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I'm currently having a look at GNU Bison to parse program code (or actually to extend a program that uses Bison for doing that). I understand that Bison can only (or: best) handle LR(1) grammars, i.e. a special form of context-free grammars; and I actually also (believe to) understand the rules of context-free and LR(1) grammars.

However, somehow I'm lacking a good understanding of the notion of a LR(1) grammar. Assume SQL, for instance. SQL incorporates - I believe - a context-free grammar. But is it also a LR(1) grammar? How could I tell? And if yes, what would violate the LR(1) rules?

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Actually: What about the AND in SQL in boolean queries and in BETWEEN x AND y? Does that violate LR(1)? –  navige Feb 13 '13 at 12:41
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up vote 1 down vote accepted

LR(1) means that you can choose proper rule to reduce by knowing all tokens that will be reduced plus one token after them. There are no problems with AND in boolean queries and in BETWEEN operation. The following grammar, for example is LL(1), and thus is LR(1) too:

expr ::= and_expr | between_expr | variable
and_expr ::= expr "and" expr
between_expr ::= "between" expr "and" expr
variable ::= x

I believe that the whole SQL grammar is even simpler than LR(1). Probably LR(0) or even LL(n).

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Ok! Thanks for the example, that makes the situation with the AND/BETWEEN in SQL clearer! But how do you know that SQL is simpler than LR(1)? What are the clues to see that? (Sorry if the question seems stupid) –  navige Feb 13 '13 at 12:59
    
Many SQL constructs start with construct name like SELECT ..., WHERE ..., FROM ... etc. Such constructs are typical for LL(1) grammars where you can choose proper reduce rule by looking just the first token. –  Mikhail Vladimirov Feb 13 '13 at 13:26
    
Makes perfectly sense! I think I start to understand... –  navige Feb 13 '13 at 14:11
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Some of my customers created SQL and DB2 parsers using my LALR(1) parser generator and used them successfully for many years. The grammars they sent me are LALR(1) (except for the shift-reduce conflicts which are resolved the way you would want). For the purists -- not LALR(1), but work fine in practice, no GLR or LR(1) needed. You don't even need the more powerful LR(1), AFAIK.

I think the best way to figure this out is to find an SQL grammar and a good LALR/LR(1) parser generator and see if you get a conflict report. As I remember an SQL grammar (a little out of date) that is LALR(1), is available here: http://lrstar.org/grammars.html

LRSTAR is an LALR(1) parser generator that will give you a conflict report. It's also LR(*) if you don't want to resolve the conflicts.

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