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This is a grammar for a System of first order ODEs:

system ::= equation { equation }

equation ::= variable "=" (arithExpr | param) "\n"

variable ::= algebraicVar | stateVar

algrebraicVar ::= identifier

stateVar ::= algebraicVar'

arithExpr ::= term { "+" term | "-" term }

term ::= factor { "*" factor | "/" factor }

factor ::= algebraicVar
          | powerExpr
          | floatingPointNumber
          | functionCall
          | "(" arithExpr ")"

powerExpr ::= arithExpr {"^" arithExpr}

Notes:

  • An identifier should be a valid Scala Identifier.
  • A stateVar is an algebraicVar followed by one apostrophe (x' denotes the first derivative of x --with respect to time--)
  • I haven't coded anything for a functionCall but I mean something like Cos[Omega]

This is what I have already

package tests

import scala.util.parsing.combinator.lexical.StdLexical
import scala.util.parsing.combinator.syntactical.StandardTokenParsers
import scala.util.parsing.combinator._
import scala.util.parsing.combinator.JavaTokenParsers
import token._

object Parser1 extends StandardTokenParsers {

  lexical.delimiters ++= List("(", ")", "=", "+", "-", "*", "/", "\n")
  lexical.reserved ++= List(
    "Log", "Ln", "Exp",
    "Sin", "Cos", "Tan",
    "Cot", "Sec", "Csc",
    "Sqrt", "Param", "'")

  def system: Parser[Any] = repsep(equation, "\n")
  def equation: Parser[Any] = variable ~ "=" ~ ("Param" | arithExpr )
  def variable: Parser[Any] = stateVar | algebraicVar
  def algebraicVar: Parser[Any] = ident
  def stateVar: Parser[Any] = algebraicVar ~ "\'"
  def arithExpr: Parser[Any] = term ~ rep("+" ~ term | "-" ~ term)
  def term: Parser[Any] = factor ~ rep("*" ~ factor | "/" ~ factor)
  def factor: Parser[Any] = algebraicVar | floatingPointNumber | "(" ~ arithExpr ~ ")"
  def powerExpr: Parser[Any] = arithExpr ~ rep("^" ~ arithExpr)


  def main(args: Array[String]) {
    val code = "x1 = 2.5 * x2"
    equation(new lexical.Scanner(code)) match {
      case Success(msg, _) => println(msg)
      case Failure(msg, _) => println(msg)
      case Error(msg, _) => println(msg)
    }
  }
}

However this line doesn't work:

def factor: Parser[Any] = algebraicVar | floatingPointNumber | "(" ~ arithExpr ~ ")"

Because I haven't defined what's a floatingPointNumber. First I tried to mix in JavaTokenParsers but then I get conflicting definitions. The reason I'm trying to use StandardTokenParsers instead of JavaTokenParsers is to use able to use a set of predefined Keywords with

lexical.reserved ++= List(
    "Log", "Ln", "Exp",
    "Sin", "Cos", "Tan",
    "Cot", "Sec", "Csc",
    "Sqrt", "Param", "'")

I asked this on the Scala-user mailing list (https://groups.google.com/forum/?fromgroups#!topic/scala-user/KXlfGauGR9Q) but I haven't received enough replies. Thanks a lot for helping.

share|improve this question

1 Answer 1

Given that mixing in JavaTokenParsers doesn't work, you might try mixing in RegexParsers instead and copying just the definition of floatingPointNumber from the source for JavaTokenParsers.

That definition, at least in this version is simply a regex:

  def floatingPointNumber: Parser[String] =
    """-?(\d+(\.\d*)?|\d*\.\d+)([eE][+-]?\d+)?[fFdD]?""".r
share|improve this answer
    
object DynamicalSystemParser extends StandardTokenParsers with RegexParsers gives the following error: overriding type Elem in trait TokenParsers, which equals tests.Parser1.lexical.Token; type Elem in trait RegexParsers, which equals Char needs `override' modifier. Mixing JavaTokenParsers gives similar errors. –  oscarvarto Jun 11 '12 at 0:39
    
Ah well, guess you really can't mix these hierarchies much. –  Don Roby Jun 11 '12 at 0:48
    
I have some progress (haven't finished yet). Please check the attached pdf parsingODEs.pdf at (groups.google.com/forum/?fromgroups#!topic/scala-user/…) –  oscarvarto Jun 13 '12 at 22:37

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