There are several different parser traits and base classes for different purposes.
The main trait is
scala.util.parsing.combinator.Parsers. This has most of the main combinators like
accept, etc. Definitely look over the documentation for this one, since this is most of what you need to know. The actual
Parser class is defined as an inner class here, and that's important to know about, too.
Another important trait is
scala.util.parsing.combinator.lexical.Scanners. This is the base trait for parsers which read a stream of characters and produce a stream of tokens (also known as lexers). In order to implement this trait, you need to implement a
whitespace parser, which reads whitespace characters, comments, etc. You also need to implement a
token method, which reads the next token. Tokens can be whatever you want, but they must be a subclass of
Lexical. The former provides some useful basic operations (like
letter), while the latter actually defines and lexes common tokens (like numeric literals, identifiers, strings, reserved words). You just have to define
reserved, and you will get something useful for most languages. The token definitions are in
Once you have a lexer, you can define a parser which reads a stream of tokens (produced by the lexer) and generates an abstract syntax tree. Separating the lexer and parser is a good idea since you won't need to worry about whitespace or comments or other complications in your syntax. If you use
StdLexical, you may consider using
scala.util.parsing.combinator.syntax.StdTokenPasers which has parsers built in to translate tokens into values (e.g.,
String). I'm not sure what the difference is with
StandardTokenParsers. If you define your own token classes, you should just use
Parsers for simplicity.
You specifically asked about
RegexParsers is a trait which extends
Parsers with one additional combinator:
regex, which does exactly what you would expect. Mix in
RegexParsers to your lexer if you want to use regular expressions to match tokens.
JavaTokenParsers provides some parsers which lex tokens from Java syntax (like identifiers, integers) but without the token baggage of
To summarise, you probably want two parsers: one which reads characters and produces tokens, and one which takes tokens and produces an AST. Use something based on
StdLexical for the first. Use something based on
StdTokenParsers for the second depending on whether you use