Rust

12:01 AM

@trentcl also reload the gist

fixed it

@trentcl the reason I'm thinking of doing this is because it's the exact opposite for me of "but I guess I can't think of an API where I would want to use one"

in almost all data structures I can think of I want Option<Key>, not Key

trentcl

@orlp That's the thing... I always want Option<Key>, never NullableKey

orlp

@trentcl but keys are already nullable

because you can remove them from the slotmap

it's a complexity you have to deal with regardless

trentcl

I see what you mean

orlp

the only difference between a key and a nullablekey is that there is one distinct value in a nullablekey that can never be a valid key

if you couldn't remove keys from the slotmap ever

I'd agree with you

I do make one promise

and that the only source of key.is_null is if you make one yourself with Key::null()

the slotmap will never give you a null key

so it's an entirely optional feature

trentcl

It's similar to Weak::new() in that respect

orlp

12:08 AM

@trentcl Keys are very much weak pointers yes

that's the slotmap

the slotmap owns things

and gives out weak pointers to what it contains

@trentcl I'm confused

why does Weak::new say that it allocates space for T?

trentcl

@orlp it did, until 9 days ago

orlp

@trentcl alright

guess I'm not that weird for questioning that :P

trentcl

I'm not sure why it wasn't written this way to begin with

I guess it's more special cases

Anyway, back to slotmap.

I think all the accesses to sm in gist.github.com/orlp/29180422ee302a8a4fde280605f85c27 are guarded by an .is_null() anyway

orlp

@trentcl the one's in push are unavoidable

because we actually have different behavior dependon the null

trentcl

@orlp Of course. But you're still checking twice

orlp

12:19 AM

I think I can rewrite it

yes this is much better

sec

and also a much better example of why nullable keys are pretty cool here

trentcl

also fwiw, crates.io/crates/optional may be of interest to you, although I don't think it applies directly

orlp

@trentcl gist.github.com/orlp/129723cea11e46b964b4376777aa9c81

there, much better

oops fixing a little bug

(the len() checks should now be == 0)

done

@trentcl I think this is a much better example of how much nicer nullable keys are

trentcl

@orlp I agree and I will allow myself to be convinced by this example

I still dislike it a little ;)

orlp

haha

I mean

it could lead to subtle bugs

because if you code like this null vs removed is not distinguished

trentcl

Yeah, but I find it hard to argue against it on those grounds (because Weak is the same way, and for basically the same reason, as you said)

orlp

12:30 AM

I think I'll include it

strictly for speed reasons

if you don't want to use it

it's not forced upon you

you can always use Option<Key> explicitly

actually

I can't keep that promise if I implement Key::default, kinda?

trentcl

@orlp eh, I think you've made a good case that nullable Keys are valid, so...

orlp

yeah, fuck it :P

only question is

Key::null vs Key::new

precedent says Key::new

but I kinda like Key::null explicitly

because people might definitely be confused into thinking that they can create and choose their keys

trentcl

12:45 AM

@orlp null seems better to me as well.

Peter Hall

1:22 PM

Is there something I can add in my Cargo.toml to add default arguments for when I'm calling cargo build?

For example, to avoid typing

$ cargo +nightly build --target wasm32-unknown-unknown --release

I could make a bash script or something, but wondering if there is an official cargo way?

Shepmaster

1:33 PM

@FrancisGagné I think that adding blanket impls is straight up not backwards compat. That's why TryFrom isn't stable, becasue they want to add a blanket impl involving !

@PeterHall half and half and no

rustup override set nightly

.cargo/config:

[build]
target = "wasm32-unknown-unknown"

I don't know anything for --release

TBH, I created a Makefile for my embedded work that's basically the same thing

Peter Hall

1:50 PM

ah, ok, target is what I was missing

Shepmaster

3:51 PM

Look at @PeterHall in the "hot meta posts" sidebar

Stargateur

@Shepmaster drama again ?

Shepmaster

nah, just flagging messages doesn't have good context meta.stackoverflow.com/questions/371128/…

Peter Hall

4:08 PM

@Shepmaster Yeah just boring stuff

E_net4

4:49 PM

@Shep It's good time to work on this runtime endianness crate.

Shepmaster

is that so?

E_net4

@Shepmaster What say you?

Shepmaster

@E_net4 I forget my original concrete use case

;-)

E_net4

But you know it exists. And prior research suggests that there is still no crate for this.

I'm thinking about creating a repo.

kennytm

o_O i remembered such a package exists. iirc i used it once before

E_net4

4:53 PM

@kennytm Linky?

kennytm

something like a dynamic version of byteorder right?

E_net4

Aye. And endianness doesn't count.

kennytm

ouch XD what about scroll

E_net4

5:07 PM

Hmm... looks like a canon.

Shepmaster

@E_net4 why not?

E_net4

@Shepmaster The methods do not take arbitrary Read endpoints, only &[u8].

And no writing at all.

scroll would have been interesting if it wasn't riddled with other odd stuph. It also does not do efficient reading/writing with a static endianness, like byteorder does. One has to pass an Endian enum value every time.

kennytm

so you will use it like EndianReader(endian, my_reader).read_u32()?

E_net4

6:33 PM

@kennytm That's about the reason why we don't have it yet: no concrete API for this was proposed

That is an interesting idea, but it could be something else.

kennytm

ah

though i don't see any other way you could do something else if you don't want to pass Endian every time

orlp

@kennytm that's not a big deal though?

.read_u32_le() .read_u32_be() and .read_u32(endian)

where the former two are shortcuts for the latter

kennytm

@orlp that .read_u32(endian) is passing the Endian everytime...

i suppose E_net4's library doesn't need to support a static endian.

orlp

@kennytm if you don't want that you can use the _le or _be variants?

E_net4

@kennytm It would integrate well with byteorder, so indeed.

kennytm

6:39 PM

the point is the endian is unknown at compile-time

orlp

@kennytm eh I'm sorry?

E_net4

As long as we can into_inner to retrieve the original RW, such a wrapper where we give the endianness once seems ok.

orlp

usually when you're read ing some integer from an encoded source

E_net4

@orlp Not always, no.

orlp

I assume the protocol specifies one or the other byte order

kennytm

6:40 PM

@orlp github.com/BurntSushi/byteorder/issues/95

orlp

that's so silly

E_net4

@orlp Some protocols define byte ordering depending on the data itself.

orlp

@E_net4 that's fine

E_net4

Silly or not, it's the state of things.

orlp

but still nothing to do with native byte order

.read_u32_le() .read_u32_be() and .read_u32(endian) still perfectly cover that

kennytm

6:42 PM

nobody talked about native byte order :confused:

orlp

@kennytm I thought you did when you referred to it being unknown at compile-time

E_net4

@orlp You don't have the third method in byteorder. At least not one supporting an arbitrary Read/Write.

kennytm

@orlp the native byte order is known at compile time (thus byteorder has the NativeEndian type alias)

E_net4

@orlp The data's endianness is unknown at compile time, not the system's endianness. :P

kennytm

@orlp unknown means e.g. you need to read UTF-16 and the BOM defines whether those u16 are little or big endian.

orlp

6:44 PM

@E_net4 may I introduce you to early ARM systems? :P

it's LE or BE depending on whether a pin is connected

bi-endianness

E_net4

@orlp No need. Let's all do middle endian instead. A perfect balance.

4

kennytm

@orlp well technically the late ARM has the SETEND instruction :p

orlp

assert_eq!(517, rdr.read_u16::<BigEndian>().unwrap());
assert_eq!(768, rdr.read_u16::<BigEndian>().unwrap());

ew

I'm sorry but that's just bad design

E_net4

Well...

What exactly do you have in mind? :)

orlp

.read_u16_be

why is it a type parameter?

there's just no good reason for it from what I can see

and actively hurts usage

kennytm

6:49 PM

.read_u16()?.to_be() :shrug:

orlp

with all due respect, it kinda feels like a hamfisted "look ma - generics!" without regards for usability

E_net4

@orlp It means one can write a read_foo<E> instead of a read_foo_le and a read_foo_be. Admittedly, the usefulness is a bit arguable.

One can alias the byte order type into something shorter: type LE = LittleEndian;

orlp

still awful

there's just no reason for it to be a type

it's not a type

also why are there so many read functions?

couldn't you just write read_le, read_be with generic return type T and infer T?

e.g. play.rust-lang.org/…

this is an even worse offender:

fn read_u16_into<T: ByteOrder>(&mut self, dst: &mut [u16]) -> Result<()> { ... }
fn read_u32_into<T: ByteOrder>(&mut self, dst: &mut [u32]) -> Result<()> { ... }
fn read_u64_into<T: ByteOrder>(&mut self, dst: &mut [u64]) -> Result<()> { ... }
fn read_i16_into<T: ByteOrder>(&mut self, dst: &mut [i16]) -> Result<()> { ... }
fn read_i32_into<T: ByteOrder>(&mut self, dst: &mut [i32]) -> Result<()> { ... }
fn read_i64_into<T: ByteOrder>(&mut self, dst: &mut [i64]) -> Result<()> { ... }
fn read_f32_into<T: ByteOrder>(&mut self, dst: &mut [f32]) -> Result<()> { ... }

isn't that a huge code smell?

fn read_into<T: ByteOrder, R>(&mut self, dst: &mut [R]) -> Result<()> { ... }

I don't want to seem overly negative, but I genuinely feel this is poor design

Zarenor

7:05 PM

Types are used as facts and markers all the time in rust. It's not costly, as it might be in other C-like languages, because rust has true ZSTs
To address your other point, it doesn't seem easy to write the implementation for arbitrary T - I guess it could be done for integral types reasonably well, but how are you going to handle it for arbytrary structures?

Heh. typo'd a pun

orlp

it's not about speed

it's about design

a marker type can be fine when it makes sense

but here it just doesn't

and it actively hurts ergonomics

no one wants to type .read_u16::<BigEndian>() or even .read_u16::<BE>()

@Zarenor forgive me if I'm wrong, but can't you make a new trait?

ByteSerializable or smt

and you implement it for each T that you want, such as i64, f64, etc

fn read_into_le<T: ByteOrder, R: ByteSerializable>(&mut self, dst: &mut [R]) -> Result<()> { ... }
fn read_into_be<T: ByteOrder, R: ByteSerializable>(&mut self, dst: &mut [R]) -> Result<()> { ... }

I wouldn't worry about arbitrary structures though, isn't that more serde territory?

I guess you could maybe make some macros that make sense for C-style structs

Zarenor

Mmmm. Sure, you could do that. I see where you're going.

orlp

eh you'd obviously remove T: ByteOrder :)

either way

it's bedtime for me

good night

Peter Hall

11:23 PM

What's going on here? This works: https://play.rust-lang.org/?gist=3160c9a6bbff6f858fa391af3a66a388&version=stable&mode=debug&edition=2015
but it doesn't work if i change the `Fn` to `FnOnce`.

I get:

> error[E0161]: cannot move a value of type std::ops::FnOnce() -> T + 'static: the size of std::ops::FnOnce() -> T + 'static cannot be statically determined

I don't follow why the size can be determined when it's Fn but not when it's FnOnce

ok, never mind. stackoverflow.com/questions/30411594/…

Yikes. This conversation has been going on for a while: github.com/rust-lang/rust/issues/28796

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