Rust

Peter Hall

9:02 AM

@Boiethios github.com/rust-lang/rust/blob/… Have a go at fixing it? ;)

Boiethios

9:19 AM

@PeterHall Huh, I understand nothing at compiler stuff... I let you do it

Peter Hall

@Boiethios Maybe another day ;)

Peter Hall

9:53 AM

@Boiethios But I am still not convinced that it is a bug

When you define a struct with a HRTB in its definition, it means that the struct is defined given some unknown lifetime. Then you define the Drop impl, again for some unknown lifetime. What makes them the same lifetimes?

orlp

10:10 AM

@PeterHall hrtb?

Peter Hall

@orlp Higher ranked trait bounds.

orlp

what exactly is that?

Peter Hall

doc.rust-lang.org/nomicon/hrtb.html

orlp

ah I'm not familiar with that

Peter Hall

You mostly don't need it

just once in a while...

Boiethios

10:16 AM

@PeterHall Why does it works for the other traits?

Peter Hall

@Boiethios You mean why just drop?

Boiethios

@PeterHall Yep

Peter Hall

Because Drop has a special check to make sure you didn't accidentally define it for only a subset of instances

If you have:

struct Foo<T>(T);

You can't define Drop for only where T: Debug.

Boiethios

Ok I understand now

Peter Hall

Unless the original struct has that constraint

Boiethios

10:19 AM

Sure

Peter Hall

Usually when you have <'a> in a bound, it is universally quantified. That is, it is defined for ALL possible `a

When you use HRTB, for<'a>, you are existentially quantifying 'a

which means the definition holds for SOME unknown 'a

Boiethios

Why the compiler developers (who are smart guys I guess) say that this is a bug then? I guess they have some idea about how to permit Drop + HRTB

Peter Hall

I think it can still be fixed

But the behaviour is compatible with documentation

It's more of a bug in the design than a bug in the implementation

Boiethios

@PeterHall Oh, I had this in mind, indeed. I guessed that the issue is still unsolved because it will one day thanks to chalk.

Peter Hall

@Boiethios Chalk is the new NLL :P

Boiethios

10:37 AM

@PeterHall Hehe, exactly :P NLL is still not here, tho

fn main() {
    let mut vec = vec![1, 2, 3];
    vec.push(vec.len());
}

Does not compile out of the box

Peter Hall

10:48 AM

@Boiethios Indeed not.

Shepmaster

1:50 PM

I enjoy my comment sequence here stackoverflow.com/a/51443397/155423

Zarenor

2:16 PM

Hm. Yeah. Also, necro'ing a 2-year-old question that was last edited... over a year ago?

Never mind that the question was never very good, and seems to include some misconceptions about how time and threads work.

Boiethios

Why doesn't &str implement IntoIterator<Item=char, IntoIter=Chars>?

orlp

@Boiethios I think it'd be unclear whether it'd iterate over bytes or characters

Boiethios

Hum, seems legit

Zarenor

2:33 PM

You can actually get the iterator structures using .bytes or .chars. It's a little odd to me that it doesn't implement the trait for both iterable types and let the typechecker take care of it.

Boiethios

@Zarenor Well, it removes all interest to implement twice IntoIterator: the caller would specify the Iterator he wants when he calls a function bounded to IntoIterator.

Peter Hall

3:03 PM

Anyone have some feedback on the approach I'm taking here: github.com/peterjoel/lazy_concat

It's very rough still. I've been experimenting with it.

Essentially lets you create a lazy concatentation of str or slices, and it only allocates the full result when necessary.

So you can iterate through chars or slice elements

And if you take a slice, it will allocate just enough so that the slice works

I'm partly wondering if it's useful enough to put into a crate. Reason being, it was originally something I needed for String, then I generalised it to Vec<T> and then finally didn't need it after all...

orlp

3:20 PM

eh

I'm worried about get_slice

Peter Hall

@orlp The syntax? or something else?

orlp

that might very quickly become very inefficient

where instead of avoiding allocations

you're now allocating on every get_slice request

Peter Hall

Well, once a portion has been normalized, it won't happen again

so only if you are getting slices that you haven't asked for before

orlp

eh what about this?

Peter Hall

You can also just normalize() the whole thing once

orlp

3:22 PM

for i in 0..100 { lazy_vec.get_slice(0, Some(i)); }

also don't use camelCase variable names :P

Peter Hall

@orlp heh I may have done that :)

@orlp The fragments that are sliced together are likely to be bigger than one character. But perhaps it should just fully normalize when you take a slice

There are possibly cases when you wouldn't want that, I imagine

orlp

@PeterHall only necessary when the slice crosses a string boundary

Peter Hall

@orlp That's what it does now

orlp

but does it then replace the old strings

with the singular joined string?

so that it doesn't repeatedly allocate?

Peter Hall

It doesn't repeatedly allocate

It would be really difficult to write it any other way. If it only temporarily allocated then the lifetimes would be impossible to manage

Peter Hall

3:48 PM

Internally, for Strings, it has a single owned String root, and various fragments of String and &str in a Vec. When it normalizes, it extends the root String and drains the used fragments from the vec.

trentcl

4:06 PM

@PeterHall Any reason you couldn't do that without the "root"?

i.e., only merge slices and strings when the requested slice actually crosses the boundary

Peter Hall

@trentcl What do you mean?

It currently only merges onto root what is needed for the requested slice

Root is the owned part, from which slices are taken

trentcl

@PeterHall But if you have a megabyte of 'static data, followed by five Strings, and you request a slice that spans the last two fragments

Peter Hall

Oh I see

The data is all stored in Cows

so it could technically collapse those two fragments into one Cow::Owned

but...

depending on how long you wanted that slice to last, it might get tricky if you then request a slice that overlaps that fragment and the previous

trentcl

@PeterHall I think you already have that problem though?

because get_slice takes &mut self

Peter Hall

@trentcl Yes, so a solution would be to store root in a RefCell

trentcl

4:17 PM

ahh

Peter Hall

(assuming you're saying what I think you're saying)

trentcl

hmm

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4

Peter Hall

4:36 PM

@trentcl So I was actually also creating an append-only cell type. It doesn't let you borrow mutably, and existing data will always live for the full life of the wrapper. The only mutable operation is appending, which is guaranteed to not affect any existing borrows. It's nice because you can keep borrowing slices from it, and only have to worry about the lifetime of the wrapper, and no possible panics

Shepmaster

sounds like an arena

Peter Hall

Possibly, but less general

It assumes that it owns a vec

trentcl

@PeterHall I'm afraid I am about to throw a wrench in the works but... appending to a Vec invalidates existing slices because it might have to reallocate

Peter Hall

@trentcl True!

So.. that means I'd have to limit the lifetime of each slice up until the next time it is normalized

Shepmaster

shades of streaming iterators

Peter Hall

4:40 PM

Which actually is already enforced by the fact that get_slice() takes &mut self

Shepmaster

right, or a RefMut

so, either you've reimplemented Vec<T> or RefCell<Vec<T>> ;-)

trentcl

There should be a resize_in_place(self) -> Result<Vec, Vec> method on Vec

Peter Hall

Ok... but you couldn't rely on that for static type checking

Shepmaster

@trentcl would Err be resized or not?

trentcl

@Shepmaster I would say not... although

maybe a &self-taking function would work?

Shepmaster

4:44 PM

@PeterHall it all feels too dynamic for static checks to start with... like, it's based on Vec's impl and how much data you push in

Peter Hall

I wonder... could a theoretical extend_in_place() take &self safely?

Shepmaster

@trentcl that's both terrible and seemingly completely accurate

Peter Hall

I originally wrote LazyConcat with every method taking self. Just to see.

I wasn't very wieldy

trentcl

reserve_in_place(&self, additional: usize) -> Result<(), ()>

return value to be bikeshedded

Shepmaster

would need to only grow in size

Peter Hall

4:46 PM

Feels wrong. But I can't see an actual problem

The problem is how a reasonable program should recover from an Err

The whole point presumably is to avoid invalidating a bunch of slices. So now what?

trentcl

@PeterHall true

Peter Hall

4:59 PM

What we need is some sort of process that runs all the time and looks after this sort of thing ;)

Shepmaster

brilliant

but for real though, can you have a MySlice(Arc<Vec<T>>, start, len)

Peter Hall

I know. I'm thinking we could get rid of a lot of the annoying lifetime stuff that way too

Shepmaster

well, Rc<RefCell<Vec<T>>>

Peter Hall

@Shepmaster Yes. Why not

I'm just not sure it's that useful. It has all the same problems as the above discussion, no?

Shepmaster

I meant that more as a "would this work for your situation", not "is it possible"

Peter Hall

5:02 PM

perhaps

But actually I think having get_slice take &mut self is quite a good thing

There's not much point in having two methods - one &must self and one &self - then checking at runtime which one to use.

trentcl

5:14 PM

I'm thinking about something like Vec<RefCell<Cow<B>>>

the RefCells are inside the Vec so that you don't have to borrow the whole thing to merge two of them -- you can just append one to the other and replace the second one with Cow::Borrowed("")

or equivalent

however you still need to borrow the whole thing to append new fragments... so maybe you need an extra RefCell layer anyway.

Peter Hall

doesn't entirely solve the problem of not invalidating existing slices

trentcl

no

But if there were an Rc analog that maintained separate pointers to data and refcount...

Peter Hall

Unless slices are not slices, but something like (&LazyConcat, usize, usize)

trentcl

(surely this exists in a crate somewhere)

Peter Hall

You could do quite a lot with that. But every so often you'd have to clone data to work with some API, and in general it would be slower - and that would be hard to reason about

trentcl

5:20 PM

you could have Vec<Rc<Cow<B>>> and get_slice could return Rc<B>

yeah I'm going to stop now

Peter Hall

@trentcl It couldn't because the slice could span multiple fragments

@trentcl and yeah, I need to leave now. So that's a convenient point :)

trentcl

@PeterHall You could make_mut one of the Rcs and merge the slices without affecting previously returned Rcs. But yes, that's where the cloning (possibly) comes in

Shepmaster

5:37 PM

@E_net4 Box<Box<Box<Goose>>>

Is that a cultural reference that translates?

Shepmaster

5:52 PM

so, how long would it take to process 30M DNS requests

-4

Q: How to send 30 million concurrent DNS requests fast?

I want to send a DNS query to 30 million strings and I have hit a dead end. Initially the machine was crashing due to having too many threads in queue (or that's what I made out of it) which I countered with a conditional break. Now the process, while it doesn't crash the computer, takes fore...

python

I kind of think that, at that point, you just see if you can download the entire DNS database from these servers somehow.

E_net4

@Shepmaster shrug

Shepmaster

@Shepmaster it seems that those bottlenecks I haven't hit yet. Given enough ram I could do this in 2 hours but I have 60gb only (I know, I shouldn't need RAM at all) — MortyAndFam 1 min ago

Duck, duck, goose

Duck, Duck, Gray Duck (also called Duck, Duck, Goose or Daisy in the Dell) is a traditional children's game often first learned in pre-school or kindergarten. The game may be later adapted on the playground for early elementary students. The object of this game is to walk in a circle, tapping on each player's head until one is finally chosen and he or she must chase the picker to avoid becoming the next picker. Originating from Sweden, the game was originally called "Anka Anka Grå Anka", which translated means “duck duck gray duck” == Basic concept == A group of players sit in a circle, facing...

E_net4

Hmm, I would've never gotten that by name.

@E_net4 I can not change consume_func, so I prefer to handle it as black box. — user1244932 38 secs ago

:why:

Shepmaster

6:21 PM

It's a shame they cannot change it

fn consume_func<F: Foo + ?Sized>(b: Box<Box<F>>) {
    unimplemented!();
}

Boiethios

6:45 PM

Why cannot I write std::io::Result::Ok(2)?

E_net4

7:02 PM

playground-pls

Boiethios

fn main() {
    let _ = std::io::Result::Ok(2);
}

Shepmaster

8:25 PM

> note: did you mean variant::Ok?

that's so very wrong

Shepmaster

8:46 PM

@Boiethios Pretty sure this is going to be one of those "type aliases are kind of strange" issues

набиячлэвэли

11:39 PM

love me some T y E P s

@Shepmaster That is ridiculous, what the hell's happening there?

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