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What advantages do LL parsers have over LR parsers to warrant their relative popularity in today's parser generator tools?

According to Wikipedia, LR parsing appears to have advantages over LL:

LR parsing can handle a larger range of languages than LL parsing, and is also better at error reporting, i.e. it detects syntactic errors when the input does not conform to the grammar as soon as possible. This is in contrast to an LL(k) (or even worse, an LL(*) parser) which may defer error detection to a different branch of the grammar due to backtracking, often making errors harder to localize across disjunctions with long common prefixes.

Note: This is not homework. I was just surprised when I found out that Antlr is an LL parser generator (despite having "LR" in its name!).

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Talking about parsers (and not grammars): LL(*) can be written in a simple recursive-decent approach. That's a +1 in my book. –  user166390 Nov 3 '10 at 22:39
    
@pst: True, I was just hoping that "because they're easier to implement" wasn't the primary advantage. :) –  Adam Paynter Nov 3 '10 at 22:41
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Note that the "LR" in ANTLR just stands for "Language Recognition", not anything about the class of grammar it accepts. –  Jerry Coffin Nov 3 '10 at 22:51
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Actually, in Terrence Parr's mind, it stands for Anti-LR. At least I remember an interview with him, where he admitted that this connotation was no accident. He said he created ANTLR specifically because he felt that the near-total focus on LR parsing was a big mistake, and he got fed up telling everybody that LR sucks and nobody listening, so he decided to create the world's best parser generator, crush all the others and leave only LL standing ... or something like that. –  Jörg W Mittag Nov 4 '10 at 10:26
    
@Jörg: Really? Wow, that's certainly ambitious! It sounds like Terrence would certainly have something to add to this question! Perhaps I should email him, asking for his input... –  Adam Paynter Nov 4 '10 at 11:06

5 Answers 5

up vote 16 down vote accepted

A quick few comments. GLR is great if you want a parse tree/forest and don't mind black boxes. It lets u type in whatever CFG you want at the cost of checking for ambiguities at parse time via exhaustive testing instead of resolving LR/LALR conflicts statically. Some say that's a good trade. Ira's DMS tool or Elkhoud, which has a free C++ grammar, are useful for this class of problem. ANTLR is useful for a large class of lang applications too but uses a top down approach, generating recursive descent parsers called LL(*) that allow semantic predicates. I will state w/o proof here that preds allow you to parse context-sensitive languages beyond CFGs. Programmers like to insert actions into grammars, like good error handling, and like to single-step debug. LL is good at all three. LL is what we do by hand so it's easier to understand. Don't believe the wikipedia nonsense about LR being better at errors. That said, if you backtrack a lot w/ANTLR, errors are indeed worse with LL(*) (PEGs have this problem).

Re backtracking. GLR speculates (i.e., backtracks) too just like PEGs, ANTLR, and any other nondeterministic strategy. At any nondeterministic LR state, GLR "forks" subparsers to try out any viable path. Anyway, LL has good context for error handling. Where LR knows it's matching an expr, LL knows it's an expr in an assignment or IF-conditional; LR knows it could be in either but isn't sure (that uncertainty is where it gets its power).

GLR is O(n^3) worst case. packrat/PEG is O(n) worst case. ANTLR's are O(n^2) due to cyclic lookahead DFA but O(n) in practice. Doesn't matter really. GLR is fast enough.

ANTLR is ANother Tool for Lang Recog not anti-LR but i like that one too ;)

Frankly, like a lot of young coders in 80s, I didn't understand LALR and didn't like black boxes [now i dig the beauty of the GLR engine but still prefer LL]. I built a commercial LL(k) based compiler and decided to build a tool to generate what I had built by hand. ANTLR isn't for everyone and edge cases like C++ might be better handled with GLR but a lot of people find ANTLR fits into their comfort zone. Since Jan 2008, there have been 134,000 downloads of ANTLR's binary jar, within ANTLRWorks, and source zips total (according to Google Analytics). A paper will appear soon on LL(*) with lots of empirical data.

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I can certainly appreciate the ability to debug line-by-line! I can also appreciate the idea of "context" (that is, knowing that the expression being parsed is contained within an if statement). Thanks for the answer, it certainly illustrates some strengths of LL parsers! –  Adam Paynter Nov 4 '10 at 23:44
    
@Terence: what's the bit about a "black box"? All parser generators and the support machinery are pretty much mysteries to the users and rightly so; most user don't want to know the theory or the gears. I buy your "absent proof" of ANTLR doing beyond CFGs; but that's true of any grammar-driven engine that also allow semantic predicates. As a practical matter, they all do (at least all the ones I met or built :) including DMS's. Single-step is a matter of tooling, not the parser generator technology. Quality of error recovery has the same property. –  Ira Baxter Nov 6 '10 at 17:33
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All: I agree that ANTLR and most parser generators in fact are good for building parsers for "modest" grammars. The distinction starts to occur when the grammars get "tough". If you are in control of the grammar and can change it to make tough cases go away, then any parser generator will do. If you are not, then the strength of the parser generator really matters. In either case, the engineering in support of the tool really helps. In spite of my bias towards GLR (they are O(n) in practice, too!), I'll be the first to admit that Terence has done a pretty decent job making ANTLR effective. –  Ira Baxter Nov 6 '10 at 17:37
    
@Ira: I completely agree with your points. I just want to say that the reason why I accepted Terence's answer was because I thought it best answered the original question ("What advantages do LL parsers have over LR parsers?"). I also agree with you (and Terence) that GLR looks fantastic! I also agree that he has done an excellent job with ANTLR. :) –  Adam Paynter Nov 6 '10 at 20:38
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@Ira: I just meant that GLR is a black box because it works but is opaque. The other extreme is a recursive descent parser (as generated by ANTLR) that is not a black box because it is what a programmer would build by hand and can single step debug. Actually, that is not totally true. LL(*) allows cyclic DFA to scan ahead and I generate state machines (black boxes) for those decisions but that is just for the alternative production prediction not the parsing. –  The ANTLR Guy Nov 9 '10 at 22:42

If you have to hand code one, recursive descent (LL) is something you can do realistically; people cannot hand-build L(AL)R parsers practically by hand.

Given that modern parser generators will handle all the parser construction for you, and that space is not much of an issue, I prefer LR parsers because you don't have to fight with the grammars as much to make them valid for your particular parser generator (no "remove all the left recursion" silliness).

In fact, I prefer GLR parsers, which will pretty much parse anything with a context free grammar. No left-recursion worries. No shift/reduce conflict worries. No lookahead limits.

If you want to see the range of languages that one GLR parsing engine can handle (including the famously hard-to-parse-using-LL/LALR language, C++), you can look here.

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you don't have to fight versus grammars just because you are able to define predences directly by specific commands inside the parser definition, not because the LR approach has less requirements over the grammar itself.. –  Jack Nov 3 '10 at 22:50
    
@Ira: Very interesting post! I hadn't even heard of GLR parsers before. –  Adam Paynter Nov 3 '10 at 23:00
    
@Jack: I agree with your point about how precedence directives are not a LR-specific advantage. However, would you agree with Ira's point regarding the elimination of left recursion? –  Adam Paynter Nov 3 '10 at 23:01
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LALR exists because you get smaller tables than LR for many practical grammars. You can certainly define the concept of LALR(3) grammars although nobody does in practice. The reason for GLR is that you can stop thinking about K. –  Ira Baxter Nov 3 '10 at 23:11
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@Adam: The references at the Wikipedia sites are must-reads but they are hard to find "free"; I have hardcopies acquired many years ago. Adrian Johnstone seems to be doing a lot of work on advanced GLR parsing, for example: portal.acm.org/citation.cfm?id=1149674. This is free if you are an ACM member. His website cs.rhul.ac.uk/research/languages/publications/… likely has freely accessible documents. –  Ira Baxter Nov 3 '10 at 23:23

From my personal experience (I used both for various situations), the most practical difference is that, with a LL(k), you can define the grammar in an easier way (since it's top-down) without caring about many possible reduce-reduce or shift-reduce conflicts which often occur with LR parsers. The only thing you have to care about is left-recursion which must be transformed into right one.

Another thing is that the top-down approach usually implies a higher complexity (regarding either space either time) since it has to store the whole tree while parsing and it can grow a lot until ambiguities are solved.

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Just so I understand... You're saying the most practical difference is that LL parsers avoid the conflicts typically found in LR parsers. Would this only apply to LR parsers that limit their lookahead to a small number (for example, LR(1) or LALR(1))? I thought that LR(k) parsers didn't have near as many conflicts... –  Adam Paynter Nov 3 '10 at 22:55

The only advantage I've ever been familiar with is that you can easily code LL parsers by hand. LR parsers are MUCH harder to code by hand (you usually use a parser generator).

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And when you have such a genarator, producting them is really easy. –  Ira Baxter Nov 12 '13 at 21:01

One reason that comes to mind is, it's much easier to do a language that needs arbitrary backtracking (cough C++) in an LL paradigm.

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Cough C++ does NOT need arbitrary backtracking. A GLR parser does this just fine. See my answer. –  Ira Baxter Nov 3 '10 at 22:49
    
I mean, C++ isn't LL(k) or LR(k) for any finite k, because of the declaration/expression ambiguity. –  Zack Nov 3 '10 at 22:58
    
Well, parsing C++ in a pure sense (not the GCC-resolves-types-during-parsing hack) requires the parser also pick up ambiguous parses. LL/LR parses simply don't do that. GLR parsers do. You resolve the ambiguity later with symbol table information, allowing you to separate parsing from name and type resolution, which gives you much cleaner parsers. –  Ira Baxter Nov 3 '10 at 23:01
    
@Zack and @Ira: What an interesting conversation! –  Adam Paynter Nov 3 '10 at 23:03
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@Zack: Read my answer. Check out the link. YES. We avoid that hack completely. We use it to carry out modifications of large-scale C++ systems. –  Ira Baxter Nov 4 '10 at 0:05

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