@HéctorÁlvarez almost

@JonathonChase you do not want to see my recent visitors

Well now I think I do.

I generated some visitors for the program tree on my compiler

AST (which is per file) and PID (which is the entire program)

Oh, yeah, those should be pretty rough.

the base visitor is an interface with a lot of no-op template methods

one for each type of node in the code

I think the C# compiler team does something similar.

many do

Atleast I recall reading an eric lippert article about code generated visitors being used.

What are you using to generate the visitors?

my own templates :D

ReadAllLines, Loop, Regex, Interpret, Done :D

I do wish to refactor them somehow but they do work now at least

they are generated by the same tool that generates the model classes

which is also the same tool that generates the (de)serializers for those models

all based on the model declaration

Have you used, oh what's it called... Jetbrains MPS?

nope

the syntax is slightly based on protobuf, but kotlinized :D

message Person {
  required string name = 1;
  required int32 id = 2;
  optional string email = 3;
}

the syntax for the models for me is slightly different

I parse it using a tool similar to antlr... I also made that tool myself

antlr is another piece of tech i've been meaning to familiarize myself with

this looks more like if Kyle Broflovski became a furry

South Park lol

dynamic grammar seems like a good way to shoot yourself in the foot

it surely is

it is my approach of operator overloading

and any other form of alternative syntax

for example

If I overloaded, say, (+) on an integer type at runtime, would that change it's behavior for the entire lifecycle of the application?

@AlternativeSyntax("@left '+' @right")
function plus(left: Integer, right: Integer) -> Integer
{ ... }

this is part of the base sdk

without it, 1 + 1 is invalid syntax

But I could choose time of execution? Like, say, when a particularly co-worker was the user account running the code?

the function is also annotated as @Native, which means the compiler must provide the implementation

Anything like goroutine?

@DKDhilip oh god that is terrifying

wtf is with his lips

@JonathonChase what?

Can I conditionally override a piece of the grammar at runtime?

oh, dynamic grammar is only at runtime of the compiler

which is at compile time of your application

@AlRey You can get one from: amazon.com/BUYSEASONS-South-Park-Kyle-Mask/dp/B005LLJBT4

Well, that really limits my trolling potential.

it surely does

the only rules so far are that parens and braces "(){}" must remain balanced

this because the compiler first needs to analyze the structure of the code before it can parse the expressions

How about types? are you going for higher kinded polymorphism or are you sticking to first order generics?

higher kinded polymorphism?

first order generics?

how about mixing some more terms

COALGEBRA

sorry

Yeah, are your generics going to be able to be generic?

I'm out

I still dont understand

from a C# perspective, what is higher kinded polymorphism? and first order generics?

First order generics are the regular generics we have in C#.

higher kinded polymorphism isn't supported in C#

then I will have first order generics

but would allow you to define a base type for generic types that can be acted upon

sure

type Tree<Node extends TreeNode> { ... }

This is the C# language feature thread for HKP

same with

type Stuff<T super String> { ... }

type Tree<Node> where Node extends TreeNode, new() { ... }

@DKDhilip that's a mask? I thought it was a pillow o-o

@JonathonChase I think that is just standard generics tho

Well, the higher-kinded stuff would be allowing you to declare types/functions that could act on both Tree and Stuff in a common way without the need to specify what their generic type parameters are.

@AlRey I also thought that at very first glance...

function <T extends ICollection<A>, A> Sequence<A>.to() -> T
{
	value ta = sorcery
	forEach { ta.add(it) }
	return(ta)
}

except for the sorcery

that is just forbidden

the problem is that the example in the language feature request is not safe

> T is constrained to be a generic type definition with one type parameter.

> var ta = new T<A>();

how about class Bork<T> : ICollection<String> ?

oh, lets just do this

myStuff.To<Bork<?>, Int32>()

aka var ta = new T<?>() (question mark doesnt matter

and (ta as ICollection<String>).Add(x as Int32)

now your code is bork

One thing before leaving for good

Reminder of old XKCD

but your compiler completely agreed with it being "absolutely safe to run"

because... well... it is strongly typed, right?

Why the hell the thumbnail is expressed as AA/BB/CC!

that blog on the bottom looks like something I've seen in a hotbox pizza bathroom

It's not even clear which one's the day, or the month

that said, gtg

think about it

star it

discuss tomorrow, that's your homework

var obj = stackalloc Something<string32>();

I want that kind of magic

@JonathonChase the same problem with where T : new()

that is also forbidden

not all classes have a parameterless constructor

so, by principle, there will be a class that has no parameterless constructor, but you do want to use it as T

instead, a function reference (pointing to the constructor) should be passed, which would act as a factory method for the To function

well, new() is already a generic constraint for C#

Link to the actual site to get the rollover text

@JonathonChase true, but it is stuff like that that makes me cry

There's probably a way to safely pass a type constructor though. Although I'm not sure what it is.

but where T : <> is only really needed for the new

at least in this example

so, either, it is a bad example, or it is a bad feature

on the bright side, I have Java level generics

so, you get a ton of more power anyway

Probably just a bad example. The feature aims to be able to allow you to generalize types like Functor or Monad

with stuff like ? super X or ? extends X

what implementation would you like for a function that accepts any Functor or Monad as input?

I'd like to be able to let the compiler figure out generic type parameters without having to specify them explicitly.

public interface IFunctor<T>
{
    IFunctor<T> Filter(Func<T, Boolean> predicate);

    IFunctor<R> Map<R>(Func<T, R> mapper);
}

oh, how weird, IEnumerable could implement this interface

as would Task, Lazy, Optional, Result and many more

Okay, but now you want to write something that acts on arbitrary Functors.

and do... what?

Maybe I want to compose them

read their "Value" property?

remind me what compose does

there is no action you can safely do without having the function or property being declared in the IFunctor interface

so, either, you remove type safety, or you use the IFunctor interface

and my choice is to use the interface

on the other bright side, I have the implicit type :D

I'm out of my depth here on this in any case.

function <T> unWrap(wrap: implicit) -> T
{
	return(wrap.value)
}

this function, at compile time, will generate a new interface

an anonymous one, with a property value of generic type T

it is applied to every class or interface that can possibly implement it

so, even if Lazy<T> does not implement any interface by default, it would now implement that new interface and be a valid argument for this function

and, you could even supply adapter implementations for the types you want the interface to apply to

you need it because Lazy<T> is badly designed for not having an interface

Is it actually badly designed or just wietlol-badly-designed

I'm only half paying attention

probably both

I just dont understand the use case of higher kinded polymorphism

and no one is able to give me an example of where it is actually useful

but I am off, laytar

Yeah I don't understand what it's for

Looks like interfaces but more hard

okay I saw Harry leaving the room and I legit thought there was a bug walking across my screen when it did the animation

I have a List<Words> collection in a Paragraph type. I'd like to check if any of the word has ':' in it, if that index is > -1, I also want to check if there is any other word after that colon's index in paragraph.

The paragraph type also has a property 'Text' string which has all the words in it as one string.

What do you want to return?

I want to set a property of a paragraph enum, if ':' if the last character in the paragraph, enum.ContainsKeyAndColon else if there's any word\characters(except empty string) present, enum.ContainsKeyColonValue

para.WordsInParagraph.Any(s=>s.WordText.IndexOf(':') > -1 ?  Action to check if there's a word after : no keyValuePair)

Enumberable<T>.Any returns a single item. but instead is there a better way ?

para.IsKeyValueContentType = para.//Check the above conditions.

What if there's a word that has a : between two words and a word that has a : at the end?

a word is set of characters without space in it. so word usually has : at the end all the time

in the same cell if there are more than one : and words before and after, i could stills set contains key value pair enum. Processing that will be next stage

Oh, so you're looking for a word that has a :, then want to know if there are any words after that one?

exactly !

I have two data to check this. 1.Paragraph.Text which is a string of whole paragraph text. and 2. List<Words> in Paragraph that could contain ':'

alternatively,

var hasWords = words.SkipWhile(w => !w.Contains(":")).Skip(1).Any();
var hasOtherWords = otherWords.SkipWhile(w => !w.Contains(":")).Skip(1).Any()

Thanks! did not know about skipwhile

@Wietlol Oh! I remembered what the advantage was over your IFunctor<T> example. The return type would be the type that is implementing the Functor, and not IFunctor<T>. ie if IEnumerable<T> was implementing it, the result of Map<T,U> would be IEnumerable<U>, not IFunctor<U> while still maintaining the contract.

@markharringson Says localhost refused to connect.

Are you there?

Hello?!

dude was last seen 9 hours ago

@JonathonChase oh, that one is cute too

you should take a look at how Java's overriding method signature works

it is a much more powerful and comfortable approach

I'll look at it some time.

Been busy trying to shove haskell into my brain. So far it's not working.

for example using this type tree

interface A
interface B : A
interface C : B

class T1
{
	virtual B foo(B b)
	{ ... }
}

foo takes B and returns B

now, in C#, all subclasses that override foo must also do B -> B

in Java, the compiler is a bit smarter

class T2 : T1
{
	override C foo(A a)
	{ ... }
}

this class says "not only can I work with Bs, I can even work with As, so give me any A and I can work with it"

and "not only will I guarantee you receive a B, I can even guarantee you receive a C"

it provides more information on return types and asks for less information on parameters

in actual use cases, you could say IEnumerable.Map returns IEnumerable

but my List implementation guarantees that the return type is an IList

so, List<Integer> newList = myStrings.map { it.toInteger() }

it could even be a lazy list

applying the map when you access an item

@JonathonChase the overriding function

from T2

Do parameters have to be contravariant?

but anyway, I gtg rn

alright, have a good one.

I guess ill be online in about 1.5 hours

Jack, tumbleweed

i.stack.imgur.com/3xqGt.jpg ...