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?

`(air|airplane)`

trying to match the word airplane. – xanatos Mar 31 '11 at 14:47`[aeiou]`

while the choice operator is the pipe character`|`

. In PEG the choice operator is instead the slash character`/`

. – hippietrail Aug 11 at 10:56