Lalaland the opposite of the problem

lol

Prepend can be amortised

hell, you could even store a linked list with contiguous memory block if you wanted. And if you are willing for slightly slower add/remove, you can even have in order access

@nick nice job

You know, there's a difference between O(1) and O(log(n)). And it's not pedantry.

@Nooble thanks m8

@nick stack.press?

@Elyse Well, actually some of them are (e.g., the ability to insert a node in the middle of a list in O(1) is due to its layout just about as much as the O(1) indexing is related to the layout of an array).

@Lalaland Write one.

@Nooble i use it for testing stuff right now

@Lalaland well, there would be some moving, opposed to just plonking new nodes in first free slot (or end).

@Elyse Then please don't say it's O(1) when it's really O(log(n))

It's deceiving

@Lalaland Or propose a draft to Boost.Containers and let the community do the rest.

Ok

@Elyse No, least not without a pretty strange and twisted definition of "contiguous" that includes "data will be interleaved with links".

fight me IRL

how are clojure vectors implemented

ITT people arguing for one hour but still not giving a fuck.

@Morwenn I'd give you a fuck :\

@thecoshman You'd give a fuck to my photo, not to me :p

@Morwenn nah, there's better things to wank to :P

So, I have a dumb question: According to the variant specification, when using the type templated assignment operators, the type should be checked if it has a single best type match using "regular overload resolution." Is there any easy way to do this? Or do I need to manually implement these checks? (each of exact match, promotion, conversion; then exact match > promotion > conversion)

@thecoshman like myself

@thecoshman I have to agree.

I just don't want to reinvent the wheel, but I'm not aware of any built-in facilities to make this easier other than the obvious ones like std::decay.

how to use a multithread

@Lalaland I'll save it for later

@GregorMcGregor With a weaver.

what can std::decay do that time can not do at the moment?

@Elyse That's the trick. Make a false statement, then run away before anybody has a chance to prove it wrong. For those looking on, it would be about equally accurate if I were to claim that std::unordered_map<int, T> gave O(1) access. Yes, you can expect complexity to be about constant--but no, that's not the worst case (and I'm sure we all know perfectly well that big-O is defined in terms of worst case, not expected complexity).

@chmod666telkitty, is that a pun or am I just confused?

@OmnipotentEntity Yeah there is, think some_tag<Type> resolve_me(Type); for Type in Types.... Then decltype( resolve_me(std::declval<Arg>()) ) is either a substitution error in case of ambiguity/no match found, or some_tag<Type> where Type is the solution you’re looking for.

@GregorMcGregor use the stack heap to allocate a multithread

@LucDanton, nice, that makes my life a lot easier. Thanks

hey all

long time no C

glad to see the puns havent stopped

@Lalaland Yes, I realize--I was just giving a quick comparison that (I'd assume) is reasonably familiar to everybody here. For realistic sizes, I'm not sure there's a lot of practical difference anyway.

@Prismatic Hey

@Prismatic HI

I am using boost libraries to make a TCP Client plugin for some other software. Anyways my TCP client seems to be blocking the execution of the rest of the program. github.com/l0oky/samplify-plugin/blob/master/…

Why is that?

Why is It blocking the rest of the program If I am using boost::asio::async_read_until and boost::asio::async_write?

For my read/write actors..

a) The supplied buffers are full. That is, the bytes transferred is equal to the sum of the buffer sizes.
b) An error occurred.

While my TCP Client recieve/transmit actors are running fine the rest of the program halts until my TCP client stops..

No errors are occuring..

Only when rx/tx actors stop the program continues..