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This specification defines the Second Edition of XHTML 1.0, a reformulation of
HTML 4 as an XML 1.0 application, and three DTDs corresponding to the ones defined by HTML 4. The semantics of the elements and their attributes are defined in the W3C Recommendation for HTML 4. These semantics provide
the foundation for future extensibility of XHTML. Compatibility with existing HTML user agents is possible by following a small set of guidelines.
Status of this document
This section describes the status of this document at the time of its publication. Other documents may supersede this document. The latest status of this document series is maintained at the
W3C.
This document is the second edition of the XHTML 1.0 specification incorporating the errata changes as of 1
August 2002. Changes between this version and the previous Recommendation are illustrated in a diff-marked version .
This second edition is not a new version of XHTML 1.0 (first published 26 January 2000). The changes in
this document reflect corrections applied as a result of comments submitted by the community and as a result
of ongoing work within the HTML Working Group. There are no substantive changes in this document - only the integration of various
errata.
At the time of publication, the working group believed there were zero patent disclosures relevant to this specification. A current list of patent disclosures relevant to
this specification may be found on the Working Group'spatent disclosure page .
A list of current W3C Recommendations and other technical documents can be found at http://www.w3.org/TR .
XHTML is a family of current and future document types and modules that reproduce, subset, and extend HTML 4 [HTML4]. XHTML family document types are XML based, and ultimately are designed to work in
conjunction with XML-based user agents. The details of this family and its evolution are discussed in more detail in [XHTMLMOD].
XHTML 1.0 (this specification) is the first document type in the XHTML family. It is a reformulation of the three HTML 4 document types as applications of XML
1.0 [XML]. It is intended to be used as a language for content that is
both XML-conforming and, if some simple guidelines are followed, operates in HTML 4 conforming user agents. Developers who migrate their
content to XHTML 1.0 will realize the following benefits:
XHTML documents are XML conforming. As such, they are readily viewed, edited, and validated with standard XML tools.
XHTML documents can be written to operate as well or better than they did before in existing HTML 4-conforming user agents as well as in new, XHTML 1.0
conforming user agents.
XHTML documents can utilize applications (e.g. scripts and applets) that rely upon either the HTML Document Object Model or the XML Document Object Model [DOM].
As the XHTML family evolves, documents conforming to XHTML 1.0 will be more likely to interoperate within and among various XHTML environments.
The XHTML family is the next step in the evolution of the Internet. By migrating to XHTML today, content developers can enter the XML world with all of its attendant benefits, while still
remaining confident in their content's backward and future compatibility.
HTML 4 [HTML4] is an SGML (Standard Generalized Markup Language) application conforming to International Standard ISO 8879, and is
widely regarded as the standard publishing language of the World Wide Web.
SGML is a language for describing markup languages, particularly those used in electronic document exchange, document management, and document publishing. HTML is an example of a language defined
in SGML.
SGML has been around since the middle 1980's and has remained quite stable. Much of this stability stems from the fact that the language is both feature-rich and flexible. This flexibility,
however, comes at a price, and that price is a level of complexity that has inhibited its adoption in a diversity of environments, including the World Wide Web.
HTML, as originally conceived, was to be a language for the exchange of scientific and other technical documents, suitable for use by non-document specialists. HTML addressed the problem of SGML
complexity by specifying a small set of structural and semantic tags suitable for authoring relatively simple documents. In addition to simplifying the document structure, HTML added support for
hypertext. Multimedia capabilities were added later.
In a remarkably short space of time, HTML became wildly popular and rapidly outgrew its original purpose. Since HTML's inception, there has been rapid invention of new elements for use within HTML
(as a standard) and for adapting HTML to vertical, highly specialized, markets. This plethora of new elements has led to interoperability problems for documents across
different platforms.
XML™ is the shorthand name for Extensible Markup Language [XML].
XML was conceived as a means of regaining the power and flexibility of SGML without most of its complexity. Although a restricted form of SGML, XML nonetheless preserves most of SGML's power and
richness, and yet still retains all of SGML's commonly used features.
While retaining these beneficial features, XML removes many of the more complex features of SGML that make the authoring and design of suitable software both difficult and costly.
The benefits of migrating to XHTML 1.0 are described above. Some of the benefits of migrating to XHTML in general are:
Document developers and user agent designers are constantly discovering new ways to express their ideas through new markup. In XML, it is relatively easy to introduce new elements or additional
element attributes. The XHTML family is designed to accommodate these extensions through XHTML modules and techniques for developing new XHTML-conforming modules (described in the XHTML
Modularization specification). These modules will permit the combination of existing and new feature sets when developing content and when designing new user agents.
Alternate ways of accessing the Internet are constantly being introduced. The XHTML family is designed with general user agent interoperability in mind. Through a new user agent and document
profiling mechanism, servers, proxies, and user agents will be able to perform best effort content transformation. Ultimately, it will be possible to develop XHTML-conforming content that is usable
by any XHTML-conforming user agent.
The following terms are used in this specification. These terms extend the definitions in [
RFC2119] in ways based upon similar definitions in ISO/ IEC 9945-1:1990 [POSIX.1]:
May
With respect to implementations, the word "may" is to be interpreted as an optional feature that is not required in this specification but can be provided. With respect to
Document Conformance , the word "may" means that the optional feature must not be used. The term "optional" has the same definition as "may".
Must
In this specification, the word "must" is to be interpreted as a mandatory requirement on the implementation or on Strictly Conforming XHTML Documents, depending upon the context. The term
"shall" has the same definition as "must".
Optional
See "May".
Reserved
A value or behavior is unspecified, but it is not allowed to be used by Conforming Documents nor to be supported by Conforming User Agents.
Shall
See "Must".
Should
With respect to implementations, the word "should" is to be interpreted as an implementation recommendation, but not a requirement. With respect to documents, the word "should" is to be
interpreted as recommended programming practice for documents and a requirement for Strictly Conforming XHTML Documents.
Supported
Certain facilities in this specification are optional. If a facility is supported, it behaves as specified by this specification.
Unspecified
When a value or behavior is unspecified, the specification defines no portability requirements for a facility on an implementation even when faced with a document that uses the facility. A
document that requires specific behavior in such an instance, rather than tolerating any behavior when using that facility, is not a Strictly Conforming XHTML Document.
An attribute is a parameter to an element declared in the DTD. An attribute's type and value range, including a possible default value, are defined in the DTD.
DTD
A DTD, or document type definition, is a collection of XML markup declarations that, as a collection, defines the legal structure, elements
, and attributes that are available for use in a document that complies to the DTD.
Document
A document is a stream of data that, after being combined with any other streams it references, is structured such that it holds information contained within elements
that are organized as defined in the associated DTD . See Document Conformance for more information.
Element
An element is a document structuring unit declared in the DTD . The element's content model is defined in the DTD , and additional semantics
may be defined in the prose description of the element.
Facilities areelements , attributes , and the semantics associated with those elements
and attributes .
Implementation
See User Agent.
Parsing
Parsing is the act whereby a document is scanned, and the information contained within the document is filtered into the context of the elements in which the information is structured.
Rendering
Rendering is the act whereby the information in a document is presented. This presentation is done in the form most appropriate to the environment (e.g. aurally,
visually, in print).
User Agent
A user agent is a system that processes XHTML documents in accordance with this specification. See User Agent
Conformance for more information.
Validation
Validation is a process whereby documents are verified against the associated DTD , ensuring that the structure, use of
elements , and use of attributes are consistent with the definitions in the DTD .
This version of XHTML provides a definition of strictly conforming XHTML 1.0 documents, which are restricted to elements and attributes
from the XML and XHTML 1.0 namespaces. See Section 3.1.2 for information on using XHTML with other namespaces,
for instance, to include metadata expressed in RDF within XHTML documents.
A Strictly Conforming XHTML Document is an XML document that requires only the facilities described as mandatory in this specification. Such a document must meet all
of the following criteria:
It must conform to the constraints expressed in one of the three DTDs found in DTDsand
inAppendix B .
The root element of the document must be html .
The root element of the document must contain anxmlnsdeclaration for the XHTML namespace [XMLNS]. The namespace for XHTML is defined to be http://www.w3.org/1999/xhtml . An
example root element might look like:
There must be a DOCTYPE declaration in the document prior to the root element. The public identifier included in the DOCTYPE declaration must reference one of the three DTDs found in DTDs using the respective Formal Public Identifier. The system identifier may be changed to reflect local system conventions.
<!DOCTYPE html
PUBLIC "-//W3C//DTD XHTML 1.0 Strict//EN"
"http://www.w3.org/TR/xhtml1/DTD/xhtml1-strict.dtd">
<!DOCTYPE html
PUBLIC "-//W3C//DTD XHTML 1.0 Transitional//EN"
"http://www.w3.org/TR/xhtml1/DTD/xhtml1-transitional.dtd">
<!DOCTYPE html
PUBLIC "-//W3C//DTD XHTML 1.0 Frameset//EN"
"http://www.w3.org/TR/xhtml1/DTD/xhtml1-frameset.dtd">
The DTD subset must not be used to override any parameter entities in the DTD.
An XML declaration is not required in all XML documents; however XHTML document authors are strongly encouraged to use XML declarations in all their documents. Such a
declaration is required when the character encoding of the document is other than the default UTF-8 or UTF-16 and no encoding was determined by a higher-level protocol. Here is
an example of an XHTML document. In this example, the XML declaration is included.
<?xml version="1.0" encoding="UTF-8"?>
<!DOCTYPE html
PUBLIC "-//W3C//DTD XHTML 1.0 Strict//EN"
"http://www.w3.org/TR/xhtml1/DTD/xhtml1-strict.dtd">
<html xmlns="http://www.w3.org/1999/xhtml" xml:lang="en" lang="en">
<head>
<title>Virtual Library</title>
</head>
<body>
<p>Moved to <a href="http://example.org/">example.org</a>.</p>
</body>
</html>
The XHTML namespace may be used with other XML namespaces as per [XMLNS
], although such documents are not strictly conforming XHTML 1.0 documents as defined above. Work by W3C is addressing ways to
specify conformance for documents involving multiple namespaces. For an example, see [
XHTML+MathML].
The following example shows the way in which XHTML 1.0 could be used in conjunction with the MathML Recommendation:
<html xmlns="http://www.w3.org/1999/xhtml" xml:lang="en" lang="en">
<head>
<title>A Math Example</title>
</head>
<body>
<p>The following is MathML markup:</p>
<math xmlns="http://www.w3.org/1998/Math/MathML">
<apply> <log/>
<logbase>
<cn> 3 </cn>
</logbase>
<ci> x </ci>
</apply>
</math>
</body>
</html>
The following example shows the way in which XHTML 1.0 markup could be incorporated into another XML namespace:
<?xml version="1.0" encoding="UTF-8"?>
<!-- initially, the default namespace is "books" -->
<book xmlns='urn:loc.gov:books'
xmlns:isbn='urn:ISBN:0-395-36341-6' xml:lang="en" lang="en">
<title>Cheaper by the Dozen</title>
<isbn:number>1568491379</isbn:number>
<notes>
<!-- make HTML the default namespace for a hypertext commentary -->
<p xmlns='http://www.w3.org/1999/xhtml'>
This is also available <a href="http://www.w3.org/">online</a>.
</p>
</notes>
</book>
A conforming user agent must meet all of the following criteria:
In order to be consistent with the XML 1.0 Recommendation [XML],
the user agent must parse and evaluate an XHTML document for well-formedness. If the user agent claims to be a validating user agent, it must also validate documents against their referenced DTDs
according to [XML].
When the user agent claims to support facilities defined within this specification or required by this specification through normative reference, it must do so in ways
consistent with the facilities' definition.
When a user agent processes an XHTML document as generic XML, it shall only recognize attributes of type ID(i.e. the id attribute on most
XHTML elements) as fragment identifiers.
If a user agent encounters an element it does not recognize, it must process the element's content.
If a user agent encounters an attribute it does not recognize, it must ignore the entire attribute specification (i.e., the attribute and its value).
If a user agent encounters an attribute value it does not recognize, it must use the default attribute value.
If it encounters an entity reference (other than one of the entities defined in this recommendation or in the XML recommendation) for which the user agent has processed no declaration (which could happen if the declaration is in the external subset which the user agent hasn't read), the entity
reference should be processed as the characters (starting with the ampersand and ending with the semi-colon) that make up the entity reference.
When processing content, user agents that encounter characters or character entity references that are recognized but not renderable
may substitute another rendering that gives the same meaning, or must display the document in such a way that it is obvious to the user that normal rendering has not
taken place.
White space is handled according to the following rules. The following characters are defined in [XML] white space characters:
SPACE ( )
HORIZONTAL TABULATION (	)
CARRIAGE RETURN (
)
LINE FEED (
)
The XML processor normalizes different systems' line end codes into one single LINE FEED character, that is passed up to the
application.
The user agent must use the definition from CSS for processing whitespace
characters [CSS2].Note that the
CSS2 recommendation does not explicitly address the issue of whitespace handling in non-Latin character sets. This will be addressed in a future version of CSS, at which time this reference will be
updated.
Note that in order to produce a Canonical XHTML document, the rules above
must be applied and the rules in [
XMLC14N] must also be applied to the document.
Well-formedness is a new concept introduced by [XML]. Essentially this means that all elements must either have closing tags or be written in a special form (as described below), and that all the elements must nest properly.
Although overlapping is illegal in SGML, it is widely tolerated in existing browsers.
CORRECT: nested elements.
<p>here is an emphasized <em>paragraph</em>.</p>
INCORRECT: overlapping elements
<p>here is an emphasized <em>paragraph.</p></em>
4.2. Element and attribute names must be in lower case
XHTML documents must use lower case for all HTML element and attribute names. This difference is necessary because XML is case-sensitive e.g. <li> and <LI> are different tags.
4.3. For non-empty elements, end tags are required
In SGML-based HTML 4 certain elements were permitted to omit the end tag; with the elements that followed implying closure. XML does not allow
end tags to be omitted. All elements other than those declared in the DTD as EMPTY must have an end tag. Elements that are declared in the DTD asEMPTYcan have an end tagorcan use empty element shorthand
(seeEmpty Elements).
CORRECT: terminated elements
<p>here is a paragraph.</p><p>here is another paragraph.</p>
INCORRECT: unterminated elements
<p>here is a paragraph.<p>here is another paragraph.
XML does not support attribute minimization. Attribute-value pairs must be written in full. Attribute names such as compact and checked cannot occur in elements without
their value being specified.
Empty elements must either have an end tag or the start tag must end with /> . For instance, <br/> or <hr></hr> . See HTML Compatibility Guidelines for information on ways to ensure this is backward compatible with HTML 4 user agents.
In XHTML, the script and style elements are declared as having #PCDATA content. As a result, < and & will be treated as the start of markup, and
entities such as < and & will be recognized as entity references by the XML processor to < and & respectively. Wrapping the
content of the script or style element within a CDATA marked section avoids the expansion of these entities.
CDATA sections are recognized by the XML processor and appear as nodes in the Document Object Model, see Section 1.3 of the DOM Level 1 Recommendation [DOM].
An alternative is to use external script and style documents.
SGML gives the writer of a DTD the ability to exclude specific elements from being contained within an element. Such prohibitions (called "exclusions") are not possible in XML.
For example, the HTML 4 Strict DTD forbids the nesting of an ' a ' element within another ' a ' element to any descendant depth. It is not possible to spell out such
prohibitions in XML. Even though these prohibitions cannot be defined in the DTD, certain elements should not be nested. A summary of such elements and the elements that should not be nested in them
is found in the normative Element Prohibitions .
4.10. The elements with 'id' and 'name' attributes
HTML 4 defined the name attribute for the elements a , applet , form , frame , iframe , img , and
map . HTML 4 also introduced the id attribute. Both of these attributes are designed to be used as fragment identifiers.
In XML, fragment identifiers are of type ID , and there can only be a single attribute of type ID per element. Therefore, in XHTML 1.0 the id attribute is
defined to be of type ID . In order to ensure that XHTML 1.0 documents are well-structured XML documents, XHTML 1.0 documents MUST use the id attribute when defining
fragment identifiers on the elements listed above. See the HTML Compatibility
Guidelines for information on ensuring such anchors are backward compatible when serving XHTML documents as media type text/html .
Note that in XHTML 1.0, the name attribute of these elements is formally deprecated, and will be removed in a subsequent version of XHTML.
HTML 4 and XHTML both have some attributes that have pre-defined and limited sets of values (e.g. thetypeattribute of theinputelement). In SGML and XML, these are calledenumerated
attributes .Under HTML 4, the interpretation of these values wascase-insensitive ,so a value
ofTEXTwas equivalent to a value oftext .Under XML,
the interpretation of these values iscase-sensitive ,and in XHTML 1 all of these values are defined in lower-case.
SGML and XML both permit references to characters by using hexadecimal values. In SGML these references could be made using either &#Xnn; or &#xnn;. In XML
documents, you must use the lower-case version (i.e. &#xnn;)
Although there is no requirement for XHTML 1.0 documents to be compatible with existing user agents, in practice this is easy to accomplish. Guidelines for creating compatible documents can be
found in Appendix C .
XHTML Documents which follow the guidelines set forth in Appendix C , "HTML Compatibility Guidelines" may be labeled with the Internet Media Type
"text/html" [RFC2854], as they are compatible with most HTML browsers. Those documents, and any other document conforming to this specification, may also be labeled with the Internet Media Type "application/xhtml+xml" as defined in [RFC3236]. For further information on using media types with XHTML, see the
informative note [XHTMLMIME].
These DTDs and entity sets form a normative part of this specification. The complete set of DTD files together with an XML declaration and SGML Open Catalog is included in the zip fileand thegzip'd tar file for this specification. Users looking for
local copies of the DTDs to work with should download and use those archives rather than using the specific DTDs referenced below.
These DTDs approximate the HTML 4 DTDs. The W3C recommends that you use the authoritative versions of these DTDs at their defined SYSTEM
identifiers when validating content. If you need to use these DTDs locally you should download one of the archives ofthis version .For completeness, the normative versions of the DTDs are included here:
The fileDTD/xhtml1-strict.dtdis a normative part of this specification. The
annotated contents of this file are available in thisseparate sectionfor
completeness.
The fileDTD/xhtml1-frameset.dtdis a normative part of this specification.
The annotated contents of this file are available in thisseparate sectionfor
completeness.
The XHTML entity sets are the same as for HTML 4, but have been modified to be valid XML 1.0 entity declarations. Note the entity for the Euro currency sign ( € or
€ or € ) is defined as part of the special characters.
The fileDTD/xhtml-lat1.entis a normative part of this specification. The
annotated contents of this file are available in thisseparate sectionfor
completeness.
The fileDTD/xhtml-special.entis a normative part of this specification. The
annotated contents of this file are available in thisseparate sectionfor
completeness.
The fileDTD/xhtml-symbol.entis a normative part of this specification. The
annotated contents of this file are available in thisseparate sectionfor completeness.
The following elements have prohibitions on which elements they can contain (see SGML Exclusions ). This prohibition applies to all depths of
nesting, i.e. it contains all the descendant elements.
a
must not contain other a elements.
pre
must not contain the img , object , big , small , sub , or sup elements.
button
must not contain the input , select , textarea , label , button , form ,
fieldset , iframe or isindex elements.
This appendix summarizes design guidelines for authors who wish their XHTML documents to render on existing HTML user agents. Note that this recommendation does not
define how HTML conforming user agents should process HTML documents. Nor does it define the meaning of the Internet Media Typetext/html .For these definitions, see [HTML4] and [RFC2854] respectively.
C.1. Processing Instructions and the XML Declaration
Be aware that processing instructions are rendered on some user agents. Also, some user agents interpret the XML declaration to mean that the document is unrecognized XML
rather than HTML, and therefore may not render the document as expected. For compatibility with these types of legacy browsers, you may want to avoid using processing instructions and XML
declarations. Remember, however, that when the XML declaration is not included in a document, the document can only use the default character encodings UTF-8 or UTF-16.
Include a space before the trailing / and > of empty elements, e.g. <br /> , <hr />
and <img src="karen.jpg" alt="Karen" /> . Also, use the minimized tag syntax for empty elements, e.g. <br /> , as the
alternative syntax <br></br> allowed by XML gives uncertain results in many existing user agents.
C.3. Element Minimization and Empty Element Content
Given an empty instance of an element whose content model is not EMPTY (for example, an empty title or paragraph) do not use the minimized form (e.g. use
<p> </p> and not <p /> ).
Use external style sheets if your style sheet uses < or & or ]]> or -- . Use external scripts if your script uses < or
& or ]]> or -- . Note that XML parsers are permitted to silently remove the contents of comments. Therefore, the historical practice of "hiding" scripts
and style sheets within "comments" to make the documents backward compatible is likely to not work as expected in XML-based user
agents.
In XML, URI-references [ RFC2396 ] that end
with fragment identifiers of the form "#foo" do not refer to elements with an attribute name="foo" ; rather, they refer to elements with an attribute defined to be of type
ID , e.g., the id attribute in HTML 4. Many existing HTML clients don't support the use of ID -type attributes in this way, so identical values may be supplied
for both of these attributes to ensure maximum forward and backward compatibility (e.g., <a id="foo" name="foo">...</a> ).
Further, since the set of legal values for attributes of type ID is much smaller than for those of type CDATA , the type of the name attribute has been
changed to NMTOKEN . This attribute is constrained such that it can only have the same values as type ID , or as the Name production in XML 1.0 Section 2.3, production 5. Unfortunately, this constraint cannot be expressed in the XHTML 1.0 DTDs. Because of this change, care must be taken when converting existing HTML
documents. The values of these attributes must be unique within the document, valid, and any references to these fragment identifiers (both internal and external) must be updated should the values be
changed during conversion.
Note that the collection of legal values in XML 1.0 Section 2.3, production 5 is much larger than that permitted to be used in the
IDandNAMEtypes defined in HTML 4. When defining fragment identifiers to be
backward-compatible, only strings matching the pattern[A-Za-z][A-Za-z0-9:_.-]*should be used. SeeSection 6.2of [
HTML4] for more information.
Finally, note that XHTML 1.0 has deprecated the name attribute of the a , applet , form , frame , iframe ,
img , and map elements, and it will be removed from XHTML in subsequent versions.
Historically, the character encoding of an HTML document is either specified by a web server via the charset parameter of the HTTP Content-Type
header, or via ametaelement in the document itself. In an XML document, the character encoding of the document is specified on the XML declaration (e.g.,<?xml version="1.0" encoding="EUC-JP"?>). In order to portably present documents with specific character encodings, the best approach is to
ensure that the web server provides the correct headers. If this is not possible, a document that wants to set its character encoding explicitly must include both the XML declaration an encoding
declaration and a meta http-equiv statement (e.g.,<meta http-equiv="Content-type"
content="text/html; charset=EUC-JP" /> ). In XHTML-conforming user agents, the value of the encoding declaration of
the XML declaration takes precedence.
Note: be aware that if a document must include the character encoding declaration in a meta http-equiv statement, that document may always be interpreted by HTTP servers
and/or user agents as being of the internet media type defined in that statement. If a document is to be served as multiple media types, the HTTP server must be used to set the encoding of the
document.
Some HTML user agents are unable to interpret boolean attributes when these appear in their full (non-minimized) form, as required by XML 1.0. Note this problem doesn't affect user agents
compliant with HTML 4. The following attributes are involved: compact , nowrap , ismap , declare , noshade , checked ,
disabled , readonly , multiple , selected , noresize , defer .
The Document Object Model level 1 Recommendation [ DOM ] defines document object model interfaces for XML and HTML 4. The HTML 4 document object model specifies
that HTML element and attribute names are returned in upper-case. The XML document object model specifies that element and attribute names are returned in the case they are specified. In XHTML 1.0,
elements and attributes are specified in lower-case. This apparent difference can be addressed in two ways:
User agents that access XHTML documents served as Internet media type text/html via the DOM can use the HTML
DOM, and can rely upon element and attribute names being returned in upper-case from those interfaces.
User agents that access XHTML documents served as Internet media types text/xml , application/xml , orapplication/xhtml+xml can also use the XML DOM. Elements and attributes will be returned in lower-case. Also, some XHTML elements may or may not appear in the
object tree because they are optional in the content model (e.g. the tbody element within table ). This occurs because in HTML 4 some elements were permitted to be minimized
such that their start and end tags are both omitted (an SGML feature). This is not possible in XML. Rather than require document authors to insert extraneous elements, XHTML has made the elements
optional. User agents need to adapt to this accordingly. For further information on this topic, see [DOM2]
C.12. Using Ampersands in Attribute Values (and Elsewhere)
In both SGML and XML, the ampersand character ("&") declares the beginning of an entity reference (e.g., ® for the registered
trademark symbol "®"). Unfortunately, many HTML user agents have silently ignored incorrect usage of the ampersand character in HTML documents - treating ampersands that do not look like entity
references as literal ampersands. XML-based user agents will not tolerate this incorrect usage, and any document that uses an ampersand incorrectly will not be "valid",
and consequently will not conform to this specification. In order to ensure that documents are compatible with historical HTML user agents and XML-based user agents, ampersands used in a document
that are to be treated as literal characters must be expressed themselves as an entity reference (e.g. " & ").
For example, when the href attribute of the a element refers to a CGI script that takes parameters, it must be expressed as
http://my.site.dom/cgi-bin/myscript.pl?class=guest&name=user rather than as http://my.site.dom/cgi-bin/myscript.pl?class=guest&name=user .
The Cascading Style Sheets level 2 Recommendation [ CSS2 ] defines style properties which are applied to the parse tree of the HTML or XML documents. Differences in parsing will produce different visual or aural results, depending on the selectors used. The following hints will reduce this effect for documents which
are served without modification as both media types:
CSS style sheets for XHTML should use lower case element and attribute names.
In tables, the tbody element will be inferred by the parser of an HTML user agent, but not by the parser of an XML user agent. Therefore you should always explicitly add a tbody element if it is
referred to in a CSS selector.
Within the XHTML namespace, user agents are expected to recognize the "id" attribute as an attribute of type ID. Therefore, style sheets should be able to continue
using the shorthand "#" selector syntax even if the user agent does not read the DTD.
Within the XHTML namespace, user agents are expected to recognize the "class" attribute. Therefore, style sheets should be able to continue using the shorthand "."
selector syntax.
CSS defines different conformance rules for HTML and XML documents; be aware that the HTML rules apply to XHTML documents delivered as HTML and the XML rules apply to XHTML documents delivered as
XML.
C.14.Referencing Style Elements when serving as XML
In HTML 4 and XHTML, thestyleelement can be used to define document-internal style rules. In XML,
an XML stylesheet declaration is used to define style rules. In order to be compatible with this convention,styleelements
should have their fragment identifier set using theidattribute, and an XML stylesheet declaration should reference this
fragment. For example:
<?xml-stylesheet href="W3C-REC.css" type="text/css"?>
<?xml-stylesheet href="#internalStyle" type="text/css"?>
<!DOCTYPE html
PUBLIC "-//W3C//DTD XHTML 1.0 Strict//EN"
"http://www.w3.org/TR/xhtml1/DTD/xhtml1-strict.dtd">
<html xmlns="http://www.w3.org/1999/xhtml" xml:lang="en" lang="en">
<head>
<title>An internal stylesheet example</title>
<style type="text/css" id="internalStyle">
code {
color: green;
font-family: monospace;
font-weight: bold;
}
</style>
</head>
<body>
<p>
This is text that uses our
<code>internal stylesheet</code>.
</p>
</body>
</html>
Some characters that are legal in HTML documents, are illegal in XML document. For example, in HTML, the Formfeed character (U+000C) is treated as white space, in XHTML, due
to XML's definition of characters, it is illegal.
The named character reference'(the apostrophe, U+0027) was introduced in XML 1.0 but does
not appear in HTML. Authors should therefore use'instead of
'to work as expected in HTML 4 user agents.
This specification was written with the participation of the members of the W3C HTML Working Group.
At publication of the second edition, the membership was:
Steven Pemberton, CWI/W3C (HTML Working Group Chair) Daniel Austin, Grainger Jonny Axelsson, Opera Software Tantek Çelik, Microsoft Doug Dominiak, Openwave Systems Herman Elenbaas, Philips Electronics Beth Epperson, Netscape/AOL Masayasu Ishikawa, W3C (HTML Activity Lead) Shin'ichi Matsui, Panasonic Shane McCarron, Applied Testing and Technology Ann Navarro, WebGeek,Inc. Subramanian Peruvemba, Oracle Rob Relyea, Microsoft Sebastian Schnitzenbaumer, SAP Peter Stark, Sony Ericsson
At publication of the first edition, the membership was:
Steven Pemberton, CWI (HTML Working Group Chair)
Murray Altheim, Sun Microsystems
Daniel Austin, AskJeeves (CNET: The Computer Network through July 1999)
Frank Boumphrey, HTML Writers Guild
John Burger, Mitre
Andrew W. Donoho, IBM
Sam Dooley, IBM
Klaus Hofrichter, GMD
Philipp Hoschka, W3C
Masayasu Ishikawa, W3C
Warner ten Kate, Philips Electronics
Peter King, Phone.com
Paula Klante, JetForm
Shin'ichi Matsui, Panasonic (W3C visiting engineer through September 1999)
Shane McCarron, Applied Testing and Technology (The Open Group through August 1999)
Ann Navarro, HTML Writers Guild
Zach Nies, Quark
Dave Raggett, W3C/HP (HTML Activity Lead)
Patrick Schmitz, Microsoft
Sebastian Schnitzenbaumer, Stack Overflow
Peter Stark, Phone.com
Chris Wilson, Microsoft
Ted Wugofski, Gateway 2000
Dan Zigmond, WebTV Networks
"ISO/IEC 9945-1:1990 Information Technology - Portable Operating System Interface (POSIX) - Part 1: System Application Program
Interface (API) [C Language]", Institute of Electrical and Electronics Engineers, Inc, 1990.
"RFC2376: XML Media Types", E. Whitehead, M. Murata, July 1998. This document is obsoleted by [RFC3023].
Available at: http://www.ietf.org/rfc/rfc2376.txt
"RFC3023: XML Media Types", M. Murata, S.
St.Laurent, D. Kohn, January 2001. This document obsoletes [RFC2376]. Available at: http://www.ietf.org/rfc/rfc3023.txt
"XHTML plus Math 1.1DTD", "A.2 MathML as a DTD Module", Mathematical Markup Language (MathML) Version 2.0. Available at:
http://www.w3.org/TR/MathML2/dtd/xhtml-math11-f.dtd
"Namespaces in XML", T. Bray, D. Hollander, A. Layman, 14 January 1999.
XML namespaces provide a simple method for qualifying names used in XML documents by associating them with namespaces identified by URI. Latest version available at: http://www.w3.org/TR/REC-xml-names
"Canonical XML Version 1.0", J. Boyer, 15 March
2001. This document describes a method for generating a physical representation, the canonical form, of an XML document. Latest versionavailable at: http://www.w3.org/TR/xml-c14n
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