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581
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// Simple Tokenizer according to Sulzmann & Lu
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352
Christian Urban <christian dot urban at kcl dot ac dot uk>
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import scala.language.implicitConversions
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Christian Urban <christian dot urban at kcl dot ac dot uk>
parents:
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import scala.language.reflectiveCalls
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Christian Urban <christian dot urban at kcl dot ac dot uk>
parents:
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Christian Urban <christian dot urban at kcl dot ac dot uk>
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abstract class Rexp
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426
Christian Urban <christian dot urban at kcl dot ac dot uk>
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case object ZERO extends Rexp
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Christian Urban <christian dot urban at kcl dot ac dot uk>
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case object ONE extends Rexp
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Christian Urban <christian dot urban at kcl dot ac dot uk>
parents:
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case class CHAR(c: Char) extends Rexp
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case class ALT(r1: Rexp, r2: Rexp) extends Rexp
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352
Christian Urban <christian dot urban at kcl dot ac dot uk>
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case class SEQ(r1: Rexp, r2: Rexp) extends Rexp
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Christian Urban <christian dot urban at kcl dot ac dot uk>
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case class STAR(r: Rexp) extends Rexp
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579
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case class RECD(x: String, r: Rexp) extends Rexp
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581
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352
Christian Urban <christian dot urban at kcl dot ac dot uk>
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abstract class Val
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Christian Urban <christian dot urban at kcl dot ac dot uk>
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case object Empty extends Val
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352
Christian Urban <christian dot urban at kcl dot ac dot uk>
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case class Chr(c: Char) extends Val
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520
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case class Sequ(v1: Val, v2: Val) extends Val
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case class Left(v: Val) extends Val
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case class Right(v: Val) extends Val
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352
Christian Urban <christian dot urban at kcl dot ac dot uk>
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case class Stars(vs: List[Val]) extends Val
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579
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case class Rec(x: String, v: Val) extends Val
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352
Christian Urban <christian dot urban at kcl dot ac dot uk>
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// some convenience for typing in regular expressions
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Christian Urban <christian dot urban at kcl dot ac dot uk>
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def charlist2rexp(s : List[Char]): Rexp = s match {
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426
Christian Urban <christian dot urban at kcl dot ac dot uk>
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case Nil => ONE
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Christian Urban <christian dot urban at kcl dot ac dot uk>
parents:
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case c::Nil => CHAR(c)
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Christian Urban <christian dot urban at kcl dot ac dot uk>
parents:
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case c::s => SEQ(CHAR(c), charlist2rexp(s))
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Christian Urban <christian dot urban at kcl dot ac dot uk>
parents:
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}
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581
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implicit def string2rexp(s : String) : Rexp =
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charlist2rexp(s.toList)
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Christian Urban <christian dot urban at kcl dot ac dot uk>
parents:
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Christian Urban <christian dot urban at kcl dot ac dot uk>
parents:
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implicit def RexpOps(r: Rexp) = new {
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Christian Urban <christian dot urban at kcl dot ac dot uk>
parents:
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def | (s: Rexp) = ALT(r, s)
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Christian Urban <christian dot urban at kcl dot ac dot uk>
parents:
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def % = STAR(r)
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Christian Urban <christian dot urban at kcl dot ac dot uk>
parents:
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def ~ (s: Rexp) = SEQ(r, s)
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Christian Urban <christian dot urban at kcl dot ac dot uk>
parents:
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}
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Christian Urban <christian dot urban at kcl dot ac dot uk>
parents:
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38 |
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Christian Urban <christian dot urban at kcl dot ac dot uk>
parents:
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implicit def stringOps(s: String) = new {
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Christian Urban <christian dot urban at kcl dot ac dot uk>
parents:
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def | (r: Rexp) = ALT(s, r)
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Christian Urban <christian dot urban at kcl dot ac dot uk>
parents:
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def | (r: String) = ALT(s, r)
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Christian Urban <christian dot urban at kcl dot ac dot uk>
parents:
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def % = STAR(s)
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Christian Urban <christian dot urban at kcl dot ac dot uk>
parents:
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def ~ (r: Rexp) = SEQ(s, r)
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Christian Urban <christian dot urban at kcl dot ac dot uk>
parents:
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def ~ (r: String) = SEQ(s, r)
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579
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def $ (r: Rexp) = RECD(s, r)
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Christian Urban <christian dot urban at kcl dot ac dot uk>
parents:
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}
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Christian Urban <christian dot urban at kcl dot ac dot uk>
parents:
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581
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// A test for more conveninet syntax
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val re : Rexp = ("ab" | "a") ~ ("b" | ONE)
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352
Christian Urban <christian dot urban at kcl dot ac dot uk>
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// nullable function: tests whether the regular
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Christian Urban <christian dot urban at kcl dot ac dot uk>
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// expression can recognise the empty string
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Christian Urban <christian dot urban at kcl dot ac dot uk>
parents:
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def nullable (r: Rexp) : Boolean = r match {
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Christian Urban <christian dot urban at kcl dot ac dot uk>
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case ZERO => false
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Christian Urban <christian dot urban at kcl dot ac dot uk>
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case ONE => true
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Christian Urban <christian dot urban at kcl dot ac dot uk>
parents:
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case CHAR(_) => false
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579
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case ALT(r1, r2) => nullable(r1) || nullable(r2)
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164
Christian Urban <christian dot urban at kcl dot ac dot uk>
parents:
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case SEQ(r1, r2) => nullable(r1) && nullable(r2)
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Christian Urban <christian dot urban at kcl dot ac dot uk>
parents:
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case STAR(_) => true
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case RECD(_, r1) => nullable(r1)
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Christian Urban <christian dot urban at kcl dot ac dot uk>
parents:
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}
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Christian Urban <christian dot urban at kcl dot ac dot uk>
parents:
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352
Christian Urban <christian dot urban at kcl dot ac dot uk>
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// derivative of a regular expression w.r.t. a character
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Christian Urban <christian dot urban at kcl dot ac dot uk>
parents:
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def der (c: Char, r: Rexp) : Rexp = r match {
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Christian Urban <christian dot urban at kcl dot ac dot uk>
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case ZERO => ZERO
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Christian Urban <christian dot urban at kcl dot ac dot uk>
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case ONE => ZERO
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Christian Urban <christian dot urban at kcl dot ac dot uk>
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case CHAR(d) => if (c == d) ONE else ZERO
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579
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case ALT(r1, r2) => ALT(der(c, r1), der(c, r2))
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Christian Urban <christian dot urban at kcl dot ac dot uk>
parents:
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case SEQ(r1, r2) =>
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Christian Urban <christian dot urban at kcl dot ac dot uk>
parents:
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if (nullable(r1)) ALT(SEQ(der(c, r1), r2), der(c, r2))
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Christian Urban <christian dot urban at kcl dot ac dot uk>
parents:
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else SEQ(der(c, r1), r2)
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Christian Urban <christian dot urban at kcl dot ac dot uk>
parents:
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case STAR(r) => SEQ(der(c, r), STAR(r))
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579
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case RECD(_, r1) => der(c, r1)
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352
Christian Urban <christian dot urban at kcl dot ac dot uk>
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}
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Christian Urban <christian dot urban at kcl dot ac dot uk>
diff
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Christian Urban <christian dot urban at kcl dot ac dot uk>
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// derivative w.r.t. a string (iterates der)
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Christian Urban <christian dot urban at kcl dot ac dot uk>
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def ders (s: List[Char], r: Rexp) : Rexp = s match {
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Christian Urban <christian dot urban at kcl dot ac dot uk>
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case Nil => r
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Christian Urban <christian dot urban at kcl dot ac dot uk>
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case c::s => ders(s, der(c, r))
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Christian Urban <christian dot urban at kcl dot ac dot uk>
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}
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Christian Urban <christian dot urban at kcl dot ac dot uk>
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Christian Urban <christian dot urban at kcl dot ac dot uk>
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// extracts a string from value
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Christian Urban <christian dot urban at kcl dot ac dot uk>
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def flatten(v: Val) : String = v match {
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Christian Urban <christian dot urban at kcl dot ac dot uk>
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case Empty => ""
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Christian Urban <christian dot urban at kcl dot ac dot uk>
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case Chr(c) => c.toString
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case Left(v) => flatten(v)
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case Right(v) => flatten(v)
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case Sequ(v1, v2) => flatten(v1) + flatten(v2)
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352
Christian Urban <christian dot urban at kcl dot ac dot uk>
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case Stars(vs) => vs.map(flatten).mkString
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579
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case Rec(_, v) => flatten(v)
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}
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// extracts an environment from a value
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581
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// used for tokenise a string
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579
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def env(v: Val) : List[(String, String)] = v match {
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case Empty => Nil
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case Chr(c) => Nil
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case Left(v) => env(v)
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case Right(v) => env(v)
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case Sequ(v1, v2) => env(v1) ::: env(v2)
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case Stars(vs) => vs.flatMap(env)
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case Rec(x, v) => (x, flatten(v))::env(v)
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}
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// injection part
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def mkeps(r: Rexp) : Val = r match {
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case ONE => Empty
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case ALT(r1, r2) =>
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if (nullable(r1)) Left(mkeps(r1)) else Right(mkeps(r2))
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case SEQ(r1, r2) => Sequ(mkeps(r1), mkeps(r2))
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case STAR(r) => Stars(Nil)
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case RECD(x, r) => Rec(x, mkeps(r))
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Christian Urban <christian dot urban at kcl dot ac dot uk>
parents:
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}
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Christian Urban <christian dot urban at kcl dot ac dot uk>
parents:
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114 |
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Christian Urban <christian dot urban at kcl dot ac dot uk>
parents:
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352
Christian Urban <christian dot urban at kcl dot ac dot uk>
diff
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def inj(r: Rexp, c: Char, v: Val) : Val = (r, v) match {
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520
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case (STAR(r), Sequ(v1, Stars(vs))) => Stars(inj(r, c, v1)::vs)
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case (SEQ(r1, r2), Sequ(v1, v2)) => Sequ(inj(r1, c, v1), v2)
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579
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case (SEQ(r1, r2), Left(Sequ(v1, v2))) => Sequ(inj(r1, c, v1), v2)
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case (SEQ(r1, r2), Right(v2)) => Sequ(mkeps(r1), inj(r2, c, v2))
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case (ALT(r1, r2), Left(v1)) => Left(inj(r1, c, v1))
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case (ALT(r1, r2), Right(v2)) => Right(inj(r2, c, v2))
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Christian Urban <christian dot urban at kcl dot ac dot uk>
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case (CHAR(d), Empty) => Chr(c)
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579
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case (RECD(x, r1), _) => Rec(x, inj(r1, c, v))
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352
Christian Urban <christian dot urban at kcl dot ac dot uk>
diff
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}
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Christian Urban <christian dot urban at kcl dot ac dot uk>
diff
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126 |
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Christian Urban <christian dot urban at kcl dot ac dot uk>
diff
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// main lexing function (produces a value)
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Christian Urban <christian dot urban at kcl dot ac dot uk>
diff
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def lex(r: Rexp, s: List[Char]) : Val = s match {
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579
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case Nil => if (nullable(r)) mkeps(r)
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else throw new Exception("Not matched")
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352
Christian Urban <christian dot urban at kcl dot ac dot uk>
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case c::cs => inj(r, c, lex(der(c, r), cs))
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Christian Urban <christian dot urban at kcl dot ac dot uk>
diff
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}
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Christian Urban <christian dot urban at kcl dot ac dot uk>
diff
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133 |
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Christian Urban <christian dot urban at kcl dot ac dot uk>
diff
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134 |
def lexing(r: Rexp, s: String) : Val = lex(r, s.toList)
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Christian Urban <christian dot urban at kcl dot ac dot uk>
diff
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135 |
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581
|
136 |
// a simple test for extracting an environment
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137 |
val re1 : Rexp = ("first" $ ("a" | "ab")) ~ ("second" $ ("b" | ONE))
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env(lexing(re1, "ab"))
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450
Christian Urban <christian dot urban at kcl dot ac dot uk>
diff
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139 |
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352
Christian Urban <christian dot urban at kcl dot ac dot uk>
diff
changeset
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140 |
// some "rectification" functions for simplification
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Christian Urban <christian dot urban at kcl dot ac dot uk>
diff
changeset
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141 |
def F_ID(v: Val): Val = v
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579
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def F_RIGHT(f: Val => Val) = (v:Val) => Right(f(v))
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def F_LEFT(f: Val => Val) = (v:Val) => Left(f(v))
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def F_ALT(f1: Val => Val, f2: Val => Val) = (v:Val) => v match {
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case Right(v) => Right(f2(v))
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case Left(v) => Left(f1(v))
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}
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352
Christian Urban <christian dot urban at kcl dot ac dot uk>
diff
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148 |
def F_SEQ(f1: Val => Val, f2: Val => Val) = (v:Val) => v match {
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520
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149 |
case Sequ(v1, v2) => Sequ(f1(v1), f2(v2))
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352
Christian Urban <christian dot urban at kcl dot ac dot uk>
diff
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|
150 |
}
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354
Christian Urban <christian dot urban at kcl dot ac dot uk>
diff
changeset
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151 |
def F_SEQ_Empty1(f1: Val => Val, f2: Val => Val) =
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520
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152 |
(v:Val) => Sequ(f1(Empty), f2(v))
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354
Christian Urban <christian dot urban at kcl dot ac dot uk>
diff
changeset
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153 |
def F_SEQ_Empty2(f1: Val => Val, f2: Val => Val) =
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520
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154 |
(v:Val) => Sequ(f1(v), f2(Empty))
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579
|
155 |
def F_RECD(f: Val => Val) = (v:Val) => v match {
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156 |
case Rec(x, v) => Rec(x, f(v))
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352
Christian Urban <christian dot urban at kcl dot ac dot uk>
diff
changeset
|
157 |
}
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579
|
158 |
def F_ERROR(v: Val): Val = throw new Exception("error")
|
352
Christian Urban <christian dot urban at kcl dot ac dot uk>
diff
changeset
|
159 |
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Christian Urban <christian dot urban at kcl dot ac dot uk>
diff
changeset
|
160 |
// simplification of regular expressions returning also an
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Christian Urban <christian dot urban at kcl dot ac dot uk>
diff
changeset
|
161 |
// rectification function; no simplification under STAR
|
Christian Urban <christian dot urban at kcl dot ac dot uk>
diff
changeset
|
162 |
def simp(r: Rexp): (Rexp, Val => Val) = r match {
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|
579
|
163 |
case ALT(r1, r2) => {
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|
164 |
val (r1s, f1s) = simp(r1)
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|
165 |
val (r2s, f2s) = simp(r2)
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166 |
(r1s, r2s) match {
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|
167 |
case (ZERO, _) => (r2s, F_RIGHT(f2s))
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168 |
case (_, ZERO) => (r1s, F_LEFT(f1s))
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169 |
case _ => if (r1s == r2s) (r1s, F_LEFT(f1s))
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170 |
else (ALT (r1s, r2s), F_ALT(f1s, f2s))
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352
Christian Urban <christian dot urban at kcl dot ac dot uk>
diff
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|
171 |
}
|
Christian Urban <christian dot urban at kcl dot ac dot uk>
diff
changeset
|
172 |
}
|
Christian Urban <christian dot urban at kcl dot ac dot uk>
diff
changeset
|
173 |
case SEQ(r1, r2) => {
|
Christian Urban <christian dot urban at kcl dot ac dot uk>
diff
changeset
|
174 |
val (r1s, f1s) = simp(r1)
|
Christian Urban <christian dot urban at kcl dot ac dot uk>
diff
changeset
|
175 |
val (r2s, f2s) = simp(r2)
|
Christian Urban <christian dot urban at kcl dot ac dot uk>
diff
changeset
|
176 |
(r1s, r2s) match {
|
426
Christian Urban <christian dot urban at kcl dot ac dot uk>
diff
changeset
|
177 |
case (ZERO, _) => (ZERO, F_ERROR)
|
Christian Urban <christian dot urban at kcl dot ac dot uk>
diff
changeset
|
178 |
case (_, ZERO) => (ZERO, F_ERROR)
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Christian Urban <christian dot urban at kcl dot ac dot uk>
diff
changeset
|
179 |
case (ONE, _) => (r2s, F_SEQ_Empty1(f1s, f2s))
|
Christian Urban <christian dot urban at kcl dot ac dot uk>
diff
changeset
|
180 |
case (_, ONE) => (r1s, F_SEQ_Empty2(f1s, f2s))
|
352
Christian Urban <christian dot urban at kcl dot ac dot uk>
diff
changeset
|
181 |
case _ => (SEQ(r1s,r2s), F_SEQ(f1s, f2s))
|
Christian Urban <christian dot urban at kcl dot ac dot uk>
diff
changeset
|
182 |
}
|
Christian Urban <christian dot urban at kcl dot ac dot uk>
diff
changeset
|
183 |
}
|
|
579
|
184 |
case RECD(x, r1) => {
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|
185 |
val (r1s, f1s) = simp(r1)
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|
186 |
(RECD(x, r1s), F_RECD(f1s))
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|
187 |
}
|
352
Christian Urban <christian dot urban at kcl dot ac dot uk>
diff
changeset
|
188 |
case r => (r, F_ID)
|
Christian Urban <christian dot urban at kcl dot ac dot uk>
diff
changeset
|
189 |
}
|
Christian Urban <christian dot urban at kcl dot ac dot uk>
diff
changeset
|
190 |
|
Christian Urban <christian dot urban at kcl dot ac dot uk>
diff
changeset
|
191 |
def lex_simp(r: Rexp, s: List[Char]) : Val = s match {
|
|
579
|
192 |
case Nil => if (nullable(r)) mkeps(r) else throw new Exception("Not matched")
|
352
Christian Urban <christian dot urban at kcl dot ac dot uk>
diff
changeset
|
193 |
case c::cs => {
|
|
579
|
194 |
val (r_simp, f_simp) = simp(der(c, r))
|
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|
195 |
inj(r, c, f_simp(lex_simp(r_simp, cs)))
|
164
Christian Urban <christian dot urban at kcl dot ac dot uk>
parents:
diff
changeset
|
196 |
}
|
Christian Urban <christian dot urban at kcl dot ac dot uk>
parents:
diff
changeset
|
197 |
}
|
Christian Urban <christian dot urban at kcl dot ac dot uk>
parents:
diff
changeset
|
198 |
|
352
Christian Urban <christian dot urban at kcl dot ac dot uk>
diff
changeset
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def lexing_simp(r: Rexp, s: String) : Val = lex_simp(r, s.toList)
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Christian Urban <christian dot urban at kcl dot ac dot uk>
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lexing_simp(("a" | "ab") ~ ("b" | ""), "ab")
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549
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// Lexing Rules for a Small While Language
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Christian Urban <christian dot urban at kcl dot ac dot uk>
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def PLUS(r: Rexp) = r ~ r.%
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549
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val SYM = "a" | "b" | "c" | "d" | "e" | "f" | "g" | "h" | "i" | "j" | "k" | "l" | "m" | "n" | "o" | "p" | "q" | "r" | "s" | "t" | "u" | "v" | "w" | "x" | "y" | "z"
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val DIGIT = "0" | "1" | "2" | "3" | "4" | "5" | "6" | "7" | "8" | "9"
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val ID = SYM ~ (SYM | DIGIT).%
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val NUM = PLUS(DIGIT)
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val KEYWORD : Rexp = "skip" | "while" | "do" | "if" | "then" | "else" | "read" | "write" | "true" | "false"
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val SEMI: Rexp = ";"
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val OP: Rexp = ":=" | "==" | "-" | "+" | "*" | "!=" | "<" | ">" | "<=" | ">=" | "%" | "/"
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val WHITESPACE = PLUS(" " | "\n" | "\t")
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val RPAREN: Rexp = ")"
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val LPAREN: Rexp = "("
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val BEGIN: Rexp = "{"
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val END: Rexp = "}"
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val STRING: Rexp = "\"" ~ SYM.% ~ "\""
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val WHILE_REGS = (("k" $ KEYWORD) |
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("i" $ ID) |
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("o" $ OP) |
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("n" $ NUM) |
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("s" $ SEMI) |
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("str" $ STRING) |
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("p" $ (LPAREN | RPAREN)) |
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("b" $ (BEGIN | END)) |
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("w" $ WHITESPACE)).%
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// Testing
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//============
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def time[T](code: => T) = {
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val start = System.nanoTime()
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val result = code
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val end = System.nanoTime()
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println((end - start)/1.0e9)
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result
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}
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val r1 = ("a" | "ab") ~ ("bcd" | "c")
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println(lexing(r1, "abcd"))
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val r2 = ("" | "a") ~ ("ab" | "b")
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println(lexing(r2, "ab"))
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542
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// Two Simple While Tests
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//========================
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println("prog0 test")
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542
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val prog0 = """read if"""
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println(env(lexing_simp(WHILE_REGS, prog0)))
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println("prog1 test")
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val prog1 = """read n; write (n)"""
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println(env(lexing_simp(WHILE_REGS, prog1)))
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// Bigger Test
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//=============
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val prog2 = """
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write "fib";
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read n;
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minus1 := 0;
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minus2 := 1;
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while n > 0 do {
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temp := minus2;
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minus2 := minus1 + minus2;
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minus1 := temp;
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n := n - 1
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};
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write "result";
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write minus2
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"""
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println("Tokens")
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println(env(lexing_simp(WHILE_REGS, prog2)))
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println(env(lexing_simp(WHILE_REGS, prog2)).filterNot{_._1 == "w"}.mkString("\n"))
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// some more timing tests with
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// i copies of the program
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287 |
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for (i <- 1 to 21 by 10) {
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print(i.toString + ": ")
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time(lexing_simp(WHILE_REGS, prog2 * i))
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542
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}
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352
Christian Urban <christian dot urban at kcl dot ac dot uk>
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