So I'm doing a Parser, where I favor flexibility over speed, and I want it to be easy to write grammars for, e.g. no tricky workaround rules (fake rules to solve conflicts etc, like you have to do in yacc/bison etc.)
There's a hand-coded Lexer with a fixed set of tokens (e.g. PLUS, DECIMAL, STRING_LIT, NAME, and so on) right now there are three types of rules:
- TokenRule: matches a particular token
- SequenceRule: matches an ordered list of rules
- GroupRule: matches any rule from a list
For example, let's say we have the TokenRule 'varAccess', which matches token NAME (roughly /[A-Za-z][A-Za-z0-9_]*/), and the SequenceRule 'assignment', which matches [expression, TokenRule(PLUS), expression].
Expression is a GroupRule matching either 'assignment' or 'varAccess' (the actual ruleset I'm testing with is a bit more complete, but that'll do for the example)
But now let's say I want to parse
var1 = var2
And let's say the Parser begins with rule Expression (the order in which they are defined shouldn't matter - priorities will be solved later). And let's say the GroupRule expression will first try 'assignment'. Then since 'expression' is the first rule to be matched in 'assignment', it will try to parse an expression again, and so on until the stack is filled up and the computer - as expected - simply gives up in a sparkly segfault.
So what I did is - SequenceRules add themselves as 'leafs' to their first rule, and become non-roôt rules. Root rules are rules that the parser will first try. When one of those is applied and matches, it tries to subapply each of its leafs, one by one, until one matches. Then it tries the leafs of the matching leaf, and so on, until nothing matches anymore.
So that it can parse expressions like
var1 = var2 = var3 = var4
Just right =) Now the interesting stuff. This code:
var1 = (var2 + var3)
Won't parse. What happens is, var1 get parsed (varAccess), assign is sub-applied, it looks for an expression, tries 'parenthesis', begins, looks for an expression after the '(', finds var2, and then chokes on the '+' because it was expecting a ')'.
Why doesn't it match the 'var2 + var3' ? (and yes, there's an 'add' SequenceRule, before you ask). Because 'add' isn't a root rule (to avoid infinite recursion with the parse-expresssion-beginning-with-expression-etc.) and that leafs aren't tested in SequenceRules otherwise it would parse things like
reader readLine() println()
reader (readLine() println())
(e.g. '1 = 3' is the expression expected by add, the leaf of varAccess a)
whereas we'd like it to be left-associative, e.g. parsing as
(reader readLine()) println()
So anyway, now we've got this problem that we should be able to parse expression such as '1 + 2' within SequenceRules. What to do? Add a special case that when SequenceRules begin with a TokenRule, then the GroupRules it contains are tested for leafs? Would that even make sense outside that particular example? Or should one be able to specify in each element of a SequenceRule if it should be tested for leafs or not? Tell me what you think (other than throw away the whole system - that'll probably happen in a few months anyway)
P.S: Please, pretty please, don't answer something like "go read this 400pages book or you don't even deserve our time" If you feel the need to - just refrain yourself and go bash on reddit. Okay? Thanks in advance.