XML
XML (Extensible Markup Language) is a W3C Recommendation for creating special-purpose markup languages. It is a simplified subset of SGML, capable of describing many different kinds of data. Its primary purpose is to facilitate the sharing of structured text and information across the Internet. Languages based on XML (for example, RDF, SMIL, MathML, XSIL and SVG) are themselves described in a formal way, allowing programs to modify and validate documents in these languages without prior knowledge of their form.
The features of XML that make it particularly appropriate for data transfer are:
An XML document is text, usually a particular encoding of Unicode such as UTF-8 or UTF-16, although other encodings may be used.
Unlike, for example, HTML, XML is highly dependent upon structure, content and integrity for its efficacy. In order for a document to be considered "well-formed" [1], it must conform (at the very least) to the following:
Also, again unlike HTML, clever choice of XML element names allows the meaning of the data to be retained as part of the markup. This makes it more easily interpreted by software programs.
As a concrete example, a simple recipe expressed in an XML representation might be:
An XML document that meets certain other criteria in addition to being
well-formed (such as complying with an associated
DTD) is said to be "valid".
Before the advent of generalised data description languages such as SGML and XML, software designers had to define special file formats or small languages to share data between programs. This required writing detailed specifications and special-purpose parsers and writers.
XML schema languages allow software designers to describe the structure of particular XML-based markup languages in a formal way. Such a description is called a schema. Well-tested tools exist to validate XML files against a schema to automatically verify whether the document conforms to the described structure. Other usages of the schema exist; XML editors for instance can use schemas to support the editing process.
The oldest XML schema format is the DTD, which is inherited from SGML. While DTD support is obiquitous due to its inclusion in the XML 1.0 standard, it is seen as limited for the following reasons:
Strengths and weaknesses
XML is also heavily used for document storage and processing, both online and offline:
The format also has a number of perceived weaknesses:Syntax rules in XML
Element names in XML are case-sensitive: for example
Identifying information accurately enables programs to manipulate it easily: in this example, it is now easy to convert the quantities to other measuring systems, or to print the ingredients as icons for those with low reading skills (or different native language), or to refer to the individual ingredients or steps from elsewhere (another recipe, for example).XML schema languages
A newer XML schema language, described by the W3C as the successor of DTDs, is simply called XML Schema, also referred to as XML Schema Definition (XSD). XSD are far more powerful than DTDs in describing XML languages. Additionally XSD uses an XML based format, which makes it possible to use the XML toolset to help process XML schema. It also becomes possible to write a schema for the schema language itself. Criticisms of XSD are:
An alternative XML schema language recently gaining in popularity is Relax NG. It is standardized by OASIS. Relax NG comes in two formats, an XML based syntax and a non-XML compact syntax. The compact syntax aims to increase readability and writability, but since there is a well-defined way to translate compact syntax to the XML syntax and back again the advantage of using standard XML tools is not lost. Relax NG has a more compact definition which makes it easier to implement than XSD.
Some schema languages not only describe the structure of a particular XML format but also offer limited facilities to influence processing of individual XML files that conform to this format. DTDs and XSDs both have this ability; they can for instance provide attribute defaults. Relax NG intentionally does not provide these facilities.
As a further adjunct to XML is the stylesheet language XSL, which allows users to describe visual properties and transformations of XML data without embedding those instructions into the data itself. The resulting document is then an HTML document which uses CSS for rendering.
An XML document may also be rendered directly in some browsers such as e.g. Internet Explorer 5 or Mozilla with the stylesheet language CSS. This process is still not yet stable as of March 2004 in those browsers, in other browsers such as the Opera web browser this works very well. In order to allow CSS styling, the XML document must include a special reference to a style sheet:
While browser-based XML rendering develops, the alternative is conversion into HTML or PDF or other formats on the server. Programs like Cocoon process an XML file against a stylesheet (and can perform other processing as well) and send the output back to the user's browser without the user needing to be aware of what has been going on in the background.
The APIs widely used in processing XML data by programming languages are SAX and DOM. SAX is used for serial processing whereas DOM is used for random-access processing.
An XSL processor may be used to render an XML file for displaying or printing. XSL itself is intended for creating PDF files. XSLT is for transforming to other formats, including HTML, other vocabularies of XML, and any other plain-text format.
The native file format of OpenOffice.org and AbiWord is XML. Some parts of Microsoft Office 11 will also be able to edit XML files with a user-supplied schema (but not a DTD). There are dozens of other XML editors available.
The current version of XML is 1.1 (as of 2004-02-04). The first version XML 1.0 currently exists in its third revision.
XML 1.0 and XML 1.1 differ in the requirements of characters used for element names, attribute names etc.:
XML 1.0 only allows characters which are valid Unicode 2.0, which includes most world scripts, but excludes scripts which only entered in a later Unicode version, such as Mongolian, Cambodian, Amharic, Burmese, etc..
XML 1.1 only disallows certain control characters, which means that any other character can be used, even if the Unicode standard grows exponentially.
It should be noted here that the restriction present in XML 1.0 only applies to element/attribute names: both XML 1.0 and XML 1.1 allow for the use of full Unicode in the content itself. Thus XML 1.1 is only needed if in addition to using a script added after Unicode 2.0 you also wish to write the elements in that script.
Other minor changes between XML 1.0 and XML 1.1 are that control characters are now allowed to be included but only when escaped, and two special 'form-feed' characters are included, which must be treated as whitespace.
All XML 1.0 documents will be valid XML 1.1 documents, with one exception: XML documents declaring themselves as being ISO-8859-1 encoded which are actually CP1252 encoded may now be invalid: this because CP1252 uses the control characters block of ISO-8859-1 for special glyphs like €, Œ, and ™. XML 1.0 documents which declare CP1252 encoding will remain valid.
There are also discussions on an XML 2.0, although it remains to be seen if such will ever come about. XML-SW (SW for skunk works), written by one of the original developers of XML, contains some proposals for what an XML 2.0 might look like: elimination of DTDs from syntax, integration of namespaces, XML Base and XML Information Set into the base standard.
Displaying XML on the web
Note that this differs greatly from the standard HTML way to call a stylesheet, where it is usually done by the tag or through a HTTP header.XML Extensions
Processing XML files
Versions of XML
See also
External links