--- a/marking4/postfix.scala Fri Apr 26 17:29:30 2024 +0100
+++ /dev/null Thu Jan 01 00:00:00 1970 +0000
@@ -1,103 +0,0 @@
-// Shunting Yard Algorithm
-// by Edsger Dijkstra
-// ========================
-
-object CW9a {
-
-type Toks = List[String]
-
-// the operations in the simple version
-val ops = List("+", "-", "*", "/")
-
-// the precedences of the operators
-val precs = Map("+" -> 1,
- "-" -> 1,
- "*" -> 2,
- "/" -> 2)
-
-// helper function for splitting strings into tokens
-def split(s: String) : Toks = s.split(" ").toList
-
-// (6) Implement below the shunting yard algorithm. The most
-// convenient way to this in Scala is to implement a recursive
-// function and to heavily use pattern matching. The function syard
-// takes some input tokens as first argument. The second and third
-// arguments represent the stack and the output of the shunting yard
-// algorithm.
-//
-// In the marking, you can assume the function is called only with
-// an empty stack and an empty output list. You can also assume the
-// input os only properly formatted (infix) arithmetic expressions
-// (all parentheses will be well-nested, the input only contains
-// operators and numbers).
-
-// You can implement any additional helper function you need. I found
-// it helpful to implement two auxiliary functions for the pattern matching:
-//
-
-def is_op(op: String) : Boolean = ops.contains(op)
-
-def prec(op1: String, op2: String) : Boolean = precs(op1) <= precs(op2)
-
-
-def syard(toks: Toks, st: Toks = Nil, out: Toks = Nil) : Toks = (toks, st, out) match {
- case (Nil, _, _) => out.reverse ::: st
- case (num::in, st, out) if (num.forall(_.isDigit)) =>
- syard(in, st, num :: out)
- case (op1::in, op2::st, out) if (is_op(op1) && is_op(op2) && prec(op1, op2)) =>
- syard(op1::in, st, op2 :: out)
- case (op1::in, st, out) if (is_op(op1)) => syard(in, op1::st, out)
- case ("("::in, st, out) => syard(in, "("::st, out)
- case (")"::in, op2::st, out) =>
- if (op2 == "(") syard(in, st, out) else syard(")"::in, st, op2 :: out)
- case (in, st, out) => {
- println(s"in: ${in} st: ${st} out: ${out.reverse}")
- Nil
- }
-}
-
-
-// test cases
-//syard(split("3 + 4 * ( 2 - 1 )")) // 3 4 2 1 - * +
-//syard(split("10 + 12 * 33")) // 10 12 33 * +
-//syard(split("( 5 + 7 ) * 2")) // 5 7 + 2 *
-//syard(split("5 + 7 / 2")) // 5 7 2 / +
-//syard(split("5 * 7 / 2")) // 5 7 * 2 /
-//syard(split("9 + 24 / ( 7 - 3 )")) // 9 24 7 3 - / +
-
-//syard(split("3 + 4 + 5")) // 3 4 + 5 +
-//syard(split("( ( 3 + 4 ) + 5 )")) // 3 4 + 5 +
-//syard(split("( 3 + ( 4 + 5 ) )")) // 3 4 5 + +
-//syard(split("( ( ( 3 ) ) + ( ( 4 + ( 5 ) ) ) )")) // 3 4 5 + +
-
-// (7) Implement a compute function that evaluates an input list
-// in postfix notation. This function takes a list of tokens
-// and a stack as argumenta. The function should produce the
-// result as an integer using the stack. You can assume
-// this function will be only called with proper postfix
-// expressions.
-
-def op_comp(s: String, n1: Int, n2: Int) = s match {
- case "+" => n2 + n1
- case "-" => n2 - n1
- case "*" => n2 * n1
- case "/" => n2 / n1
-}
-
-def compute(toks: Toks, st: List[Int] = Nil) : Int = (toks, st) match {
- case (Nil, st) => st.head
- case (op::in, n1::n2::st) if (is_op(op)) => compute(in, op_comp(op, n1, n2)::st)
- case (num::in, st) => compute(in, num.toInt::st)
-}
-
-// test cases
-// compute(syard(split("3 + 4 * ( 2 - 1 )"))) // 7
-// compute(syard(split("10 + 12 * 33"))) // 406
-// compute(syard(split("( 5 + 7 ) * 2"))) // 24
-// compute(syard(split("5 + 7 / 2"))) // 8
-// compute(syard(split("5 * 7 / 2"))) // 17
-// compute(syard(split("9 + 24 / ( 7 - 3 )"))) // 15
-
-}
-
-