// Part 1 about Regular Expression Matching
//==========================================
abstract class Rexp
case object ZERO extends Rexp
case object ONE extends Rexp
case class CHAR(c: Char) extends Rexp
case class ALT(r1: Rexp, r2: Rexp) extends Rexp // alternative
case class SEQ(r1: Rexp, r2: Rexp) extends Rexp // sequence
case class STAR(r: Rexp) extends Rexp // star
// some convenience for typing in regular expressions
import scala.language.implicitConversions
import scala.language.reflectiveCalls
def charlist2rexp(s: List[Char]): Rexp = s match {
case Nil => ONE
case c::Nil => CHAR(c)
case c::s => SEQ(CHAR(c), charlist2rexp(s))
}
implicit def string2rexp(s: String): Rexp = charlist2rexp(s.toList)
implicit def RexpOps (r: Rexp) = new {
def | (s: Rexp) = ALT(r, s)
def % = STAR(r)
def ~ (s: Rexp) = SEQ(r, s)
}
implicit def stringOps (s: String) = new {
def | (r: Rexp) = ALT(s, r)
def | (r: String) = ALT(s, r)
def % = STAR(s)
def ~ (r: Rexp) = SEQ(s, r)
def ~ (r: String) = SEQ(s, r)
}
// (1a) Complete the function nullable according to
// the definition given in the coursework; this
// function checks whether a regular expression
// can match the empty string
def nullable (r: Rexp) : Boolean = ...
// (1b) Complete the function der according to
// the definition given in the coursework; this
// function calculates the derivative of a
// regular expression w.r.t. a character
def der (c: Char, r: Rexp) : Rexp = ...
// (1c) Complete the function der according to
// the specification given in the coursework; this
// function simplifies a regular expression;
// however it does not simplify inside STAR-regular
// expressions
def simp(r: Rexp) : Rexp = ...
// (1d) Complete the two functions below; the first
// calculates the derivative w.r.t. a string; the second
// is the regular expression matcher taking a regular
// expression and a string and checks whether the
// string matches the regular expression
def ders (s: List[Char], r: Rexp) : Rexp = ...
def matcher(r: Rexp, s: String): Boolean = ...
// (1e) Complete the function below: it searches (from the left to
// right) in string s1 all the non-empty substrings that match the
// regular expression -- these substrings are assumed to be
// the longest substrings matched by the regular expression and
// assumed to be non-overlapping. All these substrings in s1 are replaced
// by s2.
def replace(r: Rexp, s1: String, s2: String): String = ...
// some testing data
// the supposedly 'evil' regular expression (a*)* b
/*
val EVIL = SEQ(STAR(STAR(CHAR('a'))), CHAR('b'))
println(matcher(EVIL, "a" * 1000 ++ "b"))
println(matcher(EVIL, "a" * 1000))
def time_needed[T](i: Int, code: => T) = {
val start = System.nanoTime()
for (j <- 1 to i) code
val end = System.nanoTime()
(end - start)/(i * 1.0e9)
}
for (i <- 1 to 5000001 by 500000) {
println(i + " " + "%.5f".format(time_needed(2, matcher(EVIL, "a" * i))))
}
*/