XML Schema tutorial - Basics: Difference between revisions

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Introduction

This is a beginners tutorial for XML Schema (of called XSD in reference to the file name extension *.xsd) made from slides

Objectives

• Understand the purpose of XSD
• Be able to cope with XSD editing
• Translat DTDs to XSD with a conversion tool
• Modify data types of a given XSD
• Write very simple XSD grammars

Prerequisites

• Editing XML (being able to use a simple DTD). Catch up with the Editing XML tutorial
• Be somewhat familiar with DTD's (see the DTD tutorial)
• XML namespaces (some, have a look at the XML namespace article)
• HTML and CSS (some)

Next steps

• ...

Warning

XSD is a rather complex schema definition language. For one problem there always exist several good solutions.

These slides have been prepared with the help of

• The W3C XML Schema primer: http://www.w3.org/TR/xmlschema-0/
• Roger Costello s extensive XML Schema tutorial: http://www.xfront.com/

Introduction

We may distinguish between several kinds of XML grammars

• A grammar-based schema specifies what elements may be used in an XML document, the order of the elements, the number of occurrences of each element, and finally the content and datatype of each element and attribute.

• An assertion-based schema makes assertions about the relationships that must hold between the elements and attributes in an XML instance document.

Comparison between grammar-based schemas

• XML Schemas were created to define more precise grammars than with DTDs, in particular one can define Data Types and more sophisticated element structures

• DTD supports 10 datatypes; XML Schemas supports 44+ datatypes

• Relax NG was a reaction by people who didn t like this new format. It is about as powerful as XSD but not as complicated

Resources

• XML Schema (also called XSD or simply Schema) is difficult

• A good way to learn XSD is to translate your own DTDs with a tool and then study the code

• See also chapter 3. From DTDs to XSDs [30]

W3C websites:

url: http://www.w3.org/XML/Schema (W3C Overview Page)

url: http://www.w3.org/TR/xmlschema-0/ The W3C XML Schema primer

Specifications:

url: http://www.w3.org/TR/xmlschema-1/ XML Schema Part 1: Structures Second Edition 2004

url: http://www.w3.org/TR/xmlschema-2/ XML Schema Part 2: Datatypes Second Edition 2004

Tools:

Exchanger XML Editor can handle XML Schema

• Support for XSD editing
• Validation of XSD file
• Validation of XML against XSD
• DTD/XSD/Relax NG translation

XSD bare bones

The structure and namespace of an XSD file

• As any XML file, an XSD file must start with an XML declaration

• Root of an XSD is <schema> ... </schema>

• Attributes of schema are used to declare certain things (see later)

• XSD makes use of namespaces since we have to make a distinction between code that belongs to XSD and code that refers to the defined elements and attributes (same principle as in XSLT).

• Complex XSD files refer to more than one "Schema" namespace (see later)

Namespaces and prefixes

Since XSD is XML, one must be able to dinguish XSD elements from the language you are defining.

• You either can define a prefix for the XSD elements or one for your own XML elements. See solution 1 and 2 below
• You then can decide whether your XML elements are namespaced or not

Solution 1: Give a namespace prefix to the XSD code

• We define the xs: prefix for the XSD namespace

• Doesn't matter what prefix we use (usually xs: but often xsd:)

• elementFormDefault="qualified" means that your target XML files will not have namespaces

Example 2-1: XSD definition for a simple recipe

<?xml version="1.0" encoding="UTF-8"?>
<xs:schema xmlns:xs="http://www.w3.org/2001/XMLSchema"
           elementFormDefault="qualified">
  <xs:element name="list">
    <xs:complexType>
      <xs:sequence>
        <xs:element maxOccurs="unbounded" ref="recipe"/>
      </xs:sequence>
    </xs:complexType>
  </xs:element>

Solution 2: Give a namespace to target code and prefix it

• We use a prefixed namespace for our XML elements

• Declare the XMLSchema namespace as default namespace, i.e. XSD elements will not be prefixed as in the next example

Example 2-2: XSD definition for a simple recipe

 <schema
	xmlns='http://www.w3.org/2000/10/XMLSchema'
	targetNamespace='http://yourdomain.org/namespace/'
	xmlns:t='http://yourdomain.org/namespace/'

  <element name='list'>
   <complexType>
    <sequence>
     <element ref=''''t:recipe'''' maxOccurs='unbounded'/>
    </sequence>
   </complexType>
  </element>

Validation

• An XML document described by a XSD is called an instance document.

• As with DTDs one can validate an XML against an XSD and most XML editors will allow you to do so.

• In XML Exchanger, simple click the validate icon, then select the XSD file when asked....

Association of XSD with XML, Solution 1:

• You must declare the xsi:XMLSchema-instance namespace

• The xsi:noNamespaceSchemaLocation attribute defines the URL of your XSD

• Warning: Make sure you get spelling and case right !!!

XML file (http://tecfa.unige.ch/guides/xml/examples/xsd-examples/recipe-no-ns.xml )

 <?xml version="1.0" encoding="ISO-8859-1" ?>
 <list
   '''xmlns:xsi="http://www.w3.org/2001/XMLSchema-instance"'''
   '''xsi:noNamespaceSchemaLocation="recipe-no-ns.xsd">'''
   <recipe> ....
 </list>

XSD file (http://tecfa.unige.ch/guides/xml/examples/xsd-examples/recipe-no-ns.xsd)

 <?xml version="1.0" encoding="UTF-8"?>
 <xs:schema xmlns:xs="http://www.w3.org/2001/XMLSchema"
            elementFormDefault="qualified">
   <xs:element name="list">

B. Association of XSD with XML, Solution 2

• This solution is more popular since many XML standards require a namespace

1.Both XML and XSD files must contain a namespace declaration for your domain

The XML file must contain in addition:

2.a declaration for the XMLSchema-instance namespace

3.a xsi:schemaLocation attribute that tells for your namespaces where to find the XSDs

• This attribute can have as many "namespace-URL" pairs as you like

Example 2-3: XML for a simple recipe with an associated XSD (file recipe.xml)

XML file (http://tecfa.unige.ch/guides/xml/examples/xsd-examples/recipe.xml)

  <?xml version="1.0" encoding="ISO-8859-1" ?>
  <list
    xmlns="http://myrecipes.org/"
    xmlns:xsi="http://www.w3.org/2001/XMLSchema-instance"
    xsi:schemaLocation="http://myrecipes.org/ recipe.xsd" >
    <recipe>
      <meta> .....</meta>
      ......
    </recipe>
  </list>

In practical terms: You must provide something for the pink and red above

XSD file (http://tecfa.unige.ch/guides/xml/examples/xsd-examples/recipe.xsd)

 <?xml version="1.0" encoding="UTF-8"?>
 <!-- Simple recipe Schema -->
 <xs:schema xmlns:xs="http://www.w3.org/2001/XMLSchema"
            targetNamespace="http://myrecipes.org/" 
            xmlns="http://myrecipes.org/" 
            elementFormDefault="qualified">
    ....
 </xs:schema>

• This XSD defines a default namespace (no prefixes) for your tags

• You should substitute http://myrecipes.org/ by an URL of your own, preferably an URL over which you have control, e.g. a blog or a home page.

Exemple 2-4: IMS Content Packaging 1.1.4 and IMS/LOM Metadata

This XML file will use two vocabularies

 <manifest 
   xmlns="http://www.imsglobal.org/xsd/imscp_v1p1"
   xmlns:imsmd="http://www.imsglobal.org/xsd/imsmd_v1p2" 
   xmlns:xsi="http://www.w3.org/2001/XMLSchema-instance" 
   identifier="MANIFEST-1"
   xsi:schemaLocation=
    "http://www.imsglobal.org/xsd/imscp_v1p imscp_v1p1.xsd 
     http://www.imsglobal.org/xsd/imsmd_v1p2 imsmd_v1p2p2.xsd">
  <metadata>
     <imsmd:lom> ...... </imsmd:lom>
  </metadata>
  <organizations default="learning_sequence_1">
 .....

• imscp_v1p1 is the default namespace (no prefix)

• imsmd_v1p1 is the namespace for metadata.

Extract of ims_v1p1.xsd

 <xsd:schema 
     xmlns = "http://www.imsglobal.org/xsd/imscp_v1p1"
     targetNamespace = "http://www.imsglobal.org/xsd/imscp_v1p1"
     xmlns:xsi = "http://www.w3.org/2001/XMLSchema-instance"
     xmlns:xsd = "http://www.w3.org/2001/XMLSchema"
     version = "IMS CP 1.1.4"     elementFormDefault = "qualified">

Element definitions

• Recall that XML structure is about nested elements

<xs:element>

• Elements are defined with xs:element,

Example of a simple element without childre and attributes:

<xs:element name="author" type="xs:string"/>

Definition of children

• Element children can be defined in two ways:(1) with a complexType child element or (2) with a type attribute

<xs:complexType> (1)

• complexType as a child element of xs:element: means "we got children or attributes to declare"

 <xs:element name="recipe">
     <xs:complexType>
       <xs:sequence>
         <xs:element ref="meta"/>
         <xs:element minOccurs="0" ref="recipe_author"/>
         <xs:element ref="recipe_name"/>
         <xs:element ref="ingredients"/>
         <xs:element ref="directions"/>
       </xs:sequence>
     </xs:complexType> 
   </xs:element>

<xs:complexType> (2)

• Alternatively, one can declare a complex type by itself and then "use it" in an element declaration.

url: http://tecfa.unige.ch/guides/xml/examples/xsd-examples/recipe2.xsd

• Referring to a type:

 <xs:element name="recipe" type="recipe_contents" />

• Defining the type:

 <xs:complexType name="recipe_contents">
       <xs:sequence>
         <xs:element ref="meta"/>
         <xs:element minOccurs="0" ref="recipe_author"/>
         <xs:element ref="recipe_name"/>
         <xs:element ref="meal"/>
         <xs:element ref="ingredients"/>
         <xs:element ref="directions"/>
       </xs:sequence>
 </xs:complexType>

Data types

Simple data types allow to define what kind of data elements and attributes can contain

Examples:

In addition one can define list types, union types and complex types

Simple user-defined types

Exemple 2-5: Exemple "list":

XSD:

 <xsd:element name="listOfMyInt" type="listOfMyIntType"/>
 <xsd:simpleType name="listOfMyIntType">
     <xsd:list itemType="xsd:integer"/>
 </xsd:simpleType>

XML:

 <listOfMyInt>20003 15037 95977 95945</listOfMyInt>

Exemple 2-6: restricted list of words to choose from

XSD:

 <xsd:element name="theory" type="list_theories"/>

 <xsd:simpleType name="list_theories">
     <xsd:restriction base="xsd:string">
         <xsd:enumeration value="constructivism"/>
         <xsd:enumeration value="behaviorism"/>
         <xsd:enumeration value="cognitivism"/>
     </xsd:restriction>
 </xsd:simpleType>

XML:

 <theory>constructivism</theory>

Exemple 2-7: Restrictions on numbers

• This time (to change a bit) we define the type as child.

XSD:

 <xs:element name="age">

  <xs:simpleType>
   <xs:restriction base="xs:integer">
     <xs:minInclusive value="0"/>
     <xs:maxInclusive value="120"/>
   </xs:restriction>
  </xs:simpleType>

 </xs:element>

XML:

 <age>100</age>

Organization of elements

• XSD allows for quite sophisticated occurrence constraints, i.e. how child elements can be used within an element. Here we only cover a few basic design patterns

A.References vs. direct insertion (recall)

• It is best to define all elements in a flat list and then refer to these when you define how child elements are to be inserted

Defining elements within elements (not so good)

 <xs:element name="meta">
     <xs:complexType>
       <xs:sequence>
         <xs:element name="author" type="xs:string"/>
         <xs:element name="version" type="xs:string"/>
         <xs:element name="date" type="xs:string"/>
       </xs:sequence>
     </xs:complexType>
 </xs:element>

Defining child elements with a reference (generally a better solution)

• See next Example 2-8: A list of ordered child elements [22]

 <xs:sequence>
         <xs:element ref="author"/>
         .....
 </xs:sequence>

B.Sequences

• Number of times a child element can occur is defined with minOccurs and maxOccurs attributes.

Example 2-8: A list of ordered child elements

   <xs:element name="meta">
     <xs:complexType>
       <xs:sequence>
         <xs:element ref="author"/>
         <xs:element ref="date"/>
         <xs:element ref="version"/>
       </xs:sequence>
     </xs:complexType>

   <xs:element name="version" type="xs:string"/>
   <xs:element name="date" type="xs:string"/>
   <xs:element name="author" type="xs:string"/>

Example 2-9: A list with one more recipe child elements

   <xs:element name="list">
     <xs:complexType>
       <'''xs:sequence>
         <xs:element maxOccurs="unbounded" ref="recipe"/>
       </xs:sequence>
     </xs:complexType>
   </xs:element>

Example 2-10: A list of ordered child elements

   <xs:element name="meta">
     <xs:complexType>
       <xs:sequence>
         <xs:element ref="author"/>
         <xs:element ref="date"/>
         <xs:element ref="version"/>
       </xs:sequence>
     </xs:complexType>

Example 2-11: A list with an optional email element - repeatable

  <xs:element name="person">
     <xs:complexType>
       <xs:sequence>
         <xs:element ref="name"/>
         <xs:element minOccurs="0" maxOccurs="unbounded" ref="email"/>
         <xs:element ref="link"/>
       </xs:sequence>
       <xs:attributeGroup ref="attlist.person"/>
     </xs:complexType>
   </xs:element>

C. Choice

Example 2-12: Optional repeatable child elements

   <xs:element name="INFOS">
     <xs:complexType>
       <xs:choice minOccurs="0" maxOccurs="unbounded">
         <xs:element ref="date"/>
         <xs:element ref="author"/>
         <xs:element ref="a"/>
       </xs:choice>
     </xs:complexType>
   </xs:element>

Example 2-13: Either - or child elements

  <xs:element name="ATTEMPT">
     <xs:complexType>
       <xs:choice>
         <xs:element ref="action"/>
         <xs:element ref="EPISODE"/>
       </xs:choice>
     </xs:complexType>
   </xs:element>

D. Mixed contents (tags and text)

   <xs:element name="para">
     <xs:complexType mixed="true">
       <xs:sequence>
         <xs:element minOccurs="0" maxOccurs="unbounded" ref="strong"/>
       </xs:sequence>
     </xs:complexType>
   </xs:element>
   <xs:element name="strong" type="xs:string"/>

XML:

 <para> XML is <strong>so</strong> cool ! </para>

E.Empty elements

• Simply define an element and do not define any child elements

<xs:element name="author" type="xs:string"/>

• Of course this also applies to complex elements:

• See Example 2-14: Attribute groups [27]

Attributes

• To declare attributes, define complexTypes.

• The use parameter: can be either optional, prohibited or required

• default is "optional"

• We will not cover all possibilities here, but just demonstrate with examples

 <xs:element name="Name">
  <xs:complexType>
    <xs:attribute name="lang" type="xs:string" use="required"/>
  </xs:complexType>
 </xs:element>

The above code is actually a short hand notation for:

 <xs:element name="Name">
  <xs:complexType>
   <xs:simpleContent>
    <xs:extension base="xs:string">
      <xs:attribute name="lang" type="xs:string" use="required"/>
    </xs:extension
   </xs:simpleContent>
  </xs:complexType>
 </xs:element>

XML example

<Name lang="English"/>

Attribute groups

• More complex attributes are better declared with attribute groups

• Attribute groups are reusable, i.e. the equivalent of DTD s parameter entities.

Example 2-14: Attribute groups

url: http://tecfa.unige.ch/guides/xml/examples/xsd-examples/family.xsd

 <xs:element name="person">
     <xs:complexType>
       <xs:attributeGroup ref="attlist.person"/>
     </xs:complexType>
 </xs:element>

The element definition above refers to a named attribute group (defined below)

 <xs:attributeGroup name="attlist.person">
     <xs:attribute name="name" use="required"/>


     <xs:attribute name="gender">
       <xs:simpleType>
         <xs:restriction base="xs:token">
           <xs:enumeration value="male"/>
           <xs:enumeration value="female"/>
         </xs:restriction>
       </xs:simpleType>
     </xs:attribute>

     <xs:attribute name="type" default="mother">
       <xs:simpleType>
         <xs:restriction base="xs:token">
           <xs:enumeration value="mother"/>
           <xs:enumeration value="father"/>
           <xs:enumeration value="boy"/>
           <xs:enumeration value="girl"/>
         </xs:restriction>
       </xs:simpleType>
     </xs:attribute>

     <xs:attribute name="id" use="required" type="xs:ID"/>
 </xs:attributeGroup>

Valid XML fragment:

url: http://tecfa.unige.ch/guides/xml/examples/xsd-examples/family.xml

 <family>
   <person name="Joe Miller" gender="male" type="father" id="I123456789"/>
   <person name="Josette Miller" type="girl" id="I123456987"/>
 </family>

Value constraints

• One can put restraints on values that a user can enter in several ways

Example 2-15: Restrict values for an age element

 <xs:element name="age">

 <xs:simpleType>
   <xs:restriction base="xs:integer">
     <xs:minInclusive value="0"/>
     <xs:maxInclusive value="120"/>
   </xs:restriction>
 </xs:simpleType>

 </xs:element>

From DTDs to XSDs

Below we shall present a few typical translation patterns

Most decent XML editors have a built-in translator that will do most of the work. Wowever, generated XSD code is not necessarily the most pretty ...

• e.g. in Exchanger XML Editor: Use Menu Schema -> Convert Schema

Encoding elements

Examples taken from http://www.w3.org/2000/04/schema_hack/

<!ELEMENT ROOT (A,B) >

<element name="ROOT">
  <complexType content="elementOnly">
   <element ref="t:A">
   <element ref="t:B">
  </complexType>
 <element>

<!ELEMENT ROOT (A|B) >

<element name="ROOT">
  <complexType content="elementOnly">
   <choice>
    <element ref="t:A">
    <element ref="t:B">
   </choice>
  </complexType>
 <element>

<!ELEMENT ROOT (A|(B,C)) >

<element name="ROOT">
  <complexType content="elementOnly">
   <choice>
    <element ref="t:A">
    <sequence>
     <element ref="t:B">
     <element ref="t:C">
    </sequence>
   </choice>
  </complexType>
 <element>

<!ELEMENT ROOT (A?,B+,C*) >

<element name="ROOT">
  <complexType content="elementOnly">
   <element ref="t:A" minOccurs="0">
   <element ref="t:B" maxOccurs="unbounded">
   <element ref="t:C" minOccurs="0" maxOccurs="unbounded">
  </complexType>
 <element>

3.2Attribute definitions

<!ATTLIST ROOT a CDATA #REQUIRED>

<element name="ROOT">
  <complexType content="elementOnly">
   <attribute name="a" type="string" use="required"/>
  </complexType>
 </element>

<!ATTLIST ROOT a CDATA #IMPLIED>

<element name="ROOT">
  <complexType content="elementOnly">
   <attribute name="a" type="string" use="optional"/>
  </complexType>
 </element>

<!ATTLIST ROOT a (x|y|z)#REQUIRED;>

<element name="ROOT">
  <complexType content="elementOnly">
   <attribute name="a">
    <simpleType base="string">
     <enumeration value="x"/>
     <enumeration value="y"/>
     <enumeration value="z"/>
    </simpleType>
   </attribute>
  </complexType>
 </element>

<!ATTLIST ROOT a CDATA #FIXED "x">

<element name="ROOT">
  <complexType content="elementOnly">
   <attribute name="a" type="string" 
    use="fixed" value="x"/>
  </complexType>
 </element>