Lounge<C++>

Griwes

03:00

Though after deep thinking, the talk went in a direction that might disappoint some people...

Andy Prowl

@Griwes All right. I'll be at Hyatt Regency. We'll meet at the conf I guess

Griwes

...because I decided to reject an idea of giving strong "do" and "do not" guidelines.

StackedCrooked

@Griwes There's been talks on functional programming in C++, but rarely do they turn out to be useful. (At least for me.)

A little bit of boost::mpl in production code is ok.

With emphasis on little.

Griwes

@StackedCrooked I want to focus on (at least some) ideas behind it, explain about how they interleave with each other, and not actually get into techniques.

...though literally 45 minutes later I'll be giving something that's meant to resemble a crash course on functors and monads...

...but pssst.

StackedCrooked

"Reduce state by forking."

Griwes

03:02

lol

@StackedCrooked I've seen it used to generate tests for a piece of code.

The compilation times and stack traces were terrible in the obvious ways.

user406009

@Griwes Do you have a recommended persistent data structure library for C++?

Griwes

No.

StackedCrooked

I liked Bartosz Milewski's talk on functional programming C++ though.

Griwes

The C++Now one from last year?

StackedCrooked

Not sure which one it was.

Probably "I see a monad in your future"

user406009

03:05

Bartosz Milewski, Eric Niebler : Compile-Time/Run-Time Functional Programming in C++

►

user406009

That it?

StackedCrooked

@Lalaland Right. I think so.

Griwes

@StackedCrooked ...though .then was proposed in a way that like murders your children and rapes your mother. :/

StackedCrooked

@Griwes Yeah. I think it's the one @Lalaland posted.

Griwes

Didn't see that one.

future's .then taking a future is a terrible idea :/

Eiyrioü von Kauyf

03:08

lol static_if ...

Andy Prowl

I can't stop lolling at that 6 hours talk on expression templates

Mysticial

6 hours on expression templates?

fuck

Griwes

@AndyProwl :D

Andy Prowl

@Mysticial 3 parts, 2 hours each part

Griwes

@Mysticial Joel Falcou.

Need I say more?

:D

> However this option is not viable in C++ as there is no single base type for exceptions as there is in JavaScript.

ahahahahah

user406009

03:10

@Griwes ?

Griwes

I've actually looked at the rationale for passing future into .then.

Eiyrioü von Kauyf

@Mysticial 6 hours for anything ......

Griwes

It's even more laughable that I thought before.

Andy Prowl

gulp grill the committee at 8:30 pm

Griwes

@AndyProwl When else?

Andy Prowl

03:10

this is physically challenging

Griwes

nah

StackedCrooked

@Griwes It's a ready future which can rethrow the exception. Doesn't sound so bad. It's horribly verbose though.

user406009

First question:

user406009

> WHERE ARE MY MODULES?!?

Griwes

I think I mostly feel Pacific Time now.

@StackedCrooked Verbosity is exactly the problem I have with it.

For Pete's sake, JavaScript did it better!

Ugh.

StackedCrooked

03:11

folly::Future does it differently.

They have .then().onError(...)

Andy Prowl

> Organizational Leadership with Modern C++

wot?

Griwes

@StackedCrooked Exactly!

Only folly is bad for one specific reason right now:

The comments say "functor" to mean "function object" :/

This must die :/

Functor is a mathematical term, for fuck's sake. You can't just overload it this way, especially when it's actually used in the field to mean the mathematical construct :/

StackedCrooked

But what I'd really like is to have await syntax. Not sure if boost coroutine can do this (since that is normally for single-threaded async).

Griwes

...though I guess you can take that to an extreme...

Andy Prowl

@Lalaland there's a talk on modules

Griwes

03:14

yield is apparently not a viable keyword

"because it's used in finance industry"

what

and return isn't? ugh.

StackedCrooked

lol

user406009

Backwards compatibility though.

user406009

We already claimed "return"

user406009

What's their alternative keyword suggestions?

StackedCrooked

> relinquish, surrender, part with, deliver up, hand over, turn over, give over; make over, bequeath, remit, cede, leave, sacrifice. ANTONYMS retain.

I like "bequeath".

Griwes

03:15

:D

bequeath 1;

StackedCrooked

lol

Andy Prowl

I look forward to Sean's keynote

Griwes

Reminded me of addedbytes.com/blog/if-php-were-british

Andy Prowl

I wonder if he's going to bring up some new material

Luc Danton

@Griwes Used in the legal industry.

StackedCrooked

03:16

Actually Sean Parent is also developing a future library.

user406009

Is there an async-await proposal yet?

StackedCrooked

There's a coroutine proposal.

Griwes

Actually he wrote it for his C++Now talk this year during the conference.

So there's that.

Andy Prowl

@Lalaland yeah

a 2.0 one too

user406009

@StackedCrooked How is his going to be different than folly?

Griwes

03:17

@StackedCrooked ...that's hardly await though.

StackedCrooked

@Lalaland One difference was that it allowed task cancellation if the future was destroyed before the task was executed.

@Griwes Yeah.

user406009

@StackedCrooked Yeah. That's actually something that always bothered me with JS's promises.

user406009

Glad to see that our destructors can help us solve that problem.

Griwes

Deterministic destruction solves many problems.

Maybe not cancer and world hunger, but still.

@StackedCrooked why are you not asleep yet though

Andy Prowl

@Griwes wait you have 2 talks?

or is it a part 1 / part 2 thing?

Griwes

03:20

@AndyProwl Kind of.

@AndyProwl Kind of but not really.

Let's say 1.5 talks.

Andy Prowl

8:30 - 10:00 pm

fuck me ;D

Griwes

what

Andy Prowl

on Wednesday

that's what the program says

Griwes

ah

no

Don't listen to it - that's Open Content. I expect it to be like 45 minutes or so.

user406009

@StackedCrooked I just hope that his future library also supports "future tail recursion"

Griwes

03:22

Oh wait, it's 8:30. Why was I so sure that it's 45 minutes after the first one? Hmm.

@AndyProwl But the second one has a joke in it!

user406009

Where you have an infinite chain of futures returning other futures.

Griwes

@Lalaland ;_;

Andy Prowl

@Griwes is it at least in the beginning so I can go for a beer before 10 pm? :D

Griwes

1 min ago, by Griwes

Don't listen to it - that's Open Content. I expect it to be like 45 minutes or so.

user406009

@Griwes Tail recursion is nice. What else can I say?

Andy Prowl

03:23

@Griwes what's Open Content? Discussion?

Griwes

@AndyProwl When are you flying back to Europe?

Andy Prowl

@Griwes on Sunday

Griwes

@AndyProwl It's like, not really a full talk, outside the main hours, not recorded, open for everyone (not only for conference attendees).

Andy Prowl

ah, I see

Griwes

@AndyProwl cppcon.org/cppcon-2015-call-for-open-content

Andy Prowl

03:24

yeah got it

when are you flying back?

Griwes

Tuesday.

jaggedSpire

@Nooble what madness is this?

Griwes

> The goal is no incidental data structures.

Said the guy who used std::vector instead of boost::optional to reduce dependencies of a piece of code in his talk.

(Not that I have anything against that technique - both those types are functors... ;))

user406009

@Griwes If it's not going to be recorded, would you be willing to post your slides for the Lounge after your talk?

user406009

For those of us who couldn't make it to cppcon this year :(

Griwes

03:28

@Lalaland Sure.

The main talk will be recorded, though. :P

StackedCrooked

vector of size 1 can hardly be called an incidental datastructure.

Griwes

(Just to clear out any possible misunderstandings.)

StackedCrooked

Optional can also be implemented with variant.

struct Empty {};
boost::variant<Empty, T>

:P

Griwes

Hello Maybe, my old friend... :P

Of course it can.

Also funny thing.

user406009

@StackedCrooked I don't think it's quite a 1-1 mapping. Doesn't variant also have a special state for when the copy constructor throws?

Griwes

03:31

Thanks to function overloading, variants in C++ naturally fit the Functor typeclass.

@Lalaland shush

that's terribleness of idiotic proposals :/

C++ should just man up and disallow noexcept(false) move operations.

StackedCrooked

@Lalaland Yeah, I heard about that..

Griwes

At least in that variant type.

Luc Danton

@Griwes An n-functor.

StackedCrooked

@Griwes Yeah mean the visitor object?

Luc Danton

It goes functor, bifunctor, … and n-functor I extrapolated. All covariant.

Griwes

03:32

Whatever. :P

@StackedCrooked Err, no - I mean variant<Ts...>.

That's a functor, provided you write an fmap for it. :D

StackedCrooked

Oh. I confused it with the Callable concept.

Griwes

Mind you, I am using the term "functor" properly, instead of to mean "function object".

ʎǝɹɟɟɟǝſ

lol

You are actually using it incorrectly in the context of C++, but whatever.

You are all nerds anyway

Griwes

I'm actually using it in the context of mathematics.

Luc Danton

Not when you get the arity/kind wrong :v

Griwes

03:36

@LucDanton Now the question is, should variant<T> in said fmap's return value collapse to T... hides

Andy Prowl

why should it?

Luc Danton

Pick the setting you want (and deal with the consequences).

Griwes

@AndyProwl I am not sure if it makes sense mathematically... but it'd be convenient :P

Luc Danton

@AndyProwl Isomorphisms between types.

Griwes

Yeah, it is isomorphic, but that'd jump out of category.

Andy Prowl

03:37

@Griwes but I thought fmap is (a - > b) -> f a -> f b.

Griwes

6 mins ago, by Griwes

Thanks to function overloading, variants in C++ naturally fit the Functor typeclass.

user406009

@Griwes Hmm, that's actually an interesting idea.

Andy Prowl

@Griwes Not enough explanation sorry

Luc Danton

@Lalaland No it’s not.

Griwes

You can't really do this kind of shenanigans in Haskell (...I think).

@AndyProwl What's the signature of a function that takes an overloaded function in Haskell?

Andy Prowl

03:39

@Griwes I didn't even know you can overload functions in Haskell

user406009

@LucDanton I'm just saying I didn't think of the fact that you can prove variant<A, B> -> C by doing variant<A,B> -> variant<C,C> -> C

user406009

It has a certain elegance.

Andy Prowl

I'm not an expert of type theory. If you can, please explain it in simple terms I can grasp. Basically my question is why should fmap be (a - > b) -> f a -> b in C++

Griwes

@AndyProwl There's this "holes" thing, but that's not really the same.

But your answer is correct. :P

Luc Danton

@Lalaland If you’re interested in isomorphisms, variant<X, X> is not iso to variant<X> if a variant is a discriminated union.

Griwes

03:41

@LucDanton ;_;

Luc Danton

@AndyProwl Functors are not type theory (per se).

@Griwes As I’ve said, pick your setting.

We can talk about undiscriminated unions, too.

Griwes

@AndyProwl Actually that's (a -> b) -> f a -> f b.

Andy Prowl

@Griwes Yeah that's what I thought

Griwes

But for variants that doesn't really make sense in Haskell.

Andy Prowl

but weren't you saying the return type should be T and not f T?

@LucDanton Ok, scratch that. I'm not an expert ~~of type theory~~. My heart still hopes for an answer I can actually understand. My brain is more skeptical.

Griwes

03:43

But in C++... you can go from variant<Ts...> with typename F and F && f to variant<decltype(std::forward<F>(f)(std::declval<Ts>())...)>.

Luc Danton

I’m also not an expert.

Griwes

Sorry for verbosity.

:D

Luc Danton

Compare instance Bifunctor Either.

Griwes

The above transformation is basically fmap on a variant.

user406009

How does variant<X, X> differ from variant<X>?

Andy Prowl

03:43

@LucDanton Well, I don't wanna get to "I'm retarded"

Griwes

2 mins ago, by Luc Danton

@Griwes As I’ve said, pick your setting.

Luc Danton

@Lalaland The which() member sort of suggests that variants are discriminating. Are they?

Andy Prowl

@Griwes I still don't get it

(not sure if that was an attempt to explain)

Luc Danton

Of course then when you n-map a variant then do you also get that discriminator? Else bimapping variant<X, X> tells you nothing over mapping variant<X>.

Griwes

@AndyProwl ...I don't know how I can help more :/

Okay, crash crash course that might not feel right.

A functor is a box for a value.

user406009

03:45

Variant has a which() member?

user406009

Guess I need to read the proposal again.

Griwes

An fmap unwraps it, calls a function, wraps again.

That's what the above thing would do.

Andy Prowl

Ok, that part I fortunately understand

Luc Danton

@AndyProwl Fun fact: it’s a lie to ~~programmers~~ children.

Griwes

psst

Luc Danton

03:46

Why do you need boxes?

Andy Prowl

I'm ok with being a child ftm. Keep going

Luc Danton

Occam’s razor :v

Griwes

@AndyProwl So variant is like a box where you can have multiple different things.

Andy Prowl

right

what I don't understand is why fmap, given an (a -> b) and an variant<a>, should return a b and not a variant<b>

Griwes

That fmap unwraps it, checks what it is, calls the proper overload and wraps it again.

user406009

03:47

> Returns the index j of the first match of the contained value’s type
T_j in the variant’s template parameter list.

Griwes

@AndyProwl variant<a> is not a useful case.

user406009

Looks like variant<X, X> and variant<X> do return the same value for index()

Andy Prowl

@Griwes So why were you mentioning this?

12 mins ago, by Griwes

@LucDanton Now the question is, should variant<T> in said fmap's return value collapse to T... hides

user406009

Page 13, open-std.org/jtc1/sc22/wg21/docs/papers/2014/n4218.pdf

Griwes

The problem with writing this with Haskell type signatures is that... Haskell doesn't understand variadic templates.

Luc Danton

03:48

Start at 2.

5 mins ago, by Luc Danton

Compare instance Bifunctor Either.

user406009

@AndyProwl It's an interesting way to "escape" a variant in a typesafe way.

Andy Prowl

ok, I guess I'm just old and retarded

StackedCrooked

Yeah you are.

Griwes

@AndyProwl Okay, so: you have a variant<int, float>. You fmap a function object that returns bool for both calls.

Now you have variant<bool, bool>.

Andy Prowl

I should just make more Hitler videos and forget about serious C++

Griwes

03:49

That type is not really too useful.

user406009

@AndyProwl You might find the type signature for Haskell's bifunctor more useful.

user406009

(a -> b) -> (c -> d) -> p a c -> p b d

Griwes

So you collapse it to variant<bool>.

Luc Danton

@Lalaland Oh dang those variables

Griwes

That type is even less useful; do you collapse it further, thus escaping the category?

Or do you stay there?

Luc Danton

03:50

(a -> x) -> (b -> y) -> Either a b -> Either x y

user406009

So Variant<A, C> goes to Variant<B,D> when provided function<B(A)> and function<D(C)> (in C++ syntax)

Griwes

Yes.

But in C++ you don't need that, since you can overload functions.

Or even construct arbitrary overload sets on the spot wherever.

StackedCrooked

That's ad hoc overloading.

Griwes

Variadics, man.

Haskell would get much more interesting, just like C++, if it got variadics. :D

Andy Prowl

@Griwes I'd stay there. I'd actually stay with variant<bool, bool>

user406009

03:52

@AndyProwl We left serious C++ a while ago and ventured into Haskell la la land.

Andy Prowl

but that's just me and I'm old and retarded so keep that into consideration

Griwes

@AndyProwl The best/worst thing is that that is also a viable option.

Luc Danton

@Griwes It chose an auto-currying/partial application setting, and is dealing with the consequences. Even at the type level.

Andy Prowl

@Griwes what if the overloads return different types?

Griwes

Provided you construct at proper which (so that you save the "index" information for some later code).

Andy Prowl

03:53

you'd get a variant<X, Y> wouldn't you

Luc Danton

2 mins ago, by Luc Danton

(a -> x) -> (b -> y) -> Either a b -> Either x y

Exactly!

Griwes

@AndyProwl Yes, that's the point.

user406009

Ok, can we get to a conclusion here:

user406009

Is variant<X, X> equivalent to variant<X>?

Andy Prowl

so why special-casing things when X = Y?

Luc Danton

03:53

@Lalaland Yes in one setting, no in the other.

Griwes

That's the whole difference between this fmap and classic C++ visitor.

Luc Danton

Well, that and parametricity.

user406009

@LucDanton What's the setting where they are not equivalent?

Griwes

@AndyProwl The question(s...?) is - can the "position" information be saved, will it ever be useful?

StackedCrooked

@Lalaland The real question is: what about variant<X, variant<X>> ? :)

Griwes

03:54

Because if either of these says "no", then just collapse that thing down and be done with it.

@StackedCrooked that's mbind really

Luc Danton

@Lalaland variant stands for and acts as a discriminated union. How much you want that is variable, too, but at the very least you want a consistent which.

Griwes

not fmap

(So fmap . join.)

StackedCrooked

> mbind(2): set memory policy for memory range

hm.. :)

Luc Danton

Other way around.

Griwes

shush

Andy Prowl

03:55

@Griwes I think so

that's my impression at least

Luc Danton

@Griwes Install a type checker.

user406009

@LucDanton Ah I see. You are saying if the union is discriminated based on position or based on type.

Griwes

@LucDanton nah

user406009

When it's discriminated based on position, they are different.

Andy Prowl

Does Either X X make sense in Haskell?

user3783598

03:56

good day guys. is my sentence correct: "Hi. I would like to tell you something personally. is it ok for you" ?

Griwes

@AndyProwl So... we need multiple fmaps! Oh the joy of that.

Andy Prowl

@Griwes You lost me again

Luc Danton

@Lalaland Yeah, but that subtly begs a question: how do I construct a variant<bool, bool> (in two different ways, since we are being discriminating)? So I hand-waved it.

Griwes

@AndyProwl I want it to collapse, you want it to stay not collapsed.

Luc Danton

@AndyProwl Yes.

Griwes

03:57

Both approaches are valid and both have pros and cons.

user406009

@LucDanton For reference, it seems like both boost and the C++ proposal is discriminated based on type.

Luc Danton

Note that you can 'restore' a discriminated union from an undiscriminated one

Griwes

I guess that yours is slightly more, err, mathematically strict...

Andy Prowl

@Griwes I didn't understand the remark about multiple fmaps

Griwes

since it preserves arity...

@AndyProwl One for each of those approaches.

Andy Prowl

03:58

oh, that's what you meant

No, I think we need to pick just one approach

Luc Danton

Discr(X...) = Undiscr(Discriminator(N, X)...) where N = Indices(0, sizeof...(X))

Griwes

Though I guess I could live with fmap doing what you'd expect + some helper that collapses it.

StackedCrooked

What's an undiscriminated union?

A C-style union?

user406009

Yep.

Griwes

Yeah. That'd be nice.

Andy Prowl

03:58

A union that does not keep info on its active member

user406009

They suck.

Andy Prowl

without a tag

Luc Danton

@Griwes Plain unions are plenty mathematical.

Griwes

Discrimination all the way!

StackedCrooked

In union.

user406009

03:59

@StackedCrooked variant<X, variant<X>> = variant<X, X>

user406009

Rest is trivial.

Andy Prowl

discriminated onion

Luc Danton

I do a bizarre hybrid. I can’t really justify it. I discriminate when storing and accessing (raw), but not when mapping. I even collapse during mapping.

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