@Kirill gave the correct answer regarding how to fix
But for those who want to know why the initial XPath doesn't work, and whether there's a variant using
self:: that would work...
@ is an abbreviation for the
attribute:: axis. So
self::@foo is shorthand for
self::attribute::foo. But syntactically, there can only be one axis in a location step. That's why the parser rejects
self::@style: it has two axes.
There's something else interesting going on here. You might think you could fix the expression as follows:
(Ignore for the moment the fact that this is needlessly more complex that
//@style. You start trying expressions like this when you want all attributes except
This expression parses and runs without errors. The first part,
//@*, matches all attribute nodes in the document. And you might think (as I did) that the predicate
[self::style] will evaluate to a truthy value whenever its context node is a
But we would be wrong. If we try it, we'll get an empty nodeset. Why? If the context node is an attribute node, and the
self:: axis contains only the context node, and the attribute's name matches the name that comes after
self::, shouldn't the expression in the predicate yield that attribute node as its result?
On p. 1228 of XSLT 2.0 and XPath 2.0 (4th ed.), the glossary definition of Self Axis explains:
The principal node kind of the self axis is elements, which means
that when the context node is an attribute, an axis step of the
self::xyz will not select that attribute [bold emphasis mine].
However, in XPath 2.0, you can use
self::attribute(style). I.e. you can use a KindTest instead of a NameTest.
Michael Kay goes into quite a bit of detail on the rules for what kinds of nodes can be matched by a NameTest on p. 695.