Lounge<C++>

Tony The Lion

14:00

lol someone's on a flag fest in the JS room

Andy Prowl

Freeze that room

Sarvagya Agarwal

@orlp because i need the answer mod 10^9+7

user406009

@gnzlbg That's actually a decent question. If you post that on SO, could you also post the question here in chat?

Luc Danton

@gnzlbg the error is pretty telling

gnzlbg

i thought it might be some dumb thing i was not seeing

Luc Danton

14:07

can you see the part that starts with 'error:'?

Cat Plus Plus

lol

Luc Danton

hang on

gnzlbg

the error only tells me that the constructor i want to enable for int was deleted

Luc Danton

you edited

that’s cheating

gnzlbg

@LucDanton sorry it seems that if I edit the code there, I dont get a new link

i was trying different things, ill revert that to the original

Luc Danton

14:08

anyway, a constructor template never declares a special member

so you can never declare a copy constructor if you start with template

orlp

@SarvagyaAgarwal can't help you, your code is a mess with random typedefs, global variables

gnzlbg

@LucDanton i've reverted it to the original form

orlp

on top of that you changed variable names and what they mean from my code

my code is correct - you just implemented it wrong

Luc Danton

later of course you get a compiler-generated deleted copy constructor and well you get the idea

gnzlbg

crap so there is no way to enable if a special member function?

Luc Danton

14:10

@gnzlbg except maybe the default constructor but that’s much consolation of course

gnzlbg

i was just wondering why the compiler was generating one if my template was a perfect match

i thought i screwed something with enable_if, didnt knew that if i make it a template, then "it doesnt count" as special

Morwenn

So, I heard you like psychedelic stuff?

Malice In Wonderland

►

gnzlbg

@LucDanton so it is then not possible to explicitly instantiate std::vector<std::unique_ptr<int>> ?

Luc Danton

@gnzlbg it is

instantiating a class template will instantiate the function member declarations, but not definitions

gnzlbg

@LucDanton ideone.com/Luh1s8

Luc Danton

14:13

so until you attempt to copy such a vector (which triggers instantiation of the definition) you’re good to do (or else it’s not conforming)

gnzlbg

it blows up

"explicitly instantiation" i meant, I thought that instantiates everything

Luc Danton

maybe that requests instantiation of everything, I’m not on top of those rules

@gnzlbg oh well then if it does (no clue here) then you have your answer

gnzlbg

yes i think so, you can put it in a TU, and compile it separately

Luc Danton

yeah that has to work somehow

gnzlbg

and link against it, so it has to instantiate all functions

orlp

14:14

@SarvagyaAgarwal run my original code on your test cases, not your implementation

gnzlbg

crap

i was trying to allow explicitly instantiating a vector for move only types

by enable iffing some functions, but since i cannot do so for the special ones, that cannot ever work

Luc Danton

that’s a hard limitation

Sarvagya Agarwal

@orlp it's wrong because I changed the variable names! And as I can see there is no typedef and just two global variables, one for the number of filters and the other is the matrix

Luc Danton

@gnzlbg oh you mean for your own type?

gnzlbg

yes, im writing a stack_vector proposal

and was exploring that part

Luc Danton

14:16

then yeah you can conditionally present special members

Sarvagya Agarwal

I don't have the test cases, the online judge does

Mr. kbok

hmmm

I just blew my face off with a null deleter

gnzlbg

@LucDanton how? enable if doesnt work, we just tried it for the example class

Luc Danton

@gnzlbg I’ll show you, hang on

Mr. kbok

@ElimGarak Or your life :D

Sarvagya Agarwal

14:17

@orlp I could do that but I would need do learn python for that to specify the input format.

user406009

@gnzlbg Have you tried adding enable_if'd helper methods?

gnzlbg

@LucDanton it might help you to just modify the original example here: ideone.com/vp90jI

user406009

Like init or something?

Luc Danton

@gnzlbg yeah no, unfortunately it’s a very tedious and boilerplate-heavy approach

@gnzlbg have a look at this in the meantime

gnzlbg

@Lalaland i am gonna give that a try

orlp

14:19

@SarvagyaAgarwal which is really easy

gnzlbg

@Lalaland that doesnt work

basically i would need to have 2 init methods, and one has to do nothing in one case

but the special member function (e.g. copy constructor) will still be generated if the type is not copy constructible

it would just do nothing in that case

Luc Danton

@gnzlbg the reusable way

orlp

@SarvagyaAgarwal besides, you haven't given me a test case that failed

gnzlbg

@LucDanton thanks

so basically i would need one base class for each special member function

or at least 2, one for copy and one for move constructible

and then carefully import the constructors from them

Luc Danton

no

@gnzlbg the copy-pasta way

gnzlbg

14:26

that won't work

Tony The Lion

> There is no internet censorship in China, says China’s top censor

top kek

gnzlbg

@LucDanton i guess I need a single base, specialized for every case

Luc Danton

@gnzlbg because the copy and move special members are so interwoven, it should be one class that handles both at the same time

gnzlbg

since I can only import the constructors at once

Luc Danton

I think, it’s hard to keep track of the rules between C++11 and C++14

@gnzlbg yes, the reusable way is really the copy-pasta way but 'refactored' out

gnzlbg

14:27

boilerplately but that should work

thanks

Mr. kbok

@TonyTheLion ((there is ((no internet) censorship)) in China)

orlp

@SarvagyaAgarwal ideone.com/xGoJCg

Luc Danton

I mention the copy-pasta way because it’s useful to know for e.g. trivial destructors, and it’s really the 'root' technique

gnzlbg

im just going to handle copy_constructible, move_constructible, and copy_move_constructible, three cases

набиячлэвэлиь

@Mr.kbok hehe

gnzlbg

14:27

oh crap

im using exactly that technique already

to generate a constexpr destructor for trivial types

Luc Danton

yeah I don’t know a way out of this one ;)

gnzlbg

3x2 6 specializations

Mr. kbok

@набиячлэвэлиь I like how english syntax in ambiguous

gnzlbg

life is to short, not all problems are worth solving, std::vector doesnt support it

Luc Danton

yup

it’s worth it for me to have correct optional and variant though

I just don’t bother with a literal variant type :)

gnzlbg

14:29

yes but if you have constexpr optional and variant

you need also to bother for literal/non-literal

@LucDanton ah, haha, the other way out then

Luc Danton

well it’s a lot of linear compile-time stuff if you want to it for variant :/ or at least I don’t know a better way of doing it

it can already be tedious to compile safe variant visitation, I don’t want, well, every other variant operation to do the same

gnzlbg

recursive union + 2 cases

one for non trivially destructible types with explicit destructor calls

and one for trivially destructible types without a destructor (the compiler generates a constexpr destructor for you)

Luc Danton

that can be factored with a base-from-member idiom I think, the destructor call-or-not I mean

gnzlbg

i typically call that just "storage", and worry about the rest... well i hadn't worried till now

@LucDanton the problem is that explicit destructor calls are not allowed in C++14 constexpr

Ell

I always have trouble naming my divs

gnzlbg

14:33

so one really needs to handle that anyways

Luc Danton

right—so the base is specialized for it

gnzlbg

yes, trivially destructible is the only thing to consider there

Luc Danton

much like the reusable thing above, you 'limit' the specialization to a particular place in the program

Dean

am I trivial?

Luc Danton

so that it doesn’t spread to the whole variant impl

gnzlbg

14:33

yes

the problem is when you start adding other special member functions to the mix

do you want your variant to be trivial if all types it contains are trivial?

do you want your variant to be trivially constructible if all types it constains are trivially constructible even though the variant might not be trivial?

Luc Danton

not if it hurts compile-times that much (which, to be fair, I don’t know it does, but I see little reason to be optimistic here)

gnzlbg

the number of specializations blows up, and the code in them blows up too

Luc Danton

I don’t think specializations hurt too much actually (again, not something I’ve measured)

gnzlbg

not in compile time, but in code you have to write and test and duplicate

it might hurt in code size

a trick to reduce codesize is to put the "template independent code" in a base class

but when you have all these base clases conditionally implementing things, trying to also reduce code size is hard..

Luc Danton

there’s nothing independent for a thing such as variant<Xs...> except dumb stuff like which() etc, it’s not worth it

oh right you’re doing a vector

gnzlbg

14:37

for a stack_vector<T, Capacity> there is a lot of code that depends on T, but not on Capacity

Andy Prowl

@Scarlet lol /cc @wilx

Luc Danton

@gnzlbg yeah I don’t think it costs you a lot here

gnzlbg

I don't know, i will leave that as a quality of implementation issue

i just wanted to show that a stack vector can be implemented

that it is as fast as it gets

that it plays well with constexpr

and if i decide to dont do something, i want to say if it can/cannot be done and why

Luc Danton

I’m not up-to-speed on constexpr, you can’t reallocate right?

gnzlbg

you can do everything

if your types are trivial

Morwenn

14:40

@LucDanton Indeed. You can't allocate memory on the heap AFAIK.

gnzlbg

but on the stack

Luc Danton

ya know I need that right about now :/ fairly sure it’s not supported by GCC atm though

gnzlbg

its a stack-only vector

there are a couple of things you cannot do in constexpr: reinterpet cast, explicit destructor calls, placement new (not even on the stack), new/delete, lambdas

Morwenn

@gnzlbg What about new stack_vector(/* whatever */)? :D

gnzlbg

there are a couple of things you can write but the compiler will emit a diagnostic if they happen at compiletime, like throw

milleniumbug

14:41

so, all the unsafe shit... and lambdas

what the hell

gnzlbg

@Morwenn std::vector<stack_vector<T, 3>> all the stack vectors will be next to each other on the heap, no indirections

Luc Danton

@milleniumbug mangling dude

Morwenn

@milleniumbug Lambdas will be constexpr in C++17.

Luc Danton

@gnzlbg oh yeah I guess that makes reallocation quite straightforward :D

Morwenn

There's already a Clang implementation.

gnzlbg

14:42

i wish they would support placement new

std::aligned_storage is pretty useless in constexpr right now

you cannot use it to implement variant, optional, stack vector, ... if you care about constexpr because you have to do 3 things to use it

Morwenn

@gnzlbg The fact that stack vectors can be allocated on the heap is one of points the standard committee never found an agreement.

gnzlbg

reinterpet cast the buffer to the pointer type
placement new
explicit destructor calls

none of those three can be done in constexpr functions, so aligned_storage its pretty useless

@Morwenn why? it just means that the elements are allocated in the vector object itself

user1804599

memcpy

gnzlbg

wether you decide to pot theobject in the stack or the heap

Morwenn

@gnzlbg Because stack_vector becomes a lie if it's not always on the stack.

Luc Danton

14:43

for literal variant purposes I’d sooner have template<typename... Xs> union blah { Xs xs;... }; though

Sarvagya Agarwal

@orlp : yep it's the algorithm !

gnzlbg

@LucDanton for me it would be easier to just use aligned storage with the correct size

@Morwenn maybe it should be called static vector like in boost::container

or fixed_capacity_vector

Luc Danton

make one specialization : array<N, Capacity> and the other : some_preexisting_but_not_literal_stack_vector<N, Capacity> :D

gnzlbg

thats how i do it

wilx

@AndyProwl lol :D

gnzlbg

14:46

i have an aligned_storage for non literal types

and a C array for literal types

Luc Danton

sorry, typo

wilx

NetHack new version.

gnzlbg

@Morwenn Thanks for the comment, I've added a naming discussion section to the proposal

Morwenn

@gnzlbg By the way, have you read the standard proposals for std::dynarray and the like? If not, the discussions in these papers might interest you.

gnzlbg

@Morwenn yes I have, but I wanted a 1:1 replacement for std::vector API wise (or as close to this)

one could implement such a type using dynarray in the future

but right now I have to deal with what we have :/

I think I mentioned this somewhere in the proposal

that dynarray would be useful to build this if there was a way to use it without initializing its elements

nope i didnt

i just mentioned std::array, that would be useful

but it sucks

so it isnt

@Morwenn how do you think dynarray would be useful? its size is only known at run-time

so you could not do std::vector<dynarray>

Morwenn

14:54

For an even lower-level proposal, there was bs_vector (not sure it is the name), and discussions about generalized runtime-sized classes. It was interesting, but I don't really have an opinion about these things.

gnzlbg

I think they just solve different problems

Morwenn

Don't you mean introduce different problems? :p

Mr. kbok

lol bs vector

primarily designed for managers

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