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From this wikipedia page:

The fundamental difference between context-free grammars and parsing expression grammars is that the PEG's choice operator is ordered. If the first alternative succeeds, the second alternative is ignored. Thus ordered choice is not commutative, unlike unordered choice as in context-free grammars and regular expressions. Ordered choice is analogous to soft cut operators available in some logic programming languages.

Why does PEG's choice operator short circuits the matching? Is it because to minimize memory usage (due to memoization)?

I'm not sure what the choice operator is in regular expressions but let's suppose it is this: /[aeiou]/ to match a vowel. So this regex is commutative because I could have written it in any of the 5! (five factorial) permutations of the vowel characters? i.e. /[aeiou]/ behaves the same as /[eiaou]/. What is the advantage of it being commutative? (c.f. PEG's non-commutativity)

The consequence is that if a CFG is transliterated directly to a PEG, any ambiguity in the former is resolved by deterministically picking one parse tree from the possible parses. By carefully choosing the order in which the grammar alternatives are specified, a programmer has a great deal of control over which parse tree is selected.

Is this saying that PEG's grammar is superior to CFG's?

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"Superior"? What are you criteria for "superior"? –  Gabe Mar 31 '11 at 14:02
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For the commutativity, think of (air|airplane) trying to match the word airplane. –  xanatos Mar 31 '11 at 14:47
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2 Answers

up vote 19 down vote accepted

A CFG grammar is non-deterministic, meaning that some input could result in two or more possible parse-trees. Though most CFG-based parser-generators have restrictions on the determinability of the grammar. It will give a warning or error if it has two or more choices.

A PEG grammar is deterministic, meaning that any input can only be parsed one way.

To take a classic example; The grammar

if_statement := "if" "(" expr ")" statement "else" statement
              | "if" "(" expr ")" statement;

applied to the input

if (x1) if (x2) y1 else y2

could either be parsed as

if_statement(x1, if_statement(x2, y1, y2))

or

if_statement(x1, if_statement(x2, y1), y2)

A CFG-parser would generate a Shift/Reduce-conflict, since it can't decide if it should shift (read another token), or reduce (complete the node), when reaching the "else" keyword. Of course, there are ways to get around this problem.

A PEG-parser would always pick the first choice.

Which one is better is for you to decide. My objective opinion is that often PEG-grammars is easier to write, and CFG grammars easier to analyze.

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Could you provide an example of such a CFG grammar (with 2 parse trees)? –  Frankie Ribery Apr 4 '11 at 5:47
    
Thanks for the dangling else example. It is clear now. –  Frankie Ribery Apr 12 '11 at 2:50
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I think you're confusing CFG with LR and with ambiguity. Grammars are not deterministic/nondeterministic, though their parsers may be. An ambiguous grammar is still CFG if it complies with the definition, and a deterministic parser can be built for it doing what PEG does.

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No, CFGs are sometimes ambiguous because their "choice" operator has no precedence, so if a given string matches both options in the "choice", then you have an ambiguity. The "choice" in PEGs have first-match-wins precedence, so there is no ambiguity because the leftmost option necessarily wins. –  aaronblohowiak Jan 15 '13 at 1:46
    
No. A CFG may be ambiguous because all options are equally valid. A CFG is ambiguous when the same phrase can be generated by different sequences of productions. In LL and LR, ambiguity means that a parser/recognizer has no way to know which sequence of productions (which syntax tree) corresponds to a given phrase. PEG solves the ambiguity problem by ranking productions according to the order in which they are declared. It tells parses that the right syntax tree is the first syntax tree. –  Apalala Jan 15 '13 at 10:53
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