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=== Week 6 [[Help:COAP-2180|COAP 2180]] ===
== Week 6 ==
Week six will focus on introducing some popular XML applications


(under preparation)
Main topics:
# Discussion of the exam
# Discussion of the term project
# XML namespaces (short recall)
# Introduction to static SVG and SMIL animations
# Discussion of the ePUB format: Quick mention of Calibre, a ePUB generating software and demonstration of Sigil (an ePub editor)


On week six we will have a look at namespaces and the ePUB format. You will learn how to
== Monday ==


* Integrate your XML with XHTML and the other way round
=== Discussion of the mid-term ===
* How complex compound documents such e-books and e-learning modules can be created


We also will discuss the term project (see below)
Short discussion of the mid-term.


==== Teaching materials ====
=== Discussion of the term project / DTD refinement ===


* [[XML namespace]]
The term project will include:
* [[ePub]] (a popular e-book format)
* A DTD that models a "domain of your choice". This domain should be somewhat text-centric, i.e. one must be able to display the data in a meaningful way with an XSLT stylesheet.
* An extensive XML test file
* Rendering in HTML via XSLT + CSS, therefore an .xsl and a .css file for the resulting HTML
* A second rendering in HTML via XSLT + CSS that will filter and (optionally) rearrange some data.
* An XML Schema (week 7) that adds some data constraints
* A report/documentation in HTML, PDF or Word format (at least 1/2 page, but more if you aim for a top grade)
 
Other constraints
* All elements can be revisions of prior homework
* Prior to turning in the project, the instructor '''must''' validate a draft DTD if the project is different from one of the prior homework. This is to prevent both failure and cheating...
 
On Wednesday, the instructor may discuss with each student if modifications ought to be made to DTDs made for prior homework (ask !)
 
'''Due:'''
* Presentation/demo on Monday week 8
* Final version on Wednesday week 8
 
=== ID / IDREF attributes ===
 
ID attributes require unique values. Below is an example that demonstrates use of an ID an IDREF, and an IDREFS attribute in order to create links between persons.
<source lang="XML">
<?xml version = "1.0"?>
<!DOCTYPE Folks [
<!ELEMENT Folks (Person*)>
<!ELEMENT Person (Name,Email?)>
<!ATTLIST Person Pin ID #REQUIRED>
<!ATTLIST Person Friend IDREF #IMPLIED>
<!ATTLIST Person Likes IDREFS #IMPLIED>
<!ELEMENT Name (#PCDATA)>
<!ELEMENT Email (#PCDATA)>
]>
<Folks>
    <Person Pin = "N1">
      <Name>Someone</Name>
    </Person>
 
    <Person Pin = "N2" Friend = "N1">
      <Name>Someone else</Name>
    </Person>
   
    <Person Pin = "N3" Likes = "N2 N1">
      <Name>Fan</Name>
    </Person>
</Folks>
</source>
 
=== XSLT code snippets for embedding pictures ===
* See also [[XSLT Tutorial - Basics]] and the '''optional''' [[XPath tutorial - basics]] and [[XSLT to generate SVG tutorial]]
 
URL is text of an element (<code><image>filename.png</image></code>):
<source lang="XML">
<xsl:template match="image">
  <p> <img src="{.}"/> </p>
</xsl:template>
</source>
 
URL is defined with an "source" attribute (<code><image source="filename.png">Cool picture</image></code>):
<source lang="XML">
<xsl:template match="image">
  <p>
      <img src="{@source}"/><br/>
      <xsl:value-of select="."/>  <!-- insert a caption -->
    </p>
</xsl:template>
</source>
 
Links follow the same logic, identify the HTML result you need, and read [[XSLT_Tutorial_-_Basics#Producing_HTML_Links|this]]
 
=== Creating link HTML links with XSLT ===
 
Creating links follows the same logic as dealing with pictures.
 
* Read: [[XSLT_Tutorial_-_Basics#Producing_HTML_Links|Producing HTML links]] (chapter from the XSLT Tutorial - Basics)
 
=== Internal tables of contents ===
 
Creating an internal table of contents is a bit more complicated. You must
* create internal anchors (<code><a name="....">...</a></code>)
* then create links that point to these (<code><a href="#....">...</a></code>)
 
Try to find a solution on the web, e.g. on with a google search like "stackoverflow xslt TOC". Make sure to narrow down good answers to ''simple'' solutions. Alternatively, search for "xslt create simple table of content"
 
'''New''': Read [[XSLT_Tutorial_-_Basics#Creating_an_internal_table_of_contents | Creating_an_internal_table_of_contents] (two examples that may help)]]
 
=== SVG ===
 
* [[Static SVG tutorial]]
* [[SVG/SMIL animation tutorial]], [[Interactive SVG-SMIL animation tutorial]]
* [[XSLT to generate SVG tutorial]]
 
; Tools
* https://svg-edit.github.io/svgedit/releases/svg-edit-2.8.1/svg-editor.html (Online editor)
* [https://inkscape.org/en/ Inkscape] (should be installed on your computer)


==== Discussion of the term project / DTD refinement ====
; Resources
* http://openclipart.org (largest open source clipart collection)
* http://thenounproject.com/ (huge collection of icons)


The term project will include:
=== Code snippets for SVG visualization with XSLT ===
* A DTD
 
* An extensive XML test file
<source lang="XML">
* Rendering in HTML via XSLT + CSS
<?xml version="1.0"?>
* An XML Schema (week 7)
<xsl:stylesheet version="1.0"
* A report/documentation
  xmlns:xsl="http://www.w3.org/1999/XSL/Transform"
  xmlns:xlink="http://www.w3.org/1999/xlink"
  xmlns="http://www.w3.org/1999/xhtml"
  >
<xsl:output
    method="xml"
    doctype-system="about:legacy-compat"
    omit-xml-declaration = "yes"
    encoding="UTF-8"
    indent="yes" />
<xsl:template match="/">
  <html xmlns="http://www.w3.org/1999/xhtml">
    <head>
      <meta charset="utf-8"></meta>
      <title>Anything</title>
    </head>
    <body>
      <xsl:apply-templates/>
    </body>
</html>
</xsl:template>
<xsl:template match="ELEMENT_THAT_CONTAINS_A_NUMBER">
  Something here: <xsl:apply-templates/>
  <xsl:variable name="NUMBER" select="."/>
  <svg style="background-color:yellow;float:right" width="20" height="100"
xmlns:xlink="http://www.w3.org/1999/xlink"
xmlns="http://www.w3.org/2000/svg">
    <rect x="5px" y="5px" height="{$NUMBER*1.2}" width="10px" fill="green" />
  </svg>
</xsl:template>
</xsl:stylesheet>
</source>
* See [http://edutechwiki.unige.ch/en/XSLT_to_generate_SVG_tutorial#Visualizing_some_numbers this] for a complete example...
 
== Wednesday ==
 
* SVG (continued ...): Adding an animation to a clipart object.
* Electronic books with Epub
* Time for work on individual projects
 
=== Integration of XML languages with namespaces ===
* [[XML namespace]]s
* [[XSLT for compound documents tutorial]]
 
'''Textbook chapters'''
 
* Harold, XML in a Nutshell, Chapter 4 Namespaces (more informative)
* Learning XML, Chapter "Markup and Core Concept". Namespace are shortly explained in the Elements Section
 
== Homework 5/6 ==
 
Unless you are behind with homework, pick only one.
 
=== Homework 5  ===
 
'''Task'''
 
* Revise homework 4 so that the DTD includes '''internal and external links''' and '''pictures'''. Alternatively, create a new DTD
* Modify or create the XSLT so that it will display pictures and internal as well as external links. Displaying an internal link also can mean that you insert a value of the linked element (e.g. a name).
* Create a CSS for the generated HTML or improve the existing one, either use inline styles or better: an external CSS file)
* (Optional), output HTML5 including some SVG
 
Tips:
* Use a template for each of your elements, otherwise make sure that you include contents using ''xsl:value-of'' or ''{...}'' within HTML attributes.
* Elements that only include other elements and no text should just be made into <nowiki><div> .... </div></nowiki> blocks for styling
* For debugging, '''use an XSLT processor''' (e.g. in the Exchanger editor) to manually create an HTML file, then look at its structure. You also should validate the file. Alternatively, use IE to look at the HTML transformation.
 
'''Deadline and submission:'''
* '''Monday week 7''' (before start of class)
* Use the world classroom: https://webster.blackboard.edu/
* Submit the *.dtd, the *.xml test files, the *.xslt file, the *.css file, multimedia assets (pictures), an optional optional report file (see below)
 
'''Evaluation criteria (roughly)'''
 
''Work considered as weak:''
* Incomplete rendering of elements, e.g. pictures do not show.
 
''Work considered as minimalistic:''
* Minimal rendering of elements, e.g. no extra information inserted
* XSLT can deal with pictures and links
* Very minimal CSS
 
''Good work and excellent work (B to A-) may include '''one''' or several of the following:
* Inserted comments <!-- ... --> in the XSLT that explain some (not all of the translation)
* XSLT will add output that is needed to make the XML contents understandable
* A report (e.g. in HTML, word, PDF etc.)
* Good styling (usability)
* Good styling (coolness)
* Almost valid HTML produced
* HTML5 + SVG output
* Automatically generated table of contents.
 
''Brilliant work (A)
* Does most of the above, i.e. produces a result that could be used in real life.
 
=== Homework 6 (SVG) ===
 
'''Due:''' Before start of class, Wednesday week 7'''
 
'''Task (2 options) '''
 
; Option A:
* Create some HTML5 contents that include an interesting SVG animation.
(Bonus for a start "button", you will have to do some reading...).
 
; Option B:
* Alternatively, create an SVG data visualization made with XSLT.
* Start from a '''data-rich''' XML file. There is not need to create a DTD, a well-formed XML file with meaningful tags is enough.
* For the SVG generation you can either use XSLT or use a PHP XML parser (sax, dom or simple) or E4X (Javascript)
 
; Resources
* Wiki pages: [[SVG]] (links), [[Static SVG tutorial]]
** Option A:[[SVG/SMIL animation tutorial]], [[Interactive SVG-SMIL animation tutorial]]
** Option B:[[XSLT to generate SVG tutorial]]
 
Upload: all files
 
== List of teaching materials ==
 
''' [[Tour de XML]]''' (cancelled this week)
 
'''Demonstration'''
* [http://tecfa.unige.ch/guides/xml/examples/dtd-examples/cuisine.xml cuisine.xml] - [http://tecfa.unige.ch/guides/xml/examples/dtd-examples/cuisine.xsl cuisine.xsl] - [http://tecfa.unige.ch/guides/xml/examples/dtd-examples/cuisine.css cuisine.css]
 
'''Using the editor'''
* [[Exchanger XML Editor]] (in particular, read the sections concerning XSLT)
* In case you are using another XML editor that can't do XSLT transformations, you could use the debug tools of IE (hit F12).
 
'''XSLT and XPath texts'''
* [[XSLT Tutorial - Basics]]
* [[DTD tutorial]] (wiki lecture notes, recall)
* [[XPath tutorial - basics]] (optional wiki lecture notes for doing more advanced stuff)
* [http://tecfa.unige.ch/guides/te/files/xml-xslt.pdf xml-xslt.pdf] (slides)
 
'''SVG texts''' ('''optional''')
* [[Static SVG tutorial]] (important)
* [[Using SVG with HTML5 tutorial]]
* [[SVG/SMIL animation tutorial]]
* [[XSLT to generate SVG tutorial]]
 
'''Examples files (also on the N: drive)'''
 
* [http://tecfa.unige.ch/guides/xml/examples/dtd-examples/ DTD and XML templates example directory]
* [http://tecfa.unige.ch/guides/xml/examples/xsl-simple/ Simple XSLT examples]
 
'''Textbook chapters'''
 
If you find that my lecture notes and slides are incomplete, too short or not good enough, reading '''either one or both texts''' is '''mandatory''' !


On Monday, the instructor will discuss with each students if modifications ought to be made to DTDs made for prior homework.
DTDs:
* XML in a Nutshell, Chapter 3 Document Type Definitions (start here)
* Learning XML, Chapter 4 Quality Control with Schemas (additional reading)
XSLT:
* Ray, Learning XML, Second Edition, '''Transformation with XSLT''' chapter
* Ray, Learning XML, Second Edition, '''XPath and XPointer''' chapter (pp. 205-213)
* Harold, XML in a Nutshell, '''XSL Transformations (XSLT)''' chapter (optional)


All elements can be revisions of prior homework
These chapters are available through the world classroom.

Latest revision as of 07:55, 1 May 2017

Week 6

Week six will focus on introducing some popular XML applications

Main topics:

  1. Discussion of the exam
  2. Discussion of the term project
  3. XML namespaces (short recall)
  4. Introduction to static SVG and SMIL animations
  5. Discussion of the ePUB format: Quick mention of Calibre, a ePUB generating software and demonstration of Sigil (an ePub editor)

Monday

Discussion of the mid-term

Short discussion of the mid-term.

Discussion of the term project / DTD refinement

The term project will include:

  • A DTD that models a "domain of your choice". This domain should be somewhat text-centric, i.e. one must be able to display the data in a meaningful way with an XSLT stylesheet.
  • An extensive XML test file
  • Rendering in HTML via XSLT + CSS, therefore an .xsl and a .css file for the resulting HTML
  • A second rendering in HTML via XSLT + CSS that will filter and (optionally) rearrange some data.
  • An XML Schema (week 7) that adds some data constraints
  • A report/documentation in HTML, PDF or Word format (at least 1/2 page, but more if you aim for a top grade)

Other constraints

  • All elements can be revisions of prior homework
  • Prior to turning in the project, the instructor must validate a draft DTD if the project is different from one of the prior homework. This is to prevent both failure and cheating...

On Wednesday, the instructor may discuss with each student if modifications ought to be made to DTDs made for prior homework (ask !)

Due:

  • Presentation/demo on Monday week 8
  • Final version on Wednesday week 8

ID / IDREF attributes

ID attributes require unique values. Below is an example that demonstrates use of an ID an IDREF, and an IDREFS attribute in order to create links between persons.

<?xml version = "1.0"?>
<!DOCTYPE Folks [
	<!ELEMENT Folks (Person*)>
	<!ELEMENT Person (Name,Email?)>
	<!ATTLIST Person Pin ID #REQUIRED>
	<!ATTLIST Person Friend IDREF #IMPLIED>
	<!ATTLIST Person Likes IDREFS #IMPLIED>
	<!ELEMENT Name (#PCDATA)>
	<!ELEMENT Email (#PCDATA)>
	]>
<Folks>
    <Person Pin = "N1">
      <Name>Someone</Name>
    </Person>

    <Person Pin = "N2" Friend = "N1">
      <Name>Someone else</Name>
    </Person>
    
    <Person Pin = "N3" Likes = "N2 N1">
      <Name>Fan</Name>
    </Person>
</Folks>

XSLT code snippets for embedding pictures

URL is text of an element (<image>filename.png</image>):

<xsl:template match="image">
   <p> <img src="{.}"/> </p>
</xsl:template>

URL is defined with an "source" attribute (<image source="filename.png">Cool picture</image>):

<xsl:template match="image">
   <p> 
      <img src="{@source}"/><br/>
      <xsl:value-of select="."/>  <!-- insert a caption -->
    </p>
</xsl:template>

Links follow the same logic, identify the HTML result you need, and read this

Creating link HTML links with XSLT

Creating links follows the same logic as dealing with pictures.

Internal tables of contents

Creating an internal table of contents is a bit more complicated. You must

  • create internal anchors (<a name="....">...</a>)
  • then create links that point to these (<a href="#....">...</a>)

Try to find a solution on the web, e.g. on with a google search like "stackoverflow xslt TOC". Make sure to narrow down good answers to simple solutions. Alternatively, search for "xslt create simple table of content"

New: Read Creating_an_internal_table_of_contents] (two examples that may help)

SVG

Tools
Resources

Code snippets for SVG visualization with XSLT

<?xml version="1.0"?>
<xsl:stylesheet version="1.0" 
   xmlns:xsl="http://www.w3.org/1999/XSL/Transform"
   xmlns:xlink="http://www.w3.org/1999/xlink" 
   xmlns="http://www.w3.org/1999/xhtml"
   >
 
<xsl:output
     method="xml"
     doctype-system="about:legacy-compat"
     omit-xml-declaration = "yes"
     encoding="UTF-8"
     indent="yes" />
 
 <xsl:template match="/">
   <html xmlns="http://www.w3.org/1999/xhtml">
     <head>
       <meta charset="utf-8"></meta>
       <title>Anything</title>
     </head>
     <body>
       <xsl:apply-templates/>
     </body>
 </html>
 </xsl:template>
 
 <xsl:template match="ELEMENT_THAT_CONTAINS_A_NUMBER">
   Something here: <xsl:apply-templates/>
   <xsl:variable name="NUMBER" select="."/>
   <svg style="background-color:yellow;float:right" width="20" height="100" 
	xmlns:xlink="http://www.w3.org/1999/xlink" 
	xmlns="http://www.w3.org/2000/svg">
     <rect x="5px" y="5px" height="{$NUMBER*1.2}" width="10px" fill="green" />
   </svg>
 </xsl:template>
 
</xsl:stylesheet>
  • See this for a complete example...

Wednesday

  • SVG (continued ...): Adding an animation to a clipart object.
  • Electronic books with Epub
  • Time for work on individual projects

Integration of XML languages with namespaces

Textbook chapters

  • Harold, XML in a Nutshell, Chapter 4 Namespaces (more informative)
  • Learning XML, Chapter "Markup and Core Concept". Namespace are shortly explained in the Elements Section

Homework 5/6

Unless you are behind with homework, pick only one.

Homework 5

Task

  • Revise homework 4 so that the DTD includes internal and external links and pictures. Alternatively, create a new DTD
  • Modify or create the XSLT so that it will display pictures and internal as well as external links. Displaying an internal link also can mean that you insert a value of the linked element (e.g. a name).
  • Create a CSS for the generated HTML or improve the existing one, either use inline styles or better: an external CSS file)
  • (Optional), output HTML5 including some SVG

Tips:

  • Use a template for each of your elements, otherwise make sure that you include contents using xsl:value-of or {...} within HTML attributes.
  • Elements that only include other elements and no text should just be made into <div> .... </div> blocks for styling
  • For debugging, use an XSLT processor (e.g. in the Exchanger editor) to manually create an HTML file, then look at its structure. You also should validate the file. Alternatively, use IE to look at the HTML transformation.

Deadline and submission:

  • Monday week 7 (before start of class)
  • Use the world classroom: https://webster.blackboard.edu/
  • Submit the *.dtd, the *.xml test files, the *.xslt file, the *.css file, multimedia assets (pictures), an optional optional report file (see below)

Evaluation criteria (roughly)

Work considered as weak:

  • Incomplete rendering of elements, e.g. pictures do not show.

Work considered as minimalistic:

  • Minimal rendering of elements, e.g. no extra information inserted
  • XSLT can deal with pictures and links
  • Very minimal CSS

Good work and excellent work (B to A-) may include one or several of the following:

  • Inserted comments in the XSLT that explain some (not all of the translation)
  • XSLT will add output that is needed to make the XML contents understandable
  • A report (e.g. in HTML, word, PDF etc.)
  • Good styling (usability)
  • Good styling (coolness)
  • Almost valid HTML produced
  • HTML5 + SVG output
  • Automatically generated table of contents.

Brilliant work (A)

  • Does most of the above, i.e. produces a result that could be used in real life.

Homework 6 (SVG)

Due: Before start of class, Wednesday week 7

Task (2 options)

Option A
  • Create some HTML5 contents that include an interesting SVG animation.

(Bonus for a start "button", you will have to do some reading...).

Option B
  • Alternatively, create an SVG data visualization made with XSLT.
  • Start from a data-rich XML file. There is not need to create a DTD, a well-formed XML file with meaningful tags is enough.
  • For the SVG generation you can either use XSLT or use a PHP XML parser (sax, dom or simple) or E4X (Javascript)
Resources

Upload: all files

List of teaching materials

Tour de XML (cancelled this week)

Demonstration

Using the editor

  • Exchanger XML Editor (in particular, read the sections concerning XSLT)
  • In case you are using another XML editor that can't do XSLT transformations, you could use the debug tools of IE (hit F12).

XSLT and XPath texts

SVG texts (optional)

Examples files (also on the N: drive)

Textbook chapters

If you find that my lecture notes and slides are incomplete, too short or not good enough, reading either one or both texts is mandatory !

DTDs:

  • XML in a Nutshell, Chapter 3 Document Type Definitions (start here)
  • Learning XML, Chapter 4 Quality Control with Schemas (additional reading)

XSLT:

  • Ray, Learning XML, Second Edition, Transformation with XSLT chapter
  • Ray, Learning XML, Second Edition, XPath and XPointer chapter (pp. 205-213)
  • Harold, XML in a Nutshell, XSL Transformations (XSLT) chapter (optional)

These chapters are available through the world classroom.