Read XSLT 2.0 and XPath 2.0 Programmer's Reference, 4th Edition Online
Authors: Michael Kay
XSLT 2.0 and XPath 2.0 Programmer's Reference, 4th Edition (596 page)
node-name
The
node-name()
function returns a value of type
xs:QName
containing the expanded name of a node, that is, the namespace URI and local name.
Signature
| Argument | Type | Meaning |
| input | node()? | The node whose name is required |
| Result | xs:QName? | The name of the node if it has a name, or an empty sequence if it has no name |
Effect
If the node is an element or attribute, then the function returns an
xs:QName
whose components are the namespace URI, local name, and prefix of this node. If the node is not in a namespace, then the namespace URI component of the
xs:QName
will be absent (the function
namespace-uri-from-QName()
will return the empty sequence).
If the node is a processing instruction, the function returns an
xs:QName
whose local name is the name of the processing instruction, and whose namespace URI and prefix are absent.
If the node is a text node, comment, or document node, or if an empty sequence is supplied, then the function returns an empty sequence.
If the node is a namespace node, then the function returns an
xs:QName
whose local name represents the namespace prefix and whose namespace URI and prefix are absent; except when the namespace node represents the default namespace, in which case the function returns an empty sequence.
Examples
It's difficult to illustrate function calls that return
xs:QName
values, because displaying an
xs:QName
as a string loses information about the namespace URI. In these examples I'll display the value in so-called Clark notation (after James Clark, the editor of the XSLT 1.0 and XPath 1.0 specifications), which uses the format
{uri}local-name
.
Assume the following source document:
xmlns:xs=“http://www.w3.org/2001/XMLSchema”>
xmlns:xsi=“http://www.w3.org/2001/XMLSchema-instance”
xmlns:soap=“”>
| Expression | Result (in Clark notation) |
| node-name(/*) | {http://schemas.xmlsoap.org/soap/envelope/}Envelope |
| node-name(/*/*/*) | {http://example.com/soapdemo}echoString |
| node-name(//@*:type) | {http://www.w3.org/2001/XMLSchema-instance}type |
Usage
To access the components of the
xs:QName
returned by the
node-name()
function, you can use the functions
local-name-from-QName()
and
namespace-uri-from-QName()
. Alternatively, if you don't like long function names, you can use the
local-name()
and
namespace-uri()
functions to get these two components directly from the node itself.
See Also
local-name-from-QName()
on page 826
namespace-uri-from-QName()
on page 841
local-name()
on page 824
name()
on page 835
namespace-uri()
on page 837
normalize-space
The
normalize-space()
function removes leading and trailing whitespace from a string, and replaces internal sequences of whitespace with a single space character.
For example, the expressionnormalize-space(‘x y’)returns the stringx y.
Changes in 2.0
None.
Signature
| Argument | Type | Meaning |
| value (optional) | xs:string? | The input string. If the argument is omitted, it defaults to string(.) . If an empty sequence is supplied, the function returns a zero-length string. |
| Result | xs:string | A string obtained by removing leading and trailing whitespace from the input string, and replacing internal sequences of whitespace by a single space character . |
Effect
When the function is called with no arguments, the argument defaults to the result of applying the
string()
function to the context item; an error is reported if there is no context item.
Whitespace is defined, as in the XML specification, as a sequence of space, tab, newline, and carriage return characters (
#x9
,
#xA
,
#xD
, and
#x20
).
Examples
| Expression | Result |
| normalize-space(“ the quick brown fox ”) | “the quick brown fox” |
| normalize-space(“ ”) | “” |
| normalize-space(“piano”) | “piano” |
| normalize-space(()) | “” |
Usage
It is often a good idea to apply the
normalize-space()
function to any string read from the source document before testing its contents, as many users will assume that leading and trailing whitespace has no significance and that within the string, multiple spaces or tabs are equivalent to a single space.
Don't imagine that the XSLT
Using
normalize-space()
shouldn't be necessary when accessing structured information in a schema-validated document. The schema should specify for each type (in the
xs:whiteSpace
facet) how whitespace is to be treated, and this will normally ensure that redundant whitespace is removed automatically when nodes are atomized. Note that the action of the
normalize-space()
function is equivalent to the option
xs:normalizedString
, which uses the option
However, if you access the string value of an element with a mixed content type (typically by calling the
string()
function explicitly, or by accessing the text nodes of an element explicitly), then schema-defined whitespace normalization will not be applied, so using
normalize-space()
is a good idea.
The
normalize-space()
function can be particularly useful when processing a whitespace-separated list of values. Such lists are used in some document designs. With a schema processor, the system can deliver the value as a sequence of strings, but in the absence of a schema you have to tokenize the sequence yourself. You can call
normalize-space()
to ensure that there is a single space between each string, and it is then possible to use
substring-before()
to get the next token. To make this easier still, I usually add a space at the end of the string after normalization, so that every token is followed by a single space.
One situation where it isn't safe to use
normalize-space()
is where you are processing mixed element content containing character-level formatting attributes. For example, if you process the nodes that result from the element:
