Take the 2-minute tour ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free, no registration required.

I don't know if this info is relevant to the question, but I am learning Scala parser combinators. Using some examples (in this master thesis) I was able to write a simple functional (in the sense that it is non imperative) programming language.

Is there a way to improve my parser/evaluator such that it could allow/evaluate input like this:

import scala.<some package / classes>
import weka.<some package / classes>

some DSL code (lambda calculus)

J48 j48 = new J48();

as input written in the guest language (DSL)?

Should I use reflection or something similar* to evaluate such input? Is there some source code recommendation to study (may be groovy sources?)?

Maybe this is something similar: runtime compilation, but I am not sure this is the best alternative.


Complete answer given bellow with "{" and "}". Maybe "{{" would be better.

share|improve this question
What's your problem specifically? Parsing it? Going from the parser's output to locating the libraries? Using knowledge of the imported libraries to handle the rest of the input program? Actually loading the package for your language to use? –  delnan Jan 19 '13 at 17:31
@delnan I need some guidelines, and your comment is already helping me in the process. May be the simplest way is to define a syntax to wrap Scala code. The rest, in pure DSL code, would be translated to Scala, so I could join the wrapped Scala code with my DSL-translated -to-Scala code and evaluate it somehow as pure Scala code. Am I missing something? –  user445107 Jan 19 '13 at 17:58
And the Java Classes would come for free with Scala. –  user445107 Jan 19 '13 at 17:59
Yes, this is probably the simplest solution. –  Alexey Romanov Jan 19 '13 at 18:16

2 Answers 2

It is the question as to what the meaning of such import statements should be.

Perhaps you start first with allowing references to java methods in your language (the Lambda Calculus, I guess?).

For example:

java.lang.System.out.println "foo"

If you have that, you can then add resolution of unqualified names like

println "foo"

But here comes the first problem: println exists in System.out and System.err, or, to be more correct: it is a method of PrintStream, and both System.err and System.out are PrintStreams.

Hence you would need some notion of Objects, Classes, Types, and so on to do it right.

share|improve this answer
I will rephrase the question, sorry. –  user445107 Jan 19 '13 at 18:01
Added complete answer. –  user445107 Feb 2 '13 at 18:15
up vote 0 down vote accepted

I managed how to run Scala code embedded in my interpreted DSL.

Insertion of DSL vars into Scala code and recovering returning value comes as a bonus. :)

Minimal relevant code from parsing and interpreting until performing embedded Scala code run-time execution (Main Parser AST and Interpreter):

object Main extends App {
     val ast = Parser1 parse "some dsl code here"
     Interpreter eval ast

object Parser1 extends RegexParsers with ImplicitConversions {
  import AST._
  val separator = ";"
  def parse(input: String): Expr = parseAll(program, input).get
  type P[+T] = Parser[T]
  def program = rep1sep(expr, separator) <~ separator ^^ Sequence
  def expr: Parser[Expr] = (assign /*more calls here*/)
  def scalacode: P[Expr] = "{" ~> rep(scala_text) <~ "}" ^^ {case l => Scalacode(l.flatten)}
  def scala_text = text_no_braces ~ "$" ~ ident ~ text_no_braces ^^ {case a ~ b ~ c ~ d => List(a, b + c, d)}
  //more rules here
  def assign = ident ~ ("=" ~> atomic_expr) ^^ Assign
  //more rules here
  def atomic_expr = (
     ident ^^ Var
        //more calls here 
        | "(" ~> expr <~ ")"
        | scalacode
        | failure("expression expected")
  def text_no_braces = """[a-zA-Z0-9\"\'\+\-\_!@#%\&\(\)\[\]\/\?\:;\.\>\<\,\|= \*\\\n]*""".r //| fail("Scala code expected")
  def ident = """[a-zA-Z]+[a-zA-Z0-9]*""".r

object AST {
   sealed abstract class Expr
   // more classes here
   case class Scalacode(items: List[String]) extends Expr
   case class Literal(v: Any) extends Expr
   case class Var(name: String) extends Expr

object Interpreter {
  import AST._
  val env = collection.immutable.Map[VarName, VarValue]()
  def run(code: String) = {
     val code2 = "val res_1 = (" + code + ")"
     val res = interpret.valueOfTerm("res_1")
     if (res == None) Literal() else Literal(res.get)

  class Context(private var env: Environment = initEnv) {
    def eval(e: Expr): Any = e match {
       case Scalacode(l: List[String]) => {
          val r = l map {
             x =>
                if (x.startsWith("$")) {
                } else {
       case Assign(id, expr) => env += (id -> eval(expr))
       //more pattern matching here
       case Literal(v) => v
       case Var(id) => {
          env getOrElse(id, sys.error("Undefined " + id))
share|improve this answer

Your Answer


By posting your answer, you agree to the privacy policy and terms of service.