Lounge<C++>

3:00 AM

Tbh relying on the conversion when specifying std::hash<std::string> as the hasher is tricky :) A nice trick, but not to be expected.

Xeo

Btw, any better name for it? indirect_key sounds... dunno, not really descriptive

@LucDanton I created a hasher at first, and then remembered the implicit conversion. :)

Luc Danton

mutable_reference_wrapper. Duh.

Xeo

lol

That's what I needed, an even longer name! :P

Luc Danton

(Saying that in jest since it's not like std::reference_wrapper is immutable.)

Xeo

  auto files(boost::copy_range<
      std::deque<dependency>>(direct_deps | boost::adaptors::map_values));

Luc Danton

3:01 AM

I don't mind long, descriptive names.

Xeo

Me likes Boost.Range.

Luc Danton

You'd likely typedef that map type asap anyway.

By the way, what are we going to use instead of 'to typedef' now.

"Better synonym that map type soon."

Verbing 'synonym' weirds me.

Xeo

"Better alias that map type soon."

Luc Danton

Oh yah, works for me.

$ grep typedef -Ri include/ src/ | wc -l
5

How come I still have 5 >:(

Xeo

Man, I'm using so much auto const& in my code right now...

Luc Danton

3:04 AM

Nothing wrong with that.

Xeo

I think my code could even be ported to a functional language without much difficulties.

Atleast that part

Luc Danton

Heh, I wrote a metafunction to compute the resulting type of a variant double visitation. I didn't really have a plan so I just went with functional list deconstruction and surprise, recursion makes the thing works.

By the way, if you had a visit operation to apply on a variant and a functor, in what order would you pass the parameters and what would it look like?

(I like to usually badger the robot with my naming/usages silliness :( )

Xeo

visit(variant, functor)?

Luc Danton

Sounds obvious, right?

Xeo

Or apply(functor, variant).. or even apply(variant, functor)... Damn, I see where you're coming from.

Luc Danton

3:08 AM

As a member it'd be variant.visit(functor). No brainer here.

Xeo

@LucDanton Member template == nested template keyword in generic code

Luc Danton

But how does that work for binary visitation? :(

Xeo

Which is a strong reason to prefer non-member templates

Luc Danton

@Xeo Right, but it's not a member. You know, like how it's getline(stream, string).

Xeo

@LucDanton How is variant.visit not a member?

Luc Danton

3:10 AM

Not getline(string, stream) and I don't think it's a coincidence it mimics stream.getline(string).

@Xeo Because I wrote it not as a member.

DeadMG

I can totally see visit as a member

Xeo

Ah, you mean logically.

Luc Danton

Yep.

DeadMG

I don't see how you'd reasonably implement it as a non-friend

Xeo

@DeadMG non-friend != non-member

Luc Danton

3:11 AM

@DeadMG It's a friend. But there's a whole lot of reason to prefer it as a non-member.

Xeo

Or do you mean "part of the public interface"? :P

DeadMG

what's the point of a friend free function?

Luc Danton

Given that visit<void>(variant, functor) is also how you 'discard' the results.

Xeo

@DeadMG No nested template keyword.

DeadMG

I mean, for operators, I get it, argument conversions and stuff

Luc Danton

3:11 AM

@DeadMG See relevant GotW.

DeadMG

@Xeo You wouldn't need it anyway, because there's no need to pass an explicit parameter

@LucDanton You might have to be more specific. I don't have a database of them on hand, y'know

Xeo

template<class Variant, class F>
void foo(Variant const& var, F f){
  var.template visit(f); // UGH!
}

@DeadMG Isn't template needed even for deduced types?

DeadMG

no

it's only for explicitly passed parameters

Luc Danton

@DeadMG Tried Ctrl-F for 'string', 'member', 'bloat', 'interface' but no dice.

DeadMG

to remove the ambiguity inherent in var.visit < identifier > (expr); which exists when you don't know that visit is a member template

Luc Danton

3:13 AM

It might actually be in the book, I really thought there was a GotW for that.

DeadMG

there's no such ambiguity for member templates which only take implicit arguments

Xeo

@LucDanton There is.

gotw.ca/gotw/084.htm

Luc Danton

@DeadMG What's the result type of your hypothetical visit?

Xeo

Sometimes, Google is just the easiest way.

"gotw string"

Luc Danton

Wut.

I... wut.

DeadMG

3:14 AM

@LucDanton That can be deduced from the parameter type

Luc Danton

This is so dumb I think I broke.

@DeadMG variant<std::string, int> v; visit(v, make_overload(++arg1, arg1 + "foo")); what does that return?

DeadMG

also, I read that GotW and didn't see anything about avoiding member templates

@LucDanton void

Luc Danton

@DeadMG Mine returns variant<std::string, int>. If you call visit<void>(/* ... */) you get yours.

DeadMG

@LucDanton Well, I can't see why you can't just have both. If I don't want the return value I just won't take it.

Xeo

Btw, rethinking that member visit, I think variant.visit(f) sounds wrong.. variant.apply(f) would be better as a member

Luc Danton

3:17 AM

@DeadMG If you want to avoid the variant construction. Have to be generic, "Don't pay for what you don't use" etc.

Xeo

@LucDanton visit(...., return_<void>()) !!

Alf P. Steinbach

@Xeo yes. thinking usage for naming is good. thinking implementation for naming is bad. :-)

Luc Danton

@Xeo Die.

DeadMG

@LucDanton That's what compiler optimizations are for

Luc Danton

@DeadMG Right, right. You're free to call it without passing void.

Xeo is making the argument of avoiding template members, I'm not.

DeadMG

3:19 AM

ok

well, I'd totally make that function a member

Luc Danton

Nothing wrong with that. (I also like the naming suggestion.)

But what about binary visitation? Now what?

DeadMG

oh, and you don't have to have void explicit specialization

you could simply return one of those lazy evaluation automatic cast objects

@LucDanton What even is binary visitation?

Luc Danton

@DeadMG Those overloads are here to distinguish the request for type deduction vs. the request to ignore the return type.

Xeo

visit(var1, var2, binary_func) I think.

Luc Danton

visit<void> is indeed implemented like you said, yes ;).

DeadMG

3:21 AM

with an automatic conversion, you don't need to distinguish.

Luc Danton

Wut. Run my answer again I think.

One overload picks visit(..., the other picks visit<void>(...

Xeo

@Luc, what's binary visitation?

Luc Danton

Then visit computes the return type just fine.

DeadMG

yes, but you don't need to choose

Luc Danton

@Xeo Visiting two variants at once.

@DeadMG What, lazy computation?

Xeo

3:22 AM

Hm.. any usage examples?

DeadMG

sure

Xeo

Like, the functor really can only have a templated operator()(T1, T2)

Luc Danton

Or a bunch of overloaded operator(), yes.

I'm just replicating the original Boost.Variant feature here.

@DeadMG Let's put it another way: visit<void> is an advanced feature. It doesn't matter that it stands out when used, visit(...) should be the default.

DeadMG

there's no need for it to be a friend non-member

Luc Danton

boost::variant< double, std::string > v2( "hello" );
assert( boost::apply_visitor(are_strict_equals(), v1, v2) );

Boost.Variant example of binary visitation.

The functor returns false if the two types are different, or delegates to == if they are the same.

@DeadMG Tbh I'm more interested in the order of parameters than member vs non-member.

I.e. if you keep at it I'll be making it a non-friend, non-member.

DeadMG

3:27 AM

I'd definitely place the variant(s) first and then the functor

Luc Danton

So apply(left, right, f) (to reuse your name)?

I considered apply({ left, right }, f) but that seemed like a gratuitous std::pair construction for the sake of syntax.

yes

That's not too bad.

I do my best

It even mimics transform when applied to two sequences (minus output iterator). Perhaps I should just call it that: transform.

Xeo

3:29 AM

@LucDanton I thought about that too, but it doesn't transform in the functional sense

Luc Danton

I even have a transform for std::tuple (as a non-member, which makes it an argument to have it as non-member for variant, hah!).

@Xeo Can't find what is usually used with Either in Haskell.

Xeo

Well, normally a visitor does something to the variants elements, and doesn't just transform them. In functional languages, you can't really do anything else than transform and return, so I'd guess it's just map

Luc Danton

I have transform(tuple, functor) and also map(functor, tuple0, tuple1, ..., tuplen).

By the way the name transform is a callback to std::transform... which is map in the functional world.

Xeo

And to keep it with C++, it would really be transform, but applying a functor to a variant is idiomatically called visit or apply :/

DeadMG

idioms are over-rated

if you have something superior, then use it

being idiomatic only has so much value

Xeo

3:35 AM

@LucDanton Having two different orders is bad, isn't it?

Luc Danton

@Xeo I think calling Boost.Variant 'idiomatic' for C++ is a bit of a stretch.

Xeo

@LucDanton Does map apply the functor in turn to each tuple, or to a tuple<get<I>(tuple1), get<I>(tuple2), ...>?

Luc Danton

@Xeo Meh, Haskell has both mapM and forM that do the same thing, but with the parameters not in the same order. Admittedly that's useful convenience when you have currying.

Still, map is variadic where transform is not in my case. So, convenience with different functionalities.

@Xeo Second one. That wouldn't be very useful otherwise.

Xeo

@LucDanton Okay, and does it actually pass a tuple, or is the functor required to have an N-args operator()?

Luc Danton

If I made a map operator you'd get the first one with transform(std::forward_as_tuple(tuple0, ..., tuplen), operators::map { functor }) or some such.

@Xeo It unpacks the tuple(s).

Let me check to make sure though since I do have uncurry.

Xeo

3:40 AM

@LucDanton Yeah, but does it pass the unpacked ones as N arguments, or as an N element tuple?

Luc Danton

Sorry, bad explanation. Yes, presents individual arguments.

Xeo

k

Luc Danton

(Confusion since under the covers there are in fact intermediate tuples as slices.)

Xeo

Otherwise, transform(zip(tuple1, tuple2, ..., tupleN), functor) would work too, with overloaded get<I> for the zipped_tuple that returns a tuple of args

transform would only have to bother with a single tuple, and functor with a single template parameter

Luc Danton

Whoah I can't overload that, I'm compatible with std::tuple here.

Xeo

3:43 AM

Though having the tuples unpacked for you certainly does seem convenient

Luc Danton

@Xeo Who needs template parameters when you have lazy-eval EDSLs.

Xeo

@LucDanton Huh? Why not? It'd be a new tuple type called zipped_tuple<tup1, tup2, ..., tupN>

Luc Danton

map(arg1 += arg2, left, right);.

Xeo

eww, unpure mapping. :P

Luc Danton

@Xeo Well then it's not an overloaded get is it? :p

@Xeo I wasn't going to call it for_each as that already has a 'usual' interface.

Nevertheless, I notice your suggestion mimics my idea of apply({ variant0, variant1 }, functor).

Although I remember I explicitly wanted to avoid apply(std::tie(variant0, variant1), functor) or the like as 'too verbose'.

Eh, can't use list init syntax with deduction in this case anyway I think. I'm screwed.

Xeo

3:50 AM

@LucDanton Could you even do that with list initialization? What's the type of the first parameter to apply?

Heh

Luc Danton

Until now I only pondered what to use, not how feasible to implement it was :)

Xeo

hrhr

Luc Danton

For instance there was the critera of "Can I generalize that syntax to an arbitrary number of variants"? Even though I'm pretty sure I'm not going to implement that.

Traversal of the cartesian products of all possible active variant members doesn't look too much fun.

I found another motivation to call it apply rather than visit: it's like Boost.Variant apply_visitor, but without the StaticVisitor concept!

Xeo

Hm, so constexpr is finished, lambdas nearly too, and list initialization seems to be going strong with many things already in place

Luc Danton

Wait, I already have apply_tuple. How dense can I be?

Xeo

3:55 AM

lol

Luc Danton

I have apply_tuple, tuples::transform and tuples::map (that I wanted to rename apply) that all do the same thing? How did I do that?

Ah they don't do the same thing. I have the urgent need to find more meaningful names though.

tuples::map is zipWithN in Haskell.

Guess I could go with that name.

Xeo

But without the N

zip_with

Luc Danton

To be clear (not sure how familiar you are with Haskell), there's zipWith, zipWith2, and so on.

So yeah, without the N.

Xeo

I read about it on the wikipedia map function page

> Python map(func, list) map(func, list1, list2) map(func, list1, list2, ...)

Luc Danton

My apply_tuple is uncurry (minus currying).

Xeo

4:01 AM

Having the functor as the first argument makes sense in a way...

Luc Danton

That it does.

Xeo

"map this functor over these things..."

Meh, nearly every other language has the functor first. C++, of course, not.

Damn you, iterators.

Luc Danton

And now you see why I provide both transform and map :)

Xeo

We need a real functional <functional>, including real ranges and not pure iterators.

That said, Boost.Range ftw.

Luc Danton

I guess I could call it uncurry(f, tuple) to mean my current uncurry(f)(tuple).

Yeah that makes so much sense actually.

Xeo

4:05 AM

What's uncurry?

Luc Danton

If you do uncurry (+) then you have a function taking a pair of integers.

Xeo

Otherwise, two integers?

wait

Luc Danton

(In my current state of affairs uncurry is the name of the operators for what is currently apply_tuple. But nevermind that.)

Yep.

Due to syntax rules though uncurry (+) (3, 3) is valid.

Xeo

Isn't (X, Y) a 2 element tuple?

Luc Danton

Argh. std::tuple doesn't really map to functional tuples the way my tuple helpers are designed.

Xeo

4:08 AM

Heh, why?

Luc Danton

Sorry, had to have the disclaimer added. They're both models of plain mathematical tuples, nothing weird going on here.

Xeo

Ah

Yay, 1000 lines template errors \o/

Luc Danton

Anyway the usual functional map works in that map f [a, b, c, d] == [f a, f b, f c, f d]

Xeo

And if f takes more than one parameter, you got a "curried" list

Luc Danton

I'm using ML/Haskell-like pseudocode where [] means list.

In any case if f did take more than one parameter, there would indeed be currying. The return type would still be a list though.

ghci> :t map (+) [1..10]
map (+) [1..10] :: (Num a, Enum a) => [a -> a]

If that means something for you.

(The [a -> a] is the interesting part, the Num/Enum stuff not so much.)

C++ wise my tuples::transform goes transform(<a, b, c, d>, functor) == <functor(a), functor(b), functor(d)>, using an imaginary <> tuple literal instead of std::forward_as_tuple.

As you can see tuple::map(f, <a, b, c, d>) == <f(a), f(b), f(c), f(d)> has some resemblance at the expression level (not so much type level) to the functional map.

There is similarity between std::tuple and functional lists at the metaprogramming level, too.

Xeo

4:17 AM

Yay, the errors are getting less

Ohey, hello C4100 "unreferenced formal parameter" for this code:

virtual void failed(Model* x)
{
    x->~Model();
}

Together with a foot-long instantiation backtrack

@LucDanton I wonder how hard it would be to get true currying to C++. Theoretically you'd only need to return a new functor that has some parameters bound...

Hmmm

Luc Danton

@Xeo Haskell has a trade-off in its type system in that variadic functions aren't really possible. Hence the zipWithN. I can't remember however if the trade-off is about currying or inference.

@Xeo However I think what an implementation of a hypothetical 'C++-with-currying' using the mechanism you described would only be an emulation of what a compiler like GHC can do.

Xeo

Sure

template<class R, unsigned FreeParams>
struct currying{
  template<class... As, class = typename enable_if<sizeof...(As) < FreeParams>::type>
  currying<R, FreeParams-sizeof...(As)> operator()(As... as){
    return { as... };
  }

  template<class... As, class = typename enable_if<sizeof...(As) == FreeParams>::type>
  R operator()(As... as){
    return _f(unpack_bound, as...);
  }
};

Now on to storing the bound parameters...

Luc Danton

I don't mind the current state of affairs in C++ with std::bind/lazy-eval EDSLs.

Faheem Mitha

@EtiennedeMartel : These are new in c++ 11?

Etienne de Martel

@FaheemMitha Yep.

Xeo

4:26 AM

So, think that currying wrapper is a good start?

Luc Danton

I think you're going to reimplement some features of a lazy-eval EDSL right here :p

I can do ref(operators::plus {})(42)(42) just fine currently.

Xeo

Maybe, but it's much more concise, dontcha think?

Meh

With that, you can wrap any function atleast!

Luc Danton

Well you can write it (arg1 + arg2)(42)(42) if you want.

@Xeo Err operators is not part of the EDSL. It counts as 'any function'.

It's my superior alternative to std::plus although in this case you could have used std::plus<int>.

Xeo

Oh, so does ref kick of the EDSL?

Luc Danton

Yes.

Xeo

4:30 AM

Alright, then. :( How does your currying work?

Alf P. Steinbach

@LucDanton what does that mean

Luc Danton

Welp imagine you implement operator() to 'do the right thing', i.e. apply the expression.

Nothing exotic right? (arg1 + arg2)(42, 42) == 42 + 42

Well you make sure that this operator() always uses something dependent on its return type, even in the nullary case, then you SFINAE on that such that another overload kicks in when the expression can't be applied ;) Then this operator() only has to return a new expression.

Faheem Mitha

@KianMayne : That's an accurate description of what can happen if one is foolhardy enough to visit tvtropes. But I've developed some antibodies to that site now.

Luc Danton

@AlfPSteinbach I'm not sure it's correct since I'm using ref on a temporary, perhaps it should be val. Anyway the ref/val is here to 'convert' an arbitrary value, here a functor, into an expression of the EDSL. Then I twice pass 42 to that expression.

Xeo

Hm, I wonder why my program doesn't do what it should... well, it can't if I don't give it any input...

@LucDanton Hm, sounds much more complicated than just returning a new functor expecting less parameters. Unless that's what you're trying to describe :P

Luc Danton

4:35 AM

Let me check that I don't actually need plus(arg1, 42)(42, arg2) though.

Xeo

That looks fugly.

Luc Danton

@Xeo Well, you need to make sure that plus(42)(42) stops currying and doesn't require the user to do plus(42)(42)(), so somehow you have to do the SFINAE on what I described as 'applying the expression' (i.e. evaluate it in full and return that).

Xeo

Okay, easiest way from set<(x, y, z)> to map<y, (x, y, z)>?

@LucDanton Check my currying again, if it gets passed an exact amount of parameters, it applies the expression (stored function)

I feel like I need transformed for my problem...

Luc Danton

@Xeo Same deal: how do you count the free parameters anyway?

Stop having a free lunch :|

Xeo

@LucDanton What do you mean?

Luc Danton

4:39 AM

How do you figure how many free parameters there are?

Xeo

I store it in the functor type! :)

Luc Danton

How, at construction, do you count that?

Xeo

> currying<R, FreeParams-sizeof...(As)>

Uhm... can we rewind the last 5 minutes? :| For non-overloaded functors, it's easy, but...

Well, worst case, the user needs to specify which overload he/she/it wants

Until I have a better solution in mind

Luc Danton

Definitely worst than what I have (or not, I can't figure out what works and what doesn't).

Xeo

lol

Luc Danton

4:43 AM

Well I have something that works and not only does it look ugly but there's certainly nothing automatic about that currying. It's really binding: plus(arg1, arg2)(arg1, 42)(42)

Xeo

Ow

Luc Danton

So I'm not so sure I have currying? I don't have many unit tests either.

Apparently I only made sure that the operators (of the EDSL) worked in my unit tests.

Dunno if that's salvageable and I can make operator() 'smarter'.

Xeo

The worst nightmare - having to refactor your template code from months ago.

Luc Danton

Actually I've gone through that code not so long ago and it's not that bad :)

Hence why I could describe the currying thing from memory.

Xeo

Oh, then you're better off then me on that part. I sometimes code some strange thingy, get back to it a day or two later and have to "rediscover" what I did there.

Luc Danton

4:48 AM

Well I did so some cycles of "Get an idea, hack something, get an idea to improve the idea, look with dismay the previous code, hack something from scratch".

Xeo

Damn, I want std::tie for std::pair without having to use std::make_pair(std::ref(...), std::ref(...))

Oooh, yeah, I know that feeling.

"Who the fuck coded that! ... Oh, wait, that was me, 10 minutes ago."

3

Luc Danton

I got tired of that so now I make sure I can at least figure out intended usage from unit tests (which documents the intended interface, in part). Hence my disappointment when I found out I don't have so many tests for my EDSL.

Xeo

Sometimes, I hate compilers. "Hit F7 (compile) ... wait... see compiler compiling changed file ... wait ... hope ... no errors yet ... still not ... BAM 100 page error"

Luc Danton

Right now I think that what the operator() in charge of currying returns isn't "smart" enough.

Bwahaha I'm already figuring out things to improve.

Xeo

Aww, damn. Boost.Range doesn't play nicely with lambdas, since they don't have a nested result_type or result template...

Yokhen

4:53 AM

umad bro?

Luc Danton

@Xeo Is that with BOOST_RESULT_OF_USE_DECLTYPE?

Xeo

I always forget that, thanks.

Yokhen

@Yokhen I nomad

Xeo

Omg, it works.

I'm so happy right now.

Yokhen

@Xeo congrats. Those are the effects of doing something right in programming. Infinite happiness

Xeo

5:20 AM

Anyways, I'm off, g'night.

Etienne de Martel

See yu

Faheem Mitha

5:56 AM

Does anyone know if there is a way to filter favorite questions on SO by tag?

Faheem Mitha

6:08 AM

Maybe I could add a wishlist item.

Where did everyone go?

Oh god. I drove everyone away.

DeadMG

6:39 AM

unlikely

it is 6:40am here and similar times in countries from which most regulars are from

Faheem Mitha

@DeadMG : Just kidding.

I'm passing a arg to my code which is a struct I defined, but it doesn't like that I declared it const. I'm getting:

pval.cc:379:50: error: passing 'const lik2' as 'this' argument of 'double lik2::data_stat_from_pvals_partial(const std::set<int>&)' discards qualifiers [-fpermissive]

Am I missing something obvious here? I'm getting errors calling member functions of that struct.

Do I need to declare the member functions const or something?

sbi

STAND BACK, I've got a hammer! "if( T *t = f() ) …" Ooooh so many nails around me!

Tweeted by pipelone on February 19, 2012 at 11:15 PM

DeadMG

7:03 AM

@sbi Best done when f is dynamic_cast<T>

Luc Danton

@FaheemMitha You're calling data_stat_from_pvals_partial from a member that is not marked as const.

I don't get the joke, if any :|

robjb

7:47 AM

Recommendations for parsing various numeric types from string, especially when the type (float vs int) is not known? Probably something in boost?

DeadMG

@robjb When you don't know the type, you will have to encode a full parser

robjb

@DeadMG Thought that might be the case

Thanks for confirming

DeadMG

how are could you possibly deal with it in any way if you don't know the type?

you would have to resort to a dynamic system anyway

robjb

I was hoping perhaps someone already had implemented is_numeric(const string&) or something similar

But parsing character by character myself is no big deal :)

DeadMG