--- a/progs/c.scala Sat Jul 04 16:58:12 2020 +0100
+++ /dev/null Thu Jan 01 00:00:00 1970 +0000
@@ -1,253 +0,0 @@
-// A parser and interpreter for the While language
-//
-
-import scala.language.implicitConversions
-import scala.language.reflectiveCalls
-import scala.collection.immutable._
-
-// more convenience for the semantic actions later on
-case class ~[+A, +B](_1: A, _2: B)
-
-
-type IsSeq[A] = A => Seq[_]
-
-abstract class Parser[I : IsSeq, T] {
- def parse(ts: I): Set[(T, I)]
-
- def parse_all(ts: I) : Set[T] =
- for ((head, tail) <- parse(ts); if tail.isEmpty) yield head
-}
-
-
-
-
-class SeqParser[I : IsSeq, T, S](p: => Parser[I, T], q: => Parser[I, S]) extends Parser[I, ~[T, S]] {
- def parse(sb: I) =
- for ((head1, tail1) <- p.parse(sb);
- (head2, tail2) <- q.parse(tail1)) yield (new ~(head1, head2), tail2)
-}
-
-class AltParser[I : IsSeq, T](p: => Parser[I, T], q: => Parser[I, T]) extends Parser[I, T] {
- def parse(sb: I) = p.parse(sb) ++ q.parse(sb)
-}
-
-class MapParser[I : IsSeq, T, S](p: => Parser[I, T], f: T => S) extends Parser[I, S] {
- def parse(sb: I) =
- for ((head, tail) <- p.parse(sb)) yield (f(head), tail)
-}
-
-case class StrParser(s: String) extends Parser[String, String] {
- def parse(sb: String) = {
- val (prefix, suffix) = sb.splitAt(s.length)
- if (prefix == s) Set((prefix, suffix)) else Set()
- }
-}
-
-case object NumParser extends Parser[String, Int] {
- val reg = "[0-9]+".r
- def parse(sb: String) = reg.findPrefixOf(sb) match {
- case None => Set()
- case Some(s) => {
- val (head, tail) = sb.splitAt(s.length)
- Set((head.toInt, tail))
- }
- }
-}
-
-
-implicit def parser_interpolation(sc: StringContext) = new {
- def p(args: Any*) = StrParser(sc.s(args:_*))
-}
-
-// this string interpolation allows us to write
-// things like the following for a StrParser
-//
-// p"<_some_string_>"
-//
-// instead of StrParser(<_some_string_>)
-
-
-implicit def ParserOps[I : IsSeq, T](p: Parser[I, T]) = new {
- def ||(q : => Parser[I, T]) = new AltParser[I, T](p, q)
- def ~[S](q : => Parser[I, S]) = new SeqParser[I, T, S](p, q)
- def map[S](f: => T => S) = new MapParser[I, T, S](p, f)
-}
-
-// these implicits allow us to use infic notation for
-// sequences and alternatives; we also can write map
-// for a parser
-
-
-// the abstract syntax trees for the WHILE language
-abstract class Stmt
-abstract class AExp
-abstract class BExp
-
-type Block = List[Stmt]
-
-case object Skip extends Stmt
-case class If(a: BExp, bl1: Block, bl2: Block) extends Stmt
-case class While(b: BExp, bl: Block) extends Stmt
-case class Assign(s: String, a: AExp) extends Stmt
-case class Write(s: String) extends Stmt
-
-
-case class Var(s: String) extends AExp
-case class Num(i: Int) extends AExp
-case class Aop(o: String, a1: AExp, a2: AExp) extends AExp
-
-case object True extends BExp
-case object False extends BExp
-case class Bop(o: String, a1: AExp, a2: AExp) extends BExp
-case class And(b1: BExp, b2: BExp) extends BExp
-case class Or(b1: BExp, b2: BExp) extends BExp
-
-case object IdParser extends Parser[String, String] {
- val reg = "[a-z][a-z,0-9]*".r
- def parse(sb: String) = reg.findPrefixOf(sb) match {
- case None => Set()
- case Some(s) => Set(sb.splitAt(s.length))
- }
-}
-
-// arithmetic expressions
-lazy val AExp: Parser[String, AExp] =
- (Te ~ p"+" ~ AExp).map[AExp]{ case x ~ _ ~ z => Aop("+", x, z) } ||
- (Te ~ p"-" ~ AExp).map[AExp]{ case x ~ _ ~ z => Aop("-", x, z) } || Te
-lazy val Te: Parser[String, AExp] =
- (Fa ~ p"*" ~ Te).map[AExp]{ case x ~ _ ~ z => Aop("*", x, z) } ||
- (Fa ~ p"/" ~ Te).map[AExp]{ case x ~ _ ~ z => Aop("/", x, z) } || Fa
-lazy val Fa: Parser[String, AExp] =
- (p"(" ~ AExp ~ p")").map{ case _ ~ y ~ _ => y } ||
- IdParser.map(Var) ||
- NumParser.map(Num)
-
-// boolean expressions with some simple nesting
-lazy val BExp: Parser[String, BExp] =
- (AExp ~ p"==" ~ AExp).map { case x ~ _ ~ z => Bop("==", x, z): BExp } ||
- (AExp ~ p"!=" ~ AExp).map { case x ~ _ ~ z => Bop("!=", x, z): BExp } ||
- (AExp ~ p"<" ~ AExp).map { case x ~ _ ~ z => Bop("<", x, z): BExp } ||
- (AExp ~ p">" ~ AExp).map { case x ~ _ ~ z => Bop(">", x, z): BExp } ||
- (p"(" ~ BExp ~ p")" ~ p"&&" ~ BExp).map { case _ ~ y ~ _ ~ _ ~ v => And(y, v): BExp } ||
- (p"(" ~ BExp ~ p")" ~ p"||" ~ BExp).map { case _ ~ y ~ _ ~ _ ~ v => Or(y, v): BExp } ||
- (p"true".map { _ => True: BExp }) ||
- (p"false".map { _ => False: BExp }) ||
- (p"(" ~ BExp ~ p")").map { case _ ~ x ~ _ => x }
-
-// statement / statements
-lazy val Stmt: Parser[String, Stmt] =
- ((p"skip".map {_ => Skip: Stmt}) ||
- (IdParser ~ p":=" ~ AExp).map { case x ~ _ ~ z => Assign(x, z): Stmt } ||
- (p"write(" ~ IdParser ~ p")").map { case _ ~ y ~ _ => Write(y): Stmt } ||
- (p"if" ~ BExp ~ p"then" ~ Block ~ p"else" ~ Block)
- .map{ case _ ~ y ~ _ ~ u ~ _ ~ w => If(y, u, w): Stmt } ||
- (p"while" ~ BExp ~ p"do" ~ Block).map { case _ ~ y ~ _ ~ w => While(y, w) })
-
-lazy val Stmts: Parser[String, Block] =
- (Stmt ~ p";" ~ Stmts).map { case x ~ _ ~ z => x :: z : Block } ||
- (Stmt.map { s => List(s) : Block})
-
-// blocks (enclosed in curly braces)
-lazy val Block: Parser[String, Block] =
- ((p"{" ~ Stmts ~ p"}").map{ case _ ~ y ~ _ => y } ||
- (Stmt.map(s => List(s))))
-
-
-Stmts.parse_all("x2:=5+3;")
-Block.parse_all("{x:=5;y:=8}")
-Block.parse_all("if(false)then{x:=5}else{x:=10}")
-
-val fib = """n := 10;
- minus1 := 0;
- minus2 := 1;
- temp := 0;
- while (n > 0) do {
- temp := minus2;
- minus2 := minus1 + minus2;
- minus1 := temp;
- n := n - 1
- };
- result := minus2""".replaceAll("\\s+", "")
-
-Stmts.parse_all(fib)
-
-
-// an interpreter for the WHILE language
-type Env = Map[String, Int]
-
-def eval_aexp(a: AExp, env: Env) : Int = a match {
- case Num(i) => i
- case Var(s) => env(s)
- case Aop("+", a1, a2) => eval_aexp(a1, env) + eval_aexp(a2, env)
- case Aop("-", a1, a2) => eval_aexp(a1, env) - eval_aexp(a2, env)
- case Aop("*", a1, a2) => eval_aexp(a1, env) * eval_aexp(a2, env)
- case Aop("/", a1, a2) => eval_aexp(a1, env) / eval_aexp(a2, env)
-}
-
-def eval_bexp(b: BExp, env: Env) : Boolean = b match {
- case True => true
- case False => false
- case Bop("==", a1, a2) => eval_aexp(a1, env) == eval_aexp(a2, env)
- case Bop("!=", a1, a2) => !(eval_aexp(a1, env) == eval_aexp(a2, env))
- case Bop(">", a1, a2) => eval_aexp(a1, env) > eval_aexp(a2, env)
- case Bop("<", a1, a2) => eval_aexp(a1, env) < eval_aexp(a2, env)
- case And(b1, b2) => eval_bexp(b1, env) && eval_bexp(b2, env)
- case Or(b1, b2) => eval_bexp(b1, env) || eval_bexp(b2, env)
-}
-
-def eval_stmt(s: Stmt, env: Env) : Env = s match {
- case Skip => env
- case Assign(x, a) => env + (x -> eval_aexp(a, env))
- case If(b, bl1, bl2) => if (eval_bexp(b, env)) eval_bl(bl1, env) else eval_bl(bl2, env)
- case While(b, bl) =>
- if (eval_bexp(b, env)) eval_stmt(While(b, bl), eval_bl(bl, env))
- else env
- case Write(x) => { println(env(x)) ; env }
-}
-
-def eval_bl(bl: Block, env: Env) : Env = bl match {
- case Nil => env
- case s::bl => eval_bl(bl, eval_stmt(s, env))
-}
-
-def eval(bl: Block) : Env = eval_bl(bl, Map())
-
-// parse + evaluate fib program; then lookup what is
-// stored under the variable result
-println(eval(Stmts.parse_all(fib).head)("result"))
-
-
-// more examles
-
-// calculate and print all factors bigger
-// than 1 and smaller than n
-println("Factors")
-
-val factors =
- """n := 12;
- f := 2;
- while (f < n / 2 + 1) do {
- if ((n / f) * f == n) then { write(f) } else { skip };
- f := f + 1
- }""".replaceAll("\\s+", "")
-
-eval(Stmts.parse_all(factors).head)
-
-// calculate all prime numbers up to a number
-println("Primes")
-
-val primes =
- """end := 100;
- n := 2;
- while (n < end) do {
- f := 2;
- tmp := 0;
- while ((f < n / 2 + 1) && (tmp == 0)) do {
- if ((n / f) * f == n) then { tmp := 1 } else { skip };
- f := f + 1
- };
- if (tmp == 0) then { write(n) } else { skip };
- n := n + 1
- }""".replaceAll("\\s+", "")
-
-eval(Stmts.parse_all(primes).head)