private Types.Object EvaluateUndefined(Node.Undefined node)
{
return(new Types.Undefined());
}
public static Node.Value Parse()
{
Node.Value n;
if (IsLookahead(1, Tokens.Number))
{
Match(Tokens.Number);
n = new Node.Number
{
n = (string)Parser.Lexer.Current().Attribute
};
}
else if (IsLookahead(1, Tokens.Identifier))
{
Match(Tokens.Identifier);
Token identifier = Parser.Lexer.Current();
if (IsLookahead(1, Tokens.Operator, Lexemes.Dot) &&
IsLookahead(2, Tokens.Identifier, "reference"))
{
Match(Tokens.Operator, Lexemes.Dot);
Match(Tokens.Identifier);
n = new Node.Reference {
id = (string)identifier.Attribute
};
}
else
{
n = new Node.Identifier
{
id = (string)identifier.Attribute
}
};
}
else if (IsLookahead(1, Tokens.Keyword, Lexemes.Function))
{
Match(Tokens.Keyword, Lexemes.Function);
Match(Tokens.Operator, Lexemes.ParenOpen);
Node.Names pl = Parser.Names.Parse();
Match(Tokens.Operator, Lexemes.ParenClose);
Node.Expression body = Parser.Expression.Parse();
n = new Node.Function
{
N = pl,
E = body
};
}
else if (IsLookahead(1, Tokens.Operator, Lexemes.BrackOpen))
{
Match(Tokens.Operator, Lexemes.BrackOpen);
n = new Node.Wrapped
{
E = Parser.Expression.Parse()
};
Match(Tokens.Operator, Lexemes.BrackClose);
}
else if (IsLookahead(1, Tokens.Operator, Lexemes.BraceOpen))
{
n = Parser.Block.Parse();
}
else if (IsLookahead(1, Tokens.Keyword, Lexemes.Undefined))
{
Match(Tokens.Keyword, Lexemes.Undefined);
n = new Node.Undefined {
};
}
else
{
throw new Exceptions.Parser.UnexpectedLookahead("Parse(Value)", Lexer.Lookahead(1), 1);
}
return(n);
}