Lounge<C++>

return i<0? size+i : i; vs return (size + i) % size;, and my thinking was that choosing either is just a matter of preference (if you precondition that i always falls in [-size, size))

Luc Danton

size-i is wrong.

Xeo

right, typo

Luc Danton

4:18 AM

No, not a typo :p

I'm not sure if I actually want [-n, n) as a precondition, and if so, how/where to enforce it anyway.

Xeo

static_assert(-size <= i && i < size, "...") inside the function?

Luc Danton

The size is the divisor, and is a tuple size.

Xeo

?

Luc Danton

template<int... Indices, typename Tuple, int Size = std::tuple_size<Bare<Tuple>>::value, Requires<And<Bool<(-Size <= Indices && Indices < Size)>...>>...>

is kinda long-winded, isn't it?

Xeo

I meant inside the function that does the wrapping

Luc Danton

4:24 AM

I have a version of slice that takes indices individually.

Hence support for both slice<-3, 2, 0>(tuple) and (slice<FromTo<I, J>>(tuple).

Wait, that's the wrong way to put it.

I have a version with non-type parameters, and a version with a type parameter.

Xeo

constexpr unsigned wrap_index(int i, unsigned size){
  static_assert(-size <= i && i < size, "...");
  return i < 0 ? size+i : i;
}

was my thinking for enforcing the precondition.

Luc Danton

FromTo being an alias for indices<I, I + 1, ..., J - 1>.

@Xeo Not a constant expression.

Xeo

Why not?

Luc Danton

std::cin >> i; wrap_index(i, 42);

Xeo

ahh, damn. I always forget that for whatever reason.

Luc Danton

4:32 AM

No reason I can't turn it into a metafunction, except that the implementations sure are going to look ugly.

Xeo

template<int I, unsigned Size>
struct wrap_index : uint_<(I < 0)? Size+I : I>
{
  static_assert(-Size <= I && I < Size, "...");
};

Rapptz

solarianprogrammer.com/2012/10/24/cpp-11-sort-benchmark

Xeo

it is, then

Luc Danton

I'd rather Conditional<C, R0, R1>.

In fact you can just if_c</* ... */>::type in there.

Ah well, lazy vs eager.

Xeo

Why another metafunction at all

damn router timeouts

Luc Danton

4:35 AM

Wot?

Xeo

Seen my edit to the wrap_index code?

I got some router connectivity problems while editing

And now I wonder why I even thought of inherit_if at all.

Luc Danton

I also have problems on my end, for added fun.

Xeo

heh

I think that metafunction isn't really ugly

Luc Danton

template<typename Tuple, int Size = std::tuple_size<Bare<Tuple>>::value>
std::tuple<typename std::tuple_element<mod(Indices, Size), Tuple>::type...>
static slice(Tuple&& tuple)
{ return std::tuple<typename std::tuple_element<mod(Indices, Size), Tuple>::type...>(
        std::get<mod(Indices, Size)>(std::forward<Tuple>(tuple))... ); }

Substitute mod(x, y) with mod<x, y>::value.

(static because this is a member of an implementation detail that pattern-matches over indices<Indices...>.)

Xeo

Damn explicit ctors! :P Or rather, damn list-initialization for not selecting them

Luc Danton

4:43 AM

Ya, the make_slice and forward_slice version are nicer.

Xeo

Btw, you said you get the slice in the original order, but this seems to slice in the reverse order if you specify a negative first index

Luc Danton

I don't get it. [-n .. 0) maps to [0, n), doesn't it?

Test is fine btw.

If you were to slice<-1, -2, -3> then yes that would be reverse order.

Xeo

Hm, question, how does FromTo<-1,0> generate the indices?

Luc Danton

offset<From, generate<To - From>::type>. No support for e.g. FromTo<5, 0> atm.

offset<Base, indices<Indices...>> is indices<Base + Indices...>.

This definition has the added benefit that you have a high chance of hitting previous instantiation of generate!

So if you've computed FromTo<1, 4> then FromTo<2, 5> only costs an additional offset instantiation!

Xeo

Okay, can I get the exact list FromTo<-1, 0> would yield?

Luc Danton

4:55 AM

indices<-1>

FromTo<I, J> is [I, J).

Xeo

Right, you mentioned that reverse slicing wasn't working yet

I kinda confuzzled myself there

And to support reverse slicing, you'd need to do reverse<generate<To, wrap_index<From, Size>::value>::type> if From > To or From < 0

Or generate the list in reverse to begin with

hmm..

Luc Danton

Ya, I'm investigating -generate<-To, -From>::type

I think that works?

Xeo

Huh? I thought generate was an unary metafunction?

Luc Danton

Oh sorry, -FromTo<-To, -From>.

Xeo

Sounds correct

Wait

Luc Danton

5:06 AM

I meant -FromTo<-From, -To>, but that seems to be in the wrong order.

Xeo

Gah, if only LWS was up

Luc Danton

I don't get it, I get my expected results in Haskell :|

Xeo

I may just have a wrong thought here

Luc Danton

> error: conversion from 'tuples::FromTo<0, -4> {aka indices<0, -1, -2, -3>}' to non-scalar type 'main()::<anonymous struct>' requested

Xeo

Right, the reverse order is missing here

Luc Danton

5:11 AM

It's not, it's in decreasing order.

Okay, I've established it's correct for positive indices.

Xeo

wait, that indices list on tuple<_1, _2, _3, _4> would yield tuple<_1, _4, _3, _2>, wouldn't it?

Luc Danton

wut

Xeo

(together with wrap_index)

Luc Danton

Yes, I'm witnessing off-by-one errors.

That's because [i, j) naively reversed to [-j, i) is wrong. Cf. reverse_iterator.

Xeo

aye

Luc Danton

5:13 AM

Let's try +1. Because.

Xeo

Better just generate the indices in reverse.

Luc Danton

You crazy. More instantiations?

Xeo

:)

Would make it a lot easier, atleast.

First get it working and worry about optimizations later

ThePhD

Hey guys, I've run into a quick thing that's bothering me about virtual functions and their overloads.

It... seems like if I overload a function Baz inside a class named Bar from a base class Foo, then I can't call other variations/overloads of the method Baz without explicitly overloading it in Bar

Xeo

template<int I, int N, int... Is>
struct rgenerate : rgenerate<I+1, N, Is..., I>{};
template<int N, int... Is>
struct rgenerate<N, N, Is...>{ using type = indices<Is..., N-1>; }; // N-1 may be wrong here

Jerry Coffin

5:19 AM

@ThePhD That's true (whether the functions are virtual or not). If you want the base class functions to be visible in the derived class, you can add using Foo::Baz; to Bar.

Luc Danton

@Xeo More seriously it's not a matter of generating indices -- I get those. It's not clear what semantics I want though, when taking into account the modulo.

ThePhD

@JerryCoffin If I don't explicitly add using Foo::Baz to Bar, how do I access it from the outside from a Bar object?

Xeo

@LucDanton Well, intuitively I'd expect slice<FromTo<-1, 0>>(tuple_5) to generate indices<4, 3, 2, 1, 0> and slice<FromTo<0, -1>>(tuple 5) to generate indices<0, 1, 2, 3, 4>, if that's what you meant.

Jerry Coffin

@ThePhD I'm not sure what you mean by "from the outside from a Bar object".

Luc Danton

@Xeo FromTo<-1, 0> is <-1>.

Xeo

5:22 AM

Wait, weren't we trying to make that work like in Python, aka reverse slicing?

I may have gone completely off-track if not

Luc Danton

Not necessarily, no.

Xeo

What, me being off-track or making it do reverse-slicing? :P

Luc Danton

We want some semantics for sure. We get to decide which!

Xeo

/votes for Python-like slicing

ThePhD

@JerryCoffin I mean like in this example

Xeo

5:24 AM

8

Q: Why do multiple-inherited functions with same name but different signatures not get treated as overloaded functions?

The following snippet produces an "ambigious call to foo" error during compilation, and I'd like to know if there is any way around this problem without fully qualifying the call to foo: #include <iostream> struct Base1{ void foo(int){ } }; struct Base2{ void foo(float){ ...

I have a feeling this is relevant in some way /cc @ThePhD, @JerryCoffin

No more slicing votes? Cool, win by default! /cc @Luc :P

More seriously, I think that's just more intuitive than slice<FromTo<-1,0>> being equal to get<-1>

Luc Danton

I think I've actually got it working for quite some time now but I've been misinterpreting the results of my text.

Jerry Coffin

@ThePhD Yes: b.Foo::Baz( 0xdeadbeef );

Luc Danton

@Xeo That way is more regular. Can you express in Python what you want to specify?

s[-1:]?

ThePhD

@JerryCoffin Ooh.... so I can't expect method lookup to be fowarded into the scope of it's derived classes.

That's unfortunate.

Xeo

@LucDanton That would do reverse slicing, IIRC

okay, it does not

Luc Danton

5:28 AM

@Xeo What we're talking about right? Although I actually only get one element...

Xeo

fuckit, my understanding was wrong the whole time

Luc Danton

[-1::-1] does that kind of slicing. Might not be the most idiomatic though.

Xeo

and s[-1:0] gives... 0 elements

oh, wait, -1 is actually not the last element with python.

Luc Danton

Is it not?

Appears to be on my end.

Xeo

atleast not in s[0:-1]...

Luc Danton

5:29 AM

Also apparently [::-1] is the idiomatic way to get a reversed slice.

Jerry Coffin

@ThePhD Presumably you mean base classes? If so, no. Once it finds a scope at which there's a matching name, it collects the names in that scope, and treats them as an overload set -- it does not continue searching other scopes after it finds a match. Otherwise, it would just about have to disable most (all?) implicit conversions.

Xeo

I honestly thought s[-1:] would reverse it

ThePhD

@JerryCoffin True, that could present quite a problem.... well. I understand how it works now. I think in most cases I'd have to forward the scope into the derived class; I don't have any things that are clashing.

Xeo

Ah, with Python's slicing [0:-1] is actually [0, size)

ThePhD

@JerryCoffin Thank you for the help. And thank you @Xeo for the additional information.

Jerry Coffin

5:31 AM

Consider something like:
int main() {
int i;
i = 0.0;
}

Then if I add a global double named `i`, suddenly my assignment would be to the global instead of the local -- the whole meaning of code that's been tested forever suddenly changes completely.

Xeo

that's why s[0:-1] only yielded N-1 elements

Luc Danton

@Xeo size - 1

Xeo

@LucDanton Note half-closed range

ThePhD

Yeah, it makes sense when you put it in that context.

Luc Danton

@Xeo s[s.size] is what element?

Xeo

5:32 AM

out-of-range error

Luc Danton

So [size - 1] is the last element.

If I slice [0:-1] the slice stops at the penultimate element, not last.

To me that's [0, size - 1)

Xeo

sigh, my brain is not working correctly anymore it seems

I was mixing up size with the highest index

Luc Danton

Fenceposted!

Xeo

:s

Okay, so we can note s[-1:] yields the last element and is equivalent to s[-1].

Luc Danton

To the extent that the first is a slice, second is an element.

Xeo

5:36 AM

aye, right

s[-1:][0] == s[-1]

Luc Danton

I think I'm only missing reasonable defaults now. Like how [:] is slice of everything, [3:] is slice from [3] on etc.

I already have To<N> as an alias to FromTo<0, N> but that only works for non-negative N.

Xeo

You can't really give the second parameter of FromTo a default without knowing the size

Luc Danton

Yup.

Xeo

change em to classes and have template<class From = int_<0>, To = end_of_seq>? :D

Luc Danton

If those weren't non-type parameters I could pick any kind of type as a placeholder.

Great minds etc.

Xeo

5:40 AM

Thinking about it, that still wouldn't work, would it? FromTo has to generate an indices pack, and end_of_seq still doesn't tell it the size of the tuple

Luc Danton

Yeah that's where it's gonna suck: coupling.

Xeo

Oh, wait, you got the implementation of slice partially specialized on FromTo, don't you?

Luc Danton

Whereas FromTo<I, J> generates an indices pack some things will have to generate a 'lazy' placeholder with the partial information and the implementation of slice will have to fill-in the holes.

@Xeo On indices only currently.

Xeo

May be worth it to do the same for FromTo so it acts as a placeholder only

then you can generate<From, replace_eos<To, Size>::value>::type

Luc Danton

By this point though, I want to consider the interfaces.

Xeo

5:43 AM

Yeah, if you changed to classes the user would need slice<int_<0>, int_<4>> :/

Luc Danton

I can have explicit_slice<0, 3, 2, 4> for passing the indices directly.

Xeo

So no "overloading" on FromTo it seems.

Luc Danton

And slice<1, 3, -2> for what is currently the type parameter version of slice.

(Assuming hypothetical support of strides.)

Xeo

What does the three paramter version do anyways?

oh, that answers it

Luc Danton

Isn't Python your golden standard? :p

Xeo

5:44 AM

I don't actually know Python, as you have seen with my failing wrt reverse slicing. :P

Luc Danton

Oh wait, that idea works if you omit later parameters, i.e. slice<3> to match [3:]. Doesn't work for [::-1] though.

Xeo

Why the heck does s[0::-1] yield something different from s[::-1]?

nvm

gaah

Luc Danton

It is my understanding that [::-1] is the same as [slice(None, None, -1)] and there's the same kind of 'fill in the holes' logic.

I.e. negative stride means reverse slicing, which starts from -1.

Xeo

Nah, it makes sense, it walks backwards from [0] to [4], which is just 1 element

Luc Danton

I can't fault the design tbh.

Xeo

5:47 AM

s[4::-1] yields the reverse list

I think I'm fine now.

Python does magic, accepted.

Luc Danton

Ya, 4 or -1 being the same modulo 5.

So template<typename From = void, typename To = void, typename Stride = void> is the same as the :: syntax sugar which plugs None for missing args, but is extremely ugly for the client to use.

Xeo

Yeah

Luc Danton

I suppose I can coopt INT_MIN :(

Xeo

:s

Damn special values

Luc Danton

Still a problem for a client to pass e.g. ::-1.

I think I'm going to stick with aliases.

Xeo

5:49 AM

Might be the best

Luc Danton

slice<FromTo<i, j, [k]>>, what else?

slice<To<j, [k]>> which omits From?

and finally slice<Across<[k]>>?

Xeo

slice<FromTo<i[, j[, k]]>>, right?

Luc Danton

Oh yeah!

I need something for i, k now.

slice<From<i, [k]>> I guess.

Xeo

nvm my notation, you know what I mean

Mhm

From<i>::To<j>::Stride<k>? :)

Freely interchangeable?

Luc Danton

Ya that works.

template<int J> using To = FromTo<i, j>;

The question is now, shall I forget about a 'complete' FromTo<i, j, k> generating the relevant indices?

That would tie this FromTo feature definitively to slice.

Xeo

5:54 AM

You mean only using it as a placeholder?

Luc Danton

Yes.

Xeo

Well, since you got no special values in FromTo for now, I don't think you should

Luc Danton

On the other hand the whole motivation of me writing this is trying to encourage the use of indices.

Xeo

You can do both, but that would be silly, I think

Luc Danton

It's true that for the time being only slice explicitly accept indices in its public interface. I can't imagine any other feature using it.

transform(FromTo<i, j> {}, tuple, f) can just as easily be expressed as transform(slice<FromTo<i, j>>(tuple), f).

Xeo

5:58 AM

I was just wondering, why take FromTo as a template parameter anyways in slice?

Luc Danton

Because compile-time. Also see: std::get.

Xeo

So? The values are still compile-time constants if you do slice(FromTo<i, j>{}, tuple) as in the transform snippet

Consistency might be an argument, though

Luc Danton

Ya sure. But I want to mimic std::get here. I changed the style for transform as a reference to how those delegate to an implementation by passing IndicesFor<Tuple> {} or whatever.

Xeo

mhm

Luc Danton

Btw slice<-1>(tuple) can be abused to be a more convenient std::get<std::tuple_size<Bare<decltype(tuple)>>::value - 1>(tuple), sort of.

Xeo

6:01 AM

aye

Or you could name it get in the first place. :D

You're missing a -1 there btw.

Luc Danton

If not for that explicit constructor (again), slice<-1>(tuple) = { 42 }; would work, too.

Stupidly it works for tuples of size 2. That is to say, slice<i, j>(tuple) = { a, b };.

Xeo

@LucDanton Huh, I thought the whole Args&&... ctor was explicit?

Luc Danton

@Xeo std::tuple<T, U> has a pair-like interface.

@Xeo Would you let get<I>(tuple) a 1-tuple or would you let that degenerate to an element?

Xeo

It selects the operator=(pair<...>) overload, eh?

Luc Danton

Oh, a case for calling it silce is that there are make_slice and forward_slice sibilngs.

Xeo

6:04 AM

@LucDanton Good argument

Luc Danton

@Xeo I dunno. Perhaps. It's magical! And I should really double-check those claims tbh.

Xeo

btw slice<-1>(tuple) = { std::allocator_arg, {}, 42 }; might just work

Luc Danton

l o l

Xeo

Hey, I was just looking at the list of ctors!

Luc Danton

> Requires: Alloc shall meet the requirements for an Allocator.

{ std::allocator_arg, nullalloc, 42 } is the obvious answer.

Xeo

6:08 AM

Aye

Luc Danton

Introduce a conversion from nullalloc_t to std::allocator_arg_t and suddenly { nullalloc, nullalloc, 42 } is possible. Genius!

Xeo

But now we're getting silly

Luc Danton

I'm actually giggling like an idiot.

It's a kind of passive protest coding.

Xeo

You'd get problems with actual containers in the tuple, though.

Luc Danton

Oops.

Oh yeah that sucks.

Xeo

6:10 AM

hmm

struct nullalloc{
  template<class T>
  operator std::allocator<T>() const{ return {}; }
};

Luc Danton

I have a problem that I currently have bool reversed = (From > To) as an implementation detail of from_to.

Xeo

Actually, why not just an unbounded one. What could go wrong?

Feeds

C++ on a Friday: A Bad(?) Excuse for Private Inheritance

posted on October 26, 2012 by Anders Schau Knatten

A few weeks ago I introudced private inheritance, and finished with a comment about a common excuse for using it. In this post I give an example of such usage, and discuss whether it is a good idea or not. Say you are going to write a new class CppInfo, which will print out some [...]

Xeo

@LucDanton What are you using that one for?

Luc Danton

Specialize for decreasing indices.

Xeo

6:14 AM

ah

Luc Danton

Okay currently increasing FromTo<From, To> is offset<From, generate<To - From>>. Can I special case generate<N> for negative N such that the above still works for decreasing indices?

Xeo

I think so?

Luc Danton

FromTo<-2, -5> is -2 .. -4, we want to match that with x + [-n, 0) and identify x and n.

Rapptz

return "Language: C++\nCreator : Bjarne Stroustrup\nQuality : ??";

lol

Luc Danton

That's x = -5 and n = -3, isn't it? Yes, it took me that long.

So FromTo<From, To> needs to be x + generate<To - From>, where x is what? The max of From, To?

Ah, min apparently. That is to say, From for increasing indices, To for decreasing indices.

Xeo

6:22 AM

Sounds about right

Luc Danton

And generate<-N> needs to be indices<-N, -N + 1, ..., -1>

Mmmh, I'll work on that later. Let's implement all that and check what breaks.

Xeo

heh

I think I'll just go an start "Operation: Test pillow fluffyness" here.

Luc Danton

Noes, I need you!

Xeo

lol

But my brain's fried and I can't think correctly anymore without thinking wrongly 3 times. :(

Luc Danton

Oh ya, [-N, -1) is N + [0, N - 1). That was actually easy.

How surprising, it doesn't work on the first go.

> error: no match for 'operator=' (operand types are 'main()::<anonymous struct>' and 'tuples::FromTo<-4, 3> {aka indices<-4, -3, -2, -1, 0, 1, 2>}')

Actually...

Wait, that's increasing, I'm dumb.

> error: no match for 'operator=' (operand types are 'main()::<anonymous struct>' a
nd 'tuples::FromTo<-4, -8> {aka indices<-12, -11, -10, -9>}')

Okay so the bug was that I need to select From as an offset for decreasing indices. I expressed that as a min earlier but I messed up. Simpler to express what I need naively with a conditional: (To - From) < 0 ? From : To

Lol, other way around. I even messed up transcribing my findings.

ihavenoideawhatimdoing.jpg

Operation debug by adding minus signs and shuffling parameters around randomly.

Okay, implement generate<-N> as -generate<N> and FromTo<From, To> as From + generate<To - From> and that's it.

And that should be it for the time being.

Tony The Lion

7:11 AM

Tony The Lion

7:26 AM

Morning all!

thecoshman

morning

not sure I need a lick bath, but thanks for the offer

Tony The Lion

Apparently Jeff Atwood loves Markdown

thecoshman

you need a blog post to tell you that?

Tony The Lion

@thecoshman I merely posted a cute picture of a Lioness doing her thing with a baby. I did never mean to imply I was going to even remotely consider giving anyone a lick bath.

@thecoshman the blog post merely verified that fact in stone for me

indiegogo.com/cubieboard

this is kind of cool

thecoshman

@TonyTheLion he could still be lying

but I just got a rasPi, well it's on it's way

Tony The Lion

7:42 AM

@thecoshman he could be, but I'm just gonna take that he isn't

thecoshman

@TonyTheLion well, it is the most likely

Tony The Lion

lol

Where is everyone this morning?

eh my right foot seems rather painful today. Meh

Luchian Grigore

mornin'

Tony The Lion

mawning

thecoshman

@TonyTheLion they playing up again? You've not commented much about pain recently, so either they have been relatively ok, or your job has been sucking that much (feel free to tell me to drop it)

Tony The Lion

7:54 AM

@thecoshman I just try not to bitch too much about it. People get tired of hearing yet again that it hurts. They hurt in varying degrees, but today seems more than average. Well, the suckiness of the job has got me to complain about that more.

thecoshman

on the plus side, this exists

►

Luchian Grigore

thecoshman

@LuchianGrigore huh...

@TonyTheLion perhaps set up a twitter account to post about how your feet are feeling? I've seen stupider things

Tony The Lion

@thecoshman hehe

thecoshman

@TonyTheLion @TonysFeetHurtThisMuch

:( had a typo on my profile page

Tony The Lion

8:11 AM

lol

Luchian Grigore

8:28 AM

ROFL

thecoshman

8:49 AM

oh dear, I fear I am about to get into a rather epic war at work about why distinct units of work should be managed on their own branch, rather then just as edits to a checked out version of the latest on the main

Tony The Lion

lol

thecoshman

I am surprisingly wound up

Tony The Lion

go flip some tables

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