Colophon
Abstract
Status of this document
Table of Contents
1. Introduction
2. Stylesheet Structure
2.1. XSLT Namespace
2.2. Stylesheet Element
2.3. Literal Result Element as Stylesheet
2.4. Qualified Names
2.5. Forwards-Compatible Processing
2.6. Combining Stylesheets
2.6.1. Stylesheet Inclusion
2.6.2. Stylesheet Import
2.7. Embedding Stylesheets
3. Data Model
3.1. Root Node Children
3.2. Base URI
3.3. Unparsed Entities
3.4. Whitespace Stripping
4. Expressions
5. Template Rules
5.1. Processing Model
5.2. Patterns
5.3. Defining Template Rules
5.4. Applying Template Rules
5.5. Conflict Resolution for Template Rules
5.6. Overriding Template Rules
5.7. Modes
5.8. Built-in Template Rules
6. Named Templates
7. Creating the Result Tree
7.1. Creating Elements and Attributes
7.1.1. Literal Result Elements
7.1.2. Creating Elements with xsl:element
7.1.3. Creating Attributes with xsl:attribute
7.1.4. Named Attribute Sets
7.2. Creating Text
7.3. Creating Processing Instructions
7.4. Creating Comments
7.5. Copying
7.6. Computing Generated Text
7.6.1. Generating Text with xsl:value-of
7.6.2. Attribute Value Templates
7.7. Numbering
7.7.1. Number to String Conversion Attributes
8. Repetition
9. Conditional Processing
9.1. Conditional Processing with xsl:if
9.2. Conditional Processing with xsl:choose
10. Sorting
11. Variables and Parameters
11.1. Result Tree Fragments
11.2. Values of Variables and Parameters
11.3. Using Values of Variables and Parameters with xsl:copy-of
11.4. Top-level Variables and Parameters
11.5. Variables and Parameters within Templates
11.6. Passing Parameters to Templates
12. Additional Functions
12.1. Multiple Source Documents
12.2. Keys
12.3. Number Formatting
12.4. Miscellaneous Additional Functions
13. Messages
14. Extensions
14.1. Extension Elements
14.2. Extension Functions
15. Fallback
16. Output
16.1. XML Output Method
16.2. HTML Output Method
16.3. Text Output Method
16.4. Disabling Output Escaping
17. Conformance
18. Notation
A. References
A.1. Normative References
A.2. Other References
B. Element Syntax Summary
C. DTD Fragment for XSLT Stylesheets (Non-Normative)
D. Examples (Non-Normative)
D.1. Document Example
D.2. Data Example
E. Acknowledgements (Non-Normative)
F. Changes from Proposed Recommendation (Non-Normative)
G. Features under Consideration for Future Versions of XSLT (Non-Normative)
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XSL Transformations (XSLT)
(REC-xslt-19991116)
Table of Contents
1. Introduction
2. Stylesheet Structure
2.1. XSLT Namespace
2.2. Stylesheet Element
2.3. Literal Result Element as Stylesheet
2.4. Qualified Names
2.5. Forwards-Compatible Processing
2.6. Combining Stylesheets
2.6.1. Stylesheet Inclusion
2.6.2. Stylesheet Import
2.7. Embedding Stylesheets
3. Data Model
3.1. Root Node Children
3.2. Base URI
3.3. Unparsed Entities
3.4. Whitespace Stripping
4. Expressions
5. Template Rules
5.1. Processing Model
5.2. Patterns
5.3. Defining Template Rules
5.4. Applying Template Rules
5.5. Conflict Resolution for Template Rules
5.6. Overriding Template Rules
5.7. Modes
5.8. Built-in Template Rules
6. Named Templates
7. Creating the Result Tree
7.1. Creating Elements and Attributes
7.1.1. Literal Result Elements
7.1.2. Creating Elements with xsl:element
7.1.3. Creating Attributes with xsl:attribute
7.1.4. Named Attribute Sets
7.2. Creating Text
7.3. Creating Processing Instructions
7.4. Creating Comments
7.5. Copying
7.6. Computing Generated Text
7.6.1. Generating Text with xsl:value-of
7.6.2. Attribute Value Templates
7.7. Numbering
7.7.1. Number to String Conversion Attributes
8. Repetition
9. Conditional Processing
9.1. Conditional Processing with xsl:if
9.2. Conditional Processing with xsl:choose
10. Sorting
11. Variables and Parameters
11.1. Result Tree Fragments
11.2. Values of Variables and Parameters
11.3. Using Values of Variables and Parameters with
xsl:copy-of
11.4. Top-level Variables and Parameters
11.5. Variables and Parameters within Templates
11.6. Passing Parameters to Templates
12. Additional Functions
12.1. Multiple Source Documents
12.2. Keys
12.3. Number Formatting
12.4. Miscellaneous Additional Functions
13. Messages
14. Extensions
14.1. Extension Elements
14.2. Extension Functions
15. Fallback
16. Output
16.1. XML Output Method
16.2. HTML Output Method
16.3. Text Output Method
16.4. Disabling Output Escaping
17. Conformance
18. Notation
Appendices
A. References
A.1. Normative References
A.2. Other References
B. Element Syntax Summary
C. DTD Fragment for XSLT Stylesheets (Non-Normative)
D. Examples (Non-Normative)
D.1. Document Example
D.2. Data Example
E. Acknowledgements (Non-Normative)
F. Changes from Proposed Recommendation (Non-Normative)
G. Features under Consideration for Future Versions of XSLT (Non-Normative)
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XSL Transformations (XSLT)
(REC-xslt-19991116)
Introduction
1. Introduction
This specification defines the syntax and semantics of the XSLT
language. A transformation in the XSLT language is expressed as a
well-formed XML document [XML] conforming to the
Namespaces in XML Recommendation [XML Names], which may
include both elements that are defined by XSLT and elements that are
not defined by XSLT. XSLT-defined elements are distinguished by belonging to a
specific XML namespace (see
§ 2.1 – XSLT Namespace on page
), which is
referred to in this specification as the XSLT
namespace. Thus this specification is a definition of
the syntax and semantics of the XSLT namespace.
A transformation expressed in XSLT describes rules for transforming
a source tree into a result tree. The transformation is achieved by
associating patterns with templates. A pattern is matched against
elements in the source tree. A template is instantiated to create
part of the result tree. The result tree is separate from the source
tree. The structure of the result tree can be completely different
from the structure of the source tree. In constructing the result
tree, elements from the source tree can be filtered and reordered, and
arbitrary structure can be added.
A transformation expressed in XSLT is called a stylesheet. This is
because, in the case when XSLT is transforming into the XSL formatting
vocabulary, the transformation functions as a stylesheet.
This document does not specify how an XSLT stylesheet is associated
with an XML document. It is recommended that XSL processors support
the mechanism described in [XML Stylesheet]. When this or any
other mechanism yields a sequence of more than one XSLT stylesheet to
be applied simultaneously to a XML document, then the effect
should be the same as applying a single stylesheet that imports each
member of the sequence in order (see
§ 2.6.2 – Stylesheet Import on page
).
A stylesheet contains a set of template rules. A template rule has
two parts: a pattern which is matched against nodes in the source tree
and a template which can be instantiated to form part of the result
tree. This allows a stylesheet to be applicable to a wide class of
documents that have similar source tree structures.
A template is instantiated for a particular source element
to create part of the result tree. A template can contain elements
that specify literal result element structure. A template can also
contain elements from the XSLT namespace
that are instructions for creating result tree
fragments. When a template is instantiated, each instruction is
executed and replaced by the result tree fragment that it creates.
Instructions can select and process descendant source elements. Processing a
descendant element creates a result tree fragment by finding the
applicable template rule and instantiating its template. Note
that elements are only processed when they have been selected by the
execution of an instruction. The result tree is constructed by
finding the template rule for the root node and instantiating
its template.
In the process of finding the applicable template rule, more
than one template rule may have a pattern that matches a given
element. However, only one template rule will be applied. The
method for deciding which template rule to apply is described
in
§ 5.5 – Conflict Resolution for Template Rules on page
.
A single template by itself has considerable power: it can create
structures of arbitrary complexity; it can pull string values out of
arbitrary locations in the source tree; it can generate structures
that are repeated according to the occurrence of elements in the
source tree. For simple transformations where the structure of the
result tree is independent of the structure of the source tree, a
stylesheet can often consist of only a single template, which
functions as a template for the complete result tree. Transformations
on XML documents that represent data are often of this kind (see
Appendix D.2 – Data Example on page
). XSLT allows a simplified syntax for
such stylesheets (see
§ 2.3 – Literal Result Element as Stylesheet on page
).
When a template is instantiated, it is always instantiated with
respect to a
current node
and a
current node
list
. The current node is always a member of the
current node list. Many operations in XSLT are relative to the
current node. Only a few instructions change the current node list or
the current node (see
§ 5 – Template Rules on page
and
§ 8 – Repetition on page
); during the instantiation of one of these
instructions, the current node list changes to a new list of nodes and
each member of this new list becomes the current node in turn; after
the instantiation of the instruction is complete, the current node and
current node list revert to what they were before the instruction was
instantiated.
XSLT makes use of the expression language defined by [XPath] for selecting elements for processing, for conditional
processing and for generating text.
XSLT provides two “hooks” for extending the language,
one hook for extending the set of instruction elements used in
templates and one hook for extending the set of functions used in
XPath expressions. These hooks are both based on XML namespaces.
This version of XSLT does not define a mechanism for implementing the
hooks. See
§ 14 – Extensions on page
.
☞
The XSL WG intends to define such a mechanism in a future
version of this specification or in a separate
specification.
The element syntax summary notation used to describe the syntax of
XSLT-defined elements is described in
§ 18 – Notation on page
.
The MIME media types text/xml and
application/xml [RFC2376] should be used
for XSLT stylesheets. It is possible that a media type will be
registered specifically for XSLT stylesheets; if and when it is, that
media type may also be used.
Stylesheet Structure
2. Stylesheet Structure
XSLT Namespace
2.1. XSLT Namespace
The XSLT namespace has the URI http://www.w3.org/1999/XSL/Transform.
☞
The 1999 in the URI indicates the year in which
the URI was allocated by the W3C. It does not indicate the version of
XSLT being used, which is specified by attributes (see
§ 2.2 – Stylesheet Element on page
and
§ 2.3 – Literal Result Element as Stylesheet on page
).
XSLT processors must use the XML namespaces mechanism [XML Names] to recognize elements and attributes from this
namespace. Elements from the XSLT namespace are recognized only in the
stylesheet not in the source document. The complete list of
XSLT-defined elements is specified in
Appendix B – Element Syntax Summary on page
. Vendors must not extend the XSLT
namespace with additional elements or attributes. Instead, any
extension must be in a separate namespace. Any namespace that is used
for additional instruction elements must be identified by means of the
extension element mechanism specified in
§ 14.1 – Extension Elements on page
.
This specification uses a prefix of xsl: for referring
to elements in the XSLT namespace. However, XSLT stylesheets are free
to use any prefix, provided that there is a namespace declaration that
binds the prefix to the URI of the XSLT namespace.
An element from the XSLT namespace may have any attribute not from
the XSLT namespace, provided that the expanded-name of the
attribute has a non-null namespace URI. The presence of such
attributes must not change the behavior of XSLT elements and functions
defined in this document. Thus, an XSLT processor is always free to
ignore such attributes, and must ignore such attributes without giving
an error if it does not recognize the namespace URI. Such attributes
can provide, for example, unique identifiers, optimization hints, or
documentation.
It is an error for an element from the XSLT namespace to have
attributes with expanded-names that have null namespace URIs
(i.e. attributes with unprefixed names) other than attributes defined
for the element in this document.
☞
The conventions used for the names of XSLT elements,
attributes and functions are that names are all lower-case, use
hyphens to separate words, and use abbreviations only if they already
appear in the syntax of a related language such as XML or
HTML.
Stylesheet Element
2.2. Stylesheet Element
<xsl:stylesheet
id =
id
extension-element-prefixes =
tokens
exclude-result-prefixes =
tokens
version =
number
>
<!-- Content: (xsl:import*, top-level-elements) -->
</xsl:stylesheet>
<xsl:transform
id =
id
extension-element-prefixes =
tokens
exclude-result-prefixes =
tokens
version =
number
>
<!-- Content: (xsl:import*, top-level-elements) -->
</xsl:transform>
A stylesheet is represented by an xsl:stylesheet
element in an XML document. xsl:transform is allowed as
a synonym for xsl:stylesheet.
An xsl:stylesheet element must have a
version attribute, indicating the version of XSLT that
the stylesheet requires. For this version of XSLT, the value should
be 1.0. When the value is not equal to 1.0,
forwards-compatible processing mode is enabled (see
§ 2.5 – Forwards-Compatible Processing on page
).
The xsl:stylesheet element may contain the following types
of elements:
•
xsl:import
•
xsl:include
•
xsl:strip-space
•
xsl:preserve-space
•
xsl:output
•
xsl:key
•
xsl:decimal-format
•
xsl:namespace-alias
•
xsl:attribute-set
•
xsl:variable
•
xsl:param
•
xsl:template
An element occurring as
a child of an xsl:stylesheet element is called a
top-level element.
This example shows the structure of a stylesheet. Ellipses
(...) indicate where attribute values or content have
been omitted. Although this example shows one of each type of allowed
element, stylesheets may contain zero or more of each of these
elements.
<xsl:stylesheet version="1.0"
xmlns:xsl="http://www.w3.org/1999/XSL/Transform">
<xsl:import href="..."/>
<xsl:include href="..."/>
<xsl:strip-space elements="..."/>
<xsl:preserve-space elements="..."/>
<xsl:output method="..."/>
<xsl:key name="..." match="..." use="..."/>
<xsl:decimal-format name="..."/>
<xsl:namespace-alias stylesheet-prefix="..." result-prefix="..."/>
<xsl:attribute-set name="...">
...
</xsl:attribute-set>
<xsl:variable name="...">...</xsl:variable>
<xsl:param name="...">...</xsl:param>
<xsl:template match="...">
...
</xsl:template>
<xsl:template name="...">
...
</xsl:template>
</xsl:stylesheet>
The order in which the children of the xsl:stylesheet
element occur is not significant except for xsl:import
elements and for error recovery. Users are free to order the elements
as they prefer, and stylesheet creation tools need not provide control
over the order in which the elements occur.
In addition, the xsl:stylesheet element may contain
any element not from the XSLT namespace, provided that the
expanded-name of the element has a non-null namespace URI. The presence of
such top-level elements must not change the behavior of XSLT elements
and functions defined in this document; for example, it would not be
permitted for such a top-level element to specify that
xsl:apply-templates was to use different rules to resolve
conflicts. Thus, an XSLT processor is always free to ignore such
top-level elements, and must ignore a top-level element without giving
an error if it does not recognize the namespace URI. Such elements can
provide, for example,
•
information used by extension elements or extension functions
(see
§ 14 – Extensions on page
),
•
information about what to do with the result tree,
•
information about how to obtain the source tree,
•
metadata about the stylesheet,
•
structured documentation for the stylesheet.
Literal Result Element as Stylesheet
2.3. Literal Result Element as Stylesheet
A simplified syntax is allowed for stylesheets that consist of only
a single template for the root node. The stylesheet may consist of
just a literal result element (see
§ 7.1.1 – Literal Result Elements on page
). Such a stylesheet is equivalent to a
stylesheet with an xsl:stylesheet element containing a
template rule containing the literal result element; the template rule
has a match pattern of /. For example
<html xsl:version="1.0"
xmlns:xsl="http://www.w3.org/1999/XSL/Transform"
xmlns="http://www.w3.org/TR/xhtml1/strict">
<head>
<title>Expense Report Summary</title>
</head>
<body>
<p>Total Amount: <xsl:value-of select="expense-report/total"/></p>
</body>
</html>
has the same meaning as
<xsl:stylesheet version="1.0"
xmlns:xsl="http://www.w3.org/1999/XSL/Transform"
xmlns="http://www.w3.org/TR/xhtml1/strict">
<xsl:template match="/">
<html>
<head>
<title>Expense Report Summary</title>
</head>
<body>
<p>Total Amount: <xsl:value-of select="expense-report/total"/></p>
</body>
</html>
</xsl:template>
</xsl:stylesheet>
A literal result element that is the document element of a
stylesheet must have an xsl:version attribute, which
indicates the version of XSLT that the stylesheet requires. For this
version of XSLT, the value should be 1.0; the value must
be a Number. Other literal result
elements may also have an xsl:version attribute. When the
xsl:version attribute is not equal to 1.0,
forwards-compatible processing mode is enabled (see
§ 2.5 – Forwards-Compatible Processing on page
).
The allowed content of a literal result element when used as a
stylesheet is no different from when it occurs within a
stylesheet. Thus, a literal result element used as a stylesheet cannot
contain top-level elements.
In some situations, the only way that a system can recognize that an
XML document needs to be processed by an XSLT processor as an XSLT
stylesheet is by examining the XML document itself. Using the
simplified syntax makes this harder.
☞
For example, another XML language (AXL) might also use an
axl:version on the document element to indicate that an
XML document was an AXL document that required processing by an AXL
processor; if a document had both an axl:version
attribute and an xsl:version attribute, it would be
unclear whether the document should be processed by an XSLT processor
or an AXL processor.
Therefore, the simplified syntax should not be used for XSLT
stylesheets that may be used in such a situation. This situation can,
for example, arise when an XSLT stylesheet is transmitted as a message
with a MIME media type of text/xml or
application/xml to a recipient that will use the MIME
media type to determine how the message is processed.
Qualified Names
2.4. Qualified Names
The name of an internal XSLT object, specifically a named template
(see
§ 6 – Named Templates on page
), a mode (see
§ 5.7 – Modes on page
), an attribute set (see
§ 7.1.4 – Named Attribute Sets on page
), a key (see
§ 12.2 – Keys on page
), a
decimal-format (see
§ 12.3 – Number Formatting on page
), a variable or a
parameter (see
§ 11 – Variables and Parameters on page
) is specified as a QName. If it has a prefix, then the
prefix is expanded into a URI reference using the namespace
declarations in effect on the attribute in which the name occurs. The
expanded-name
consisting of the local part of the name and the possibly null URI
reference is used as the name of the object. The default namespace is
not used for unprefixed names.
Forwards-Compatible Processing
2.5. Forwards-Compatible Processing
An element enables forwards-compatible mode for itself, its
attributes, its descendants and their attributes if either it is an
xsl:stylesheet element whose version
attribute is not equal to 1.0, or it is a literal result
element that has an xsl:version attribute whose value is
not equal to 1.0, or it is a literal result element that
does not have an xsl:version attribute and that is the
document element of a stylesheet using the simplified syntax (see
§ 2.3 – Literal Result Element as Stylesheet on page
). A literal result element
that has an xsl:version attribute whose value is equal to
1.0 disables forwards-compatible mode for itself, its
attributes, its descendants and their attributes.
If an element is processed in forwards-compatible mode, then:
•
if it is a top-level
element and XSLT 1.0 does not allow such elements as top-level
elements, then the element must be ignored along with its
content;
•
if it is an element in a template and XSLT 1.0 does not allow
such elements to occur in templates, then if the element is not
instantiated, an error must not be signaled, and if the element is
instantiated, the XSLT must perform fallback for the element as
specified in
§ 15 – Fallback on page
;
•
if the element has an attribute that XSLT 1.0 does not allow
the element to have or if the element has an optional attribute with a
value that the XSLT 1.0 does not allow the attribute to have, then the
attribute must be ignored.
Thus, any XSLT 1.0 processor must be able to process the following
stylesheet without error, although the stylesheet includes elements
from the XSLT namespace that are not defined in this
specification:
<xsl:stylesheet version="1.1"
xmlns:xsl="http://www.w3.org/1999/XSL/Transform">
<xsl:template match="/">
<xsl:choose>
<xsl:when test="system-property('xsl:version') >= 1.1">
<xsl:exciting-new-1.1-feature/>
</xsl:when>
<xsl:otherwise>
<html>
<head>
<title>XSLT 1.1 required</title>
</head>
<body>
<p>Sorry, this stylesheet requires XSLT 1.1.</p>
</body>
</html>
</xsl:otherwise>
</xsl:choose>
</xsl:template>
</xsl:stylesheet>
☞
If a stylesheet depends crucially on a top-level element
introduced by a version of XSL after 1.0, then the stylesheet can use
an xsl:message element with terminate="yes"
(see
§ 13 – Messages on page
) to ensure that XSLT processors
implementing earlier versions of XSL will not silently ignore the
top-level element. For example,
<xsl:stylesheet version="1.5"
xmlns:xsl="http://www.w3.org/1999/XSL/Transform">
<xsl:important-new-1.1-declaration/>
<xsl:template match="/">
<xsl:choose>
<xsl:when test="system-property('xsl:version') < 1.1">
<xsl:message terminate="yes">
<xsl:text>Sorry, this stylesheet requires XSLT 1.1.</xsl:text>
</xsl:message>
</xsl:when>
<xsl:otherwise>
...
</xsl:otherwise>
</xsl:choose>
</xsl:template>
...
</xsl:stylesheet>
If an expression occurs in
an attribute that is processed in forwards-compatible mode, then an
XSLT processor must recover from errors in the expression as
follows:
•
if the expression does not match the syntax allowed by the
XPath grammar, then an error must not be signaled unless the
expression is actually evaluated;
•
if the expression calls a function with an unprefixed name
that is not part of the XSLT library, then an error must not be
signaled unless the function is actually called;
•
if the expression calls a function with a number of arguments
that XSLT does not allow or with arguments of types that XSLT does not
allow, then an error must not be signaled unless the function is
actually called.
Combining Stylesheets
2.6. Combining Stylesheets
XSLT provides two mechanisms to combine stylesheets:
-
an inclusion mechanism that allows stylesheets to be combined
without changing the semantics of the stylesheets being combined,
and
-
an import mechanism that allows stylesheets to override each
other.
2.6.1. Stylesheet Inclusion
<!-- Category: top-level-element -->
<xsl:include
href =
uri-reference
/>
An XSLT stylesheet may include another XSLT stylesheet using an
xsl:include element. The xsl:include element
has an href attribute whose value is a URI reference
identifying the stylesheet to be included. A relative URI is resolved
relative to the base URI of the xsl:include element (see
§ 3.2 – Base URI on page
).
The xsl:include element is only allowed as a top-level element.
The inclusion works at the XML tree level. The resource located by
the href attribute value is parsed as an XML document,
and the children of the xsl:stylesheet element in this
document replace the xsl:include element in the including
document. The fact that template rules or definitions are included
does not affect the way they are processed.
The included stylesheet may use the simplified syntax described in
§ 2.3 – Literal Result Element as Stylesheet on page
. The included stylesheet
is treated the same as the equivalent xsl:stylesheet
element.
It is an error if a stylesheet directly or indirectly includes
itself.
☞
Including a stylesheet multiple times can cause errors
because of duplicate definitions. Such multiple inclusions are less
obvious when they are indirect. For example, if stylesheet
B includes stylesheet A, stylesheet C
includes stylesheet A, and stylesheet D includes
both stylesheet B and stylesheet C, then
A will be included indirectly by D twice. If
all of B, C and D are used as
independent stylesheets, then the error can be avoided by separating
everything in B other than the inclusion of A
into a separate stylesheet B' and changing B to
contain just inclusions of B' and A, similarly
for C, and then changing D to include
A, B', C'.
2.6.2. Stylesheet Import
<xsl:import
href =
uri-reference
/>
An XSLT stylesheet may import another XSLT stylesheet using an
xsl:import element. Importing a stylesheet is the same
as including it (see
§ 2.6.1 – Stylesheet Inclusion on page
) except that definitions
and template rules in the importing stylesheet take precedence over
template rules and definitions in the imported stylesheet; this is
described in more detail below. The xsl:import element
has an href attribute whose value is a URI reference
identifying the stylesheet to be imported. A relative URI is resolved
relative to the base URI of the xsl:import element (see
§ 3.2 – Base URI on page
).
The xsl:import element is only allowed as a top-level element. The
xsl:import element children must precede all other
element children of an xsl:stylesheet element, including
any xsl:include element children. When
xsl:include is used to include a stylesheet, any
xsl:import elements in the included document are moved up
in the including document to after any existing
xsl:import elements in the including document.
For example,
<xsl:stylesheet version="1.0"
xmlns:xsl="http://www.w3.org/1999/XSL/Transform">
<xsl:import href="article.xsl"/>
<xsl:import href="bigfont.xsl"/>
<xsl:attribute-set name="note-style">
<xsl:attribute name="font-style">italic</xsl:attribute>
</xsl:attribute-set>
</xsl:stylesheet>
The
xsl:stylesheet elements encountered during processing of
a stylesheet that contains xsl:import elements are
treated as forming an import tree. In the import tree,
each xsl:stylesheet element has one import child for each
xsl:import element that it contains. Any
xsl:include elements are resolved before constructing the
import tree.
An xsl:stylesheet element in the import tree
is defined to have lower import precedence than another
xsl:stylesheet element in the import tree if it would be
visited before that xsl:stylesheet element in a
post-order traversal of the import tree (i.e. a traversal of the
import tree in which an xsl:stylesheet element is visited
after its import children). Each definition and template
rule has import precedence determined by the
xsl:stylesheet element that contains it.
For example, suppose
•
stylesheet A imports stylesheets B
and C in that order;
•
stylesheet B imports stylesheet
D;
•
stylesheet C imports stylesheet
E.
Then the order of import precedence (lowest first) is
D, B, E, C,
A.
☞
Since xsl:import elements are required to occur
before any definitions or template rules, an implementation that
processes imported stylesheets at the point at which it encounters the
xsl:import element will encounter definitions and
template rules in increasing order of import precedence.
In general, a definition or template rule with higher import
precedence takes precedence over a definition or template rule with
lower import precedence. This is defined in detail for each kind of
definition and for template rules.
It is an error if a stylesheet directly or indirectly imports
itself. Apart from this, the case where a stylesheet with a particular
URI is imported in multiple places is not treated specially. The
import tree will have a
separate xsl:stylesheet for each place that it is
imported.
☞
If xsl:apply-imports is used (see
§ 5.6 – Overriding Template Rules on page
), the behavior may be different from the
behavior if the stylesheet had been imported only at the place with
the highest import
precedence.
Embedding Stylesheets
2.7. Embedding Stylesheets
Normally an XSLT stylesheet is a complete XML document with the
xsl:stylesheet element as the document element. However,
an XSLT stylesheet may also be embedded in another resource. Two forms
of embedding are possible:
-
the XSLT stylesheet may be textually embedded in a non-XML
resource, or
-
the xsl:stylesheet element may occur in an XML
document other than as the document element.
To facilitate the second form of embedding, the
xsl:stylesheet element is allowed to have an ID attribute
that specifies a unique identifier.
☞
In order for such an attribute to be used with the XPath
id function, it must actually be declared in
the DTD as being an ID.
The following example shows how the xml-stylesheet
processing instruction [XML Stylesheet] can be used to allow a
document to contain its own stylesheet. The URI reference uses a
relative URI with a fragment identifier to locate the
xsl:stylesheet element:
<?xml-stylesheet type="text/xml" href="#style1"?>
<!DOCTYPE doc SYSTEM "doc.dtd">
<doc>
<head>
<xsl:stylesheet id="style1"
version="1.0"
xmlns:xsl="http://www.w3.org/1999/XSL/Transform"
xmlns:fo="http://www.w3.org/1999/XSL/Format">
<xsl:import href="doc.xsl"/>
<xsl:template match="id('foo')">
<fo:block font-weight="bold"><xsl:apply-templates/></fo:block>
</xsl:template>
<xsl:template match="xsl:stylesheet">
<!-- ignore -->
</xsl:template>
</xsl:stylesheet>
</head>
<body>
<para id="foo">
...
</para>
</body>
</doc>
☞
A stylesheet that is embedded in the document to which it is
to be applied or that may be included or imported into an stylesheet
that is so embedded typically needs to contain a template rule that
specifies that xsl:stylesheet elements are to be
ignored.
Data Model
3. Data Model
The data model used by XSLT is the same as that used by XPath with the additions
described in this section. XSLT operates on source, result and
stylesheet documents using the same data model. Any two XML documents
that have the same tree will be treated the same by XSLT.
Processing instructions and comments in the stylesheet are ignored:
the stylesheet is treated as if neither processing instruction nodes
nor comment nodes were included in the tree that represents the
stylesheet.
Root Node Children
3.1. Root Node Children
The normal restrictions on the children of the root node are
relaxed for the result tree. The result tree may have any sequence of
nodes as children that would be possible for an element node. In
particular, it may have text node children, and any number of element
node children. When written out using the XML output method (see
§ 16 – Output on page
), it is possible that a result tree will not
be a well-formed XML document; however, it will always be a
well-formed external general parsed entity.
When the source tree is created by parsing a well-formed XML
document, the root node of the source tree will automatically satisfy
the normal restrictions of having no text node children and exactly
one element child. When the source tree is created in some other way,
for example by using the DOM, the usual restrictions are relaxed for
the source tree as for the result tree.
Base URI
3.2. Base URI
Every node also has an associated URI called its base URI, which is
used for resolving attribute values that represent relative URIs into
absolute URIs. If an element or processing instruction occurs in an
external entity, the base URI of that element or processing
instruction is the URI of the external entity; otherwise, the base URI
is the base URI of the document. The base URI of the document node is
the URI of the document entity. The base URI for a text node, a
comment node, an attribute node or a namespace node is the base URI of
the parent of the node.
Unparsed Entities
3.3. Unparsed Entities
The root node has a mapping that gives the URI for each unparsed
entity declared in the document's DTD. The URI is generated from the
system identifier and public identifier specified in the entity
declaration. The XSLT processor may use the public identifier to
generate a URI for the entity instead of the URI specified in the
system identifier. If the XSLT processor does not use the public
identifier to generate the URI, it must use the system identifier; if
the system identifier is a relative URI, it must be resolved into an
absolute URI using the URI of the resource containing the entity
declaration as the base URI [RFC2396].
Whitespace Stripping
3.4. Whitespace Stripping
After the tree for a source document or stylesheet document has
been constructed, but before it is otherwise processed by XSLT,
some text nodes are stripped. A text node is never stripped
unless it contains only whitespace characters. Stripping the text
node removes the text node from the tree. The stripping process takes
as input a set of element names for which whitespace must be
preserved. The stripping process is applied to both stylesheets and
source documents, but the set of whitespace-preserving element names
is determined differently for stylesheets and for source
documents.
A text node is preserved if any of the following apply:
•
The element name of the parent of the text node is in the set
of whitespace-preserving element names.
•
The text node contains at least one non-whitespace character.
As in XML, a whitespace character is #x20, #x9, #xD or #xA.
•
An ancestor element of the text node has an
xml:space attribute with a value of
preserve, and no closer ancestor element has
xml:space with a value of
default.
Otherwise, the text node is stripped.
The xml:space attributes are not stripped from the
tree.
☞
This implies that if an xml:space attribute is
specified on a literal result element, it will be included in the
result.
For stylesheets, the set of whitespace-preserving element names
consists of just xsl:text.
<!-- Category: top-level-element -->
<xsl:strip-space
elements =
tokens
/>
<!-- Category: top-level-element -->
<xsl:preserve-space
elements =
tokens
/>
For source documents, the set of whitespace-preserving element
names is specified by xsl:strip-space and
xsl:preserve-space
top-level elements. These elements each
have an elements attribute whose value is a
whitespace-separated list of NameTests. Initially, the
set of whitespace-preserving element names contains all element names.
If an element name matches a NameTest in an
xsl:strip-space element, then it is removed from the set
of whitespace-preserving element names. If an element name matches a
NameTest in an
xsl:preserve-space element, then it is added to the set
of whitespace-preserving element names. An element matches a NameTest if and only if the
NameTest would be true
for the element as an XPath node
test. Conflicts between matches to
xsl:strip-space and xsl:preserve-space
elements are resolved the same way as conflicts between template rules
(see
§ 5.5 – Conflict Resolution for Template Rules on page
). Thus, the applicable match for a
particular element name is determined as follows:
•
First, any match with lower import precedence than another
match is ignored.
•
Next, any match with a NameTest that has a lower
default priority than the
default priority of the
NameTest of another
match is ignored.
It is an error if this leaves more than one match. An XSLT
processor may signal the error; if it does not signal the error, it
must recover by choosing, from amongst the matches that are left, the
one that occurs last in the stylesheet.
Expressions
4. Expressions
XSLT uses the expression language defined by XPath [XPath]. Expressions are used in XSLT for a variety of purposes
including:
-
selecting nodes for processing;
-
specifying conditions for different ways of processing a node;
-
generating text to be inserted in the result tree.
An
expression must match the XPath production Expr.
Expressions occur as the value of certain attributes on
XSLT-defined elements and within curly braces in attribute value
templates.
In XSLT, an outermost expression (i.e. an expression that is not
part of another expression) gets its context as follows:
•
the context node comes from the current node
•
the context position comes from the position of the current node in the current node list; the first
position is 1
•
the context size comes from the size of the current node list
•
the variable bindings are the bindings in scope on the
element which has the attribute in which the expression occurs (see
§ 11 – Variables and Parameters on page
)
•
the set of namespace declarations are those in scope on the
element which has the attribute in which the expression occurs;
this includes the implicit declaration of the prefix xml
required by the the XML Namespaces Recommendation [XML Names];
the default
namespace (as declared by xmlns) is not part of this
set
•
the function library consists of the core function library
together with the additional functions defined in
§ 12 – Additional Functions on page
and extension functions as described in
§ 14 – Extensions on page
; it is an error for an expression to include a call
to any other function
Template Rules
5. Template Rules
Processing Model
5.1. Processing Model
A list of source nodes is processed to create a result tree
fragment. The result tree is constructed by processing a list
containing just the root node. A list of source nodes is processed by
appending the result tree structure created by processing each of the
members of the list in order. A node is processed by finding all the
template rules with patterns that match the node, and choosing the
best amongst them; the chosen rule's template is then instantiated
with the node as the current
node and with the list of source nodes as the current node list. A template
typically contains instructions that select an additional list of
source nodes for processing. The process of matching, instantiation
and selection is continued recursively until no new source nodes are
selected for processing.
Implementations are free to process the source document in any way
that produces the same result as if it were processed using this
processing model.
Patterns
5.2. Patterns
Template rules identify the
nodes to which they apply by using a pattern. As well as
being used in template rules, patterns are used for numbering (see
§ 7.7 – Numbering on page
) and for declaring keys (see
§ 12.2 – Keys on page
). A pattern specifies a set of conditions on a node. A
node that satisfies the conditions matches the pattern; a node that
does not satisfy the conditions does not match the pattern. The
syntax for patterns is a subset of the syntax for expressions. In
particular, location paths that meet certain restrictions can be used
as patterns. An expression that is also a pattern always evaluates to
an object of type node-set. A node matches a pattern if the node is a
member of the result of evaluating the pattern as an expression with
respect to some possible context; the possible contexts are those
whose context node is the node being matched or one of its
ancestors.
Here are some examples of patterns:
•
para matches any para element
•
* matches any element
•
chapter|appendix matches any
chapter element and any appendix
element
•
olist/item matches any item element with
an olist parent
•
appendix//para matches any para element with
an appendix ancestor element
•
/ matches the root node
•
text() matches any text node
•
processing-instruction() matches any processing
instruction
•
node() matches any node other than an attribute
node and the root node
•
id("W11") matches the element with unique ID
W11
•
para[1] matches any para element
that is the first para child element of its
parent
•
*[position()=1 and self::para] matches any
para element that is the first child element of its
parent
•
para[last()=1] matches any para
element that is the only para child element of its
parent
•
items/item[position()>1] matches any
item element that has a items parent and
that is not the first item child of its parent
•
item[position() mod 2 = 1] would be true for any
item element that is an odd-numbered item
child of its parent.
•
div[@class="appendix"]//p matches any
p element with a div ancestor element that
has a class attribute with value
appendix
•
@class matches any class attribute
(not any element that has a class
attribute)
•
@* matches any attribute
A pattern must match the grammar for Pattern. A Pattern is
a set of location path patterns separated by |. A
location path pattern is a location path whose steps all use only the
child or attribute axes. Although patterns
must not use the descendant-or-self axis, patterns may
use the // operator as well as the /
operator. Location path patterns can also start with an
id or key function call
with a literal argument. Predicates in a pattern can use arbitrary
expressions just like predicates in a location path.
[1]
Pattern
::=
LocationPathPattern
| Pattern '|' LocationPathPattern
[2]
LocationPathPattern
::=
'/' RelativePathPattern?
| IdKeyPattern (('/' | '//') RelativePathPattern)?
| '//'? RelativePathPattern
[3]
IdKeyPattern
::=
'id' '(' Literal ')'
| 'key' '(' Literal ',' Literal ')'
[4]
RelativePathPattern
::=
StepPattern
| RelativePathPattern '/' StepPattern
| RelativePathPattern '//' StepPattern
[5]
StepPattern
::=
ChildOrAttributeAxisSpecifier
NodeTest
Predicate*
[6]
ChildOrAttributeAxisSpecifier
::=
AbbreviatedAxisSpecifier
| ('child' | 'attribute') '::'
A pattern is defined to match a node if and only if there is
possible context such that when the pattern is evaluated as an
expression with that context, the node is a member of the resulting
node-set. When a node is being matched, the possible contexts have a
context node that is the node being matched or any ancestor of that
node, and a context node list containing just the context node.
For example, p matches any p element,
because for any p if the expression p is
evaluated with the parent of the p element as context the
resulting node-set will contain that p element as one of
its members.
☞
This matches even a p element that is the
document element, since the document root is the parent of the
document element.
Although the semantics of patterns are specified indirectly in
terms of expression evaluation, it is easy to understand the meaning
of a pattern directly without thinking in terms of expression
evaluation. In a pattern, | indicates alternatives; a
pattern with one or more | separated alternatives matches
if any one of the alternative matches. A pattern that consists of a
sequence of StepPatterns separated by
/ or // is matched from right to left. The
pattern only matches if the rightmost StepPattern matches and a suitable element
matches the rest of the pattern; if the separator is /
then only the parent is a suitable element; if the separator is
//, then any ancestor is a suitable element. A StepPattern that uses the child axis matches
if the NodeTest is true for the
node and the node is not an attribute node. A StepPattern that uses the attribute axis
matches if the NodeTest is true
for the node and the node is an attribute node. When []
is present, then the first PredicateExpr in a StepPattern is evaluated with the node being
matched as the context node and the siblings of the context node that
match the NodeTest as the
context node list, unless the node being matched is an attribute node,
in which case the context node list is all the attributes that have
the same parent as the attribute being matched and that match the NameTest.
For example
appendix//ulist/item[position()=1]
matches a node if and only if all of the following are true:
•
the NodeTest
item is
true for the node and the node is not an attribute; in other words the
node is an item element
•
evaluating the PredicateExpr
position()=1 with the node as context node and the
siblings of the node that are item elements as the
context node list yields true
•
the node has a parent that matches
appendix//ulist; this will be true if the parent is a
ulist element that has an appendix ancestor
element.
Defining Template Rules
5.3. Defining Template Rules
<!-- Category: top-level-element -->
<xsl:template
match =
pattern
name =
qname
priority =
number
mode =
qname
>
<!-- Content: (xsl:param*, template) -->
</xsl:template>
A template rule is specified with the xsl:template
element. The match attribute is a Pattern that identifies the source node or nodes
to which the rule applies. The match attribute is
required unless the xsl:template element has a
name attribute (see
§ 6 – Named Templates on page
).
It is an error for the value of the match attribute to
contain a VariableReference. The
content of the xsl:template element is the template that
is instantiated when the template rule is applied.
For example, an XML document might contain:
This is an <emph>important</emph> point.
The following template rule matches emph elements and
produces a fo:inline-sequence formatting object with a
font-weight property of bold.
<xsl:template match="emph">
<fo:inline-sequence font-weight="bold">
<xsl:apply-templates/>
</fo:inline-sequence>
</xsl:template>
☞
Examples in this document use the fo: prefix for
the namespace http://www.w3.org/1999/XSL/Format, which is
the namespace of the formatting objects defined in [XSL].
As described next, the xsl:apply-templates element
recursively processes the children of the source element.
Applying Template Rules
5.4. Applying Template Rules
<!-- Category: instruction -->
<xsl:apply-templates
select =
node-set-expression
mode =
qname
>
<!-- Content: (xsl:sort | xsl:with-param)* -->
</xsl:apply-templates>
This example creates a block for a chapter element and
then processes its immediate children.
<xsl:template match="chapter">
<fo:block>
<xsl:apply-templates/>
</fo:block>
</xsl:template>
In the absence of a select attribute, the
xsl:apply-templates instruction processes all of the
children of the current node, including text nodes. However, text
nodes that have been stripped as specified in
§ 3.4 – Whitespace Stripping on page
will not be processed. If stripping of whitespace nodes has not been
enabled for an element, then all whitespace in the content of the
element will be processed as text, and thus whitespace
between child elements will count in determining the position of a
child element as returned by the position
function.
A select attribute can be used to process nodes
selected by an expression instead of processing all children. The
value of the select attribute is an expression. The expression must
evaluate to a node-set. The selected set of nodes is processed in
document order, unless a sorting specification is present (see
§ 10 – Sorting on page
). The following example processes all of the
author children of the author-group:
<xsl:template match="author-group">
<fo:inline-sequence>
<xsl:apply-templates select="author"/>
</fo:inline-sequence>
</xsl:template>
The following example processes all of the given-names
of the authors that are children of
author-group:
<xsl:template match="author-group">
<fo:inline-sequence>
<xsl:apply-templates select="author/given-name"/>
</fo:inline-sequence>
</xsl:template>
This example processes all of the heading descendant
elements of the book element.
<xsl:template match="book">
<fo:block>
<xsl:apply-templates select=".//heading"/>
</fo:block>
</xsl:template>
It is also possible to process elements that are not descendants of
the current node. This example assumes that a department
element has group children and employee
descendants. It finds an employee's department and then processes
the group children of the department.
<xsl:template match="employee">
<fo:block>
Employee <xsl:apply-templates select="name"/> belongs to group
<xsl:apply-templates select="ancestor::department/group"/>
</fo:block>
</xsl:template>
Multiple xsl:apply-templates elements can be used within a
single template to do simple reordering. The following example
creates two HTML tables. The first table is filled with domestic sales
while the second table is filled with foreign sales.
<xsl:template match="product">
<table>
<xsl:apply-templates select="sales/domestic"/>
</table>
<table>
<xsl:apply-templates select="sales/foreign"/>
</table>
</xsl:template>
☞
It is possible for there to be two matching descendants where one
is a descendant of the other. This case is not treated specially:
both descendants will be processed as usual. For example, given a
source document
<doc><div><div></div></div></doc>
the rule
<xsl:template match="doc">
<xsl:apply-templates select=".//div"/>
</xsl:template>
will process both the outer div and inner div
elements.
☞
Typically, xsl:apply-templates is used to
process only nodes that are descendants of the current node. Such use
of xsl:apply-templates cannot result in non-terminating
processing loops. However, when xsl:apply-templates is
used to process elements that are not descendants of the current node,
the possibility arises of non-terminating loops. For example,
<xsl:template match="foo">
<xsl:apply-templates select="."/>
</xsl:template>
Implementations may be able to detect such loops in some cases, but
the possibility exists that a stylesheet may enter a non-terminating
loop that an implementation is unable to detect. This may present a
denial of service security risk.
Conflict Resolution for Template Rules
5.5. Conflict Resolution for Template Rules
It is possible for a source node to match more than one template
rule. The template rule to be used is determined as follows:
1.
First, all matching template rules that have lower import precedence than the
matching template rule or rules with the highest import precedence are
eliminated from consideration.
2.
Next, all matching template rules that have lower priority
than the matching template rule or rules with the highest priority are
eliminated from consideration. The priority of a template rule is
specified by the priority attribute on the template rule.
The value of this must be a real number (positive or negative),
matching the production Number
with an optional leading minus sign (-). The default
priority is computed as follows:
•
If the pattern contains multiple alternatives separated by
|, then it is treated equivalently to a set of template
rules, one for each alternative.
•
If the pattern has the form of a QName preceded by a ChildOrAttributeAxisSpecifier
or has the form
processing-instruction(
Literal
) preceded by a ChildOrAttributeAxisSpecifier,
then the priority is 0.
•
If the pattern has the form NCName
:* preceded by a
ChildOrAttributeAxisSpecifier,
then the priority is -0.25.
•
Otherwise, if the pattern consists of just a NodeTest preceded by a ChildOrAttributeAxisSpecifier,
then the priority is -0.5.
•
Otherwise, the priority is 0.5.
Thus, the most common kind of pattern (a pattern that tests for a
node with a particular type and a particular expanded-name) has
priority 0. The next less specific kind of pattern (a pattern that
tests for a node with a particular type and an expanded-name with a
particular namespace URI) has priority -0.25. Patterns less specific
than this (patterns that just tests for nodes with particular types)
have priority -0.5. Patterns more specific than the most common kind
of pattern have priority 0.5.
It is an error if this leaves more than one matching template
rule. An XSLT processor may signal the error; if it does not signal
the error, it must recover by choosing, from amongst the matching
template rules that are left, the one that occurs last in the
stylesheet.
Overriding Template Rules
5.6. Overriding Template Rules
<!-- Category: instruction -->
<xsl:apply-imports/>
A template rule that is being used to override a template rule in
an imported stylesheet (see
§ 5.5 – Conflict Resolution for Template Rules on page
) can use the
xsl:apply-imports element to invoke the overridden
template rule.
At any point in the processing of a stylesheet, there is a
current template rule. Whenever a template rule is
chosen by matching a pattern, the template rule becomes the current
template rule for the instantiation of the rule's template. When an
xsl:for-each element is instantiated, the current
template rule becomes null for the instantiation of the content of the
xsl:for-each element.
xsl:apply-imports processes the current node using
only template rules that were imported into the stylesheet element
containing the current template rule; the node is processed in the
current template rule's mode. It is an error if
xsl:apply-imports is instantiated when the current
template rule is null.
For example, suppose the stylesheet doc.xsl contains a
template rule for example elements:
<xsl:template match="example">
<pre><xsl:apply-templates/></pre>
</xsl:template>
Another stylesheet could import doc.xsl and modify the
treatment of example elements as follows:
<xsl:import href="doc.xsl"/>
<xsl:template match="example">
<div style="border: solid red">
<xsl:apply-imports/>
</div>
</xsl:template>
The combined effect would be to transform an example
into an element of the form:
<div style="border: solid red"><pre>...</pre></div>
Modes
5.7. Modes
Modes allow an element to be processed multiple times, each time
producing a different result.
Both xsl:template and xsl:apply-templates
have an optional mode attribute. The value of the
mode attribute is a QName, which is expanded as described
in
§ 2.4 – Qualified Names on page
. If xsl:template does not have
a match attribute, it must not have a mode
attribute. If an xsl:apply-templates element has a
mode attribute, then it applies only to those template
rules from xsl:template elements that have a
mode attribute with the same value; if an
xsl:apply-templates element does not have a
mode attribute, then it applies only to those template
rules from xsl:template elements that do not have a
mode attribute.
Built-in Template Rules
5.8. Built-in Template Rules
There is a built-in template rule to allow recursive processing to
continue in the absence of a successful pattern match by an explicit
template rule in the stylesheet. This template rule applies to both
element nodes and the root node. The following shows the equivalent
of the built-in template rule:
<xsl:template match="*|/">
<xsl:apply-templates/>
</xsl:template>
There is also a built-in template rule for each mode, which allows
recursive processing to continue in the same mode in the absence of a
successful pattern match by an explicit template rule in the
stylesheet. This template rule applies to both element nodes and the
root node. The following shows the equivalent of the built-in
template rule for mode
m
.
<xsl:template match="*|/" mode="m">
<xsl:apply-templates mode="m"/>
</xsl:template>
There is also a built-in template rule for text and attribute nodes
that copies text through:
<xsl:template match="text()|@*">
<xsl:value-of select="."/>
</xsl:template>
The built-in template rule for processing instructions and comments
is to do nothing.
<xsl:template match="processing-instruction()|comment()"/>
The built-in template rule for namespace nodes is also to do
nothing. There is no pattern that can match a namespace node; so, the
built-in template rule is the only template rule that is applied for
namespace nodes.
The built-in template rules are treated as if they were imported
implicitly before the stylesheet and so have lower import precedence than all other
template rules. Thus, the author can override a built-in template
rule by including an explicit template rule.
Named Templates
6. Named Templates
<!-- Category: instruction -->
<xsl:call-template
name =
qname
>
<!-- Content: xsl:with-param* -->
</xsl:call-template>
Templates can be invoked by name. An xsl:template
element with a name attribute specifies a named template.
The value of the name attribute is a QName, which is expanded as described
in
§ 2.4 – Qualified Names on page
. If an xsl:template element has
a name attribute, it may, but need not, also have a
match attribute. An xsl:call-template
element invokes a template by name; it has a required
name attribute that identifies the template to be
invoked. Unlike xsl:apply-templates,
xsl:call-template does not change the current node or the
current node list.
The match, mode and priority attributes on an
xsl:template element do not affect whether the template
is invoked by an xsl:call-template element. Similarly,
the name attribute on an xsl:template
element does not affect whether the template is invoked by an
xsl:apply-templates element.
It is an error if a stylesheet contains more than one template with
the same name and same import
precedence.
Creating the Result Tree
7. Creating the Result Tree
This section describes instructions that directly create nodes in
the result tree.
Creating Elements and Attributes
7.1. Creating Elements and Attributes
7.1.1. Literal Result Elements
In a template, an element in the stylesheet that does not belong to
the XSLT namespace and that is not an extension element (see
§ 14.1 – Extension Elements on page
) is instantiated to create an element node
with the same expanded-name. The content
of the element is a template, which is instantiated to give the
content of the created element node. The created element node will
have the attribute nodes that were present on the element node in the
stylesheet tree, other than attributes with names in the XSLT
namespace.
The created element node will also have a copy of the namespace
nodes that were present on the element node in the stylesheet tree
with the exception of any namespace node whose string-value is the
XSLT namespace URI (http://www.w3.org/1999/XSL/Transform), a
namespace URI declared as an extension namespace (see
§ 14.1 – Extension Elements on page
), or a namespace URI designated as an
excluded namespace. A namespace URI is designated as an excluded
namespace by using an exclude-result-prefixes attribute
on an xsl:stylesheet element or an
xsl:exclude-result-prefixes attribute on a literal result
element. The value of both these attributes is a whitespace-separated
list of namespace prefixes. The namespace bound to each of the
prefixes is designated as an excluded namespace. It is an error if
there is no namespace bound to the prefix on the element bearing the
exclude-result-prefixes or
xsl:exclude-result-prefixes attribute. The default
namespace (as declared by xmlns) may be designated as an
excluded namespace by including #default in the list of
namespace prefixes. The designation of a namespace as an excluded
namespace is effective within the subtree of the stylesheet rooted at
the element bearing the exclude-result-prefixes or
xsl:exclude-result-prefixes attribute;
a subtree rooted at an xsl:stylesheet element
does not include any stylesheets imported or included by children
of that xsl:stylesheet element.
☞
When a stylesheet uses a namespace declaration only for the
purposes of addressing the source tree, specifying the prefix in the
exclude-result-prefixes attribute will avoid superfluous
namespace declarations in the result tree.
The value of an attribute of a literal result element is
interpreted as an attribute
value template: it can contain expressions contained
in curly braces ({}).
A namespace URI in the stylesheet tree that is being used to
specify a namespace URI in the result tree is called a literal
namespace URI. This applies to:
•
the namespace URI in the expanded-name of a literal
result element in the stylesheet
•
the namespace URI in the expanded-name of an attribute
specified on a literal result element in the stylesheet
•
the string-value of a namespace node on a literal result
element in the stylesheet
<!-- Category: top-level-element -->
<xsl:namespace-alias
stylesheet-prefix =
prefix |
"#default"
result-prefix =
prefix |
"#default"
/>
A stylesheet can use the
xsl:namespace-alias element to declare that one namespace
URI is an alias for another namespace URI. When
a literal namespace
URI has been declared to be an alias for another namespace
URI, then the namespace URI in the result tree will be the namespace
URI that the literal namespace URI is an alias for, instead of the
literal namespace URI itself. The xsl:namespace-alias
element declares that the namespace URI bound to the prefix specified
by the stylesheet-prefix attribute is an alias for the
namespace URI bound to the prefix specified by the
result-prefix attribute. Thus, the
stylesheet-prefix attribute specifies the namespace URI
that will appear in the stylesheet, and the
result-prefix attribute specifies the corresponding
namespace URI that will appear in the result tree. The default
namespace (as declared by xmlns) may be specified by
using #default instead of a prefix. If a namespace URI
is declared to be an alias for multiple different namespace URIs, then
the declaration with the highest import precedence is used. It is
an error if there is more than one such declaration. An XSLT
processor may signal the error; if it does not signal the error, it
must recover by choosing, from amongst the declarations with the
highest import precedence, the one that occurs last in the
stylesheet.
When literal result elements are being used to create element,
attribute, or namespace nodes that use the XSLT namespace URI, the
stylesheet must use an alias. For example, the stylesheet
<xsl:stylesheet
version="1.0"
xmlns:xsl="http://www.w3.org/1999/XSL/Transform"
xmlns:fo="http://www.w3.org/1999/XSL/Format"
xmlns:axsl="http://www.w3.org/1999/XSL/TransformAlias">
<xsl:namespace-alias stylesheet-prefix="axsl" result-prefix="xsl"/>
<xsl:template match="/">
<axsl:stylesheet>
<xsl:apply-templates/>
</axsl:stylesheet>
</xsl:template>
<xsl:template match="block">
<axsl:template match="{.}">
<fo:block><axsl:apply-templates/></fo:block>
</axsl:template>
</xsl:template>
</xsl:stylesheet>
will generate an XSLT stylesheet from a document of the form:
<elements>
<block>p</block>
<block>h1</block>
<block>h2</block>
<block>h3</block>
<block>h4</block>
</elements>
☞
It may be necessary also to use aliases for namespaces other
than the XSLT namespace URI. For example, literal result elements
belonging to a namespace dealing with digital signatures might cause
XSLT stylesheets to be mishandled by general-purpose security
software; using an alias for the namespace would avoid the possibility
of such mishandling.
7.1.2. Creating Elements with xsl:element
<!-- Category: instruction -->
<xsl:element
name =
{
qname
}
namespace =
{
uri-reference
}
use-attribute-sets =
qnames
>
<!-- Content: template -->
</xsl:element>
The xsl:element element allows an element to be
created with a computed name. The expanded-name of the
element to be created is specified by a required name
attribute and an optional namespace attribute. The
content of the xsl:element element is a template for the
attributes and children of the created element.
The name attribute is interpreted as an attribute value template.
It is an error if the string that results from instantiating the
attribute value template is not a QName. An XSLT processor may signal
the error; if it does not signal the error, then it must recover
by making the the result of instantiating the xsl:element
element be the sequence of nodes created by instantiating
the content of the xsl:element element, excluding
any initial attribute nodes. If the namespace attribute is
not present then the QName is
expanded into an expanded-name using the namespace declarations in
effect for the xsl:element element, including any default
namespace declaration.
If the namespace attribute is present, then it also is
interpreted as an attribute
value template. The string that results from instantiating
the attribute value template should be a URI reference. It is not an
error if the string is not a syntactically legal URI reference. If
the string is empty, then the expanded-name of the element has a null
namespace URI. Otherwise, the string is used as the namespace URI of
the expanded-name of the element to be created. The local part of the
QName specified by the
name attribute is used as the local part of the
expanded-name of the element to be created.
XSLT processors may make use of the prefix of the QName specified in the
name attribute when selecting the prefix used for
outputting the created element as XML; however, they are not required
to do so.
7.1.3. Creating Attributes with xsl:attribute
<!-- Category: instruction -->
<xsl:attribute
name =
{
qname
}
namespace =
{
uri-reference
}
>
<!-- Content: template -->
</xsl:attribute>
The xsl:attribute element can be used to add
attributes to result elements whether created by literal result
elements in the stylesheet or by instructions such as
xsl:element. The expanded-name of the
attribute to be created is specified by a required name
attribute and an optional namespace attribute.
Instantiating an xsl:attribute element adds an attribute
node to the containing result element node. The content of the
xsl:attribute element is a template for the value of the
created attribute.
The name attribute is interpreted as an attribute value template.
It is an error if the string that results from instantiating the
attribute value template is not a QName or is the string
xmlns. An XSLT processor may signal the error; if it
does not signal the error, it must recover by not adding the attribute
to the result tree. If the namespace attribute is not
present, then the QName is
expanded into an expanded-name using the namespace declarations in
effect for the xsl:attribute element, not
including any default namespace declaration.
If the namespace attribute is present, then it also is
interpreted as an attribute
value template. The string that results from instantiating
it should be a URI reference. It is not an error if the string is not
a syntactically legal URI reference. If the string is empty, then the
expanded-name of the attribute has a null namespace URI. Otherwise,
the string is used as the namespace URI of the expanded-name of the
attribute to be created. The local part of the QName specified by the
name attribute is used as the local part of the
expanded-name of the attribute to be created.
XSLT processors may make use of the prefix of the QName specified in the
name attribute when selecting the prefix used for
outputting the created attribute as XML; however, they are not
required to do so and, if the prefix is xmlns, they must
not do so. Thus, although it is not an error to do:
<xsl:attribute name="xmlns:xsl" namespace="whatever">http://www.w3.org/1999/XSL/Transform</xsl:attribute>
it will not result in a namespace declaration being output.
Adding an attribute to an element replaces any existing attribute
of that element with the same expanded-name.
The following are all errors:
•
Adding an attribute to an element after children have been
added to it; implementations may either signal the error or ignore the
attribute.
•
Adding an attribute to a node that is not an element;
implementations may either signal the error or ignore the
attribute.
•
Creating nodes other than text nodes during the
instantiation of the content of the xsl:attribute
element; implementations may either signal the error or ignore the
offending nodes.
☞
When an xsl:attribute contains a text node with
a newline, then the XML output must contain a character reference.
For example,
<xsl:attribute name="a">x
y</xsl:attribute>
will result in the output
a="x
y"
(or with any equivalent character reference). The XML output cannot
be
a="x
y"
This is because XML 1.0 requires newline characters in attribute
values to be normalized into spaces but requires character references
to newline characters not to be normalized. The attribute values in
the data model represent the attribute value after normalization. If
a newline occurring in an attribute value in the tree were output as a
newline character rather than as character reference, then the
attribute value in the tree created by reparsing the XML would contain
a space not a newline, which would mean that the tree had not been
output correctly.
7.1.4. Named Attribute Sets
<!-- Category: top-level-element -->
<xsl:attribute-set
name =
qname
use-attribute-sets =
qnames
>
<!-- Content: xsl:attribute* -->
</xsl:attribute-set>
The xsl:attribute-set element defines a named set of
attributes. The name attribute specifies the name of the
attribute set. The value of the name attribute is a QName, which is expanded as described
in
§ 2.4 – Qualified Names on page
. The content of the xsl:attribute-set
element consists of zero or more xsl:attribute elements
that specify the attributes in the set.
Attribute sets are used by specifying a
use-attribute-sets attribute on xsl:element,
xsl:copy (see
§ 7.5 – Copying on page
) or
xsl:attribute-set elements. The value of the
use-attribute-sets attribute is a whitespace-separated
list of names of attribute sets. Each name is specified as a QName, which is expanded as described
in
§ 2.4 – Qualified Names on page
. Specifying a
use-attribute-sets attribute is equivalent to adding
xsl:attribute elements for each of the attributes in each
of the named attribute sets to the beginning of the content of the
element with the use-attribute-sets attribute, in the
same order in which the names of the attribute sets are specified in
the use-attribute-sets attribute. It is an error if use
of use-attribute-sets attributes on
xsl:attribute-set elements causes an attribute set to
directly or indirectly use itself.
Attribute sets can also be used by specifying an
xsl:use-attribute-sets attribute on a literal result
element. The value of the xsl:use-attribute-sets
attribute is a whitespace-separated list of names of attribute sets.
The xsl:use-attribute-sets attribute has the same effect
as the use-attribute-sets attribute on
xsl:element with the additional rule that attributes
specified on the literal result element itself are treated as if they
were specified by xsl:attribute elements before any
actual xsl:attribute elements but after any
xsl:attribute elements implied by the
xsl:use-attribute-sets attribute. Thus, for a literal
result element, attributes from attribute sets named in an
xsl:use-attribute-sets attribute will be added first, in
the order listed in the attribute; next, attributes specified on the
literal result element will be added; finally, any attributes
specified by xsl:attribute elements will be added. Since
adding an attribute to an element replaces any existing attribute of
that element with the same name, this means that attributes specified
in attribute sets can be overridden by attributes specified on the
literal result element itself.
The template within each xsl:attribute element in an
xsl:attribute-set element is instantiated each time the
attribute set is used; it is instantiated using the same current node
and current node list as is used for instantiating the element bearing
the use-attribute-sets or
xsl:use-attribute-sets attribute. However, it is the
position in the stylesheet of the xsl:attribute element
rather than of the element bearing the use-attribute-sets
or xsl:use-attribute-sets attribute that determines which
variable bindings are visible (see
§ 11 – Variables and Parameters on page
); thus,
only variables and parameters declared by top-level
xsl:variable and
xsl:param elements are visible.
The following example creates a named attribute set
title-style and uses it in a template rule.
<xsl:template match="chapter/heading">
<fo:block quadding="start" xsl:use-attribute-sets="title-style">
<xsl:apply-templates/>
</fo:block>
</xsl:template>
<xsl:attribute-set name="title-style">
<xsl:attribute name="font-size">12pt</xsl:attribute>
<xsl:attribute name="font-weight">bold</xsl:attribute>
</xsl:attribute-set>
Multiple definitions of an attribute set with the same
expanded-name are merged. An attribute from a definition that has
higher import precedence
takes precedence over an attribute from a definition that has lower
import precedence. It
is an error if there are two attribute sets that have the same
expanded-name and equal import precedence and that both contain
the same attribute, unless there is a definition of the attribute set
with higher import
precedence that also contains the attribute. An XSLT
processor may signal the error; if it does not signal the error, it
must recover by choosing from amongst the definitions that specify the
attribute that have the highest import precedence the one that was
specified last in the stylesheet. Where the attributes in an
attribute set were specified is relevant only in merging the
attributes into the attribute set; it makes no difference when the
attribute set is used.
Creating Text
7.2. Creating Text
A template can also contain text nodes. Each text node in a
template remaining after whitespace has been stripped as specified in
§ 3.4 – Whitespace Stripping on page
will create a text node with the same
string-value in the result tree. Adjacent text nodes in the result
tree are automatically merged.
Note that text is processed at the tree level. Thus, markup of
< in a template will be represented in the
stylesheet tree by a text node that includes the character
<. This will create a text node in the result tree
that contains a < character, which will be represented
by the markup < (or an equivalent character
reference) when the result tree is externalized as an XML document
(unless output escaping is disabled as described in
§ 16.4 – Disabling Output Escaping on page
).
<!-- Category: instruction -->
<xsl:text
disable-output-escaping =
"yes" |
"no"
>
<!-- Content: #PCDATA -->
</xsl:text>
Literal data characters may also be wrapped in an
xsl:text element. This wrapping may change what
whitespace characters are stripped (see
§ 3.4 – Whitespace Stripping on page
) but
does not affect how the characters are handled by the XSLT processor
thereafter.
☞
The xml:lang and xml:space
attributes are not treated specially by XSLT. In particular,
•
it is the responsibility of the stylesheet author explicitly
to generate any xml:lang or xml:space
attributes that are needed in the result;
•
specifying an xml:lang or xml:space
attribute on an element in the XSLT namespace will not cause any
xml:lang or xml:space attributes to appear
in the result.
Creating Processing Instructions
7.3. Creating Processing Instructions
<!-- Category: instruction -->
<xsl:processing-instruction
name =
{
ncname
}
>
<!-- Content: template -->
</xsl:processing-instruction>
The xsl:processing-instruction element is instantiated
to create a processing instruction node. The content of the
xsl:processing-instruction element is a template for the
string-value of the processing instruction node. The
xsl:processing-instruction element has a required
name attribute that specifies the name of the processing
instruction node. The value of the name attribute is
interpreted as an attribute
value template.
For example, this
<xsl:processing-instruction name="xml-stylesheet">href="book.css" type="text/css"</xsl:processing-instruction>
would create the processing instruction
<?xml-stylesheet href="book.css" type="text/css"?>
It is an error if the string that results from instantiating the
name attribute is not both an NCName and a PITarget. An XSLT processor may signal
the error; if it does not signal the error, it must recover by not
adding the processing instruction to the result tree.
☞
This means that xsl:processing-instruction
cannot be used to output an XML declaration. The
xsl:output element should be used instead (see
§ 16 – Output on page
).
It is an error if instantiating the content of
xsl:processing-instruction creates nodes other than
text nodes. An XSLT processor may signal the error; if it does not
signal the error, it must recover by ignoring the offending nodes
together with their content.
It is an error if the result of instantiating the content of the
xsl:processing-instruction contains the string
?>. An XSLT processor may signal the error; if it does
not signal the error, it must recover by inserting a space after any
occurrence of ? that is followed by a >.
Creating Comments
7.4. Creating Comments
<!-- Category: instruction -->
<xsl:comment>
<!-- Content: template -->
</xsl:comment>
The xsl:comment element is instantiated to create a
comment node in the result tree. The content of the
xsl:comment element is a template for the string-value of
the comment node.
For example, this
<xsl:comment>This file is automatically generated. Do not edit!</xsl:comment>
would create the comment
<!--This file is automatically generated. Do not edit!-->
It is an error if instantiating the content of
xsl:comment creates nodes other than text nodes. An
XSLT processor may signal the error; if it does not signal the error,
it must recover by ignoring the offending nodes together with their
content.
It is an error if the result of instantiating the content of the
xsl:comment contains the string -- or ends
with -. An XSLT processor may signal the error; if it
does not signal the error, it must recover by inserting a space after
any occurrence of - that is followed by another
- or that ends the comment.
Copying
7.5. Copying
<!-- Category: instruction -->
<xsl:copy
use-attribute-sets =
qnames
>
<!-- Content: template -->
</xsl:copy>
The xsl:copy element provides an easy way of copying
the current node. Instantiating the xsl:copy element
creates a copy of the current node. The namespace nodes of the
current node are automatically copied as well, but the attributes and
children of the node are not automatically copied. The content of the
xsl:copy element is a template for the attributes and
children of the created node; the content is instantiated only for
nodes of types that can have attributes or children (i.e. root
nodes and element nodes).
The xsl:copy element may have a
use-attribute-sets attribute (see
§ 7.1.4 – Named Attribute Sets on page
). This is used only when copying element
nodes.
The root node is treated specially because the root node of the
result tree is created implicitly. When the current node is the root
node, xsl:copy will not create a root node, but will just
use the content template.
For example, the identity transformation can be written using
xsl:copy as follows:
<xsl:template match="@*|node()">
<xsl:copy>
<xsl:apply-templates select="@*|node()"/>
</xsl:copy>
</xsl:template>
When the current node is an attribute, then if it would be an error
to use xsl:attribute to create an attribute with the same
name as the current node, then it is also an error to use
xsl:copy (see
§ 7.1.3 – Creating Attributes with xsl:attribute
on page
).
The following example shows how xml:lang attributes
can be easily copied through from source to result. If a stylesheet
defines the following named template:
<xsl:template name="apply-templates-copy-lang">
<xsl:for-each select="@xml:lang">
<xsl:copy/>
</xsl:for-each>
<xsl:apply-templates/>
</xsl:template>
then it can simply do
<xsl:call-template name="apply-templates-copy-lang"/>
instead of
<xsl:apply-templates/>
when it wants to copy the xml:lang attribute.
Computing Generated Text
7.6. Computing Generated Text
Within a template, the xsl:value-of element can be
used to compute generated text, for example by extracting text from
the source tree or by inserting the value of a variable. The
xsl:value-of element does this with an expression that is specified as the
value of the select attribute. Expressions can
also be used inside attribute values of literal result elements by
enclosing the expression in curly braces ({}).
7.6.1. Generating Text with xsl:value-of
<!-- Category: instruction -->
<xsl:value-of
select =
string-expression
disable-output-escaping =
"yes" |
"no"
/>
The xsl:value-of element is instantiated to create a
text node in the result tree. The required select
attribute is an expression;
this expression is evaluated and the resulting object is converted to
a string as if by a call to the string
function. The string specifies the string-value of the created text
node. If the string is empty, no text node will be created. The
created text node will be merged with any adjacent text nodes.
The xsl:copy-of element can be used to copy a node-set
over to the result tree without converting it to a string. See
§ 11.3 – Using Values of Variables and Parameters with
xsl:copy-of
on page
.
For example, the following creates an HTML paragraph from a
person element with given-name and
family-name attributes. The paragraph will contain the value
of the given-name attribute of the current node followed
by a space and the value of the family-name attribute of the
current node.
<xsl:template match="person">
<p>
<xsl:value-of select="@given-name"/>
<xsl:text> </xsl:text>
<xsl:value-of select="@family-name"/>
</p>
</xsl:template>
For another example, the following creates an HTML paragraph from a
person element with given-name and
family-name children elements. The paragraph will
contain the string-value of the first given-name child
element of the current node followed by a space and the string-value
of the first family-name child element of the current
node.
<xsl:template match="person">
<p>
<xsl:value-of select="given-name"/>
<xsl:text> </xsl:text>
<xsl:value-of select="family-name"/>
</p>
</xsl:template>
The following precedes each procedure element with a
paragraph containing the security level of the procedure. It assumes
that the security level that applies to a procedure is determined by a
security attribute on the procedure element or on an
ancestor element of the procedure. It also assumes that if more than
one such element has a security attribute then the
security level is determined by the element that is closest to the
procedure.
<xsl:template match="procedure">
<fo:block>
<xsl:value-of select="ancestor-or-self::*[@security][1]/@security"/>
</fo:block>
<xsl:apply-templates/>
</xsl:template>
7.6.2. Attribute Value Templates
In an attribute value that is interpreted as an
attribute value template, such as an attribute of a
literal result element, an expression can be used by surrounding
the expression with curly braces ({}). The
attribute value template is instantiated by replacing the expression
together with surrounding curly braces by the result of evaluating the
expression and converting the resulting object to a string as if by a
call to the string function. Curly braces are
not recognized in an attribute value in an XSLT stylesheet unless the
attribute is specifically stated to be one that is interpreted as an
attribute value template; in an element syntax summary, the value
of such attributes is surrounded by curly braces.
☞
Not all attributes are interpreted as attribute value
templates. Attributes whose value is an expression or pattern,
attributes of top-level elements
and attributes that refer to named XSLT objects are not interpreted as
attribute value templates. In addition, xmlns attributes
are not interpreted as attribute value templates; it would not be
conformant with the XML Namespaces Recommendation to do
this.
The following example creates an img result element
from a photograph element in the source; the value of the
src attribute of the img element is computed
from the value of the image-dir variable and the
string-value of the href child of the
photograph element; the value of the width
attribute of the img element is computed from the value
of the width attribute of the size child of
the photograph element:
<xsl:variable name="image-dir">/images</xsl:variable>
<xsl:template match="photograph">
<img src="{$image-dir}/{href}" width="{size/@width}"/>
</xsl:template>
With this source
<photograph>
<href>headquarters.jpg</href>
<size width="300"/>
</photograph>
the result would be
<img src="/images/headquarters.jpg" width="300"/>
When an attribute value template is instantiated, a double left or
right curly brace outside an expression will be replaced by a single
curly brace. It is an error if a right curly brace occurs in an
attribute value template outside an expression without being followed
by a second right curly brace. A right curly brace inside a Literal in an expression is not
recognized as terminating the expression.
Curly braces are not recognized recursively inside
expressions. For example:
<a href="#{id({@ref})/title}">
is not allowed. Instead, use simply:
<a href="#{id(@ref)/title}">
Numbering
7.7. Numbering
<!-- Category: instruction -->
<xsl:number
level =
"single" |
"multiple" |
"any"
count =
pattern
from =
pattern
value =
number-expression
format =
{
string
}
lang =
{
nmtoken
}
letter-value =
{
"alphabetic" |
"traditional"
}
grouping-separator =
{
char
}
grouping-size =
{
number
}
/>
The xsl:number element is used to insert a formatted
number into the result tree. The number to be inserted may be
specified by an expression. The value attribute contains
an expression. The expression
is evaluated and the resulting object is converted to a number as if
by a call to the number function. The number is
rounded to an integer and then converted to a string using the
attributes specified in
§ 7.7.1 – Number to String Conversion Attributes on page
; in this
context, the value of each of these attributes is
interpreted as an attribute
value template. After conversion, the resulting string is
inserted in the result tree. For example, the following example
numbers a sorted list:
<xsl:template match="items">
<xsl:for-each select="item">
<xsl:sort select="."/>
<p>
<xsl:number value="position()" format="1. "/>
<xsl:value-of select="."/>
</p>
</xsl:for-each>
</xsl:template>
If no value attribute is specified, then the
xsl:number element inserts a number based on the position
of the current node in the source tree. The following attributes
control how the current node is to be numbered:
•
The level attribute specifies what levels of the
source tree should be considered; it has the values
single, multiple or any. The
default is single.
•
The count attribute is a pattern that specifies
what nodes should be counted at those levels. If count
attribute is not specified, then it defaults to the pattern that
matches any node with the same node type as the current node and, if
the current node has an expanded-name, with the same expanded-name as
the current node.
•
The from attribute is a pattern that specifies
where counting starts.
In addition, the attributes specified in
§ 7.7.1 – Number to String Conversion Attributes on page
are used for number to string conversion, as in the case when the
value attribute is specified.
The xsl:number element first constructs a list of
positive integers using the level, count and
from attributes:
•
When level="single", it goes up to the first
node in the ancestor-or-self axis that matches
the count pattern, and constructs a list of length one
containing one plus the number of preceding siblings of that ancestor
that match the count pattern. If there is no such
ancestor, it constructs an empty list. If the from
attribute is specified, then the only ancestors that are searched are
those that are descendants of the nearest ancestor that matches the
from pattern. Preceding siblings has the same meaning
here as with the preceding-sibling axis.
•
When level="multiple", it constructs a list of all
ancestors of the current node in document order followed by the
element itself; it then selects from the list those nodes that match
the count pattern; it then maps each node in the list to
one plus the number of preceding siblings of that node that match the
count pattern. If the from attribute is
specified, then the only ancestors that are searched are those that
are descendants of the nearest ancestor that matches the
from pattern. Preceding siblings has the same meaning
here as with the preceding-sibling axis.
•
When level="any", it constructs a list of length
one containing the number of nodes that match the count
pattern and belong to the set containing the current node and all
nodes at any level of the document that are before the current node in
document order, excluding any namespace and attribute nodes (in other
words the union of the members of the preceding and
ancestor-or-self axes). If the from
attribute is specified, then only nodes after the first node before
the current node that match the from pattern are
considered.
The list of numbers is then converted into a string using the
attributes specified in
§ 7.7.1 – Number to String Conversion Attributes on page
; in this
context, the value of each of these attributes is
interpreted as an attribute
value template. After conversion, the resulting string is
inserted in the result tree.
The following would number the items in an ordered list:
<xsl:template match="ol/item">
<fo:block>
<xsl:number/><xsl:text>. </xsl:text><xsl:apply-templates/>
</fo:block>
<xsl:template>
The following two rules would number title elements.
This is intended for a document that contains a sequence of chapters
followed by a sequence of appendices, where both chapters and
appendices contain sections, which in turn contain subsections.
Chapters are numbered 1, 2, 3; appendices are numbered A, B, C;
sections in chapters are numbered 1.1, 1.2, 1.3; sections in
appendices are numbered A.1, A.2, A.3.
<xsl:template match="title">
<fo:block>
<xsl:number level="multiple"
count="chapter|section|subsection"
format="1.1 "/>
<xsl:apply-templates/>
</fo:block>
</xsl:template>
<xsl:template match="appendix//title" priority="1">
<fo:block>
<xsl:number level="multiple"
count="appendix|section|subsection"
format="A.1 "/>
<xsl:apply-templates/>
</fo:block>
</xsl:template>
The following example numbers notes sequentially within a
chapter:
<xsl:template match="note">
<fo:block>
<xsl:number level="any" from="chapter" format="(1) "/>
<xsl:apply-templates/>
</fo:block>
</xsl:template>
The following example would number H4 elements in HTML
with a three-part label:
<xsl:template match="H4">
<fo:block>
<xsl:number level="any" from="H1" count="H2"/>
<xsl:text>.</xsl:text>
<xsl:number level="any" from="H2" count="H3"/>
<xsl:text>.</xsl:text>
<xsl:number level="any" from="H3" count="H4"/>
<xsl:text> </xsl:text>
<xsl:apply-templates/>
</fo:block>
</xsl:template>
7.7.1. Number to String Conversion Attributes
The following attributes are used to control conversion of a list
of numbers into a string. The numbers are integers greater than
0. The attributes are all optional.
The main attribute is format. The default value for
the format attribute is 1. The
format attribute is split into a sequence of tokens where
each token is a maximal sequence of alphanumeric characters or a
maximal sequence of non-alphanumeric characters. Alphanumeric means
any character that has a Unicode category of Nd, Nl, No, Lu, Ll, Lt,
Lm or Lo. The alphanumeric tokens (format tokens) specify the format
to be used for each number in the list. If the first token is a
non-alphanumeric token, then the constructed string will start with
that token; if the last token is non-alphanumeric token, then the
constructed string will end with that token. Non-alphanumeric tokens
that occur between two format tokens are separator tokens that are
used to join numbers in the list. The nth format token
will be used to format the nth number in the list. If
there are more numbers than format tokens, then the last format token
will be used to format remaining numbers. If there are no format
tokens, then a format token of 1 is used to format all
numbers. The format token specifies the string to be used to
represent the number 1. Each number after the first will be separated
from the preceding number by the separator token preceding the format
token used to format that number, or, if there are no separator
tokens, then by . (a period character).
Format tokens are a superset of the allowed values for the
type attribute for the OL element in HTML
4.0 and are interpreted as follows:
•
Any token where the last character has a decimal digit value
of 1 (as specified in the Unicode character property database),
and the Unicode value of preceding characters is one less than the
Unicode value of the last character generates a decimal
representation of the number where each number is at least as long as
the format token. Thus, a format token 1 generates the
sequence 1 2 ... 10 11 12 ..., and a format token
01 generates the sequence 01 02 ... 09 10 11 12
... 99 100 101.
•
A format token A generates the sequence A
B C ... Z AA AB AC....
•
A format token a generates the sequence a
b c ... z aa ab ac....
•
A format token i generates the sequence i
ii iii iv v vi vii viii ix x ....
•
A format token I generates the sequence I
II III IV V VI VII VIII IX X ....
•
Any other format token indicates a numbering sequence that
starts with that token. If an implementation does not support a
numbering sequence that starts with that token, it must use a format
token of 1.
When numbering with an alphabetic sequence, the lang
attribute specifies which language's alphabet is to be used; it has
the same range of values as xml:lang [XML];
if no lang value is specified, the language should be
determined from the system environment. Implementers should document
for which languages they support numbering.
☞
Implementers should not make any assumptions about how
numbering works in particular languages and should properly research
the languages that they wish to support. The numbering conventions of
many languages are very different from English.
The letter-value attribute disambiguates between
numbering sequences that use letters. In many languages there are two
commonly used numbering sequences that use letters. One numbering
sequence assigns numeric values to letters in alphabetic sequence, and
the other assigns numeric values to each letter in some other manner
traditional in that language. In English, these would correspond to
the numbering sequences specified by the format tokens a
and i. In some languages, the first member of each
sequence is the same, and so the format token alone would be
ambiguous. A value of alphabetic specifies the
alphabetic sequence; a value of traditional specifies the
other sequence. If the letter-value attribute is not
specified, then it is implementation-dependent how any ambiguity is
resolved.
☞
It is possible for two conforming XSLT processors not to
convert a number to exactly the same string. Some XSLT processors may not
support some languages. Furthermore, there may be variations possible
in the way conversions are performed for any particular language that
are not specifiable by the attributes on xsl:number.
Future versions of XSLT may provide additional attributes to provide
control over these variations. Implementations may also use
implementation-specific namespaced attributes on
xsl:number for this.
The grouping-separator attribute gives the separator
used as a grouping (e.g. thousands) separator in decimal numbering
sequences, and the optional grouping-size specifies the
size (normally 3) of the grouping. For example,
grouping-separator="," and grouping-size="3"
would produce numbers of the form 1,000,000. If only one
of the grouping-separator and grouping-size
attributes is specified, then it is ignored.
Here are some examples of conversion specifications:
•
format="ア" specifies Katakana
numbering
•
format="イ" specifies Katakana
numbering in the “iroha” order
•
format="๑" specifies numbering with
Thai digits
•
format="א" letter-value="traditional"
specifies “traditional” Hebrew numbering
•
format="ა" letter-value="traditional"
specifies Georgian numbering
•
format="α" letter-value="traditional"
specifies “classical” Greek numbering
•
format="а" letter-value="traditional"
specifies Old Slavic numbering
Repetition
8. Repetition
<!-- Category: instruction -->
<xsl:for-each
select =
node-set-expression
>
<!-- Content: (xsl:sort*, template) -->
</xsl:for-each>
When the result has a known regular structure, it is useful to be
able to specify directly the template for selected nodes. The
xsl:for-each instruction contains a template, which is
instantiated for each node selected by the expression specified by the
select attribute. The select attribute is
required. The expression must evaluate to a node-set. The template
is instantiated with the selected node as the current node, and with a list of all
of the selected nodes as the current node list. The nodes are
processed in document order, unless a sorting specification is present
(see
§ 10 – Sorting on page
).
For example, given an XML document with this structure
<customers>
<customer>
<name>...</name>
<order>...</order>
<order>...</order>
</customer>
<customer>
<name>...</name>
<order>...</order>
<order>...</order>
</customer>
</customers>
the following would create an HTML document containing a table with
a row for each customer element
<xsl:template match="/">
<html>
<head>
<title>Customers</title>
</head>
<body>
<table>
<tbody>
<xsl:for-each select="customers/customer">
<tr>
<th>
<xsl:apply-templates select="name"/>
</th>
<xsl:for-each select="order">
<td>
<xsl:apply-templates/>
</td>
</xsl:for-each>
</tr>
</xsl:for-each>
</tbody>
</table>
</body>
</html>
</xsl:template>
Conditional Processing
9. Conditional Processing
There are two instructions in XSLT that support conditional
processing in a template: xsl:if and
xsl:choose. The xsl:if instruction provides
simple if-then conditionality; the xsl:choose instruction
supports selection of one choice when there are several
possibilities.
Conditional Processing with xsl:if
9.1. Conditional Processing with xsl:if
<!-- Category: instruction -->
<xsl:if
test =
boolean-expression
>
<!-- Content: template -->
</xsl:if>
The xsl:if element has a test attribute,
which specifies an expression.
The content is a template. The expression is evaluated and the
resulting object is converted to a boolean as if by a call to the
boolean function. If the result is true, then
the content template is instantiated; otherwise, nothing is created.
In the following example, the names in a group of names are formatted
as a comma separated list:
<xsl:template match="namelist/name">
<xsl:apply-templates/>
<xsl:if test="not(position()=last())">, </xsl:if>
</xsl:template>
The following colors every other table row yellow:
<xsl:template match="item">
<tr>
<xsl:if test="position() mod 2 = 0">
<xsl:attribute name="bgcolor">yellow</xsl:attribute>
</xsl:if>
<xsl:apply-templates/>
</tr>
</xsl:template>
Conditional Processing with xsl:choose
9.2. Conditional Processing with xsl:choose
<!-- Category: instruction -->
<xsl:choose>
<!-- Content: (xsl:when+, xsl:otherwise?) -->
</xsl:choose>
<xsl:when
test =
boolean-expression
>
<!-- Content: template -->
</xsl:when>
<xsl:otherwise>
<!-- Content: template -->
</xsl:otherwise>
The xsl:choose element selects one among a number of
possible alternatives. It consists of a sequence of
xsl:when elements followed by an optional
xsl:otherwise element. Each xsl:when
element has a single attribute, test, which specifies an
expression. The content of the
xsl:when and xsl:otherwise elements is a
template. When an xsl:choose element is processed, each
of the xsl:when elements is tested in turn, by evaluating
the expression and converting the resulting object to a boolean as if
by a call to the boolean function. The content
of the first, and only the first, xsl:when element whose
test is true is instantiated. If no xsl:when is true,
the content of the xsl:otherwise element is
instantiated. If no xsl:when element is true, and no
xsl:otherwise element is present, nothing is created.
The following example enumerates items in an ordered list using
arabic numerals, letters, or roman numerals depending on the depth to
which the ordered lists are nested.
<xsl:template match="orderedlist/listitem">
<fo:list-item indent-start='2pi'>
<fo:list-item-label>
<xsl:variable name="level"
select="count(ancestor::orderedlist) mod 3"/>
<xsl:choose>
<xsl:when test='$level=1'>
<xsl:number format="i"/>
</xsl:when>
<xsl:when test='$level=2'>
<xsl:number format="a"/>
</xsl:when>
<xsl:otherwise>
<xsl:number format="1"/>
</xsl:otherwise>
</xsl:choose>
<xsl:text>. </xsl:text>
</fo:list-item-label>
<fo:list-item-body>
<xsl:apply-templates/>
</fo:list-item-body>
</fo:list-item>
</xsl:template>
Sorting
10. Sorting
<xsl:sort
select =
string-expression
lang =
{
nmtoken
}
data-type =
{
"text" |
"number" |
qname-but-not-ncname
}
order =
{
"ascending" |
"descending"
}
case-order =
{
"upper-first" |
"lower-first"
}
/>
Sorting is specified by adding xsl:sort elements as
children of an xsl:apply-templates or
xsl:for-each element. The first xsl:sort
child specifies the primary sort key, the second xsl:sort
child specifies the secondary sort key and so on. When an
xsl:apply-templates or xsl:for-each element
has one or more xsl:sort children, then instead of
processing the selected nodes in document order, it sorts the nodes
according to the specified sort keys and then processes them in sorted
order. When used in xsl:for-each, xsl:sort
elements must occur first. When a template is instantiated by
xsl:apply-templates and xsl:for-each, the
current node list list
consists of the complete list of nodes being processed in sorted
order.
xsl:sort has a select attribute whose
value is an expression. For
each node to be processed, the expression is evaluated with that node
as the current node and with the complete list of nodes being
processed in unsorted order as the current node list.
The resulting object is converted to a string as
if by a call to the string function; this string
is used as the sort key for that node. The default value of the
select attribute is ., which will cause the
string-value of the current node to be used as the sort key.
This string serves as a sort key for the node. The following
optional attributes on xsl:sort control how the list of
sort keys are sorted; the values of all of these attributes are
interpreted as attribute
value templates.
•
order specifies whether the strings should be
sorted in ascending or descending order; ascending
specifies ascending order; descending specifies
descending order; the default is ascending
•
lang specifies the language of the sort keys; it
has the same range of values as xml:lang [XML]; if no lang value is specified, the language
should be determined from the system environment
•
data-type specifies the data type of the
strings; the following values are allowed:
-
text specifies that the sort keys should be
sorted lexicographically in the culturally correct manner for the
language specified by lang
-
number specifies that the sort keys should be
converted to numbers and then sorted according to the numeric value;
the sort key is converted to a number as if by a call to the
number function; the lang
attribute is ignored
-
a QName with a prefix
is expanded into an expanded-name as described
in
§ 2.4 – Qualified Names on page
; the expanded-name identifies the data-type;
the behavior in this case is not specified by this document
The default value is text.
☞
The XSL Working Group plans that future versions of XSLT will
leverage XML Schemas to define further values for this
attribute.
•
case-order has the value
upper-first or lower-first; this applies
when data-type="text", and specifies that upper-case
letters should sort before lower-case letters or vice-versa
respectively. For example, if lang="en", then A a B
b are sorted with case-order="upper-first" and
a A b B are sorted with
case-order="lower-first". The default value is language
dependent.
☞
It is possible for two conforming XSLT processors not to sort
exactly the same. Some XSLT processors may not support some
languages. Furthermore, there may be variations possible in the
sorting of any particular language that are not specified by the
attributes on xsl:sort, for example, whether Hiragana or
Katakana is sorted first in Japanese. Future versions of XSLT may
provide additional attributes to provide control over these
variations. Implementations may also use implementation-specific
namespaced attributes on xsl:sort for this.
☞
It is recommended that implementers consult [UNICODE TR10] for information on internationalized
sorting.
The sort must be stable: in the sorted list of nodes, any sub list
that has sort keys that all compare equal must be in document
order.
For example, suppose an employee database has the form
<employees>
<employee>
<name>
<given>James</given>
<family>Clark</family>
</name>
...
</employee>
</employees>
Then a list of employees sorted by name could be generated
using:
<xsl:template match="employees">
<ul>
<xsl:apply-templates select="employee">
<xsl:sort select="name/family"/>
<xsl:sort select="name/given"/>
</xsl:apply-templates>
</ul>
</xsl:template>
<xsl:template match="employee">
<li>
<xsl:value-of select="name/given"/>
<xsl:text> </xsl:text>
<xsl:value-of select="name/family"/>
</li>
</xsl:template>
Variables and Parameters
11. Variables and Parameters
<!-- Category: top-level-element -->
<!-- Category: instruction -->
<xsl:variable
name =
qname
select =
expression
>
<!-- Content: template -->
</xsl:variable>
<!-- Category: top-level-element -->
<xsl:param
name =
qname
select =
expression
>
<!-- Content: template -->
</xsl:param>
A variable is a name that may be bound to a value. The value to
which a variable is bound (the value of the variable) can
be an object of any of the types that can be returned by expressions.
There are two elements that can be used to bind variables:
xsl:variable and xsl:param. The difference
is that the value specified on the xsl:param variable is
only a default value for the binding; when the template or stylesheet
within which the xsl:param element occurs is invoked,
parameters may be passed that are used in place of the default
values.
Both xsl:variable and xsl:param have a
required name attribute, which specifies the name of the
variable. The value of the name attribute is a QName, which is expanded as described
in
§ 2.4 – Qualified Names on page
.
For any use of these variable-binding elements, there is a region
of the stylesheet tree within which the binding is visible; within
this region, any binding of the variable that was visible on the
variable-binding element itself is hidden. Thus, only the innermost
binding of a variable is visible. The set of variable bindings in
scope for an expression consists of those bindings that are visible at
the point in the stylesheet where the expression occurs.
Result Tree Fragments
11.1. Result Tree Fragments
Variables introduce an additional data-type into the expression
language. This additional data type is called result tree
fragment. A variable may be bound to a result tree fragment
instead of one of the four basic XPath data-types (string, number,
boolean, node-set). A result tree fragment represents a fragment of
the result tree. A result tree fragment is treated equivalently to a
node-set that contains just a single root node. However, the
operations permitted on a result tree fragment are a subset of those
permitted on a node-set. An operation is permitted on a result tree
fragment only if that operation would be permitted on a string (the
operation on the string may involve first converting the string to a
number or boolean). In particular, it is not permitted to use the
/, //, and [] operators on
result tree fragments. When a permitted operation is performed on a
result tree fragment, it is performed exactly as it would be on the
equivalent node-set.
When a result tree fragment is copied into the result tree (see
§ 11.3 – Using Values of Variables and Parameters with
xsl:copy-of
on page
), then all the nodes that are children of the
root node in the equivalent node-set are added in sequence to the
result tree.
Expressions can only return values of type result tree fragment by
referencing variables of type result tree fragment or calling
extension functions that return a result tree fragment or getting a
system property whose value is a result tree fragment.
Values of Variables and Parameters
11.2. Values of Variables and Parameters
A variable-binding element can specify the value of the variable in
three alternative ways.
•
If the variable-binding element has a select
attribute, then the value of the attribute must be an expression and the value of the variable
is the object that results from evaluating the expression. In this
case, the content must be empty.
•
If the variable-binding element does not have a select
attribute and has non-empty content (i.e. the variable-binding element
has one or more child nodes), then the content of the
variable-binding element specifies the value. The content of the
variable-binding element is a template, which is instantiated to give
the value of the variable. The value is a result tree fragment
equivalent to a node-set containing just a single root node having as
children the sequence of nodes produced by instantiating the template.
The base URI of the nodes in the result tree fragment is the base URI
of the variable-binding element.
It is an error if a member of the sequence of nodes created by
instantiating the template is an attribute node or a namespace node,
since a root node cannot have an attribute node or a namespace node as
a child. An XSLT processor may signal the error; if it does not signal
the error, it must recover by not adding the attribute node or
namespace node.
•
If the variable-binding element has empty content and does not have
a select attribute, then the value of the variable is an
empty string. Thus
<xsl:variable name="x"/>
is equivalent to
<xsl:variable name="x" select="''"/>
☞
When a variable is used to select nodes by position, be careful
not to do:
<xsl:variable name="n">2</xsl:variable>
...
<xsl:value-of select="item[$n]"/>
This will output the value of the first item element, because the
variable n will be bound to a result tree fragment, not a
number. Instead, do either
<xsl:variable name="n" select="2"/>
...
<xsl:value-of select="item[$n]"/>
or
<xsl:variable name="n">2</xsl:variable>
...
<xsl:value-of select="item[position()=$n]"/>
☞
One convenient way to specify the empty node-set as the default
value of a parameter is:
<xsl:param name="x" select="/.."/>
Using Values of Variables and Parameters with
xsl:copy-of
11.3. Using Values of Variables and Parameters with
xsl:copy-of
<!-- Category: instruction -->
<xsl:copy-of
select =
expression
/>
The xsl:copy-of element can be used to insert a result
tree fragment into the result tree, without first converting it to a
string as xsl:value-of does (see
§ 7.6.1 – Generating Text with xsl:value-of
on page
). The required select attribute
contains an expression. When
the result of evaluating the expression is a result tree fragment, the
complete fragment is copied into the result tree. When the result is
a node-set, all the nodes in the set are copied in document order into
the result tree; copying an element node copies the attribute nodes,
namespace nodes and children of the element node as well as the
element node itself; a root node is copied by copying its children.
When the result is neither a node-set nor a result tree fragment, the
result is converted to a string and then inserted into the result
tree, as with xsl:value-of.
Top-level Variables and Parameters
11.4. Top-level Variables and Parameters
Both xsl:variable and xsl:param are
allowed as top-level elements.
A top-level variable-binding element declares a global variable that
is visible everywhere. A top-level xsl:param element
declares a parameter to the stylesheet; XSLT does not define the
mechanism by which parameters are passed to the stylesheet. It is an
error if a stylesheet contains more than one binding of a top-level
variable with the same name and same import precedence. At the
top-level, the expression or template specifying the variable value is
evaluated with the same context as that used to process the root node
of the source document: the current node is the root node of the
source document and the current node list is a list containing just
the root node of the source document. If the template or expression
specifying the value of a global variable x references a
global variable y, then the value for y must
be computed before the value of x. It is an error if it
is impossible to do this for all global variable definitions; in other
words, it is an error if the definitions are circular.
This example declares a global variable para-font-size,
which it references in an attribute value template.
<xsl:variable name="para-font-size">12pt</xsl:variable>
<xsl:template match="para">
<fo:block font-size="{$para-font-size}">
<xsl:apply-templates/>
</fo:block>
</xsl:template>
Variables and Parameters within Templates
11.5. Variables and Parameters within Templates
As well as being allowed at the top-level, both
xsl:variable and xsl:param are also
allowed in templates. xsl:variable is allowed anywhere
within a template that an instruction is allowed. In this case, the
binding is visible for all following siblings and their descendants.
Note that the binding is not visible for the xsl:variable
element itself. xsl:param is allowed as a child
at the beginning of an xsl:template element. In this
context, the binding is visible for all following siblings and their
descendants. Note that the binding is not visible for the
xsl:param element itself.
A binding
shadows another binding if the binding occurs at a point
where the other binding is visible, and the bindings have the same
name. It is an error if a binding established by an
xsl:variable or xsl:param element within a
template shadows another binding
established by an xsl:variable or xsl:param
element also within the template. It is not an error if a binding
established by an xsl:variable or xsl:param
element in a template shadows
another binding established by an xsl:variable or
xsl:param
top-level
element. Thus, the following is an error:
<xsl:template name="foo">
<xsl:param name="x" select="1"/>
<xsl:variable name="x" select="2"/>
</xsl:template>
However, the following is allowed:
<xsl:param name="x" select="1"/>
<xsl:template name="foo">
<xsl:variable name="x" select="2"/>
</xsl:template>
☞
The nearest equivalent in Java to an xsl:variable
element in a template is a final local variable declaration with an
initializer. For example,
<xsl:variable name="x" select="'value'"/>
has similar semantics to
final Object x = "value";
XSLT does not provide an equivalent to the Java assignment operator
x = "value";
because this would make it harder to create an implementation that
processes a document other than in a batch-like way, starting at the
beginning and continuing through to the end.
Passing Parameters to Templates
11.6. Passing Parameters to Templates
<xsl:with-param
name =
qname
select =
expression
>
<!-- Content: template -->
</xsl:with-param>
Parameters are passed to templates using the
xsl:with-param element. The required name
attribute specifies the name of the parameter (the variable the value
of whose binding is to be replaced). The value of the
name attribute is a QName, which is expanded as described
in
§ 2.4 – Qualified Names on page
. xsl:with-param is allowed
within both xsl:call-template and
xsl:apply-templates. The value of the parameter is
specified in the same way as for xsl:variable and
xsl:param. The current node and current node list used
for computing the value specified by xsl:with-param
element is the same as that used for the
xsl:apply-templates or xsl:call-template
element within which it occurs. It is not an error to pass a
parameter x to a template that does not have an
xsl:param element for x; the parameter is
simply ignored.
This example defines a named template for a
numbered-block with an argument to control the format of
the number.
<xsl:template name="numbered-block">
<xsl:param name="format">1. </xsl:param>
<fo:block>
<xsl:number format="{$format}"/>
<xsl:apply-templates/>
</fo:block>
</xsl:template>
<xsl:template match="ol//ol/li">
<xsl:call-template name="numbered-block">
<xsl:with-param name="format">a. </xsl:with-param>
</xsl:call-template>
</xsl:template>
Additional Functions
12. Additional Functions
This section describes XSLT-specific additions to the core XPath
function library. Some of these additional functions also make use of
information specified by top-level
elements in the stylesheet; this section also describes these
elements.
Multiple Source Documents
12.1. Multiple Source Documents
Function:
node-set
document(object, node-set?)
The document function allows
access to XML documents other than the main source document.
When the document function has exactly one
argument and the argument is a node-set, then the result is the union,
for each node in the argument node-set, of the result of calling the
document function with the first argument being
the string-value
of the node, and the second argument being a node-set with the node as
its only member. When the document function has
two arguments and the first argument is a node-set, then the result is
the union, for each node in the argument node-set, of the result of
calling the document function with the first
argument being the string-value of the node,
and with the second argument being the second argument passed to the
document function.
When the first argument to the document
function is not a node-set, the first argument is converted to a
string as if by a call to the string function.
This string is treated as a URI reference; the resource identified by
the URI is retrieved. The data resulting from the retrieval action is
parsed as an XML document and a tree is constructed in accordance with
the data model (see
§ 3 – Data Model on page
). If there is an
error retrieving the resource, then the XSLT processor may signal an
error; if it does not signal an error, it must recover by returning an
empty node-set. One possible kind of retrieval error is that the XSLT
processor does not support the URI scheme used by the URI. An XSLT
processor is not required to support any particular URI schemes. The
documentation for an XSLT processor should specify which URI schemes
the XSLT processor supports.
If the URI reference does not contain a fragment identifier, then a
node-set containing just the root node of the document is returned.
If the URI reference does contain a fragment identifier, the function
returns a node-set containing the nodes in the tree identified by the
fragment identifier of the URI reference. The semantics of the
fragment identifier is dependent on the media type of the result of
retrieving the URI. If there is an error in processing the fragment
identifier, the XSLT processor may signal the error; if it does not
signal the error, it must recover by returning an empty node-set.
Possible errors include:
•
The fragment identifier identifies something that cannot be
represented by an XSLT node-set (such as a range of characters within
a text node).
•
The XSLT processor does not support fragment identifiers for
the media-type of the retrieval result. An XSLT processor is not
required to support any particular media types. The documentation for
an XSLT processor should specify for which media types the XSLT
processor supports fragment identifiers.
The data resulting from the retrieval action is parsed as an XML
document regardless of the media type of the retrieval result; if the
top-level media type is text, then it is parsed in the
same way as if the media type were text/xml; otherwise,
it is parsed in the same way as if the media type were
application/xml.
☞
Since there is no top-level xml media type, data
with a media type other than text/xml or
application/xml may in fact be XML.
The URI reference may be relative. The base URI (see
§ 3.2 – Base URI on page
) of the node in the second argument node-set that is
first in document order is used as the base URI for resolving the
relative URI into an absolute URI. If the second argument is omitted,
then it defaults to the node in the stylesheet that contains the
expression that includes the call to the document
function. Note that a zero-length URI reference is a reference to the
document relative to which the URI reference is being resolved; thus
document("") refers to the root node of the stylesheet;
the tree representation of the stylesheet is exactly the same as if
the XML document containing the stylesheet was the initial source
document.
Two documents are treated as the same document if they are
identified by the same URI. The URI used for the comparison is the
absolute URI into which any relative URI was resolved and does not
include any fragment identifier. One root node is treated as the same
node as another root node if the two nodes are from the same document.
Thus, the following expression will always be true:
generate-id(document("foo.xml"))=generate-id(document("foo.xml"))
The document function gives rise to the
possibility that a node-set may contain nodes from more than one
document. With such a node-set, the relative document order of two
nodes in the same document is the normal document order defined by
XPath [XPath]. The relative document order of two nodes
in different documents is determined by an implementation-dependent
ordering of the documents containing the two nodes. There are no
constraints on how the implementation orders documents other than that
it must do so consistently: an implementation must always use the same
order for the same set of documents.
Keys
12.2. Keys
Keys provide a way to work with documents that contain an implicit
cross-reference structure. The ID, IDREF
and IDREFS attribute types in XML provide a mechanism to
allow XML documents to make their cross-reference explicit. XSLT
supports this through the XPath id function.
However, this mechanism has a number of limitations:
•
ID attributes must be declared as such in the DTD. If an ID
attribute is declared as an ID attribute only in the external DTD
subset, then it will be recognized as an ID attribute only if the XML
processor reads the external DTD subset. However, XML does not require
XML processors to read the external DTD, and they may well choose not
to do so, especially if the document is declared
standalone="yes".
•
A document can contain only a single set of unique IDs.
There cannot be separate independent sets of unique IDs.
•
The ID of an element can only be specified in an attribute;
it cannot be specified by the content of the element, or by a child
element.
•
An ID is constrained to be an XML name. For example, it
cannot contain spaces.
•
An element can have at most one ID.
•
At most one element can have a particular ID.
Because of these limitations XML documents sometimes contain a
cross-reference structure that is not explicitly declared by
ID/IDREF/IDREFS attributes.
A key is a triple containing:
1.
the node which has the key
2.
the name of the key (an expanded-name)
3.
the value of the key (a string)
A stylesheet declares a set of keys for each document using the
xsl:key element. When this set of keys contains a member
with node x, name y and value
z, we say that node x has a key with name
y and value z.
Thus, a key is a kind of generalized ID, which is not subject to the
same limitations as an XML ID:
•
Keys are declared in the stylesheet using
xsl:key elements.
•
A key has a name as well as a value; each key name may be
thought of as distinguishing a separate, independent space of
identifiers.
•
The value of a named key for an element may be specified in
any convenient place; for example, in an attribute, in a child element
or in content. An XPath expression is used to specify where to find
the value for a particular named key.
•
The value of a key can be an arbitrary string; it is not
constrained to be a name.
•
There can be multiple keys in a document with the same node,
same key name, but different key values.
•
There can be multiple keys in a document with the same key
name, same key value, but different nodes.
<!-- Category: top-level-element -->
<xsl:key
name =
qname
match =
pattern
use =
expression
/>
The xsl:key element is used to declare keys. The
name attribute specifies the name of the key. The value
of the name attribute is a QName, which is expanded as described
in
§ 2.4 – Qualified Names on page
. The match attribute is a Pattern; an xsl:key element gives
information about the keys of any node that matches the pattern
specified in the match attribute. The use attribute is
an expression specifying the
values of the key; the expression is evaluated once for each node that
matches the pattern. If the result is a node-set, then for each node
in the node-set, the node that matches the pattern has a key of the
specified name whose value is the string-value of the node in the
node-set; otherwise, the result is converted to a string, and the node
that matches the pattern has a key of the specified name with value
equal to that string. Thus, a node x has a key with name
y and value z if and only if there is an
xsl:key element such that:
•
x matches the pattern specified in the
match attribute of the xsl:key element;
•
the value of the name attribute of the
xsl:key element is equal to y;
and
•
when the expression specified in the use
attribute of the xsl:key element is evaluated with
x as the current node and with a node list containing
just x as the current node list resulting in an object
u, then either z is equal to the result of
converting u to a string as if by a call to the
string function, or u is a
node-set and z is equal to the string-value of one or
more of the nodes in u.
Note also that there may be more than one xsl:key
element that matches a given node; all of the matching
xsl:key elements are used, even if they do not have the
same import
precedence.
It is an error for the value of either the use
attribute or the match attribute to contain a VariableReference.
Function:
node-set
key(string, object)
The key function does for keys what the
id function does for IDs. The first argument
specifies the name of the key. The value of the argument must be a
QName, which is expanded as
described in
§ 2.4 – Qualified Names on page
. When the second argument to the
key function is of type node-set, then the result
is the union of the result of applying the key
function to the string value of each of the nodes in the
argument node-set. When the second argument to
key is of any other type, the argument is
converted to a string as if by a call to the
string function; it returns a node-set
containing the nodes in the same document as the context node that
have a value for the named key equal to this string.
For example, given a declaration
<xsl:key name="idkey" match="div" use="@id"/>
an expression key("idkey",@ref) will return the same
node-set as id(@ref), assuming that the only ID attribute
declared in the XML source document is:
<!ATTLIST div id ID #IMPLIED>
and that the ref attribute of the current node
contains no whitespace.
Suppose a document describing a function library uses a
prototype element to define functions
<prototype name="key" return-type="node-set">
<arg type="string"/>
<arg type="object"/>
</prototype>
and a function element to refer to function names
<function>key</function>
Then the stylesheet could generate hyperlinks between the
references and definitions as follows:
<xsl:key name="func" match="prototype" use="@name"/>
<xsl:template match="function">
<b>
<a href="#{generate-id(key('func',.))}">
<xsl:apply-templates/>
</a>
</b>
</xsl:template>
<xsl:template match="prototype">
<p><a name="{generate-id()}">
<b>Function: </b>
...
</a></p>
</xsl:template>
The key can be used to retrieve a key from a
document other than the document containing the context node. For
example, suppose a document contains bibliographic references in the
form <bibref>XSLT</bibref>, and there is a
separate XML document bib.xml containing a bibliographic
database with entries in the form:
<entry name="XSLT">...</entry>
Then the stylesheet could use the following to transform the
bibref elements:
<xsl:key name="bib" match="entry" use="@name"/>
<xsl:template match="bibref">
<xsl:variable name="name" select="."/>
<xsl:for-each select="document('bib.xml')">
<xsl:apply-templates select="key('bib',$name)"/>
</xsl:for-each>
</xsl:template>
Number Formatting
12.3. Number Formatting
Function:
string
format-number(number, string, string?)
The format-number function converts its first
argument to a string using the format pattern string specified by the
second argument and the decimal-format named by the third argument, or
the default decimal-format, if there is no third argument. The format
pattern string is in the syntax specified by the JDK 1.1 DecimalFormat class. The format pattern string is in a
localized notation: the decimal-format determines what characters have
a special meaning in the pattern (with the exception of the quote
character, which is not localized). The format pattern must not
contain the currency sign (#x00A4); support for this feature was added
after the initial release of JDK 1.1. The decimal-format name must be
a QName, which is expanded as
described in
§ 2.4 – Qualified Names on page
. It is an error if the stylesheet
does not contain a declaration of the decimal-format with the specified
expanded-name.
☞
Implementations are not required to use the JDK 1.1
implementation, nor are implementations required to be implemented in
Java.
☞
Stylesheets can use other facilities in XPath to control
rounding.
<!-- Category: top-level-element -->
<xsl:decimal-format
name =
qname
decimal-separator =
char
grouping-separator =
char
infinity =
string
minus-sign =
char
NaN =
string
percent =
char
per-mille =
char
zero-digit =
char
digit =
char
pattern-separator =
char
/>
The xsl:decimal-format element declares a
decimal-format, which controls the interpretation of a format pattern
used by the format-number function. If there is
a name attribute, then the element declares a named
decimal-format; otherwise, it declares the default decimal-format.
The value of the name attribute is a QName, which is expanded as described
in
§ 2.4 – Qualified Names on page
. It is an error to declare either the
default decimal-format or a decimal-format with a given name more than
once (even with different import
precedence), unless it is declared every time with the same
value for all attributes (taking into account any default values).
The other attributes on xsl:decimal-format correspond
to the methods on the JDK 1.1 DecimalFormatSymbols class. For each
get/set method pair there is an attribute
defined for the xsl:decimal-format element.
The following attributes both control the interpretation of
characters in the format pattern and specify characters that may
appear in the result of formatting the number:
•
decimal-separator specifies the character used
for the decimal sign; the default value is the period character
(.)
•
grouping-separator specifies the character used
as a grouping (e.g. thousands) separator; the default value is the
comma character (,)
•
percent specifies the character used as a
percent sign; the default value is the percent character
(%)
•
per-mille specifies the character used as a per
mille sign; the default value is the Unicode per-mille character
(#x2030)
•
zero-digit specifies the character used as the
digit zero; the default value is the digit zero
(0)
The following attributes control the interpretation of characters
in the format pattern:
•
digit specifies the character used for a digit
in the format pattern; the default value is the number sign character
(#)
•
pattern-separator specifies the character used
to separate positive and negative sub patterns in a pattern; the
default value is the semi-colon character (;)
The following attributes specify characters or strings that may
appear in the result of formatting the number:
•
infinity specifies the string used to represent
infinity; the default value is the string
Infinity
•
NaN specifies the string used to represent the
NaN value; the default value is the string NaN
•
minus-sign specifies the character used as the
default minus sign; the default value is the hyphen-minus character
(-, #x2D)
Miscellaneous Additional Functions
12.4. Miscellaneous Additional Functions
Function:
node-set
current()
The current function returns a node-set that
has the current node as its
only member. For an outermost expression (an expression not occurring
within another expression), the current node is always the same as the
context node. Thus,
<xsl:value-of select="current()"/>
means the same as
<xsl:value-of select="."/>
However, within square brackets the current node is usually
different from the context node. For example,
<xsl:apply-templates select="//glossary/item[@name=current()/@ref]"/>
will process all item elements that have a
glossary parent element and that have a name
attribute with value equal to the value of the current node's
ref attribute. This is different from
<xsl:apply-templates select="//glossary/item[@name=./@ref]"/>
which means the same as
<xsl:apply-templates select="//glossary/item[@name=@ref]"/>
and so would process all item elements that have a
glossary parent element and that have a name
attribute and a ref attribute with the same value.
It is an error to use the current function in
a pattern.
Function:
string
unparsed-entity-uri(string)
The unparsed-entity-uri returns the URI of the
unparsed entity with the specified name in the same document as the
context node (see
§ 3.3 – Unparsed Entities on page
). It returns the
empty string if there is no such entity.
Function:
string
generate-id(node-set?)
The generate-id function returns a string that
uniquely identifies the node in the argument node-set that is first in
document order. The unique identifier must consist of ASCII
alphanumeric characters and must start with an alphabetic character.
Thus, the string is syntactically an XML name. An implementation is
free to generate an identifier in any convenient way provided that it
always generates the same identifier for the same node and that
different identifiers are always generated from different nodes. An
implementation is under no obligation to generate the same identifiers
each time a document is transformed. There is no guarantee that a
generated unique identifier will be distinct from any unique IDs
specified in the source document. If the argument node-set is empty,
the empty string is returned. If the argument is omitted, it defaults
to the context node.
Function:
object
system-property(string)
The argument must evaluate to a string that is a QName. The QName is expanded into a name using
the namespace declarations in scope for the expression. The
system-property function returns an object
representing the value of the system property identified by the name.
If there is no such system property, the empty string should be
returned.
Implementations must provide the following system properties, which
are all in the XSLT namespace:
-
xsl:version, a number giving the version of XSLT
implemented by the processor; for XSLT processors implementing the
version of XSLT specified by this document, this is the number
1.0
-
xsl:vendor, a string identifying the vendor of the
XSLT processor
-
xsl:vendor-url, a string containing a URL
identifying the vendor of the XSLT processor; typically this is the
host page (home page) of the vendor's Web site.
Messages
13. Messages
<!-- Category: instruction -->
<xsl:message
terminate =
"yes" |
"no"
>
<!-- Content: template -->
</xsl:message>
The xsl:message instruction sends a message in a way
that is dependent on the XSLT processor. The content of the
xsl:message instruction is a template. The
xsl:message is instantiated by instantiating the content
to create an XML fragment. This XML fragment is the content of the
message.
☞
An XSLT processor might implement xsl:message by
popping up an alert box or by writing to a log file.
If the terminate attribute has the value
yes, then the XSLT processor should terminate processing
after sending the message. The default value is no.
One convenient way to do localization is to put the localized
information (message text, etc.) in an XML document, which becomes an
additional input file to the stylesheet. For example, suppose
messages for a language
L
are stored in an XML
file resources/L.xml in the form:
<messages>
<message name="problem">A problem was detected.</message>
<message name="error">An error was detected.</message>
</messages>
Then a stylesheet could use the following approach to localize
messages:
<xsl:param name="lang" select="en"/>
<xsl:variable name="messages"
select="document(concat('resources/', $lang, '.xml'))/messages"/>
<xsl:template name="localized-message">
<xsl:param name="name"/>
<xsl:message>
<xsl:value-of select="$messages/message[@name=$name]"/>
</xsl:message>
</xsl:template>
<xsl:template name="problem">
<xsl:call-template name="localized-message"/>
<xsl:with-param name="name">problem</xsl:with-param>
</xsl:call-template>
</xsl:template>
Extensions
14. Extensions
XSLT allows two kinds of extension, extension elements and
extension functions.
This version of XSLT does not provide a mechanism for defining
implementations of extensions. Therefore, an XSLT stylesheet that must
be portable between XSLT implementations cannot rely on particular
extensions being available. XSLT provides mechanisms that allow an
XSLT stylesheet to determine whether the XSLT processor by which it is
being processed has implementations of particular extensions
available, and to specify what should happen if those extensions are
not available. If an XSLT stylesheet is careful to make use of these
mechanisms, it is possible for it to take advantage of extensions and
still work with any XSLT implementation.
Extension Elements
14.1. Extension Elements
The
element extension mechanism allows namespaces to be designated as
extension namespaces. When a namespace is designated as
an extension namespace and an element with a name from that namespace
occurs in a template, then the element is treated as an instruction
rather than as a literal result element. The namespace
determines the semantics of the instruction.
☞
Since an element that is a child of an
xsl:stylesheet element is not occurring in a
template, non-XSLT top-level elements are not extension
elements as defined here, and nothing in this section applies to
them.
A namespace is designated as an extension namespace by using an
extension-element-prefixes attribute on an
xsl:stylesheet element or an
xsl:extension-element-prefixes attribute on a literal
result element or extension element.
The value of both these attributes is a
whitespace-separated list of namespace prefixes. The namespace bound
to each of the prefixes is designated as an extension namespace. It
is an error if there is no namespace bound to the prefix on the
element bearing the extension-element-prefixes or
xsl:extension-element-prefixes attribute. The default
namespace (as declared by xmlns) may be designated as an
extension namespace by including #default in the list of
namespace prefixes. The designation of a namespace as an extension
namespace is effective within the subtree of the stylesheet rooted at
the element bearing the extension-element-prefixes or
xsl:extension-element-prefixes attribute;
a subtree rooted at an xsl:stylesheet element
does not include any stylesheets imported or included by children
of that xsl:stylesheet element.
If the XSLT processor does not have an implementation of a
particular extension element available, then the
element-available function must return false for
the name of the element. When such an extension element is
instantiated, then the XSLT processor must perform fallback for the
element as specified in
§ 15 – Fallback on page
. An XSLT processor
must not signal an error merely because a template contains an
extension element for which no implementation is available.
If the XSLT processor has an implementation of a particular
extension element available, then the
element-available function must return true for
the name of the element.
Extension Functions
14.2. Extension Functions
If a FunctionName in a
FunctionCall expression is
not an NCName (i.e. if it
contains a colon), then it is treated as a call to an extension
function. The FunctionName
is expanded to a name using the namespace declarations from the
evaluation context.
If the XSLT processor does not have an implementation of an
extension function of a particular name available, then the
function-available function must return false for
that name. If such an extension function occurs in an expression and
the extension function is actually called, the XSLT processor must
signal an error. An XSLT processor must not signal an error merely
because an expression contains an extension function for which no
implementation is available.
If the XSLT processor has an implementation of an extension
function of a particular name available, then the
function-available function must return
true for that name. If such an extension is called, then the XSLT
processor must call the implementation passing it the function call
arguments; the result returned by the implementation is returned as
the result of the function call.
Fallback
15. Fallback
<!-- Category: instruction -->
<xsl:fallback>
<!-- Content: template -->
</xsl:fallback>
Normally, instantiating an xsl:fallback element does
nothing. However, when an XSLT processor performs fallback for an
instruction element, if the instruction element has one or more
xsl:fallback children, then the content of each of the
xsl:fallback children must be instantiated in sequence;
otherwise, an error must be signaled. The content of an
xsl:fallback element is a template.
The following functions can be used with the
xsl:choose and xsl:if instructions to
explicitly control how a stylesheet should behave if particular
elements or functions are not available.
Function:
boolean
element-available(string)
The argument must evaluate to a string that is a QName. The QName is expanded into an expanded-name using the
namespace declarations in scope for the expression. The
element-available function returns true if and
only if the expanded-name is the name of an instruction. If the
expanded-name has a namespace URI equal to the XSLT namespace URI,
then it refers to an element defined by XSLT. Otherwise, it refers to
an extension element. If the expanded-name has a null namespace URI,
the element-available function will return
false.
Function:
boolean
function-available(string)
The argument must evaluate to a string that is a QName. The QName is expanded into an expanded-name using the
namespace declarations in scope for the expression. The
function-available function returns true if and
only if the expanded-name is the name of a function in the function
library. If the expanded-name has a non-null namespace URI, then it
refers to an extension function; otherwise, it refers to a function
defined by XPath or XSLT.
Output
16. Output
<!-- Category: top-level-element -->
<xsl:output
method =
"xml" |
"html" |
"text" |
qname-but-not-ncname
version =
nmtoken
encoding =
string
omit-xml-declaration =
"yes" |
"no"
standalone =
"yes" |
"no"
doctype-public =
string
doctype-system =
string
cdata-section-elements =
qnames
indent =
"yes" |
"no"
media-type =
string
/>
An XSLT processor may output the result tree as a sequence of
bytes, although it is not required to be able to do so (see
§ 17 – Conformance on page
). The xsl:output element allows
stylesheet authors to specify how they wish the result tree to be
output. If an XSLT processor outputs the result tree, it should do so
as specified by the xsl:output element; however, it is
not required to do so.
The xsl:output element is only allowed as a top-level element.
The method attribute on xsl:output
identifies the overall method that should be used for outputting the
result tree. The value must be a QName. If the QName does not have a prefix, then it
identifies a method specified in this document and must be one of
xml, html or text. If the QName has a prefix, then the QName is expanded into an expanded-name as described
in
§ 2.4 – Qualified Names on page
; the expanded-name identifies the output
method; the behavior in this case is not specified by this
document.
The default for the method attribute is chosen as
follows. If
•
the root node of the result tree has an element
child,
•
the expanded-name of the first element child of the root node
(i.e. the document element) of the result tree has local part
html (in any combination of upper and lower case) and a
null namespace URI, and
•
any text nodes preceding the first element child of the root
node of the result tree contain only whitespace characters,
then the default output method is html; otherwise, the
default output method is xml. The default output method
should be used if there are no xsl:output elements or if
none of the xsl:output elements specifies a value for the
method attribute.
The other attributes on xsl:output provide parameters
for the output method. The following attributes are allowed:
•
version specifies the version of the output
method
•
indent specifies whether the XSLT processor may
add additional whitespace when outputting the result tree; the value
must be yes or no
•
encoding specifies the preferred character
encoding that the XSLT processor should use to encode sequences of
characters as sequences of bytes; the value of the attribute should be
treated case-insensitively; the value must contain only characters in
the range #x21 to #x7E (i.e. printable ASCII characters); the value
should either be a charset registered with the Internet
Assigned Numbers Authority [IANA], [RFC2278] or start with X-
•
media-type specifies the media type (MIME
content type) of the data that results from outputting the result
tree; the charset parameter should not be specified
explicitly; instead, when the top-level media type is
text, a charset parameter should be added
according to the character encoding actually used by the output
method
•
doctype-system specifies the system identifier
to be used in the document type declaration
•
doctype-public specifies the public identifier
to be used in the document type declaration
•
omit-xml-declaration specifies whether the XSLT
processor should output an XML declaration; the value must be
yes or no
•
standalone specifies whether the XSLT processor
should output a standalone document declaration; the value must be
yes or no
•
cdata-section-elements specifies a list of the
names of elements whose text node children should be output using
CDATA sections
The detailed semantics of each attribute will be described
separately for each output method for which it is applicable. If the
semantics of an attribute are not described for an output method, then
it is not applicable to that output method.
A stylesheet may contain multiple xsl:output elements
and may include or import stylesheets that also contain
xsl:output elements. All the xsl:output
elements occurring in a stylesheet are merged into a single effective
xsl:output element. For the
cdata-section-elements attribute, the effective value is
the union of the specified values. For other attributes, the
effective value is the specified value with the highest import precedence. It is an error
if there is more than one such value for an attribute. An XSLT
processor may signal the error; if it does not signal the error, if
should recover by using the value that occurs last in the stylesheet.
The values of attributes are defaulted after the
xsl:output elements have been merged; different output
methods may have different default values for an attribute.
XML Output Method
16.1. XML Output Method
The xml output method outputs the result tree as a
well-formed XML external general parsed entity. If the root node of
the result tree has a single element node child and no text node
children, then the entity should also be a well-formed XML document
entity. When the entity is referenced within a trivial XML document
wrapper like this
<!DOCTYPE doc [
<!ENTITY e SYSTEM "entity-URI">
]>
<doc>&e;</doc>
where
entity-URI
is a URI for the entity,
then the wrapper
document as a whole should be a well-formed XML document conforming to
the XML Namespaces Recommendation [XML Names]. In
addition, the output should be such that if a new tree was constructed
by parsing the wrapper as an XML document as specified in
§ 3 – Data Model on page
, and then removing the document element, making its
children instead be children of the root node, then the new tree would
be the same as the result tree, with the following possible
exceptions:
•
The order of attributes in the two trees may be
different.
•
The new tree may contain namespace nodes that were not
present in the result tree.
☞
An XSLT processor may need to add
namespace declarations in the course of outputting the result tree as
XML.
If the XSLT processor generated a document type declaration because
of the doctype-system attribute, then the above
requirements apply to the entity with the generated document type
declaration removed.
The version attribute specifies the version of XML to
be used for outputting the result tree. If the XSLT processor does
not support this version of XML, it should use a version of XML that
it does support. The version output in the XML declaration (if an XML
declaration is output) should correspond to the version of XML that
the processor used for outputting the result tree. The value of the
version attribute should match the VersionNum production of the XML
Recommendation [XML]. The default value is
1.0.
The encoding attribute specifies the preferred
encoding to use for outputting the result tree. XSLT processors are
required to respect values of UTF-8 and
UTF-16. For other values, if the XSLT processor does not
support the specified encoding it may signal an error; if it does not
signal an error it should use UTF-8 or
UTF-16 instead. The XSLT processor must not use an
encoding whose name does not match the EncName production of the XML
Recommendation [XML]. If no encoding
attribute is specified, then the XSLT processor should use either
UTF-8 or UTF-16. It is possible that the
result tree will contain a character that cannot be represented in the
encoding that the XSLT processor is using for output. In this case,
if the character occurs in a context where XML recognizes character
references (i.e. in the value of an attribute node or text node), then
the character should be output as a character reference; otherwise
(for example if the character occurs in the name of an element) the
XSLT processor should signal an error.
If the indent attribute has the value
yes, then the xml output method may output
whitespace in addition to the whitespace in the result tree (possibly
based on whitespace stripped from either the source document or the
stylesheet) in order to indent the result nicely; if the
indent attribute has the value no, it should
not output any additional whitespace. The default value is
no. The xml output method should use an
algorithm to output additional whitespace that ensures that the result
if whitespace were to be stripped from the output using the process
described in
§ 3.4 – Whitespace Stripping on page
with the set of
whitespace-preserving elements consisting of just
xsl:text would be the same when additional whitespace is
output as when additional whitespace is not output.
☞
It is usually not safe to use indent="yes" with
document types that include element types with mixed content.
The cdata-section-elements attribute contains a
whitespace-separated list of QNames. Each QName is expanded into an
expanded-name using the namespace declarations in effect on the
xsl:output element in which the QName occurs; if there is a default
namespace, it is used for QNames
that do not have a prefix. The expansion is performed before the
merging of multiple xsl:output elements into a single
effective xsl:output element. If the expanded-name of the
parent of a text node is a member of the list, then the text node
should be output as a CDATA section. For example,
<xsl:output cdata-section-elements="example"/>
would cause a literal result element written in the stylesheet as
<example><foo></example>
or as
<example><![CDATA[<foo>]]></example>
to be output as
<example><![CDATA[<foo>]]></example>
If the text node contains the sequence of characters
]]>, then the currently open CDATA section should be
closed following the ]] and a new CDATA section opened
before the >. For example, a literal result element
written in the stylesheet as
<example>]]></example>
would be output as
<example><![CDATA[]]]]><![CDATA[>]]></example>
If the text node contains a character that is not representable in
the character encoding being used to output the result tree, then the
currently open CDATA section should be closed before the character,
the character should be output using a character reference or entity
reference, and a new CDATA section should be opened for any further
characters in the text node.
CDATA sections should not be used except for text nodes that the
cdata-section-elements attribute explicitly specifies
should be output using CDATA sections.
The xml output method should output an XML declaration
unless the omit-xml-declaration attribute has the value
yes. The XML declaration should include both version
information and an encoding declaration. If the
standalone attribute is specified, it should include a
standalone document declaration with the same value as the value as
the value of the standalone attribute. Otherwise, it
should not include a standalone document declaration; this ensures
that it is both a XML declaration (allowed at the beginning of a
document entity) and a text declaration (allowed at the beginning of
an external general parsed entity).
If the doctype-system attribute is specified, the
xml output method should output a document type
declaration immediately before the first element. The name following
<!DOCTYPE should be the name of the first element. If
doctype-public attribute is also specified, then the
xml output method should output PUBLIC
followed by the public identifier and then the system identifier;
otherwise, it should output SYSTEM followed by the system
identifier. The internal subset should be empty. The
doctype-public attribute should be ignored unless the
doctype-system attribute is specified.
The media-type attribute is applicable for the
xml output method. The default value for the
media-type attribute is text/xml.
HTML Output Method
16.2. HTML Output Method
The html output method outputs the result tree as
HTML; for example,
<xsl:stylesheet version="1.0"
xmlns:xsl="http://www.w3.org/1999/XSL/Transform">
<xsl:output method="html"/>
<xsl:template match="/">
<html>
<xsl:apply-templates/>
</html>
</xsl:template>
...
</xsl:stylesheet>
The version attribute indicates the version of the
HTML. The default value is 4.0, which specifies that the
result should be output as HTML conforming to the HTML 4.0
Recommendation [HTML].
The html output method should not output an element
differently from the xml output method unless the
expanded-name of the element has a null namespace URI; an element
whose expanded-name has a non-null namespace URI should be output as
XML. If the expanded-name of the element has a null namespace URI,
but the local part of the expanded-name is not recognized as the name
of an HTML element, the element should output in the same way as a
non-empty, inline element such as span.
The html output method should not output an end-tag
for empty elements. For HTML 4.0, the empty elements are
area, base, basefont,
br, col, frame,
hr, img, input,
isindex, link, meta and
param. For example, an element written as
<br/> or <br></br> in the
stylesheet should be output as <br>.
The html output method should recognize the names of
HTML elements regardless of case. For example, elements named
br, BR or Br should all be
recognized as the HTML br element and output without an
end-tag.
The html output method should not perform escaping for
the content of the script and style
elements. For example, a literal result element written in the
stylesheet as
<script>if (a < b) foo()</script>
or
<script><![CDATA[if (a < b) foo()]]></script>
should be output as
<script>if (a < b) foo()</script>
The html output method should not escape
< characters occurring in attribute values.
If the indent attribute has the value
yes, then the html output method may add or
remove whitespace as it outputs the result tree, so long as it does
not change how an HTML user agent would render the output. The
default value is yes.
The html output method should escape non-ASCII
characters in URI attribute values using the method recommended in
Section
B.2.1 of the HTML 4.0 Recommendation.
The html output method may output a character using a
character entity reference, if one is defined for it in the version of
HTML that the output method is using.
The html output method should terminate processing
instructions with > rather than
?>.
The html output method should output boolean
attributes (that is attributes with only a single allowed value that
is equal to the name of the attribute) in minimized form. For example,
a start-tag written in the stylesheet as
<OPTION selected="selected">
should be output as
<OPTION selected>
The html output method should not escape a
& character occurring in an attribute value
immediately followed by a { character (see Section
B.7.1 of the HTML 4.0 Recommendation). For example, a start-tag
written in the stylesheet as
<BODY bgcolor='&{{randomrbg}};'>
should be output as
<BODY bgcolor='&{randomrbg};'>
The encoding attribute specifies the preferred
encoding to be used. If there is a HEAD element, then the
html output method should add a META element
immediately after the start-tag of the HEAD element
specifying the character encoding actually used. For example,
<HEAD>
<META http-equiv="Content-Type" content="text/html; charset=EUC-JP">
...
It is possible that the result tree will contain a character that
cannot be represented in the encoding that the XSLT processor is using
for output. In this case, if the character occurs in a context where
HTML recognizes character references, then the character should be
output as a character entity reference or decimal numeric character
reference; otherwise (for example, in a
script or style element or in a comment),
the XSLT processor should signal an error.
If the doctype-public or doctype-system
attributes are specified, then the html output method
should output a document type declaration immediately before the first
element. The name following <!DOCTYPE should be
HTML or html. If the
doctype-public attribute is specified, then the output
method should output PUBLIC followed by the specified
public identifier; if the doctype-system attribute is
also specified, it should also output the specified system identifier
following the public identifier. If the doctype-system
attribute is specified but the doctype-public attribute
is not specified, then the output method should output
SYSTEM followed by the specified system identifier.
The media-type attribute is applicable for the
html output method. The default value is
text/html.
Text Output Method
16.3. Text Output Method
The text output method outputs the result tree by
outputting the string-value of every text node in the result tree in
document order without any escaping.
The media-type attribute is applicable for the
text output method. The default value for the
media-type attribute is text/plain.
The encoding attribute identifies the encoding that
the text output method should use to convert sequences of
characters to sequences of bytes. The default is system-dependent. If
the result tree contains a character that cannot be represented in the
encoding that the XSLT processor is using for output, the XSLT
processor should signal an error.
Disabling Output Escaping
16.4. Disabling Output Escaping
Normally, the xml output method escapes & and <
(and possibly other characters) when outputting text nodes. This
ensures that the output is well-formed XML. However, it is sometimes
convenient to be able to produce output that is almost, but not quite
well-formed XML; for example, the output may include ill-formed
sections which are intended to be transformed into well-formed XML by
a subsequent non-XML aware process. For this reason, XSLT provides a
mechanism for disabling output escaping. An xsl:value-of
or xsl:text element may have a
disable-output-escaping attribute; the allowed values are
yes or no; the default is no;
if the value is yes, then a text node generated by
instantiating the xsl:value-of or xsl:text
element should be output without any escaping. For example,
<xsl:text disable-output-escaping="yes"><</xsl:text>
should generate the single character <.
It is an error for output escaping to be disabled for a text node
that is used for something other than a text node in the result tree.
Thus, it is an error to disable output escaping for an
xsl:value-of or xsl:text element that is
used to generate the string-value of a comment, processing instruction
or attribute node; it is also an error to convert a result tree fragment to a
number or a string if the result tree fragment contains a text node for
which escaping was disabled. In both cases, an XSLT processor may
signal the error; if it does not signal the error, it must recover by
ignoring the disable-output-escaping attribute.
The disable-output-escaping attribute may be used with
the html output method as well as with the
xml output method. The text output method
ignores the disable-output-escaping attribute, since it
does not perform any output escaping.
An XSLT processor will only be able to disable output escaping if
it controls how the result tree is output. This may not always be the
case. For example, the result tree may be used as the source tree for
another XSLT transformation instead of being output. An XSLT
processor is not required to support disabling output escaping. If an
xsl:value-of or xsl:text specifies that
output escaping should be disabled and the XSLT processor does not
support this, the XSLT processor may signal an error; if it does not
signal an error, it must recover by not disabling output escaping.
If output escaping is disabled for a character that is not
representable in the encoding that the XSLT processor is using for
output, then the XSLT processor may signal an error; if it does not
signal an error, it must recover by not disabling output escaping.
Since disabling output escaping may not work with all XSLT
processors and can result in XML that is not well-formed, it should be
used only when there is no alternative.
Conformance
17. Conformance
A conforming XSLT processor must be able to use a stylesheet to
transform a source tree into a result tree as specified in this
document. A conforming XSLT processor need not be able to output the
result in XML or in any other form.
☞
Vendors of XSLT processors are strongly encouraged to provide
a way to verify that their processor is behaving conformingly by
allowing the result tree to be output as XML or by providing access to
the result tree through a standard API such as the DOM or
SAX.
A conforming XSLT processor must signal any errors except for those
that this document specifically allows an XSLT processor not to
signal. A conforming XSLT processor may but need not recover from any
errors that it signals.
A conforming XSLT processor may impose limits on the processing
resources consumed by the processing of a stylesheet.
Notation
18. Notation
The specification of each XSLT-defined element type is preceded by
a summary of its syntax in the form of a model for elements of that
element type. The meaning of syntax summary notation is as
follows:
•
An attribute is required if and only if its name is in
bold.
•
The string that occurs in the place of an attribute value
specifies the allowed values of the attribute. If this is surrounded
by curly braces, then the attribute value is treated as an attribute value template,
and the string occurring within curly braces specifies the allowed
values of the result of instantiating the attribute value template.
Alternative allowed values are separated by |. A quoted
string indicates a value equal to that specific string. An unquoted,
italicized name specifies a particular type of value.
•
If the element is allowed not to be empty, then the element
contains a comment specifying the allowed content. The allowed
content is specified in a similar way to an element type declaration
in XML; template means that any mixture of text nodes,
literal result elements, extension elements, and XSLT elements from
the instruction category is allowed;
top-level-elements means that any mixture of XSLT
elements from the top-level-element category is
allowed.
•
The element is prefaced by comments indicating if it belongs
to the instruction category or
top-level-element category or both. The category of an
element just affects whether it is allowed in the content of elements
that allow a template or
top-level-elements.
References
Appendix A. References
Normative References
A.1. Normative References
XML
World Wide Web Consortium. Extensible
Markup Language (XML) 1.0. W3C Recommendation. See http://www.w3.org/TR/1998/REC-xml-19980210
XML Names
World Wide Web
Consortium. Namespaces in XML. W3C Recommendation. See
http://www.w3.org/TR/REC-xml-names
XPath
World Wide Web Consortium. XML Path
Language. W3C Recommendation. See http://www.w3.org/TR/xpath
Other References
A.2. Other References
CSS2
World Wide Web Consortium. Cascading
Style Sheets, level 2 (CSS2). W3C Recommendation. See http://www.w3.org/TR/1998/REC-CSS2-19980512
DSSSL
International Organization
for Standardization, International Electrotechnical Commission.
ISO/IEC 10179:1996. Document Style Semantics and Specification
Language (DSSSL). International Standard.
HTML
World Wide Web Consortium. HTML 4.0
specification. W3C Recommendation. See http://www.w3.org/TR/REC-html40
IANA
Internet Assigned Numbers
Authority. Character Sets. See ftp://ftp.isi.edu/in-notes/iana/assignments/character-sets.
RFC2278
N. Freed, J. Postel. IANA
Charset Registration Procedures. IETF RFC 2278. See http://www.ietf.org/rfc/rfc2278.txt.
RFC2376
E. Whitehead, M. Murata. XML
Media Types. IETF RFC 2376. See http://www.ietf.org/rfc/rfc2376.txt.
RFC2396
T. Berners-Lee, R. Fielding, and
L. Masinter. Uniform Resource Identifiers (URI): Generic
Syntax. IETF RFC 2396. See http://www.ietf.org/rfc/rfc2396.txt.
UNICODE TR10
Unicode Consortium.
Unicode Technical Report #10. Unicode Collation
Algorithm. Unicode Technical Report. See http://www.unicode.org/unicode/reports/tr10/index.html.
XHTML
World Wide Web Consortium. XHTML
1.0: The Extensible HyperText Markup Language. W3C Proposed
Recommendation. See http://www.w3.org/TR/xhtml1
XPointer
World Wide Web
Consortium. XML Pointer Language (XPointer). W3C Working
Draft. See http://www.w3.org/TR/xptr
XML Stylesheet
World Wide Web
Consortium. Associating stylesheets with XML documents.
W3C Recommendation. See http://www.w3.org/TR/xml-stylesheet
XSL
World Wide Web Consortium. Extensible
Stylesheet Language (XSL). W3C Working Draft. See http://www.w3.org/TR/WD-xsl
Element Syntax Summary
Appendix B. Element Syntax Summary
<!-- Category: instruction -->
<xsl:apply-imports/>
<!-- Category: instruction -->
<xsl:apply-templates
select =
node-set-expression
mode =
qname
>
<!-- Content: (xsl:sort | xsl:with-param)* -->
</xsl:apply-templates>
<!-- Category: instruction -->
<xsl:attribute
name =
{
qname
}
namespace =
{
uri-reference
}
>
<!-- Content: template -->
</xsl:attribute>
<!-- Category: top-level-element -->
<xsl:attribute-set
name =
qname
use-attribute-sets =
qnames
>
<!-- Content: xsl:attribute* -->
</xsl:attribute-set>
<!-- Category: instruction -->
<xsl:call-template
name =
qname
>
<!-- Content: xsl:with-param* -->
</xsl:call-template>
<!-- Category: instruction -->
<xsl:choose>
<!-- Content: (xsl:when+, xsl:otherwise?) -->
</xsl:choose>
<!-- Category: instruction -->
<xsl:comment>
<!-- Content: template -->
</xsl:comment>
<!-- Category: instruction -->
<xsl:copy
use-attribute-sets =
qnames
>
<!-- Content: template -->
</xsl:copy>
<!-- Category: instruction -->
<xsl:copy-of
select =
expression
/>
<!-- Category: top-level-element -->
<xsl:decimal-format
name =
qname
decimal-separator =
char
grouping-separator =
char
infinity =
string
minus-sign =
char
NaN =
string
percent =
char
per-mille =
char
zero-digit =
char
digit =
char
pattern-separator =
char
/>
<!-- Category: instruction -->
<xsl:element
name =
{
qname
}
namespace =
{
uri-reference
}
use-attribute-sets =
qnames
>
<!-- Content: template -->
</xsl:element>
<!-- Category: instruction -->
<xsl:fallback>
<!-- Content: template -->
</xsl:fallback>
<!-- Category: instruction -->
<xsl:for-each
select =
node-set-expression
>
<!-- Content: (xsl:sort*, template) -->
</xsl:for-each>
<!-- Category: instruction -->
<xsl:if
test =
boolean-expression
>
<!-- Content: template -->
</xsl:if>
<xsl:import
href =
uri-reference
/>
<!-- Category: top-level-element -->
<xsl:include
href =
uri-reference
/>
<!-- Category: top-level-element -->
<xsl:key
name =
qname
match =
pattern
use =
expression
/>
<!-- Category: instruction -->
<xsl:message
terminate =
"yes" |
"no"
>
<!-- Content: template -->
</xsl:message>
<!-- Category: top-level-element -->
<xsl:namespace-alias
stylesheet-prefix =
prefix |
"#default"
result-prefix =
prefix |
"#default"
/>
<!-- Category: instruction -->
<xsl:number
level =
"single" |
"multiple" |
"any"
count =
pattern
from =
pattern
value =
number-expression
format =
{
string
}
lang =
{
nmtoken
}
letter-value =
{
"alphabetic" |
"traditional"
}
grouping-separator =
{
char
}
grouping-size =
{
number
}
/>
<xsl:otherwise>
<!-- Content: template -->
</xsl:otherwise>
<!-- Category: top-level-element -->
<xsl:output
method =
"xml" |
"html" |
"text" |
qname-but-not-ncname
version =
nmtoken
encoding =
string
omit-xml-declaration =
"yes" |
"no"
standalone =
"yes" |
"no"
doctype-public =
string
doctype-system =
string
cdata-section-elements =
qnames
indent =
"yes" |
"no"
media-type =
string
/>
<!-- Category: top-level-element -->
<xsl:param
name =
qname
select =
expression
>
<!-- Content: template -->
</xsl:param>
<!-- Category: top-level-element -->
<xsl:preserve-space
elements =
tokens
/>
<!-- Category: instruction -->
<xsl:processing-instruction
name =
{
ncname
}
>
<!-- Content: template -->
</xsl:processing-instruction>
<xsl:sort
select =
string-expression
lang =
{
nmtoken
}
data-type =
{
"text" |
"number" |
qname-but-not-ncname
}
order =
{
"ascending" |
"descending"
}
case-order =
{
"upper-first" |
"lower-first"
}
/>
<!-- Category: top-level-element -->
<xsl:strip-space
elements =
tokens
/>
<xsl:stylesheet
id =
id
extension-element-prefixes =
tokens
exclude-result-prefixes =
tokens
version =
number
>
<!-- Content: (xsl:import*, top-level-elements) -->
</xsl:stylesheet>
<!-- Category: top-level-element -->
<xsl:template
match =
pattern
name =
qname
priority =
number
mode =
qname
>
<!-- Content: (xsl:param*, template) -->
</xsl:template>
<!-- Category: instruction -->
<xsl:text
disable-output-escaping =
"yes" |
"no"
>
<!-- Content: #PCDATA -->
</xsl:text>
<xsl:transform
id =
id
extension-element-prefixes =
tokens
exclude-result-prefixes =
tokens
version =
number
>
<!-- Content: (xsl:import*, top-level-elements) -->
</xsl:transform>
<!-- Category: instruction -->
<xsl:value-of
select =
string-expression
disable-output-escaping =
"yes" |
"no"
/>
<!-- Category: top-level-element -->
<!-- Category: instruction -->
<xsl:variable
name =
qname
select =
expression
>
<!-- Content: template -->
</xsl:variable>
<xsl:when
test =
boolean-expression
>
<!-- Content: template -->
</xsl:when>
<xsl:with-param
name =
qname
select =
expression
>
<!-- Content: template -->
</xsl:with-param>
DTD Fragment for XSLT Stylesheets
Appendix C. DTD Fragment for XSLT Stylesheets (Non-Normative)
☞
This DTD Fragment is not normative because XML 1.0 DTDs do
not support XML Namespaces and thus cannot correctly describe the
allowed structure of an XSLT stylesheet.
The following entity can be used to construct a DTD for XSLT
stylesheets that create instances of a particular result DTD. Before
referencing the entity, the stylesheet DTD must define a
result-elements parameter entity listing the allowed
result element types. For example:
<!ENTITY % result-elements "
| fo:inline-sequence
| fo:block
">
Such result elements should be declared to have
xsl:use-attribute-sets and
xsl:extension-element-prefixes attributes. The following
entity declares the result-element-atts parameter for
this purpose. The content that XSLT allows for result elements is the
same as it allows for the XSLT elements that are declared in the
following entity with a content model of %template;. The
DTD may use a more restrictive content model than
%template; to reflect the constraints of the result
DTD.
The DTD may define the non-xsl-top-level parameter
entity to allow additional top-level elements from namespaces other
than the XSLT namespace.
The use of the xsl: prefix in this DTD does not imply
that XSLT stylesheets are required to use this prefix. Any of the
elements declared in this DTD may have attributes whose name starts
with xmlns: or is equal to xmlns in addition
to the attributes declared in this DTD.
<!ENTITY % char-instructions "
| xsl:apply-templates
| xsl:call-template
| xsl:apply-imports
| xsl:for-each
| xsl:value-of
| xsl:copy-of
| xsl:number
| xsl:choose
| xsl:if
| xsl:text
| xsl:copy
| xsl:variable
| xsl:message
| xsl:fallback
">
<!ENTITY % instructions "
%char-instructions;
| xsl:processing-instruction
| xsl:comment
| xsl:element
| xsl:attribute
">
<!ENTITY % char-template "
(#PCDATA
%char-instructions;)*
">
<!ENTITY % template "
(#PCDATA
%instructions;
%result-elements;)*
">
<!-- Used for the type of an attribute value that is a URI reference.-->
<!ENTITY % URI "CDATA">
<!-- Used for the type of an attribute value that is a pattern.-->
<!ENTITY % pattern "CDATA">
<!-- Used for the type of an attribute value that is an
attribute value template.-->
<!ENTITY % avt "CDATA">
<!-- Used for the type of an attribute value that is a QName; the prefix
gets expanded by the XSLT processor. -->
<!ENTITY % qname "NMTOKEN">
<!-- Like qname but a whitespace-separated list of QNames. -->
<!ENTITY % qnames "NMTOKENS">
<!-- Used for the type of an attribute value that is an expression.-->
<!ENTITY % expr "CDATA">
<!-- Used for the type of an attribute value that consists
of a single character.-->
<!ENTITY % char "CDATA">
<!-- Used for the type of an attribute value that is a priority. -->
<!ENTITY % priority "NMTOKEN">
<!ENTITY % space-att "xml:space (default|preserve) #IMPLIED">
<!-- This may be overridden to customize the set of elements allowed
at the top-level. -->
<!ENTITY % non-xsl-top-level "">
<!ENTITY % top-level "
(xsl:import*,
(xsl:include
| xsl:strip-space
| xsl:preserve-space
| xsl:output
| xsl:key
| xsl:decimal-format
| xsl:attribute-set
| xsl:variable
| xsl:param
| xsl:template
| xsl:namespace-alias
%non-xsl-top-level;)*)
">
<!ENTITY % top-level-atts '
extension-element-prefixes CDATA #IMPLIED
exclude-result-prefixes CDATA #IMPLIED
id ID #IMPLIED
version NMTOKEN #REQUIRED
xmlns:xsl CDATA #FIXED "http://www.w3.org/1999/XSL/Transform"
%space-att;
'>
<!-- This entity is defined for use in the ATTLIST declaration
for result elements. -->
<!ENTITY % result-element-atts '
xsl:extension-element-prefixes CDATA #IMPLIED
xsl:exclude-result-prefixes CDATA #IMPLIED
xsl:use-attribute-sets %qnames; #IMPLIED
xsl:version NMTOKEN #IMPLIED
'>
<!ELEMENT xsl:stylesheet %top-level;>
<!ATTLIST xsl:stylesheet %top-level-atts;>
<!ELEMENT xsl:transform %top-level;>
<!ATTLIST xsl:transform %top-level-atts;>
<!ELEMENT xsl:import EMPTY>
<!ATTLIST xsl:import href %URI; #REQUIRED>
<!ELEMENT xsl:include EMPTY>
<!ATTLIST xsl:include href %URI; #REQUIRED>
<!ELEMENT xsl:strip-space EMPTY>
<!ATTLIST xsl:strip-space elements CDATA #REQUIRED>
<!ELEMENT xsl:preserve-space EMPTY>
<!ATTLIST xsl:preserve-space elements CDATA #REQUIRED>
<!ELEMENT xsl:output EMPTY>
<!ATTLIST xsl:output
method %qname; #IMPLIED
version NMTOKEN #IMPLIED
encoding CDATA #IMPLIED
omit-xml-declaration (yes|no) #IMPLIED
standalone (yes|no) #IMPLIED
doctype-public CDATA #IMPLIED
doctype-system CDATA #IMPLIED
cdata-section-elements %qnames; #IMPLIED
indent (yes|no) #IMPLIED
media-type CDATA #IMPLIED
>
<!ELEMENT xsl:key EMPTY>
<!ATTLIST xsl:key
name %qname; #REQUIRED
match %pattern; #REQUIRED
use %expr; #REQUIRED
>
<!ELEMENT xsl:decimal-format EMPTY>
<!ATTLIST xsl:decimal-format
name %qname; #IMPLIED
decimal-separator %char; "."
grouping-separator %char; ","
infinity CDATA "Infinity"
minus-sign %char; "-"
NaN CDATA "NaN"
percent %char; "%"
per-mille %char; "‰"
zero-digit %char; "0"
digit %char; "#"
pattern-separator %char; ";"
>
<!ELEMENT xsl:namespace-alias EMPTY>
<!ATTLIST xsl:namespace-alias
stylesheet-prefix CDATA #REQUIRED
result-prefix CDATA #REQUIRED
>
<!ELEMENT xsl:template
(#PCDATA
%instructions;
%result-elements;
| xsl:param)*
>
<!ATTLIST xsl:template
match %pattern; #IMPLIED
name %qname; #IMPLIED
priority %priority; #IMPLIED
mode %qname; #IMPLIED
%space-att;
>
<!ELEMENT xsl:value-of EMPTY>
<!ATTLIST xsl:value-of
select %expr; #REQUIRED
disable-output-escaping (yes|no) "no"
>
<!ELEMENT xsl:copy-of EMPTY>
<!ATTLIST xsl:copy-of select %expr; #REQUIRED>
<!ELEMENT xsl:number EMPTY>
<!ATTLIST xsl:number
level (single|multiple|any) "single"
count %pattern; #IMPLIED
from %pattern; #IMPLIED
value %expr; #IMPLIED
format %avt; '1'
lang %avt; #IMPLIED
letter-value %avt; #IMPLIED
grouping-separator %avt; #IMPLIED
grouping-size %avt; #IMPLIED
>
<!ELEMENT xsl:apply-templates (xsl:sort|xsl:with-param)*>
<!ATTLIST xsl:apply-templates
select %expr; "node()"
mode %qname; #IMPLIED
>
<!ELEMENT xsl:apply-imports EMPTY>
<!-- xsl:sort cannot occur after any other elements or
any non-whitespace character -->
<!ELEMENT xsl:for-each
(#PCDATA
%instructions;
%result-elements;
| xsl:sort)*
>
<!ATTLIST xsl:for-each
select %expr; #REQUIRED
%space-att;
>
<!ELEMENT xsl:sort EMPTY>
<!ATTLIST xsl:sort
select %expr; "."
lang %avt; #IMPLIED
data-type %avt; "text"
order %avt; "ascending"
case-order %avt; #IMPLIED
>
<!ELEMENT xsl:if %template;>
<!ATTLIST xsl:if
test %expr; #REQUIRED
%space-att;
>
<!ELEMENT xsl:choose (xsl:when+, xsl:otherwise?)>
<!ATTLIST xsl:choose %space-att;>
<!ELEMENT xsl:when %template;>
<!ATTLIST xsl:when
test %expr; #REQUIRED
%space-att;
>
<!ELEMENT xsl:otherwise %template;>
<!ATTLIST xsl:otherwise %space-att;>
<!ELEMENT xsl:attribute-set (xsl:attribute)*>
<!ATTLIST xsl:attribute-set
name %qname; #REQUIRED
use-attribute-sets %qnames; #IMPLIED
>
<!ELEMENT xsl:call-template (xsl:with-param)*>
<!ATTLIST xsl:call-template
name %qname; #REQUIRED
>
<!ELEMENT xsl:with-param %template;>
<!ATTLIST xsl:with-param
name %qname; #REQUIRED
select %expr; #IMPLIED
>
<!ELEMENT xsl:variable %template;>
<!ATTLIST xsl:variable
name %qname; #REQUIRED
select %expr; #IMPLIED
>
<!ELEMENT xsl:param %template;>
<!ATTLIST xsl:param
name %qname; #REQUIRED
select %expr; #IMPLIED
>
<!ELEMENT xsl:text (#PCDATA)>
<!ATTLIST xsl:text
disable-output-escaping (yes|no) "no"
>
<!ELEMENT xsl:processing-instruction %char-template;>
<!ATTLIST xsl:processing-instruction
name %avt; #REQUIRED
%space-att;
>
<!ELEMENT xsl:element %template;>
<!ATTLIST xsl:element
name %avt; #REQUIRED
namespace %avt; #IMPLIED
use-attribute-sets %qnames; #IMPLIED
%space-att;
>
<!ELEMENT xsl:attribute %char-template;>
<!ATTLIST xsl:attribute
name %avt; #REQUIRED
namespace %avt; #IMPLIED
%space-att;
>
<!ELEMENT xsl:comment %char-template;>
<!ATTLIST xsl:comment %space-att;>
<!ELEMENT xsl:copy %template;>
<!ATTLIST xsl:copy
%space-att;
use-attribute-sets %qnames; #IMPLIED
>
<!ELEMENT xsl:message %template;>
<!ATTLIST xsl:message
%space-att;
terminate (yes|no) "no"
>
<!ELEMENT xsl:fallback %template;>
<!ATTLIST xsl:fallback %space-att;>
Examples
Appendix D. Examples (Non-Normative)
Document Example
D.1. Document Example
This example is a stylesheet for transforming documents that
conform to a simple DTD into XHTML [XHTML]. The DTD
is:
<!ELEMENT doc (title, chapter*)>
<!ELEMENT chapter (title, (para|note)*, section*)>
<!ELEMENT section (title, (para|note)*)>
<!ELEMENT title (#PCDATA|emph)*>
<!ELEMENT para (#PCDATA|emph)*>
<!ELEMENT note (#PCDATA|emph)*>
<!ELEMENT emph (#PCDATA|emph)*>
The stylesheet is:
<xsl:stylesheet version="1.0"
xmlns:xsl="http://www.w3.org/1999/XSL/Transform"
xmlns="http://www.w3.org/TR/xhtml1/strict">
<xsl:strip-space elements="doc chapter section"/>
<xsl:output
method="xml"
indent="yes"
encoding="iso-8859-1"
/>
<xsl:template match="doc">
<html>
<head>
<title>
<xsl:value-of select="title"/>
</title>
</head>
<body>
<xsl:apply-templates/>
</body>
</html>
</xsl:template>
<xsl:template match="doc/title">
<h1>
<xsl:apply-templates/>
</h1>
</xsl:template>
<xsl:template match="chapter/title">
<h2>
<xsl:apply-templates/>
</h2>
</xsl:template>
<xsl:template match="section/title">
<h3>
<xsl:apply-templates/>
</h3>
</xsl:template>
<xsl:template match="para">
<p>
<xsl:apply-templates/>
</p>
</xsl:template>
<xsl:template match="note">
<p class="note">
<b>NOTE: </b>
<xsl:apply-templates/>
</p>
</xsl:template>
<xsl:template match="emph">
<em>
<xsl:apply-templates/>
</em>
</xsl:template>
</xsl:stylesheet>
With the following input document
<!DOCTYPE doc SYSTEM "doc.dtd">
<doc>
<title>Document Title</title>
<chapter>
<title>Chapter Title</title>
<section>
<title>Section Title</title>
<para>This is a test.</para>
<note>This is a note.</note>
</section>
<section>
<title>Another Section Title</title>
<para>This is <emph>another</emph> test.</para>
<note>This is another note.</note>
</section>
</chapter>
</doc>
it would produce the following result
<?xml version="1.0" encoding="iso-8859-1"?>
<html xmlns="http://www.w3.org/TR/xhtml1/strict">
<head>
<title>Document Title</title>
</head>
<body>
<h1>Document Title</h1>
<h2>Chapter Title</h2>
<h3>Section Title</h3>
<p>This is a test.</p>
<p class="note">
<b>NOTE: </b>This is a note.</p>
<h3>Another Section Title</h3>
<p>This is <em>another</em> test.</p>
<p class="note">
<b>NOTE: </b>This is another note.</p>
</body>
</html>
Data Example
D.2. Data Example
This is an example of transforming some data represented in XML
using three different XSLT stylesheets to produce three different
representations of the data, HTML, SVG and VRML.
The input data is:
<sales>
<division id="North">
<revenue>10</revenue>
<growth>9</growth>
<bonus>7</bonus>
</division>
<division id="South">
<revenue>4</revenue>
<growth>3</growth>
<bonus>4</bonus>
</division>
<division id="West">
<revenue>6</revenue>
<growth>-1.5</growth>
<bonus>2</bonus>
</division>
</sales>
The following stylesheet, which uses the simplified syntax
described in
§ 2.3 – Literal Result Element as Stylesheet on page
, transforms
the data into HTML:
<html xsl:version="1.0"
xmlns:xsl="http://www.w3.org/1999/XSL/Transform"
lang="en">
<head>
<title>Sales Results By Division</title>
</head>
<body>
<table border="1">
<tr>
<th>Division</th>
<th>Revenue</th>
<th>Growth</th>
<th>Bonus</th>
</tr>
<xsl:for-each select="sales/division">
<!-- order the result by revenue -->
<xsl:sort select="revenue"
data-type="number"
order="descending"/>
<tr>
<td>
<em><xsl:value-of select="@id"/></em>
</td>
<td>
<xsl:value-of select="revenue"/>
</td>
<td>
<!-- highlight negative growth in red -->
<xsl:if test="growth < 0">
<xsl:attribute name="style">
<xsl:text>color:red</xsl:text>
</xsl:attribute>
</xsl:if>
<xsl:value-of select="growth"/>
</td>
<td>
<xsl:value-of select="bonus"/>
</td>
</tr>
</xsl:for-each>
</table>
</body>
</html>
The HTML output is:
<html lang="en">
<head>
<meta http-equiv="Content-Type" content="text/html; charset=iso-8859-1">
<title>Sales Results By Division</title>
</head>
<body>
<table border="1">
<tr>
<th>Division</th><th>Revenue</th><th>Growth</th><th>Bonus</th>
</tr>
<tr>
<td><em>North</em></td><td>10</td><td>9</td><td>7</td>
</tr>
<tr>
<td><em>West</em></td><td>6</td><td style="color:red">-1.5</td><td>2</td>
</tr>
<tr>
<td><em>South</em></td><td>4</td><td>3</td><td>4</td>
</tr>
</table>
</body>
</html>
The following stylesheet transforms the data into SVG:
<xsl:stylesheet version="1.0"
xmlns:xsl="http://www.w3.org/1999/XSL/Transform"
xmlns="http://www.w3.org/Graphics/SVG/SVG-19990812.dtd">
<xsl:output method="xml" indent="yes" media-type="image/svg"/>
<xsl:template match="/">
<svg width = "3in" height="3in">
<g style = "stroke: #000000">
<!-- draw the axes -->
<line x1="0" x2="150" y1="150" y2="150"/>
<line x1="0" x2="0" y1="0" y2="150"/>
<text x="0" y="10">Revenue</text>
<text x="150" y="165">Division</text>
<xsl:for-each select="sales/division">
<!-- define some useful variables -->
<!-- the bar's x position -->
<xsl:variable name="pos"
select="(position()*40)-30"/>
<!-- the bar's height -->
<xsl:variable name="height"
select="revenue*10"/>
<!-- the rectangle -->
<rect x="{$pos}" y="{150-$height}"
width="20" height="{$height}"/>
<!-- the text label -->
<text x="{$pos}" y="165">
<xsl:value-of select="@id"/>
</text>
<!-- the bar value -->
<text x="{$pos}" y="{145-$height}">
<xsl:value-of select="revenue"/>
</text>
</xsl:for-each>
</g>
</svg>
</xsl:template>
</xsl:stylesheet>
The SVG output is:
<svg width="3in" height="3in"
xmlns="http://www.w3.org/Graphics/SVG/svg-19990412.dtd">
<g style="stroke: #000000">
<line x1="0" x2="150" y1="150" y2="150"/>
<line x1="0" x2="0" y1="0" y2="150"/>
<text x="0" y="10">Revenue</text>
<text x="150" y="165">Division</text>
<rect x="10" y="50" width="20" height="100"/>
<text x="10" y="165">North</text>
<text x="10" y="45">10</text>
<rect x="50" y="110" width="20" height="40"/>
<text x="50" y="165">South</text>
<text x="50" y="105">4</text>
<rect x="90" y="90" width="20" height="60"/>
<text x="90" y="165">West</text>
<text x="90" y="85">6</text>
</g>
</svg>
The following stylesheet transforms the data into VRML:
<xsl:stylesheet version="1.0"
xmlns:xsl="http://www.w3.org/1999/XSL/Transform">
<!-- generate text output as mime type model/vrml, using default charset -->
<xsl:output method="text" encoding="UTF-8" media-type="model/vrml"/>
<xsl:template match="/">#VRML V2.0 utf8
# externproto definition of a single bar element
EXTERNPROTO bar [
field SFInt32 x
field SFInt32 y
field SFInt32 z
field SFString name
]
"http://www.vrml.org/WorkingGroups/dbwork/barProto.wrl"
# inline containing the graph axes
Inline {
url "http://www.vrml.org/WorkingGroups/dbwork/barAxes.wrl"
}
<xsl:for-each select="sales/division">
bar {
x <xsl:value-of select="revenue"/>
y <xsl:value-of select="growth"/>
z <xsl:value-of select="bonus"/>
name "<xsl:value-of select="@id"/>"
}
</xsl:for-each>
</xsl:template>
</xsl:stylesheet>
The VRML output is:
#VRML V2.0 utf8
# externproto definition of a single bar element
EXTERNPROTO bar [
field SFInt32 x
field SFInt32 y
field SFInt32 z
field SFString name
]
"http://www.vrml.org/WorkingGroups/dbwork/barProto.wrl"
# inline containing the graph axes
Inline {
url "http://www.vrml.org/WorkingGroups/dbwork/barAxes.wrl"
}
bar {
x 10
y 9
z 7
name "North"
}
bar {
x 4
y 3
z 4
name "South"
}
bar {
x 6
y -1.5
z 2
name "West"
}
Acknowledgements
Appendix E. Acknowledgements (Non-Normative)
The following have contributed to authoring this draft:
-
Daniel Lipkin, Saba
-
Jonathan Marsh, Microsoft
-
Henry Thompson, University of Edinburgh
-
Norman Walsh, Arbortext
-
Steve Zilles, Adobe
This specification was developed and approved for publication by the
W3C XSL Working Group (WG). WG approval of this specification does not
necessarily imply that all WG members voted for its approval. The
current members of the XSL WG are:
Sharon Adler, IBM (Co-Chair); Anders Berglund, IBM; Perin Blanchard, Novell; Scott Boag, Lotus; Larry Cable, Sun; Jeff Caruso, Bitstream; James Clark; Peter Danielsen, Bell Labs; Don Day, IBM; Stephen Deach, Adobe; Dwayne Dicks, SoftQuad; Andrew Greene, Bitstream; Paul Grosso, Arbortext; Eduardo Gutentag, Sun; Juliane Harbarth, Software AG; Mickey Kimchi, Enigma; Chris Lilley, W3C; Chris Maden, Exemplary Technologies; Jonathan Marsh, Microsoft; Alex Milowski, Lexica; Steve Muench, Oracle; Scott Parnell, Xerox; Vincent Quint, W3C; Dan Rapp, Novell; Gregg Reynolds, Datalogics; Jonathan Robie, Software AG; Mark Scardina, Oracle; Henry Thompson, University of Edinburgh; Philip Wadler, Bell Labs; Norman Walsh, Arbortext; Sanjiva Weerawarana, IBM; Steve Zilles, Adobe (Co-Chair)
Changes from Proposed Recommendation
Appendix F. Changes from Proposed Recommendation (Non-Normative)
The following are the changes since the Proposed Recommendation:
•
The xsl:version attribute is required on a
literal result element used as a stylesheet (see
§ 2.3 – Literal Result Element as Stylesheet on page
).
•
The data-type attribute on xsl:sort
can use a prefixed name to specify a data-type not defined by
XSLT (see
§ 10 – Sorting on page
).
Features under Consideration for Future Versions of XSLT
Appendix G. Features under Consideration for Future Versions of XSLT (Non-Normative)
The following features are under consideration for versions of XSLT
after XSLT 1.0:
•
a conditional expression;
•
support for XML Schema datatypes and archetypes;
•
support for something like style rules in the original XSL
submission;
•
an attribute to control the default namespace for names
occurring in XSLT attributes;
•
support for entity references;
•
support for DTDs in the data model;
•
support for notations in the data model;
•
a way to get back from an element to the elements that
reference it (e.g. by IDREF attributes);
•
an easier way to get an ID or key in another document;
•
support for regular expressions for matching against any or
all of text nodes, attribute values, attribute names, element type
names;
•
case-insensitive comparisons;
•
normalization of strings before comparison, for example for
compatibility characters;
•
a function string resolve(node-set) function
that treats the value of the argument as a relative URI and turns it
into an absolute URI using the base URI of the node;
•
multiple result documents;
•
defaulting the select attribute on
xsl:value-of to the current node;
•
an attribute on xsl:attribute to control how the
attribute value is normalized;
•
additional attributes on xsl:sort to provide
further control over sorting, such as relative order of
scripts;
•
a way to put the text of a resource identified by a URI into
the result tree;
•
allow unions in steps (e.g. foo/(bar|baz));
•
allow for result tree fragments all operations that are
allowed for node-sets;
•
a way to group together consecutive nodes having duplicate
subelements or attributes;
•
features to make handling of the HTML style
attribute more convenient.