@sehe Maybe you know. What's the point of polymorphic[_{relaxed, strict}]_get for variant?

I rant woof

Is that just some old naming retained for compatibility?

@Xeo nah. They're pretty new, right. I just read about that in a glance recently

The docs don't tell me anything :/

They seem like they're just another name for get

Trying to remember my understanding doesn't really work.

> boost::polymorphic_strict_get — Retrieves a value of a specified type from a given variant.

> boost::strict_get — Retrieves a value of a specified type from a given variant.

:D

Great docs, lol.

I have no clue what the difference is supposed to be, if there's any

also, lol the relaxed versions

why the fuck do those even exist.

@Xeo I suppose the strict versions get only if the type exactly match, polymorphic could e.g. get a MoreDerived& when you ask for Base&, and maybe if you ask for a Base& and the variant contains value elements Derived1, Derived2 it'll work?

did you build as x64

@sehe Oh yeah, now that you mention that. Maybe.

I guess I remember reading something like that?

Fuck those docs, though.

@Puppy I'm not quite sure, I also suspect this may be the issue.

> Recomendation: Use polymorphic_get in new code without defining BOOST_VARIANT_USE_RELAXED_GET_BY_DEFAULT. In that way polymorphic_get provides more compile time checks and it's behavior is closer to std::get from C++ Standard Library. boost.org/doc/libs/1_58_0/doc/html/boost/polymorphic_get.html

@milleniumbug LLVM's build system is a bit dodgy when it comes to building as x64 and I don't know if I ever got around to accounting for all of the kinks.

Anyhoops. I reckon it's not really required interface. (In git terms, the plumbing?)

I know that for ... some reason ... I pretty much never even attempt to build Wide as x64 on Windows.

@sehe It's part of the public interface anyways :/

template<class T>
boost::optional<T&> optional_pointer(T* pointer)
{
    if (pointer != nullptr)
        return *pointer;
    return boost::none;
}

better names welcome

I wish I could tell godbolt to stop autocompiling... so annoying

@Xeo make_optional_ref?

@Xeo pointer_maybe_not

I think that the output they use does not account for all the settings you can use in the build, so you can't have LLVM built for several targets on Windows, or something like that.

@Xeo optional_pointer sounds like a pointer that's optional, optional_from_pointer is more clear.

Wow. "Politisches Kartenbild" lel

I don't like the _pointer part because it does not construct a pointer

@milleniumbug but so long! :P

it's not misleading

I also had simply to_optional in mind.

I don't see why you'd want boost::optional<T&> . T* serves that role well.

that does not communicate the pointer -> reference transformation though

@Xeo as_optional (to_optional implies a conversion)

@sehe hm, good point.

I like my as_ functions. (as_lvalue, as_const, etc)

ass_optional

@StackedCrooked nor me

Yeah, ass is an optional requirement for me

as_optional suggests you're just boxing the thing inside an optional object

Instead of naming functions x_to_y, I do y_from_x

I guess T* is also (mis)used as many other things though

there's a transformation going on here

@Xeo I sometimes use that prefix as well.

@Xeo not for me

@StackedCrooked Semantic intentions

Ok. I'll stop asking then :)

@AndyProwl which is what you do. The pointer->ref thing is a convention already in place

template<class T, class... Ts>
boost::optional<T&> get_optional(boost::variant<Ts...>& variant)
{
    return as_optional(boost::get<T>(&variant));
}

also, that ^

@StackedCrooked T* is "interacting with legacy code" or "interacting with C API" for me.

@Xeo Better

@milleniumbug It's just "non-owning pointer" for me.

or "nullable reference", if you will.

@FilipRoséen-refp uh -- then, I'm not sure why it compiled?

@Ven what did compile?

@Ven I think you constructed your testcase backwards

@FilipRoséen-refp the example

oh

@Ven remove the template that takes a T const&, and it fails to compile (since you cannot construct a T* from an int) - that is what that particular sentence is saying

oooh. I probably did then, thanks for the precision :).

Great read as expected.

@Ven no worries

@Ven and thanks

@sehe And the naming is consistent with ptree::get_optional :D

@sehe I'm not sure what "convention already in place" means. It's a non-trivial transformation, as_ functions should not do that IMO

@Xeo That's never a good sign

@AndyProwl It's very trivial, I find.

My interfaces return T* to indicate they can be null. Otherwise they would return T&. Codebase improved soo much once we started applying this rule consistently.

@AndyProwl It's a convention in place in Boost Optional (and I believe in std::optional proposals).

@sehe Oh

well, in that case I understand why one would want it, but I still don't think it's correct

boost::optional<T&> might be seen as simply another view of T*

So as_optional just changes the viewpoint

@AndyProwl I agree it's slightly odd. But it's not very dissimilar from dynamic_cast<T*> vs dynamic_cast<T&>

nvm i think its the same

@Prismatic They're not equivalent- in the second one you inserted more members into the vector. If you make them actually equivalent then the assembly output looks the same to me.

There's also get_pointer(opt). get_optional is for subobject access, though, I feel.

Does it really need to return boost::optional<T&> or can it be another type as long as the behavior is the same?

@Xeo Yes that's true, but I feel it's on a different level than as_const or as_rvalue aka std::move

@StackedCrooked I just want it to return boost::optional.

@sehe then how would you call the operation that given a T, creates an optional<T>? I feel that should be as_optional

so the optional is non-negotiable?

@AndyProwl make_optional (really, it should be return or pure :D)

@StackedCrooked Yeah, pretty much. :P

I just like optional<T&> more to show the intention.

@Xeo make_optional would then create an optional from T, while as_optional would create an optional<T&> from a T*. This is not very intuitive

@Xeo that

@Xeo oh, I definitely concur on return and pure

@AndyProwl Nothing here is. References and pointers are historically abused too much. I feel

@AndyProwl that

ok I agree on make_optional as a C++-ish name for pure, but I still don't like as_optional for T* -> optional<T&>. OTOH if it's a Boost/TS convention, I'll go dislike it in a corner :)

Dunno about a convention

as_ functions, for me, changes the view on something. And I consider optional-ref as another view of pointers, so that. Not that I'm completely happy with the name, to be fair.

But optional_from_pointer is so long. :<

Uh

@Xeo Boost does have optional<T> boost::get<T>(variant*) AFAIR

make_optional doesn't turn T* to T&.

the std::optional anyway

@Rapptz we were not claiming that

@sehe It does?

> AFAIR

@AndyProwl not sure what you guys are talking about then

what convention in place?

I don't see anything that turns T* to optional<T&>

or vice versa

@Xeo Am I mixing things up now that we have seen so many alternative forms... :(

@sehe Because that's the thing I want, and I couldn't find it

all get{stuff} variants for variant return U& or U* :<

@Xeo Yeah. Lemme look again. No definitely mixing stuff up. Prolly meant Tn* boost::get<Tn>(variant<T1,T2,... Tn>*)

@Rapptz The question was how to name a function that takes a T* and turns it into an optional<T&>, with none being returned if the pointer is null. Xeo suggested as_optional, which I disliked. To explain why, I suggested as_optional should just take a T and wrap it in an optional<T> (basically the equivalent of monadic return), but then Xeo claimed make_optional is a better name for that, and I agreed with that

@Rapptz not with that attitude

I still like make_optional_ref

why would you turn T* to optional<T&> though

or no wait, as_optional_ref

@rightfold a shared pair of electrons? :v

@AndyProwl oh, that's not too bad

@Rapptz hi

hi

Nice of you to drop by

@Rapptz Because I want an optional, but boost::get<T>(&variant) only gives me a pointer.

@rightfold :)

@Xeo I agree the make_ in my original suggestion was inappropriate, based on what you wrote further on

I could live with as_optional_ref

@Xeo I see.

I like the boost::get api.

It's quite clever and simple to use.

Well I don't! Anymore.

Name it optional_ref.

I doesn't have what I want :P

@StackedCrooked I don't. The problem is it's way overused (property maps, boost graph, optional, tuple etc.)

@StackedCrooked I like the concept. And the power it brings (free functions for the win). But it's really hard to know what get<X>(y) is actually doing in a given context

You will know eventually!

And given ADL it's very hard (sometimes impossible) to control what it should be doing

At runtime :)

lolz

@sehe Ah, ADL.

@StackedCrooked At runtime, things are even harder to tell

@Xeo this doesn't actually happen fyi

but yeah I chuckled

fuck that quest too

I hate it

you checkled

@Rapptz I guessed as much. Would be kinda weird to do it.

using Work = std::vector<std::function<void()>>;
void begin(Work&); // begins the work

void test(Work work) {
    begin(work); // dammit why don't it start the work
}

hahaha

@StackedCrooked erm. yeah. that

std::get(it)

@StackedCrooked in fairitude, wouldn't that be "ambiguous call"?

Oh.

@StackedCrooked Discarded result warnings would be neat sometimes.

std::get reads like std get.

I feel slow

@sehe Afaik, no.

ADL precedes name lookup IIRC.

:(

sehexcept.c

memo: Don't std::make_exception_ptrs inside list-init.

hey guys, do I describe this kind of interface as API or ABI?: an IC is communicated by 8-bit commands through serial interface.

@StackedCrooked coliru.stacked-crooked.com/a/3da623118ceac5f7

@milleniumbug I take exception with that

@user14042 neither. It's protocol.

^

cool. I see thanks

@sehe Hm, maybe std::begin uses some kind of anti-adl mechanism?

  template<class _Container>
  inline auto begin(_Container& __cont) -> decltype(__cont.begin())
  { return __cont.begin(); }

Doesn't seem like it does.

hmm.. what are you talking about?

@StackedCrooked Nah. It's more subtle, as usual: coliru.stacked-crooked.com/a/2ca65dab6f333de2

@FilipRoséen-refp Why adl was not trigged in @sehe's sample

Find the simple difference!

non-const& is a better match than const&

@StackedCrooked see what @sehe just wrote, it is all about which function is the best match

@sehe const

what the fuck

@StackedCrooked This is the same pitfall that makes univ-reference constructor templates overrule a copy constructor, even if it exists

C++ I hate you

@StackedCrooked ADL just adds function to the list overload resolution goes through, it doesn't disregard other functions

Oh wait

no

Make ADL explicit :D

:23606076 that is not correct

Yep

std::sort(@begin(array), @end(array)); :P

std::begin(Cont&) is a template, so it's a worse match than begin(Work&)

@Xeo unless the instantiation ends up being the same but for the const& vs &

@sehe Yeah.

In which case std::begin is the best match :)

I love C++

The "is one a template" is a tie-breaker

there's no tie to break if a qualification conversion is involved in one of the overloads.

well.. I wouldn't really say that though

:23606072 ADL usually beats the normal name lookup rules in my experience.

anyone, time to make me some coffee

@StackedCrooked your experience seems rather weird

nope, no time to make you coffee

@FilipRoséen-refp weird, but fun!

@StackedCrooked it seems to disregard the rules of the language, but heck yes - C++ is fun weird

blargh, I am writing a section on direct-initialization and I'm struggling to explain it without also explaining other forms of initialization.. I mean, I can't write about all of them

it would be so much easier if one could just say; "here is the standard, read it"

@Xeo well played.

@Xeo Ah. Now I get it.

@FilipRoséen-refp You kinda have to explain direct-initialisation and copy-initialisation in tandem, I feel.

list-init can be left out for now, since it piggy-backs on the other two

@Xeo what do you think of something such as this?

the current grammar is quite crappy, but I will get around to fixing that.. later

what's your audience?

people who don't know, or just people who need a refresher?

@AndyProwl people who kind of knows, like the contents of the other articles