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So I am trying to write a compiler in F# and have been looking at the Fslex and Fsyacc tools that come with the F# powerpack. There is a sample project that takes care of the external build tools that I have been trying to understand. It can be downloaded here. The example compiles and runs for me, but I think there is a subtle error in the grammar. I say subtle, because the grammar looks similar to what I have seen in the Dragon book for parsing expressions and I don't have the experience to spot it.

The input "4*5+3" correctly evaluated to 23.

The input 4*5-3, however, generates a parse error. That is an error in the code generated by Fsyacc.

I would appreciate your help in better understanding what the problem so I can be better informed and have more confidence in Fsyacc. I have posted the *.fsy file below.

// This is the type of the data produced by a successful reduction of the 'start'
// symbol:
%type < Ast.Equation > start


// These are the rules of the grammar along with the F# code of the 
// actions executed as rules are reduced.  In this case the actions 
// produce data using F# data construction terms.
start: Prog { Equation($1) }

    | Expr EOF                  { $1 }

    | Expr PLUS  Term           { Plus($1, $3)  }
    | Expr MINUS Term           { Minus($1, $3) }
    | Term                      { Term($1)      }

    | Term ASTER Factor         { Times($1, $3)  }
    | Term SLASH Factor         { Divide($1, $3) }
    | Factor                    { Factor($1)     }

    | FLOAT                     { Float($1)  }
    | INT32                     { Integer($1) }
    | LPAREN Expr RPAREN        { ParenEx($2) }

And here is the definition for AST data type

namespace Ast
open System

type Factor =
    | Float   of Double
    | Integer of Int32
    | ParenEx of Expr

and Term =
    | Times  of Term * Factor
    | Divide of Term * Factor
    | Factor of Factor

and Expr =
    | Plus  of Expr * Term
    | Minus of Expr * Term
    | Term  of Term

and Equation =
    | Equation of Expr


I have posted the lexer definition and the code to drive the parser as well to help with understanding the error.

module Lexer
open System
open Parser
open Microsoft.FSharp.Text.Lexing

let lexeme lexbuf =
    LexBuffer<char>.LexemeString lexbuf

// These are some regular expression definitions
let digit = ['0'-'9']
let whitespace = [' ' '\t' ]

newline = ('\n' | '\r' '\n')

rule tokenize = parse
| whitespace    { tokenize lexbuf }
| newline       { tokenize lexbuf }
// Operators
| "+"           { PLUS }
| "-"           { MINUS }
| "*"           { ASTER }
| "/"           { SLASH }
// Misc
| "("           { LPAREN }
| ")"           { RPAREN }
// Numberic constants
| ['-']?digit+                                  { INT32 (Int32.Parse(lexeme lexbuf)) }
| ['-']?digit+('.'digit+)?(['e''E']digit+)?     { FLOAT (Double.Parse(lexeme lexbuf)) }
// EOF
| eof   { EOF }

Lastly, the code to drive the parser.

    // This project type requires the F# PowerPack at
    // Learn more about F# at
    // Original project template by Jomo Fisher based on work of Brian McNamara, Don Syme and Matt Valerio
    // This posting is provided "AS IS" with no warranties, and confers no rights.

    open System
    open Microsoft.FSharp.Text.Lexing

    open Ast
    open Lexer
    open Parser

    /// Evaluate a factor
    let rec evalFactor factor =
        match factor with
        | Float x   -> x
        | Integer x -> float x
        | ParenEx x -> evalExpr x

    /// Evaluate a term
    and evalTerm term =
        match term with
        | Times (term1, term2)  -> (evalTerm term1) * (evalTerm term2)
        | Divide (term1, term2)  -> (evalTerm term1) / (evalTerm term2)
        | Factor fact         -> evalFactor fact

    /// Evaluate an expression
    and evalExpr expr =
        match expr with
        | Plus (expr1, expr2)  -> (evalExpr expr1) + (evalExpr expr2)
        | Minus (expr1, expr2)  -> (evalExpr expr1) - (evalExpr expr2)
        | Term term          -> evalTerm term

    /// Evaluate an equation
    and evalEquation eq =
        match eq with
        | Equation expr -> evalExpr expr

    printfn "Calculator"

    let rec readAndProcess() =
        printf ":"
        match Console.ReadLine() with
        | "quit" -> ()
        | expr ->
                printfn "Lexing [%s]" expr
                let lexbuff = LexBuffer<char>.FromString(expr)

                printfn "Parsing..."
                let equation = Parser.start Lexer.tokenize lexbuff

                printfn "Evaluating Equation..."
                let result = evalEquation equation

                printfn "

Result: %s" (result.ToString())

        with ex ->
            printfn "Unhandled Exception: %s" ex.Message



EDIT: The optional minus sign in the lexer was the problem. After removing it the sample works as expected.

share|improve this question
Can you post the lexer definition as well? – Juliet Jan 14 '11 at 23:51
It might work for binary minus, but does it work for the unary? – Román Apr 23 '11 at 21:40
@Román When I compiled and ran it, after fixing the optional minus part of the lexer, both unary and binary minus worked as expected. – Samsdram Apr 24 '11 at 18:16

1 Answer 1

up vote 3 down vote accepted

I have only glanced, it looks like the lexer perhaps is treating

// Numberic constants 
| ['-']?digit+                                  { INT32 (Int32.Parse(lexeme lexbuf)) } 

the minus sign here


as unary, part of the constant "-3" rather than as a binary minus. So I agree it is an error in the sample. I would get rid of the optional minus in the lexer, and add a rule in the parser along the lines of Factor going to e.g. "MINUS INT32".

Just a sketch of how to fix it, hopefully this will steer you or you'll get another more in-depth answer with full code.

share|improve this answer

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