This is actually a very subtle problem and I think a great question.
My understanding is that an (abbreviated) XPATH points to an attribute if and only its last
@ is not within a predicate, that is, something of the form
[...], and has no steps after it (something like
/...). I think this has the relatively simple regular expression
@[^]/]*$, that is, there must be an
@ that has no
/s after it. Also, if you want to cover unabbreviated XPATHs, you can use
I've included a test harness that may prove useful in checking this or other tests. Note also that there may be whitespace in between tokens which can complicate some regexs.
Positive (an attribute)
a[@b and @c]/@d
a[b[@c="d"]/e[@f and @g]]/h[@i="j"]/@k
Negative (not an attribute)
a[@b and @c]
a[b[@c and @d]/@e]
a[b[@c="d"]/e[@f and @g]]/h[@i="j"]/k[@l="m"]
I can't think of a legal example where there is a
/ but not a
] after the last example, but I think there might be one.
Hopefully these examples make it at least a little clear that there can be arbitrary nesting of
] together with
@s anywhere in between. Luckily, I think only the very last
@ and its nesting level matters.
(For reference, the OP's regex fails on
@a. My original regex failed on
a[@b and @c].)
Edit: It turns out that there are more corner cases, which convinces me that there is no perfectly-correct regular expression. For example, once you have an attribute node, there are many ways of keeping it, e.g.
//@a/. in the abbreviated syntax. There are also a variety of more creative ways, such as
//@f//[node()]. All in all, it seems that if you want to cover these cases, you need to be able to match
], which a basic regular expression cannot do. On the other hand, you could decide this is too contrived ...