Functional Programming

user1804599

1:40 PM

Let's write something in Scala.

user1804599

Something totally unrelated to game development and web development.

Ell

@rightfold what shall we write?

user1804599

A program that displays the current Moon phase with ASCII art.

Ell

I'm writing a java/scala wrapper atm

user1804599

What for?

Ell

1:56 PM

well it started because I wanted to write my own XMPP server in scala

but there aren't any asynchronous xml parsing libraries (that I can find)

so I was wrapping expat manually

but it's meh, I figure I should just try writing something to make wrapping easier and safer

Ell

2:21 PM

@rightfold can you tell me if the following code is idiomatic scala?

user1804599

Yes.

Ell

class Point[T : Numeric](var x: T, var y: T) {
    def transpose(dx: T, dy: T)(implicit num: Numeric[T]) = {
        x = num.plus(x, dx)
        y = num.plus(y, dy)
    }
}

I'm not sure of a better way to make it generic over numeric types besides using the implicit

user1804599

Why var instead of val?

user1804599

Why not a case class?

Cat Plus Plus

lol scala

Ell

2:23 PM

@rightfold because I want to be able to transpose the point

user1804599

case class Point[T](x: T, y: T) {
    def transpose(dx: T, dy: T)(implicit num: Numeric[T]) =
        Point(num.plus(x, dx), num.plus(y, dy))
}

Ell

@rightfold why would I use a case class here?

user1804599

@Ell Mainly for toString, equals, hashCode and pattern matching.

user1804599

@Ell return a new point.

user1804599

@FredOverflow do you do static analysing on the AST or the byte code?

FredOverflow

2:26 PM

@rightfold AST

user1804599

Oh wait you interpret the AST directly, right?

FredOverflow

nope

user1804599

Oh. :P

FredOverflow

I used to do that, but I have a VM now. For about half a year or something.

@rightfold But since FindBugs manages to do static analysis on the bytecode just fine, maybe one could look into that area as well...

user1804599

def isDefinitelyReferentiallyTransparent(expr: ast.Expression) = false this is a great start for my static analyser.

FredOverflow

2:30 PM

@rightfold You should leave it as that and ship it.

Ell

@rightfold I'm terrible aren't I:

case class Point[T : Numeric](val x: T, val y: T) {
    def transpose(dx: T, dy: T) =
        Point[T](evidence$1.plus(x, dx), evidence$1.plus(y, dy))
}

user1804599

val is implicit on case classes.

FredOverflow

@Ell What is evidence$1?

user1804599

And don't use those magic names directly. Use an explicit implicit.

FredOverflow

implicitly[T] or something?

user1804599

2:31 PM

@FredOverflow case class Point[T: Numeric](…) is equivalent to case class Point[T](…)(implicit evidence$1: Numeric[T]).

FredOverflow

"evidence" sounds inspired by SPJ.

Oh wait, actually, he'd call it "witness".

@rightfold So T: Numeric means T lies in the Numeric typeclass? Is it typeclass or type class?

user1804599

  def isDefinitelyReferentiallyTransparent(expr: ast.Expression): Boolean =
    expr match {
      case ast.IntegerLiteral(_) => true
      case ast.TupleLiteral(elements @ _*) =>
        elements.forall(isDefinitelyReferentiallyTransparent)
      case _ => false
    }

user1804599

@FredOverflow Now shipping is more fun!

Jerry Coffin

@FredOverflow Yes.

user1804599

@FredOverflow Yes.

user1804599

2:36 PM

@FredOverflow But if you want to use members of said type class then you need an explicit implicit parameter.

user1804599

user1804599

That's nice. :)

FredOverflow

← 48 messages moved from Lounge<C++>

Ell

oh hey

user1804599

def isDefinitelyPure(fn: ast.Function) = isDefinitelyReferentiallyTransparent(fn.body) :D

Ell

2:45 PM

@rightfold why Definitely? :P

user1804599

Because I cannot automatically detect purity for every expression.

user1804599

For example:

user1804599

let f g = g 42

user1804599

g 42 could be referentially transparent, but it might not be. It depends on what was passed in at runtime.

user1804599

But I cannot detect that at compile time.

Ell

2:54 PM

ohhh

I see

user1804599

However, 42 + 89 is definitely referentially transparent.

user1804599

4:34 PM

object ConstantFoldingPass extends Pass {
  override def apply(instructions: Vector[Instruction]) = {
    val result = new VectorBuilder[Instruction]
    instructions.foreach {
      case AddInstruction(id, IntegerInstruction(_, a), IntegerInstruction(_, b)) =>
        result += IntegerInstruction(id, a + b)
      case instruction => result += instruction
    }
    result.result()
  }
}

user1804599

This should work!

user1804599

  "ConstantFoldingPass" should "add integers" in {
    val a = IntegerInstruction(InstructionID(), 1)
    val b = IntegerInstruction(InstructionID(), 2)
    val add = AddInstruction(InstructionID(), a, b)
    val instructions = Vector(a, b, add)
    val optimizedInstructions = ConstantFoldingPass(instructions)
    optimizedInstructions shouldBe Vector(a, b, IntegerInstruction(add.id, 3))
  }

user1804599

It works!

user1804599

However, it doesn't propagate the replacement of the add instruction through.

FredOverflow

@rightfold Oh, I didn't know about VectorBuilder. Nice!

user1804599

4:48 PM

Oh, fuck. Cancer. This doesn't work.

user1804599

I need more indirection.

user1804599

object ConstantFoldingPass extends Pass {
  override def apply(instructions: Seq[(InstructionID, Instruction)]) =
    instructions.zipWithIndex.foldLeft(instructions) { case (result, ((id, instruction), index)) =>
      instruction match {
        case AddInstruction(aID, bID) =>
          val aOp = result.find(_._1 == aID).get._2
          val bOp = result.find(_._1 == bID).get._2
          (aOp, bOp) match {
            case (IntegerInstruction(a), IntegerInstruction(b)) =>
              result.updated(index, id -> IntegerInstruction(a + b))

user1804599

This works better, but it's so fucking ugly.

user1804599

5:05 PM

@FredOverflow is there a way to eliminate the duplicate case _ => result?

user1804599

Hmm.

user1804599

  object FindIntegerInstruction {
    def unapply(id: InstructionID)
               (implicit instructions: Seq[(InstructionID, Instruction)]) =
      findInstruction(id, instructions) match {
        case i: IntegerInstruction => Some(i)
        case _ => None
      }
  }

  override def apply(instructions: Seq[(InstructionID, Instruction)]) =
    instructions.zipWithIndex.foldLeft(instructions) { case (result, ((id, instruction), index)) =>
      implicit val instructionList = result
      instruction match {

user1804599

Just a custom extractor! :D

Ell

@rightfold ahhh

FredOverflow

5:29 PM

@rightfold Where? I don't see it.

Jerry Coffin

case _ => result
}
case _ => result

The end of the code (other than closing braces).

FredOverflow

6:02 PM

@JerryCoffin You could catch a MatchError ;)

user1804599

6:15 PM

eww

Ell

I might write a function differentiator

FredOverflow

@Ell You mean like in the classic LISP book?

Ell

I haven't read the classic LISP book o.O

I feel like the problem would lend itsself to case classes

FredOverflow

amazon.com/dp/0262510871

It's an example in one of the first chapters IIRC.

Jerry Coffin

@FredOverflow That's really the classic for Scheme. FWIW, it's also available freely online (legitimately). mitpress.mit.edu/sicp

user1804599

6:29 PM

@FredOverflow One of the best books ever.

Ell

how do I pattern match on function parameters?

ie

user1804599

def f(x: T) = x match { … }

Ell

I meant something else, but it dm, I got it now :)

with pattern matching, do the higher patterns get higher precedence?

user1804599

Cases are tried from top to bottom.

Ell

kk cool

hmm

I wonder if I can apply traits to case classes

user1804599

6:43 PM

Case classes can extend traits.

user1804599

You can also mix them in upon construction when new is used, but beware that copy will not consider them in that case.

Ell

I have some case classes - sum/difference/product/quotient/exponent/variable/constant and I want a polynomial case class but I'm not sure how it'd be defined

so I was thinking I wonder if I can make a trait that will assert certain properties on the input and check if it is a polynomial or not

user1804599

trait Polynomial
case class Sum(addents: Seq[Polynomial]) extends Polynomial
case class Product(factors: Seq[Polynomial]) extends Polynomial

Ell

well. I'll show you what I have

abstract class function
case class sum(lhs: function, rhs: function) extends function
case class difference(lhs: function, rhs: function) extends function
case class product(lhs: function, rhs: function) extends function
case class quotient(numerator: function, denomenator: function) extends function
case class exponent(base: function, exponent: function) extends function
case class logarithm(base: function, exponent: function) extends function
case class variable(name: String) extends function

and then this:

  def differentiate(f: function): function = {
    f match {
      case sum(lhs, rhs) => sum(differentiate(lhs), differentiate(rhs))
      case difference(lhs, rhs) => difference(differentiate(lhs), differentiate(rhs))
      case product(lhs, rhs) => sum(product(lhs, differentiate(rhs)), product(rhs, differentiate(lhs)))
      case quotient(numerator, denomenator) => quotient(difference(product(denomenator, differentiate(numerator)), product(numerator, differentiate(denomenator))), exponent(denomenator, constant(2)))

user1804599

Do case object e extends function.

Ell

6:45 PM

(sorry for wall of code)

user1804599

Parameterless case classes are silly.

Ell

kk

@rightfold can I still match against that?

user1804599

Yes.