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On the web, there is a lot of examples showing how to construct parsing tables for a context-free grammar from first/follow sets for LL(1) parser.

But I haven't found anything useful related to k>1 cases. Even wikipedia gives no info about this.

I expect that it must be in some way similar, but pointers to existing research in this area would be very helpful.

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I have a copy of a great book on parsing that, unfortunately, skips this topic. I'm just as curious as you are. From my understanding, though, the algorithms for k > 1 are substantially more involved and completely infeasible in practice. I guess we'll find out! – templatetypedef Jan 25 '12 at 10:27
I dont think it's infeasible. At least ANTLR claims for parsing LL(K) (with any K) grammars. – Odobenus Rosmarus Jan 25 '12 at 13:01
With recursive descent parsers its easy, you just maintain a list of look aheads. Then there are plenty of optimization to improve on this, such as memoization and back tracking. Not sure how it would work for a table driven parser though! Have you figured it out yet? – Austin Henley Jan 28 '12 at 17:25
not really - but use a dirty workarround: lexical analyzer part "wraps" some multi-symbols as one, and then I use LL(1). However, this solution has limitations. I am using table-driven parser, because it seems to have best performance. – Petr Kozelka Feb 28 '12 at 13:19
from a mathematical point of view the strings in the first and follow set are k characters long, rather than just a single character. from an implementation point of view how you actually match these depends on how you represent your tokens I suppose. – Will Oct 13 '12 at 21:23

I struggle pretty much with the same issues, building LR parser, not LL though. I found a little better page than LL(k) mentioned by @cakeplus -- There is also related paper available for free --

However even those didn't help me much. So I started myself from the basics. If anyone is interested: and the battle will continue :-)

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