On Wednesday, August 01, 2012 17:10:07 Walter Bright wrote: > 1. It should accept as input an input range of UTF8. I feel it is a mistake > to templatize it for UTF16 and UTF32. Anyone desiring to feed it UTF16 > should use an 'adapter' range to convert the input to UTF8. (This is what > component programming is all about.)
But that's not how ranges of characters work. They're ranges of dchar. Ranges don't operate on UTF-8 or UTF-16. They operate on UTF-32. You'd have to create special wrappers around string or wstring to have ranges of UTF-8. The way that it's normally done is to have ranges of dchar and then special-case range-based functions for strings. Then the function can operate on any range of dchar but still operates on strings efficiently. So, it's quite possible to make a lexer operate on ranges of dchar but be operating primarily on ASCII by special-casing strings and avoiding decoding as much as possible. My lexer does a good job of this, I believe, so it's thoroughly optimized for strings, but it's still operating on ranges of dchar, not ranges of UTF-8. > 2. It should output an input range of tokens > > 3. tokens should be values, not classes > > 4. It should avoid memory allocation as much as possible > > 5. It should read or write any mutable global state outside of its "Lexer" > instance > > 6. A single "Lexer" instance should be able to serially accept input ranges, > sharing and updating one identifier table When you say identifier table, do you mean symbol table, or something else? Isn't the symbol table something for the parser to worry about? Other than parsers, I can't think of anything which would even _care_ about a symbol table. And depending on how a symbol table were done, you'd want it to take scoping rules into account (_I'd_ certainly expect it to), meaning that it only includes identifiers which are relevant to the current scope. And if that's the case, it _really_ doesn't belong in the lexer. The code using the lexer can easily have its own table that it populates according to however it wants it populated by processing the identifier tokens as they get lexed. Not to mention, don't symbol tables usually include type information that a lexer _wouldn't_ have? Sure, a symbol table _could_ be put in the lexer (at least if it doesn't care about scoping), but I definitely question that that's the right place for it. If you mean a table that simply lists identifiers rather than a symbol table, I'm not quite sure why you'd want it in addition to the symbol table, and again, I'd expect only parsers to care about that sort of thing, so I'd expect the parser to be implementing it. So, what exactly are you looking for the lexer to implement as far as an identifier table goes, and why is it in the lexer rather than the parser? > 7. It should accept a callback delegate for errors. That delegate should > decide whether to: > 1. ignore the error (and "Lexer" will try to recover and continue) > 2. print an error message (and "Lexer" will try to recover and continue) > 3. throw an exception, "Lexer" is done with that input range I'm currently treating errors as tokens. It then becomes easy for the code using the lexer to just ignore the errors, to process them immediately, or to put off dealing with them until the lexing is complete. So, the code using the lexer can handle errors however and whenever it likes without having to worry about delegates or exceptions. Since tokens are lexed lazily, the fact that an error is reported as a token doesn't require that the lexing continue, but it also makes it _easy_ to continue lexing, ignoring or saving the error. I'm inclined to think that that's a superior approach to using delegates and exceptions. > 8. Lexer should be configurable as to whether it should collect information > about comments and ddoc comments or not > > 9. Comments and ddoc comments should be attached to the next following > token, they should not themselves be tokens Why? I'd argue for just processing them as tokens just like I'm doing with errors. The code using the lexer can then process them or ignore them as it likes (it can even specifically look for them and ignore all other tokens if it's something which only operates on comments). And if you want to see which token follows the comment, it's the next one in the range. So, I don't see much need to attach comments to other tokens. What's the advantage of not treating them as tokens? > 12. It should come with unittests that, using -cov, show 100% coverage 100% is actually unreasonable, because there are lines which should _never_ be hit (e.g. an assert(0) line in a switch statement). All lines _other_ than those sort of lines should have code coverage, but depending on the lexer implementation, 100% is impossible. std.datetime has a ton of unit tests and IIRC it still only manages 98% because of assert(0) lines. So, I agree with the spirit of your statement, but it's not necessarily reasonable to do exactly what you're saying. - Jonathan M Davis