cspp51038 lecture 2
DESCRIPTION
CSPP51038 Lecture 2. XML Simple XML Schema. XML in messaging. Most modern languages have method of representing structured data. Typical flow of events in application. Read data (file, db, socket). Marshal objects. Manipulate in program. Unmarshal (file, db, socket). - PowerPoint PPT PresentationTRANSCRIPT
CSPP51038CSPP51038
LectureLecture 2 2XMLXML
Simple XML SchemaSimple XML Schema
XML in messagingXML in messaging
Most modern languages have method of Most modern languages have method of representing structured data.representing structured data.
Typical flow of events in applicationTypical flow of events in application
Read data(file, db, socket)
Marshalobjects
Manipulate inprogram
Unmarshal (file, db, socket)
•Many language-specific technologies to reduce these steps: RMI, object serialization in any language, CORBA (actually somewhat language neutral), MPI, etc.
•XML provides a very appealing alternative that hits the sweet spot for many applications
User-defined types in programming User-defined types in programming languageslanguages
One view of XML is as a text-based, programming-One view of XML is as a text-based, programming-language-neutral way of representing structured language-neutral way of representing structured
information.information. Compare:Compare:
struct Student{ char* name; char* ssn; int age; float gpa;}
class Student{ public String name; public String ssn; public int age; public float gpa;}
C Java Fortrantype Student character(len=*) :: name character(len=*) :: ssn integer :: age real :: gpaend type Student
Sample XML SchemaSample XML Schema
• In XML, (a common) datatype description is called an XML schema.• DTD and Relax NG are other common alternatives• Below uses schema just for illustration purposes• Note that schema itself is written in XML
<?xml version="1.0" encoding="UTF-8"?><xs:schema xmlns:xs="http://www.w3.org/2001/XMLSchema" elementFormDefault="qualified" attributeFormDefault="unqualified"> <xs:element name="student"> <xs:complexType> <xs:sequence> <xs:element name="name" type="xs:string"/> <xs:element name="ssn" type="xs:string"/> <xs:element name="age" type="xs:integer"/> <xs:element name="gpa" type="xs:decimal"/> </xs:sequence> </xs:complexType> </xs:element></xs:schema>
Ignore thisFor now
Alternative schemaAlternative schema
•In this example studentType is defined separately rather than anonymously
<xs:schema> <xs:element name="student" type="studentType“/> <xs:complexType name="studentType"> <xs:sequence>
<xs:element name="name" type="xs:string"/><xs:element name="ssn" type="xs:string"/><xs:element name="age" type="xs:integer"/><xs:element name="gpa" type="xs:decimal"/>
</xs:sequence> </xs:complexType></xs:schema>
new type defined separately
Alternative: DTDAlternative: DTD• Can also use a DTD (Document Type Descriptor), but this is much simpler than a schema but also much less powerful (notice the lack of types)
<!DOCTYPE Student [ <! – Each XML file is stored in a document whose name is the same as the root node -- > <! ELEMENT Student (name,ssn,age,gpa)> <! – Student has four attributes -- > <!ELEMENT name (#PCDATA)> <! – name is parsed character data -- > <!ELEMENT ssn (#PCDATA)> <!ELEMENT age (#PCDATA)> <!ELEMENT gpa (#PCDATA)>]>
Another alternative: Relax NGAnother alternative: Relax NG
Gaining in popularityGaining in popularity
Can be very simple to write and at same Can be very simple to write and at same time has many more features than DTDtime has many more features than DTD
Still much less common than SchemaStill much less common than Schema
Creating instances of typesCreating instances of types
In programming languages, we instantiate objects:
struct Student s1, s2;s1.name = “Andrew”s1.ssn=“123-45-6789”;
Student s = new Student();s1.name = “Andrew”;s1.ssn=“123-45-6789”;.type(Student) :: s1s1%name = ‘Andrew’.
C
Java
Fortran
Creating XML documentsCreating XML documents
XML is XML is notnot a programming language! a programming language!
In XML we make a Student “object” in an xml file In XML we make a Student “object” in an xml file (Student.xml):(Student.xml):
<Student><Student>
<name>Andrew</name><name>Andrew</name>
<ssn>123-45-6789</ssn><ssn>123-45-6789</ssn>
<age>39</age><age>39</age>
<gpa>2.0</gpa><gpa>2.0</gpa>
</Student> </Student>
Think of this as like a serialized object.Think of this as like a serialized object.
XML and SchemaXML and Schema
Note that there are two parts to what we didNote that there are two parts to what we did Defining the “structure” layoutDefining the “structure” layout Defining an “instance” of the structureDefining an “instance” of the structure
The first is done with an appropriate Schema or The first is done with an appropriate Schema or DTD.DTD.The second is the XML partThe second is the XML partBoth can go in the same file, or an XML file can Both can go in the same file, or an XML file can refer to an external Schema or DTD (typical)refer to an external Schema or DTD (typical)From this point on we use only SchemaFrom this point on we use only SchemaExercise 1Exercise 1
??
Question: What can we do with such a file?Question: What can we do with such a file?
Some answers:Some answers:
Write corresponding Schema to define its contentWrite corresponding Schema to define its content
Write XSL transformation to displayWrite XSL transformation to display
Parse into a programming languageParse into a programming language
Exercise 1Exercise 1
Exercise 1 SolutionExercise 1 Solution<?xml version="1.0" encoding="UTF-8"?><cars> <car> <make>dodge</make> <model>ram</model> <color>red</color> <year>2004</year> <mileage>22000</mileage> </car>
<car> <make>Ford</make> <model>Pinto</model> <color>white</color> <year>1980</year> <mileage>100000</mileage> </car>
</cars>
Some sample XML Some sample XML documentsdocuments
Order / WhitespaceOrder / Whitespace
Note that element order is important, but whitespace in element data is not. This is the same as far as the xml parser is concerned:
<Article ><Headline>Direct Marketer Offended by Term 'Junk Mail' </Headline><authors>
<author> Joe Garden</author><author> Tim Harrod</author>
</authors><abstract>Dan Spengler, CEO of the direct-mail-marketing firm Mailbox of
Savings, took umbrage Monday at the use of the term <it>junk mail</it></abstract><body type="url" > http://www.theonion.com/archive/3-11-01.html </body>
</Article>
Molecule ExampleMolecule Example
XML is extremely useful for standardizing data sharing within XML is extremely useful for standardizing data sharing within specialized domains. Below is a part of the specialized domains. Below is a part of the Chemical Chemical Markup Language Markup Language describing a water molecule and its describing a water molecule and its constituentsconstituents
<?xml version "1.0" ?><?xml version "1.0" ?><CML><CML>
<MOL TITLE="Water" ><MOL TITLE="Water" ><ATOMS> <ATOMS>
<ARRAY BUILTIN="ELSYM" > H O H</ARRAY><ARRAY BUILTIN="ELSYM" > H O H</ARRAY></ATOMS></ATOMS><BONDS><BONDS>
<ARRAY BUILTIN="ATID1" >1 2</ARRAY><ARRAY BUILTIN="ATID1" >1 2</ARRAY><ARRAY BUILTIN="ATID2" >2 3</ARRAY><ARRAY BUILTIN="ATID2" >2 3</ARRAY><ARRAY BUILTIN="ORDER" >1 1</ARRAY><ARRAY BUILTIN="ORDER" >1 1</ARRAY>
</BONDS></BONDS></MOL></MOL>
</CML></CML>
Rooms exampleRooms example
A typical example showing a few more XML features:A typical example showing a few more XML features:
<?xml version="1.0" ?><?xml version="1.0" ?> <rooms> <rooms>
<room name="<room name="RedRed">"> <capacity><capacity>1010</capacity> </capacity> <equipmentList><equipmentList>
<equipment><equipment>ProjectorProjector</equipment> </equipment>
</equipmentList></equipmentList> </room></room><room name="<room name="GreenGreen">">
<capacity><capacity>55</capacity> </capacity> <equipmentList /> <equipmentList /> <features><features> <feature><feature>No RoofNo Roof</feature> </feature> </features></features>
</room></room> </rooms></rooms>
SuggestionSuggestion
Try building each of those documents in Try building each of those documents in an XML builder tool (XMLSpy, Oxygen, an XML builder tool (XMLSpy, Oxygen, etc.) or at least an XML-aware editor.etc.) or at least an XML-aware editor.
Note: it is not required to create a schema Note: it is not required to create a schema to do this. Just create new XML document to do this. Just create new XML document and start building.and start building.
Dissecting an XML Dissecting an XML DocumentDocument
Things that can appear in an XML documentThings that can appear in an XML document
ELEMENTSELEMENTS: : simplesimple, , complexcomplex, , emptyempty, or , or mixedmixed content model; content model; attributes. attributes.
The The XML declarationXML declaration
Processing instructions(PIsProcessing instructions(PIs) ) <? …?><? …?> Most common is Most common is <?xml-stylesheet …?><?xml-stylesheet …?> <?xml-stylesheet type=“text/css” <?xml-stylesheet type=“text/css” href=“mys.css”?>href=“mys.css”?>
CommentsComments <!-- <!-- comment textcomment text --> -->
Begin TagsEnd Tags
Tags
Attributes
<?xml version "1.0"<?xml version "1.0" ?>?>
<<CMLCML><><MOL TITLE="Water" MOL TITLE="Water" > <> <ATOMSATOMS>> <<ARRAY BUILTIN="ELSYM" ARRAY BUILTIN="ELSYM" >> H O H H O H</</ARRAYARRAY>></</ATOMSATOMS>><<BONDSBONDS>><<ARRAY BUILTIN="ATID1" >1 2ARRAY BUILTIN="ATID1" >1 2</</ARRAYARRAY>><<ARRAY BUILTIN="ATID2" >2 3ARRAY BUILTIN="ATID2" >2 3</</ARRAYARRAY>><<ARRAY BUILTIN="ORDER" >1 1ARRAY BUILTIN="ORDER" >1 1</</ARRAYARRAY>></</BONDSBONDS>></</MOLMOL>></</CMLCML>>
Parts of an XML documentParts of an XML documentDeclaration
AttributeValues
An XML element is everything from (including) the element's start tag to (including) the element's end tag.
XML and TreesXML and TreesTags give the structure of a Tags give the structure of a document. They divide the document. They divide the document up into document up into Elements, Elements, starting at the top most starting at the top most element, theelement, the root element. root element. The The stuff inside an element is its stuff inside an element is its content – content cancontent – content caninclude other elements along include other elements along with ‘character data’with ‘character data’
CML
MOL
ATOMS BONDS
ARRAY ARRAY ARRAY ARRAY
HOH 12 23 11
Root element
CDATA sections
XML and XML and TreesTrees
<?xml version "1.0"<?xml version "1.0" ?>?><<CMLCML>>
<<MOL TITLE="Water" MOL TITLE="Water" >><<ATOMSATOMS>>
<<ARRAY BUILTIN="ELSYM" ARRAY BUILTIN="ELSYM" >> H O H H O H</</ARRAYARRAY>></</ATOMSATOMS>><<BONDSBONDS>>
<<ARRAY BUILTIN="ATID1" >1 2ARRAY BUILTIN="ATID1" >1 2</</ARRAYARRAY>><<ARRAY BUILTIN="ATID2" >2 3ARRAY BUILTIN="ATID2" >2 3</</ARRAYARRAY>><<ARRAY BUILTIN="ORDER" >1 1ARRAY BUILTIN="ORDER" >1 1</</ARRAYARRAY>>
</</BONDSBONDS>></</MOLMOL>>
</</CMLCML>>
CML
MOL
ATOMS BONDS
ARRAY ARRAY ARRAY ARRAY
HOH 12 23 11
Root element
Data sections
XML and TreesXML and Trees
rooms
room
capacity equipmentlistequipmentlist
equipment
capacity
room
features
feature10
projector
5
No Roof
More detail on elementsMore detail on elements
Element relationshipsElement relationships
<book> <title>My First XML</title> <prod id="33-657" media="paper"></prod> <chapter>Introduction to XML <para>What is HTML</para> <para>What is XML</para> </chapter> <chapter>XML Syntax <para>Elements must have a closing tag</para> <para>Elements must be properly nested</para> </chapter> </book>
•Book is the root element.
•Title, prod, and chapter are child elements of book.
•Book is the parent element of title, prod, and chapter.
•Title, prod, and chapter are siblings (or sister elements) because they have the same parent.
Well formed XMLWell formed XML
Well-formed vs ValidWell-formed vs Valid
An XML document is said to be An XML document is said to be well-well-formedformed if it obeys basic semantic and if it obeys basic semantic and syntactic constraints.syntactic constraints.
This is different from a This is different from a validvalid XML XML document, which (as we will see in more document, which (as we will see in more depth) properly matches a schema.depth) properly matches a schema.
Rules for Well-Formed XMLRules for Well-Formed XML
An XML document is considered well-formed if it obeys the An XML document is considered well-formed if it obeys the following rules:following rules:
There must be one element that contains all others (root element)There must be one element that contains all others (root element)
All tags must be balanced All tags must be balanced <BOOK>...</BOOK><BOOK>...</BOOK> <BOOK /><BOOK />
Tags must be nested properly:Tags must be nested properly: <BOOK> <LINE> This is OK </LINE> </BOOK><BOOK> <LINE> This is OK </LINE> </BOOK> <LINE> <BOOK> This is </LINE> definitely NOT </BOOK> <LINE> <BOOK> This is </LINE> definitely NOT </BOOK>
OKOK
Element text is case-sensitive soElement text is case-sensitive so <P>This is not ok, even though we do it all the time <P>This is not ok, even though we do it all the time
in HTML!</p>in HTML!</p>
More Rules for Well-Formed XMLMore Rules for Well-Formed XML
The attributes in a tag must be in quotesThe attributes in a tag must be in quotes < ITEM CATEGORY=“Home and Garden” Name=“hoe-matic < ITEM CATEGORY=“Home and Garden” Name=“hoe-matic
t500”>t500”>
Comments are allowedComments are allowed <!–- They are done just as in HTML… --><!–- They are done just as in HTML… -->
Must begin withMust begin with <?xml version=‘1.0’ ?><?xml version=‘1.0’ ?>
Special characters must be escaped: the most common are Special characters must be escaped: the most common are < < " ' > &" ' > &
<formula> x < y+2x </formula><formula> x < y+2x </formula><cd title="" mmusic"><cd title="" mmusic">
Naming RulesNaming Rules
Naming rules for XML elementsNaming rules for XML elements Names may contain letters, numbers, and other
characters Names must not start with a number or punctuation
character Names must not start with the letters xml (or XML or
Xml ..) Names cannot contain spaces
Any name can be used, no words are reserved, but the idea is to make names descriptive. Names with an underscore separator are typical
Examples: <first_name>, <date_of_birth>, etc.
XML ToolsXML Tools
XML can be created with any text editorXML can be created with any text editor
Normally we use an XML-friendly editorNormally we use an XML-friendly editor e.g. XMLSpye.g. XMLSpy nXML emacs extensionsnXML emacs extensions MSXML on WindowsMSXML on Windows OxygenOxygen Etc etc.Etc etc.
To check and validate XML, use either these tools To check and validate XML, use either these tools and/or xmllint on Unix systems.and/or xmllint on Unix systems.
Another ViewAnother View
XML-as-data is one way to introduce XMLXML-as-data is one way to introduce XML
Another is as a Another is as a markup language markup language similar to html.similar to html.
One typically says that html has a fixed tag set, whereas One typically says that html has a fixed tag set, whereas XML allows the definition of arbitrary tagsXML allows the definition of arbitrary tags
This analogy is particularly useful when the goal is to use This analogy is particularly useful when the goal is to use XML for text presentation -- that is, when most of our XML for text presentation -- that is, when most of our data fields contain textdata fields contain text
Note that mixed element/text fields are permissible in XMLNote that mixed element/text fields are permissible in XML
Article exampleArticle example
<Article > <Headline>Direct Marketer Offended by Term 'Junk Mail' </Headline> <authors> <author> Joe Garden</author> <author> Tim Harrod</author> </authors> <abstract>Dan Spengler, CEO of the direct-mail-marketing firm Mailbox of Savings, took umbrage Monday at the use of the term <it>junk mail</it>. </abstract> <body type="url" > http://www.theonion.com/archive/3-11-01.html </body>
</Article>
More uses of XMLMore uses of XML
There is more!There is more!
A very popular use of XML is as a base syntax A very popular use of XML is as a base syntax for programming languages (the elements for programming languages (the elements become program control structures)become program control structures) XSLT, BPEL, ant, etc. are good examplesXSLT, BPEL, ant, etc. are good examples XML is ubiqitous and must have a deep XML is ubiqitous and must have a deep
understanding to be efficient and productiveunderstanding to be efficient and productive
Many other current and potential uses -- up to Many other current and potential uses -- up to the creativity of the programmerthe creativity of the programmer
XML SchemaXML Schema
There are many details to cover of schema There are many details to cover of schema specification. It is extremely rich, flexible, specification. It is extremely rich, flexible, and somewhat complexand somewhat complex
We will do this in detail next lectureWe will do this in detail next lecture
Now we begin with a brief introductionNow we begin with a brief introduction
XML Schema
XML itself does not restrict what elements existing in a document.
In a given application, you want to fix a vocabulary -- what elements make sense, what their types are, etc.
Use a Schema to define an XML dialect MusicXML, ChemXML, VoiceXML, ADXML, etc.
Restrict documents to those tags.
Schema can be used to validate a document -- ie to see if it obeys the rules of the dialect.
Schema determine …What sort of elements can appear in the document.
What elements MUST appear
Which elements can appear as part of another element
What attributes can appear or must appear
What kind of values can/must be in an attribute.
<?xml version="1.0" encoding="UTF-8"?><library> <book id="b0836217462" available="true"> <isbn> 0836217462 </isbn> <title lang="en"> Being a Dog is a Full-Time Job </title> <author id="CMS"> <name> Charles Schulz </name> <born> 1922-11-26 </born> <dead> 2000-02-12 </dead> </author> <character id="PP"> <name> Peppermint Patty </name> <born> 1966-08-22 </born> <qualification> bold,brash, and tomboyish </qualification> </character> <character id="Snoopy"> <name> Snoopy</name> <born>1950-10-04</born> <qualification>extroverted beagle</qualification> </character> <character id="Schroeder"> <name>Schroeder</name> <born>1951-05-30</born> <qualification>brought classical music to the Peanuts Strip</qualification> </character> <character id="Lucy"> <name>Lucy</name> <born>1952-03-03</born> <qualification>bossy, crabby, and selfish</qualification> </character> </book></library>
• We start with sample XML document and reverse engineer a schema as a simple example
First identify the elements:author, book, born, character,dead, isbn, library, name,qualification, title
Next categorize by contentmodelEmpty: contains nothingSimple: only text nodesComplex: only sub-elementsMixed: text nodes + sub-elements
Note: content model independentof comments, attributes, or processing instructions!
Content modelsContent models
Simple content model: name, born, title, dead, isbn, qualification
Complex content model: libarary, character, book, author
Content TypesContent Types
We further distinguish between complex and simple content Types: Simple Type: An element with only text nodes
and no child elements or attributes Complex Type: All other cases
We also say (and require) that all attributes themselves have simple type
Content TypesContent Types
Simple content type: name, born, dead, isbn, qualification
Complex content type: library, character, book, author, title
Exercise2 answerExercise2 answer
• In the previous example <book>
• book has element content, because it contains other elements.
• Chapter has mixed content because it contains both text
and other elements.
• Para has simple content (or text content) because it contains only text.
• Prod has empty content, because it carries no
information
Building the schemaBuilding the schema
Schema are XML documentsSchema are XML documents
They must contain a schema root element as suchThey must contain a schema root element as such <?xml version="1.0"?> <xs:schema xmlns:xs="http://www.w3.org/2001/XMLSchema"
targetNamespace="http://www.w3schools.com" xmlns="http://www.w3schools.com" elementFormDefault="qualified">
... ... </xs:schema>
We will discuss details in a bit -- note that yellow part can be excluded for now.
Flat schema for libraryFlat schema for library
Start by defining all of the simple types (including attributes):
<xs:schema xmlns:xs=http://www.w3.org/2001/XMLSchema> <xs:element name=“name” type=“xs:string”/> <xs:element name=“qualification” type=“xs:string”/> <xs:element name=“born” type=“xs:date”/> <xs:element name=“dead” type=“xs:date”/> <xs:element name=“isbn” type=“xs:string”/> <xs:attribute name=“id” type=“xs:ID”/> <xs:attribute name=“available” type=“xs:boolean”/> <xs:attribute name=“lang” type=“xs:language/> …/…</xs:schema>
Complex types with simple content
Now to complex types with simple content:
<title lang=“en”> Being a Dog is …</title>
<xs:element name=“title”> <xs:complexType> <xs:simpleContent> <xs:extension base=“xs:string”> <xs:attribute ref=“lang”/> </xs:extension> </xs:simpleContent> </xs:complexType></xs:element>
“the element named title has a complextype which is a simple content obtainedby extending the predefined datatypexs:string by adding the attribute definedin this schema and having the name lang.”
Complex TypesComplex Types
All other types are complex types with complex content. For example:
<xs:element name=“library”> <xs:complexType> <xs:sequence> <xs:element ref=“book” maxOccurs=“unbounded”/> </xs:sequence> </xs:complexType></xs:element>
<xs:element name=“author”> <xs:complexType> <xs:sequence> <xs:element ref=“name”/> <xs:element ref=“born”/> <xs:element ref=“dead” minOccurs=0/> </xs:sequence> <xs:attribute ref=“id”/> </xs:complexType></xs:element>
<?xml version="1.0" encoding="UTF-8"?><xs:schema xmlns:xs="http://www.w3.org/2001/XMLSchema"> <xs:element name="name" type="xs:string"/> <xs:element name="qualification" type="xs:string"/> <xs:element name="born" type="xs:date"> </xs:element> <xs:element name="dead" type="xs:date"> </xs:element> <xs:element name="isbn" type="xs:string"> </xs:element> <xs:attribute name="id" type="xs:ID"> </xs:attribute> <xs:attribute name="available" type="xs:boolean"> </xs:attribute> <xs:attribute name="lang" type="xs:language"> </xs:attribute> <xs:element name="title"> <xs:complexType> <xs:simpleContent> <xs:extension base="xs:string"> <xs:attribute ref="lang"> </xs:attribute> </xs:extension> </xs:simpleContent> </xs:complexType> </xs:element> <xs:element name="library"> <xs:complexType> <xs:sequence> <xs:element maxOccurs="unbounded" ref="book"> </xs:element> </xs:sequence> </xs:complexType> </xs:element> <xs:element name="author"> <xs:complexType> <xs:sequence> <xs:element ref="name"> </xs:element> <xs:element ref="born"> </xs:element> <xs:element ref="dead" minOccurs="0"> </xs:element> </xs:sequence> <xs:attribute ref="id"> </xs:attribute> </xs:complexType> </xs:element>
<xs:element name="book"> <xs:complexType> <xs:sequence> <xs:element ref="isbn"> </xs:element> <xs:element ref="title"> </xs:element> <xs:element ref="author" minOccurs="0" maxOccurs="unbounded”/> <xs:element ref="character" minOccurs="0" maxOccurs="unbounded"/> </xs:sequence> <xs:attribute ref="available"> </xs:attribute> <xs:attribute ref="id"> </xs:attribute> </xs:complexType> </xs:element> <xs:element name="character"> <xs:complexType> <xs:sequence> <xs:element ref="name"/> <xs:element ref="born"/> <xs:element ref="qualification"/> </xs:sequence> <xs:attribute ref="id"> </xs:attribute> </xs:complexType> </xs:element>
</xs:schema>
<?xml version="1.0" encoding="UTF-8"?><xs:schema xmlns:xs="http://www.w3.org/2001/XMLSchema"> <xs:element name="library"> <xs:complexType> <xs:sequence> <xs:element name="book" maxOccurs="unbounded"> <xs:complexType> <xs:sequence> <xs:element name="isbn" type="xs:integer"> </xs:element> <xs:element name="title"> <xs:complexType> <xs:simpleContent> <xs:extension base="xs:string"> <xs:attribute name="lang" type="xs:language" > </xs:attribute> </xs:extension> </xs:simpleContent> </xs:complexType> </xs:element> <xs:element name="author" minOccurs="0" maxOccurs="unbounded"> <xs:complexType> <xs:sequence> <xs:element name="name" type="xs:string"> </xs:element> <xs:element name="born" type="xs:date"> </xs:element> <xs:element name="dead" type="xs:date"> </xs:element> </xs:sequence> <xs:attribute name="id" type="xs:ID"> </xs:attribute> </xs:complexType> </xs:element> <xs:element name="character" minOccurs="0" maxOccurs="unbounded"> <xs:complexType> <xs:sequence> <xs:element name="name" type="xs:string"> </xs:element> <xs:element name="born" type="xs:date"> </xs:element> <xs:element name="qualification" type="xs:string" > </xs:element> </xs:sequence> <xs:attribute name="id" type="xs:ID"> </xs:attribute> </xs:complexType> </xs:element> </xs:sequence> <xs:attribute type="xs:ID" name="id"> </xs:attribute> <xs:attribute name="available" type="xs:boolean"> </xs:attribute> </xs:complexType> </xs:element> </xs:sequence> </xs:complexType> </xs:element></xs:schema>
Same schema but with everythingdefined locally!
Next LectureNext Lecture
Even with this simple example there are Even with this simple example there are many design issues to discussmany design issues to discuss When is a flat layout betterWhen is a flat layout better When is a nested layout betterWhen is a nested layout better What are scoping rulesWhat are scoping rules When to use ref= vs. defining new typeWhen to use ref= vs. defining new type
Schema in depth is topic of next lectureSchema in depth is topic of next lecture