Esempio n. 1
0
 // Get the ExpressionType for an operator
 private ExpressionType GetOpType(KeywordToken keyword)
 {
     if (keyword == KeywordToken.Add)
     {
         return(ExpressionType.Add);
     }
     if (keyword == KeywordToken.Substract)
     {
         return(ExpressionType.Subtract);
     }
     if (keyword == KeywordToken.Muliply)
     {
         return(ExpressionType.Multiply);
     }
     if (keyword == KeywordToken.Divide)
     {
         return(ExpressionType.Divide);
     }
     if (keyword == KeywordToken.Equal)
     {
         return(ExpressionType.Equal);
     }
     if (keyword == KeywordToken.NotEqual)
     {
         return(ExpressionType.NotEqual);
     }
     if (keyword == KeywordToken.GreaterThan)
     {
         return(ExpressionType.GreaterThan);
     }
     if (keyword == KeywordToken.LessThan)
     {
         return(ExpressionType.LessThan);
     }
     if (keyword == KeywordToken.And)
     {
         return(ExpressionType.And);
     }
     if (keyword == KeywordToken.Or)
     {
         return(ExpressionType.Or);
     }
     if (keyword == KeywordToken.Not)
     {
         return(ExpressionType.Not);
     }
     throw new SymplParseException(
               "Unrecognized keyword for operators");
 }
Esempio n. 2
0
        // This parses a BinaryOp expression.
        //
        private SymplBinaryExpr ParseExprTreeBinaryOp(Lexer lexr)
        {
            KeywordToken keyword = lexr.GetToken() as KeywordToken;

            if (keyword == null)
            {
                throw new SymplParseException(
                          "Internal error: parsing Binary?");
            }

            SymplExpr left, right;

            ParseBinaryRuntimeCall(lexr, out left, out right);
            var op = GetOpType(keyword);

            return(new SymplBinaryExpr(left, right, op));
        }
Esempio n. 3
0
 // Keep whatever casing we found in the source program so that when the
 // IDs are used a member names and metadata on binders, then if some MO
 // doesn't respect the IgnoreCase flag, there's an out for still binding.
 //
 private IdOrKeywordToken MakeIdOrKeywordToken(string name, bool quotedId)
 {
     if (!quotedId && KeywordToken.IsKeywordName(name))
     {
         return(KeywordToken.GetKeywordToken(name));
     }
     else
     {
         if (name.ToLower() == "let")
         {
             System.Console.WriteLine();
             System.Console.WriteLine(
                 "WARNING: using 'let'?  You probably meant let*.");
             System.Console.WriteLine();
         }
         return(new IdOrKeywordToken(name));
     }
 }
Esempio n. 4
0
        // This parses a UnaryOp expression.
        //
        private SymplUnaryExpr ParseExprTreeUnaryOp(Lexer lexr)
        {
            KeywordToken keyword = lexr.GetToken() as KeywordToken;

            if (keyword == null)
            {
                throw new SymplParseException(
                          "Internal error: parsing Unary?");
            }

            var op      = GetOpType(keyword);
            var operand = ParseExprAux(lexr);

            if (lexr.GetToken() != SyntaxToken.CloseParen)
            {
                throw new SymplParseException(
                          "Unary expression missing close paren.");
            }
            return(new SymplUnaryExpr(operand, op));
        }
Esempio n. 5
0
 // Get the ExpressionType for an operator
 private ExpressionType GetOpType(KeywordToken keyword) {
     if (keyword == KeywordToken.Add) {
         return ExpressionType.Add;
     }
     if (keyword == KeywordToken.Substract) {
         return ExpressionType.Subtract;
     }
     if (keyword == KeywordToken.Muliply) {
         return ExpressionType.Multiply;
     }
     if (keyword == KeywordToken.Divide) {
         return ExpressionType.Divide;
     }
     if (keyword == KeywordToken.Equal) {
         return ExpressionType.Equal;
     }
     if (keyword == KeywordToken.NotEqual) {
         return ExpressionType.NotEqual;
     }
     if (keyword == KeywordToken.GreaterThan) {
         return ExpressionType.GreaterThan;
     }
     if (keyword == KeywordToken.LessThan) {
         return ExpressionType.LessThan;
     }
     if (keyword == KeywordToken.And) {
         return ExpressionType.And;
     }
     if (keyword == KeywordToken.Or) {
         return ExpressionType.Or;
     }
     if (keyword == KeywordToken.Not) {
         return ExpressionType.Not;
     }
     throw new SymplParseException(
                     "Unrecognized keyword for operators");
 }