Lounge<C++>

Best women's pants are in your left ear.

Anyhoops. Let's stop failing to go to bed

user142019

@sehe I don't think it looks retarded.

You don't troll me :/

user142019

10:21 PM

@sehe TIL: you've been a conductor in the past.

user142019

(I'm trolling you now.)

@rightfold I still am.

user142019

Cool.

Can I get a sanity check on my answer?

@BenVoigt Sure. Latest?

A: Object slicing, vector element out of scope

10:27 PM

0

I like the approach used by AngelCastillo a whole lot, but there's just one thing wrong with it. std::unique_ptr<CBaseEvent>(new CDerivedEvent(blah)) will result in deleting an object of type CDerivedEvent via pointer of type CBaseEvent*. Since CBaseEvent doesn't have a virtual destructor (it i...

Does std::unique_ptr propagate deleters during upcast, or is that only a feature of shared_ptr?

Or is it smart enough to make a deleter based on the actual type of the pointer argument?

unique_ptr doesn't decide its deleter, you do.

@DeadMG: Assuming the second template argument is defaulted, what happens during upcast?

upcast is irrelevant.

the template argument is set.

and cannot be altered

When you upcast unique_ptr<Derived> to unique_ptr<Base> (moving of course) how is deletion done when the unique_ptr<Base> goes out of scope?

If I hit repcap, get an upvote and delete an old answer with 1 upvote. Do they cancel out?

10:31 PM

@Borgleader No.

via delete (Base*)p or (saved deleter) delete (Derived*)p

@DeadMG Technically there's a default deleter.

user142019

And you decide whether it uses that or not. :v

@BenVoigt By the deleter specified as the template argument to unique_ptr<Base>.

@Borgleader Only if you received the upvote today on the deleter answer

10:32 PM

@rightfold Yep.

what is it that you don't understand?

the deleter is set by template argument when the type is specified.

nothing can change this at run-time.

not upcasting or any shit like that.

std::unique_ptr<Base> p = make_unique<Derived>();

@Rapptz True, but not specifying one is implicitly a decision for std::default_deleter<T>.

p goes out of scope

@BenVoigt std::unique_ptr<Base> - deleter already decided.

10:33 PM

@DeadMG there is a default, though

the rest of the line is irrelevant.

@sehe Yes, I know that.

the object is correctly deleted, or only if virtual destructor, or boom! ?

@BenVoigt Oh, thanks

Cygwinnian

Hey hey hey

user142019

virtual dtor

10:33 PM

how the fuck would unique_ptr correctly delete it if it didn't have a virtual dtor?

"Sorry, I know you gave me this template argument as the deleter, but LOLOLOLOL I'MMA JUST USE THIS COMPLETELY RANDOM OTHER DELETER"?

@DeadMG: shared_ptr does... by saving a deleter

unique_ptr's deleter is set by template.

Only shared_ptr saves in runtime which deleter to choose. unique_ptr has it as an template parameter, so it can't be at runtime

set. in stone.

2 mins ago, by DeadMG

the deleter is set by template argument when the type is specified.

That's why I came to ask

10:35 PM

the deleter type cannot be altered or changed because it's a template parameter.

Upcast doesn't remember the original type of the object, it applies the new deleter from the new type.

user142019

You can't magically assign a foo<D> to a foo<B>. C++ doesn't work that way.

@rightfold Well, unless there's appropriate conversions :)

user142019

That's not magical. :v

@DeadMG Depending on your definition of "changed"

10:36 PM

@rightfold Then why did you mention it?

user142019

see the cuntext

user142019

in the meantime, I'll see my bed

user142019

Später.

@rightfold: std::unique_ptr provides conversions

user142019

It's about the deleter, you silly.

10:39 PM

Yes, but could there be an object of type default_delete<Base> that has internally a pointer to a function that calls delete (Derived*)p? Yes there could be. Is there? I don't think the Standard requires it.

@rightfold Well, next time, kindly specify that bit of context yourself :/ Obviously, the context made it look like you were saying chat.stackoverflow.com/transcript/message/10594198#10594198 was bogus

@BenVoigt Actually, that's not permitted.

@DeadMG: I think it won't happen because the deleter isn't copied, it's value initialized in the new object?

@BenVoigt Er, no, it's plain not permitted.

the effect of default_delete<T>()(p); must be delete p;.

I would not be surprised to find some requirement about default_delete<T> being empty as well.

I think that's what is meant, but the Standard doesn't say delete p;. It says "calls delete on ptr", whatever that means.

delete is an operator, you can't "call" it.

10:41 PM

basically the same thing.

@DeadMG §20.7.1.1.2 default_delete, ad 3 /cc @BenVoigt

You can't call the call operator eh? ;)

@Ell: No, you apply the function call operator, which calls the function.

@Ell but you can call it that :)

it's much simpler to consider operators as functions and discuss calling them as such.

there's no need for an arbitrary "You must APPLY operators but CALL functions" thing.

10:43 PM

that works well for overloaded operators, where there is a function. But the delete operator has a lot of magic in addition to the function call.

> ³ Effects: calls bullshit on logic

@BenVoigt Well... not really.

Anyway, who says delete (Derived*)ptr; isn't a valid implementation of "calls delete on ptr"

Bartek Banachewicz

oh hi Ben.

@BenVoigt Consider what happens if I have overloaded operator new and delete for Base and Derived.

10:44 PM

Hi Bartek

@BenVoigt Because it wouldn't be calling delete on ptr. It would be calling delete on some temporary that would have been the static/reinterpret cast of ptr

@BenVoigt The only reason new and delete are language magic instead of functions is because we didn't have variadics for new.

there's no core reason at all why they should be language magic anymore.

DeadMG, can you bin my message here chat.stackoverflow.com/transcript/message/10594266#10594266 ?

@DeadMG, there's a lot of magic going on besides the call to custom Base::operator delete()

@BenVoigt There's no magic at all.

there's no concept in new T(args); that could not be expressed as a library call in C++11.

and equally so for delete p;.

10:45 PM

→ 1 message moved to bin

Of course there is, something calls the destructor, and it isn't the deallocation function (which goes by the name operator delete)

@milleniumbug No he can't

How would you implement new without magic? o.O

@BenVoigt And I could just do p->~T(); to call the destructor without any magic.

having an extra hidden function call is magic

10:46 PM

well... not really.

since if you consider delete p; as some_func(p);, then there's no reason at all why some_func's implementation cannot call p->~T();.

delete ptr; calls ptr->~T() and T::operator delete(dynamic_cast<void*>(ptr))

without requiring any special magic.

user142019

I want to write something in Go.

Go write something

some_func doesn't even know what T is in p->~T()

10:47 PM

...

user142019

go rightfold.WriteSomething()

@sehe Thank you

@BenVoigt Great, so I can entirely cut delete p; with template<typename T> my_nonmagical_delete(T* p) { p->~T(); T::operator delete(dynamic_cast<void*>(p)); }.

go go gadget write something in go

I think there's even more magic, but that should be close.

for one thing, finding non-member operator delete

10:49 PM

arguably, that's just ADL.

Isn't there the global operator delete that somehow might apply, depending on lookup (I don't recall the specifics sadly). Perhaps this is more related to new, though

@BenVoigt Ah you're going the same way.

yeah, I think that new and delete have some pretty funky lookup rules.

Which ADL can't quite get you to.

user142019

@Ell Tududududu, Inspector Gadget!

Hence I say there's magic there, not just a plain call.

10:50 PM

@BenVoigt You know, I wouldn't be so sure about that.

you can SFINAE on whether or not a class has a member, you know.

Are we still on topic? I think the real question is whether it is legal for std::default_delete to be specialized for UDTs... Which would surprise me

if it does, call that, else, call global operator new.

@sehe No, the real question is about whether or not it magically saves you from being a complete moron.

@sehe: the real question was whether it's legal for std::default_delete to store some runtime information about the true runtime type of the pointer, the same way shared_ptr does.

@DeadMG Not without virtual .dtors, I should expect

@BenVoigt There is a very big difference between "It would be legal to" and "You can actually depend on this in a real C++ program".

whether or not it's legal is ultimately irrelevant since no implementation would want to eat the performance cost of the extra indirection, and you can't depend on that behaviour anyway

10:53 PM

I think I said you couldn't rely on it chat.stackoverflow.com/transcript/message/10594259#10594259

Well I learned something about why in practice you might want to pay for the extra overhead of shared_ptr.

what, because you were too dumb to add a virtual destructor?

Besides not being able to manage owning pointers, I mean

Have you never made a pointer to a class you didn't write?

@BenVoigt have you derived from a class you didn't write and had no virtual destructor <whistle/> :)

I would consider inheriting from a class without a virtual destructor to be program suicide, whoever wrote that other class.

Who said I wrote the derived class?

user142019

10:55 PM

@sehe boost::non_copyable

besides

@BenVoigt Well, then the discussion has nothing to with unique_ptr :0

@rightfold not intended to be used polymorphically

If I want to have a pointer to a class hierarchy someone else wrote...

Close it, close it now

user142019

Subtype polymorphism sucks.

10:56 PM

then contact the maintainer and tell him to fucking fix his shit.

alternatively

anyway, can you check whether my answer is now right?

you could use something like std::unique_ptr<T, std::function<void(T*)>>.

A: Object slicing, vector element out of scope

1

I like the std::vector<std::unique_ptr<CBaseEvent> > vec; approach used by AngelCastillo a whole lot, but there's just one thing wrong with it. std::unique_ptr<CBaseEvent>(new CDerivedEvent(blah)) will result in deleting an object of type CDerivedEvent via pointer of type CBaseEvent*. Since ...

@BenVoigt You can, but you couldn't reliably have them polymorphically even without using unique_ptr, really. Arguably there's not much of a difference.

you'll get better efficiency and move-only semantics instead of using shared_ptr.

10:57 PM

@Borgleader Don't panic

Did you mean move-only semantics from NOT using shared_ptr?

@BenVoigt "than from"

yes

@sehe I have MacFright

@Borgleader ©®etc.

10:58 PM

what rep do you need to vote to close?

Is it worth having a make_unique-type function that returns std::unique_ptr<T, std::function<void(T*)>> then?

@Ell 3k

@Ell: None, you just come point it out here in chat, and we pile on with votes

well, since you only need it if you are fucking dumb or using the code from someone who is exceptionally fucking dumb

then I would say no, it's not a general-situation thing.,

@BenVoigt If you're dealing with naughty kids, yes

10:59 PM

brb, nature calls

I don't think std::unique_ptr<T, std::function<void(T*)>> solves it, because it's not properly variant. You'd need to capture ptr inside the functor and have just std::unique_ptr<T, std::function<void()>>

nope.

which is starting to get wasteful

@DeadMG Is that agreement that the variance is wrong, or?

sorry man, I'm playing SC2

discuss later

have fun

@Ell did you sort out your problems with patch?

11:07 PM

@refp unfortunately I didn't :/

I patched it manually, but the source wouldn't compile anyway

But thanks for the help nevertheless :)

@Ell alright

lmao. This is such a silly work around. T_T

what?

@Ell and; no worries :-)

@Ell coliru.stacked-crooked.com/…

Pawnguy7

11:14 PM

You know how Java doesn't let you return uninitialized variables?

It makes sense though but I think it's silly.

should one write a question/answer about why an implementation of std::optional would use something as union {char dummy; T optional_value;}?

I'm bored, that's why I'm thinking of just.. doing something

@Rapptz hmm. I don't see the workaround o.O

It looks perfectly sensical to me. But I'm n00b

The commented portion doesn't work but it does if I make it a template

It makes sense, I just think it's a little silly. I don't mind it though.

@Rapptz because templates aren't made complete until the first point of usage

11:18 PM

I thought it was because you can't construct a Fuck from an int at the point of definition of make_fucks

@Ell Yeah that's why. Like I said, makes perfect sense.

@refp Yeah, I know.

Ahh right cool

then.. what's the question?

or maybe there isn't any..

@refp he didn't ask one

No question mark in the past convo :P

I'm still kinda hung over, I'll blame that

11:20 PM

There were none. I was just commentating.

but about the union {char dummy; T optional_value;} in a std::optional that can be used in constexpr, is it an interesting question for people or is it something one will figure out on their own?

Magtheridon96

Does that work for references? :o

I mean, std::optional is quite useful for allowing some sort of "null" reference to be returned via boost::none (No pointers or Dummy objects /o/)

Monad Newb

Hello, World!

user142019

template<typename T>
using optional = variant<none, T>;

user142019

:D

Magtheridon96

11:29 PM

Segmentation fault: 11

@rightfold lol, nice

Is that the actual implementation, or is that yours?

user142019

data Maybe a = Just a | Nothing

I don't see the point of Maybe

oO

std::optional is kinda like a fancy zero or one element container, one could easily just use a std::vector and achive the same thing really. honestly I don't see what the hype is about

No

11:36 PM

No?

An optional's storage is internal

Also, semantics

There's good reasons for having Maybe / optional

@Xeo sure if we wanna get down and dirty with the internal implementation and such; of course they differ

@Xeo I think Maybe is different to optional

It's not

Oh.

Then I do see the point of maybe xD

11:38 PM

Maybe is optional

What did you think it was?

7 mins ago, by rightfold

data Maybe a = Just a | Nothing

It's either "Just something" or "Nothing"

Types are all about semantics.

the biggest difference when comparing Maybe and std::optional would be that haskell has a "value" for representing nothing, in c++ there's no such thing

@Magtheridon96 The boost::optional guys considered implementing it as variant<none, T> at one point, IIRC

@Xeo I don't know, some monad functional thing I don't really understand :P

@refp Eh

You can just make your own value

11:39 PM

^

Like std::nullopt

... of course

@Ell Maybe is a monad.

@Xeo I was just trying to be "funny"

@refp Also, Maybe's Nothing constructor is also nothing special, or specially handled by the language

11:40 PM

@Xeo well it would help if I knew what a monad was I guess

inb4 "a monad is a monoid in the category of endofunctors..."

A wrapper with some special operations that carry a context along

The context of Maybe is that it can be empty

Right

The context of [a] (list) is that it represents many possible results

And the context of io monads is, the io state before the function?

The context of the IO monad is the "world"

11:42 PM

right

Etienne de Martel

Left.

Hi all

I wonder is there a way to make sure that a template class implements a method like Java?

Yes there is

Etienne de Martel

@Chan Read this. Then tell us what your real problem is.

I saw couple questions at SO to check if a function exits

11:44 PM

will std::optional be made to handle references? the (sample) implementations I've seen doesn't, though I haven't even looked at boost::optional

alright, boost::optional covers it

@EtiennedeMartel: Thanks

Mysticial

@user21973: are you asking "Why is pausing the whole program causing my program to run slower"? Just think about that for a second... — Mooing Duck 2 hours ago

Bartek Banachewicz

@Chan it's usually not the way to go

@Bartek: ?

I think I found the solution to my problem

Bartek Banachewicz

you rarely should check for a one function being implemented.

instead check if the type fits the particular expression