i mean yes

I just put everything in hashmaps

i feel like they have very little meaning

if you put them in a collection, or anything using generics, you get a wrapped object anyway

(aka, a class version of them)

That's not true

you cant extend them

Sometimes you want value semantics

generics don't box

which might be poor for forwards compat

(afaik)

generics dont box?

even object o = 1; gets boxed

And without structs, you can't really implement Nullable<T>

@Grace apart from structs being non-nullable

@Wietlol yeah because that's assigning to a reference type, duh

we can do that with classes too

@KendallFrey don't say duh, it's insensitive

@KendallFrey wait, with generics, C# compiler makes a shit ton of classes for each class right?

like, if somewhere in your code, you use Stuff<Int32>, you get a new class

No, you're thinking of templates

generics only have one instance of the code

in any case, if you would use the same class, with the same size, the storage where the struct instance is placed must be a reference, so it must be boxed

I'm pretty sure it's not

only if you generate different classes for different generic arguments, you can unwrap the structs

like I thought C# did

docs.microsoft.com/en-us/dotnet/csharp/programming-guide/…

Kids these days would never box their value types.

Haskell is great because every type is both a reference and a value

I make all my C# types immutable so my programs are more functional.

but for example, if you have a 64 bit operating system, would creating a List<byte> and adding 10 bytes to it have an internal "size" of 10 (10 bytes) or 80 (10 x 8-byte references)?

I think it stores it as bytes

Yeah, a List<T> is just an array behind the scenes

?

So it'd be weird if it stored it as anything but 10 bytes, plus whatever overhead the list and array itself have.

Goddamn it.

so, if I read it as a ReadonlyList<Object> and do list[0], does it box at that moment (when i read from the list)?

I didn't mean to paste that here.

@Wietlol Well, that's usually not possible, but yes

it isnt?

Oh, you mean the IReadOnlyList?

that's <out T> so it's fine

actually, no its not

Byte does not extend Object

indirectly it does

only the boxed version does

everything can be casted to object

@Wietlol the what?

structs cant

structs will be boxed

so a byte is not an object

it is according to is

Byte is not right according to T : Object

I'm pretty sure that's not because of byte

yeah, list is not necessarily an IReadOnlyList

Try using IList<somereferencetype>

@Grace that is not a generic

that is boxing

nope, it is because of Byte

mcve pls

IList appears to not be a readonly list though

so IList will always fail

@Wietlol well, that's a different case

@Wietlol that's my point

but it is because of Byte

Byte does not extend Object

Not the first one

it cant box/unbox them

@Wietlol it kind of does

@Wietlol What error does this give?

same as before

oddly

That's not the same...

I mean, pretty similar, but not the same

pretty damn similar

so that basically said "Wietlol was right"

about what?

Byte isnt Object because Object is reference and Byte is not

Where does it say that?

> Basically, variance applies when the CLR can ensure that it doesn't need to make any representational change to the values. References all look the same - so you can use an IEnumerable<string> as an IEnumerable<object> without any change in representation; the native code itself doesn't need to know what you're doing with the values at all, so long as the infrastructure has guaranteed that it will definitely be valid.

so, it cant box and unbox them

you either need to make a list of boxed value types and get variance or you make a list of unboxed value types and you are on your own

but since you cant actually make the boxing explicit without losing some knowledge about the values, this is kinda a bummer

dotnetfiddle.net/KNqJtx

b is object does a boxed version

how do you know?

im actually trying to think of a way to make an example

im not sure if you can make the explicit change

What about the fact that b.GetType().BaseType.BaseType == System.Object

can you see the generated code by the compiler?

Sure, hit the View IL button there

GetType() is from Object, it must be called on an object

b.GetType() must therefor be ((object) b).GetType()

Since it has these methods that can only be found by inheriting from Object

Would that not imply that it inherits from Object

first box, then GetType()

@Wietlol Yeah, but that's not the one you were talking about, is it?

@Grace the boxed Byte is a class that extends Object and has a byte field

the boxed Byte class is implicit and you are never supposed to interact with it

unlike how in Java, that class is an actual class

eg int - Integer

@Wietlol You seem to think there are two different types, one for boxed values, and one for native values. That's not the case.

the byte struct CANNOT extend Object

@Wietlol All structs extend object

because the struct must be a value type and an object must always be a reference type

@KendallFrey only their boxed version does

There is no boxed version of any type

boxing only applies to values

im not sure if you are trolling or not

boxing applies to every struct

All structs inherit from System.ValueType which inherits from System.Object

@Wietlol Not the struct type, but values of the struct

structs cannot extend classes

not ValueType, not Object

nothing

Because the compiler makes them extend System.ValueType

yea ok, that might be the reason

In C# they don't extend anything, but in the CLR they do

in any case, it appears it cant auto-box them

List<byte> has unboxed values

covariance? yeah, for reasons explained in that post

that brings us back to the original question, would you miss structs if they were gone

(except for the primitive types)

(aka, bool, byte, short, int, long, float, double, char, etc)

oh gosh now you're introducing a new and even more ambiguous term to the conversation

I think there's good reason to have DateTime have value semantics.

i know primitive actually means that it has stuff to do with the language, but meh

I can think of 3 different meanings of primitive

i stop at 2

!!giphy tornado penguin

@Grace would that reason be gone if it were a reference type?

li.rlemon.ca/tornado%20penguin#.png ...

@Wietlol No...?

i mean, what is the reason?

Because a date and time simply is what it is. It doesn't have an identity.

You can't have multiple instances of midnight Dec 31 1999

it just simply is that value

isnt that the same with a string?

Yes, strings also have value semantics

but a string is a class right?

yes

well, not a string

System.String is a class and a reference type

that behaves like a value type

but for the datetime one, is it really about performance to make it a struct?

I suppose struct has a slight performance edge there

I think it's mostly about semantics though

Yeah, it makes sense for DateTimes to be passed by value and whatnot

And for, say, date.AddDays(5) to return a new DateTime representing that date.

i guess for bytes and such, I will have to get the boxing to work anyway,

@Grace that can also be done for classes

Admittedly, it could probably go either way, but I think you get more of that behavior for free with a struct.

The naive way to implement DateTime is with a regular old mutable class, but I can see the value of it being a value type.

the tradeoff here is basically giving up the performance for the support of variance, extending and whatnot

And, really, why the heck would you want to extend DateTime

I would prefer to have everything be interfaces anyway

(What is a DateTime if not an int holding the number of seconds since some epoch anyways)

@Wietlol Is variance really that important?

so, that would make everything a reference type

@KendallFrey not directly

@Grace well, given that it is in fact not...

but i can see how some things might be really annoying

especially if most pair objects are structs

like a KeyValuePair

Just use haskell, it doesn't have reference types

im not sure if I like haskell any more

Sure, it's a little more complicated than that, but not by a whole lot.

@Wietlol It has over 50 different numeric types

what's not to like

(For one thing, it counts ticks)

I will write plain old LLVM IR

it has over 2 million numeric types

is that so

yep

maybe

almost 2 million

~1.94 million

Microsoft Help links: at best, links to generic help about the overall product. More often than not, though, the link has completely broken and now just goes to microsoft.com.

so that "{[(pi/2),0],[(pi/3),0],[(pi/3),(2*pi/3)],[(pi/3),(4*pi/3)]}"

cool story

the zeros were throwing me off

nev mind

Can't you just write, like,
new double[] { Tuple.Create(Math.Pi/2, 0) ...