What should my lexical analyzer do and not do?
- recognize tokens
- ignore ignorable whitespace and comments (if there are such things)
- optionally, keep track of source location in order to produce meaningful error messages.
It should not attempt to parse the input, although that will be very tempting with such a simple language.
From what I can see, you have the following tokens:
., linear-white-space, new-line
- unquoted strings (often called "atoms" or "ids")
- quoted strings (possibly the same token type as unquoted strings)
I'm not sure what the syntax for
-options is, but that might include more possibilities.
Choosing to return
linear-white-space (that is, a sequence consisting only of tabs and spaces) as a token is somewhat questionable; it complicates the grammar considerably, particularly since there are probably places where white-space is ignorable, such as the beginning and end of a line. But I have the intuition that you do not want to allow whitespace inside of a path and that you plan to require it between the command name and its arguments. That is, you want to prohibit:
/left /right .whimper "hello, world"
But maybe I'm wrong. Maybe you're happy to accept both. That would be simpler, because if you accept both, then you can just ignore linear-whitespace altogether.
By the way, experience has shown that using new-line to separate commands can be awkward; sooner or later you will need to break a command into two lines in order to avoid having to buy an extra monitor to see the entire line. The convention (used by bash and the C preprocessor, amongst others) of putting a
\ as the last character on a line to be continued is possible, but can lead to annoying bugs (like having an invisible space following the
\ and thus preventing it from really continuing the line).
From here down is 100% personal opinion, offered for free. So take it for what its worth.
I am trying to make it technically appropriate piece of work. It's not commercial so I have time thus I can learn lexical analysis and parsing better. I don't want to use a parser library.
There is a contradiction here, in my opinion. Or perhaps two contradictions.
A technically appropriate piece of work would use standard tools; at least a lexical generator and probably a parser generator. It would do that because, properly used, the lexical and grammatical descriptions provided to the tools document precisely the actual language, and the tools guarantee that the desired language is what is actually recognized. Writing ad hoc code, even simple lexical recognizers and recursive descent parsers, for all that it can be elegant, is less self-documenting, less maintainable, and provides fewer guarantees of correctness. Consequently, best practice is "use standard tools".
Secondly, I disagree with your instructor (if I understand their proposal correctly, based on your comments) that writing ad hoc lexers and parsers aids in understanding lexical and parsing theory. In fact, it may be counterproductive. Bottom-up parsing, which is incredibly elegant both theoretically and practically, is almost impossible to write by hand and totally impossible to read. Consequently, many programmers prefer to use recursive-descent or Pratt parsers, because they understand the code. However, such parsers are not as powerful as a bottom-up parser (particularly GLR or Earley parsers, which are fully general), and their use leads to unnecessary grammatical compromises.
You don't need to write a regular expression library to understand regular expressions. The libraries abstract away the awkward implementation details (and there are lots of them, and they really are awkward) and let you concentrate on the essence of creating and using regular expressions.
In the same way, you do not need to write a compiler in order to understand how to program in C. After you have a good basis in C, you can improve your understanding (maybe) by understanding how it translates into machine code, but unless you plan a career in compiler writing, knowing the details of obscure optimization algorithms are not going to make you a better programmer. Or, at least, they're not first on your agenda.
Similarly, once you really understand regular expressions, you might find writing a library interesting. Or not -- you might find it incredibly frustrating and give up after a couple of months of hard work. Either way, you will appreciate existing libraries more. But learn to use the existing libraries first.
And the same with parser generators. If you want to learn how to translate an idea for a programming language into something precise and implementable, learn how to use a parser generator. Only after you have mastered the theory of parsing should you even think of focusing on low-level implementations.