6

I am trying to achieve the example shown in Martin Odersky's CourseRa Scala course to try and display expressions holding Sums/Prods using appropriate brackets. I came up with the below solution:

package expressions

trait Expr {
    def eval : Int = {
      this match {
        case Number(n) => n
        case Sum(e1,e2) => e1.eval + e2.eval
      }
    }
    //def show( exp : Expr) : String
}

case class Number(n:Int) extends Expr
case class Sum(e1: Expr, e2: Expr) extends Expr
case class Prod(e1 : Expr, e2 : Expr) extends Expr
case class Var(x:Char) extends Expr

object testExpr {
  def show(exp : Expr) : String = {
    exp match {
      case Number(x) => x.toString()
      case Sum(e1, e2) => show(e1) + "+" + show(e2)
      case Prod(e1,e2) => 
        val st1 = e1 match {
          case Sum(a,b) => "(" + show(Sum(a,b)) + ")"
          case _ => show(e1)
        }
        val st2 = e2 match {
          case Sum(a,b) => "(" + show(Sum(a,b)) + ")"
          case _ => show(e2)
        }
        st1 + "*" + st2
      case Var(x) => x.toString
    }
  }
}

object test extends App{

  println(testExpr.show(Sum(Number(1),Number(2))))
  println(Sum(Number(1),Number(3)).eval)
  println(testExpr.show(Sum(Number(2),Prod(Number(10),Var('x')))))

  println(testExpr.show(Sum(Prod(Number(2),Var('x')),Var('y'))))
  println(testExpr.show(Prod(Sum(Number(2),Var('x')),Var('y'))))
  println(testExpr.show(Prod(Sum(Number(2),Var('x')),Sum(Number(3),Var('y')))))
}

The way I am deciding on putting the brackets is definitely not the best solution. Can anyone suggest a better solution to achieve the same.

Thanks and Regards, Paromita

  • 5
    As per the Coursera Honor Code, you are not supposed to share solutions with other students. I suggest you delete this question. – Robin Green Nov 9 '13 at 7:48
  • 2
    Hi Robin, It is only a part of the practise exercises/examples used in the course. It is not part of any of the assignments in the course. – ParoTech Nov 9 '13 at 15:18
  • If in the code above you try to add the "e1 match" and the "e2 match" expressions together directly, without using the val st1 and st2 , as in "e1 match { ..... } + " * " + e2 match { ..... }" , why do you get an error message on the + in front of the " * " ? – pvbemmelen62 Nov 3 '16 at 14:04
5

you were pretty close actually. the code i've come up with is as follows:

case Variable(name) => name

case Product(e1, e2) => "%s * %s".format(
  e1 match {
    case Sum(_, _) => "(%s)".format(show(e1))
    case _ => show(e1)
  },
  e2 match {
    case Sum(_, _) => "(%s)".format(show(e2))
    case _ => show(e2)
  }
)

which would be further rewritten using tuple matching as

case Product(e1, e2) =>
  val format = (e1, e2) match {
    case (Sum(_, _), _) => "(%s) * %s"
    case (_, Sum(_, _)) => "%s * (%s)"
    case (_, _) => "%s * %s"
  }
  format.format(show(e1), show(e2))
  • 1
    Don't you need this?: case (Sum( _, _), Sum( _, _)) => "(%s) * (%s)" – Sean Geoffrey Pietz Jan 31 '14 at 5:23
  • In the lecture, Odersky does not tell anything about pattern combining – Val Jun 22 '14 at 16:50
6

Somewhat similar to ParoTech's and Val's, only slightly DRYer:

def show(e: Expr): String = {

  def paren(e:Expr) = {
    e match {
      case Sum(_, _) => "(" + show(e) + ")"
      case _ => show(e)
    }
  }

  e match {
    case Number(n) => n.toString
    case Var(s) => s
    case Sum(e1, e2) => show(e1) + " + " + show(e2)
    case Prod(e1, e2) => paren(e1) + " * " + paren(e2)
  }

}
2

I guess that supposed solution is to prefix

   case Prod(l, r) => show(l) + "*" + show(r)

with

   case Prod(Sum(sl, sr), r) => "(" + show(sl) + " + " + show(sr) + ")" + "*" + show(r)

as demonstrated here https://github.com/glebd/scala-course/blob/master/workspace/hello-project/src/week4/exprs.sc

The resulting code is

  def show(e: Expr): String = e match {
      case Number(n) => n.toString
      case Var(v) => v
      case Prod(Sum(e1, e2), Sum(e3, e4)) => "(" + show(e1) + "+" + show(e2) + ")*(" + show(e3) + "+" + show(e4) + ")"
      case Prod(Sum(e1, e2), e3) => "(" + show(e1) + "+" + show(e2) + ")*" + show(e3)
      case Prod(e1, Sum(e2, e3)) => show(e1) + "*(" + show(e2) + "+" + show(e3) + ")"
      case Sum(e1, e2) => show(e1) + "+" + show(e2)
      case Prod(e1, e2) => show(e1) + "*" + show(e2)
  } 

I have no idea what Krupennik's solution is supposed to do. Oderski did not demonstrate constructions like that. But this solution sheds some light on what Krupennik is doing.

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