Completed the third main section of the HPSF HOW-TO.
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@ -33,10 +33,9 @@
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</li>
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<li>
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<p>The <link href="#sec3">third section</link> tells how to read
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<p>The <link href="#sec3">third section</link> tells how to read
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non-standard properties. Non-standard properties are application-specific
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name/value/type triples. <em>This section is still to be written. Look up
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the API documentation for the time being!</em></p>
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triples consisting of an ID, a type, and a value.</p>
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</li>
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</ol>
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@ -303,54 +302,60 @@ else
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<section title="Reading Non-Standard Properties">
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<note>This section tells how to read non-standard properties. Non-standard
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properties are application-specific name/type/value triples.</note>
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properties are application-specific ID/type/value triples.</note>
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<p>Now comes the really hardcode stuff. As mentioned above,
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<code>SummaryInformation</code> and
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<code>DocumentSummaryInformation</code> are just special cases of the
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general concept of a property set. The general concept says that a
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property set consists of <strong>properties</strong>. Each property is an
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entity that has a <strong>name</strong>, a <strong>type</strong>, and a
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<strong>value</strong>.</p>
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<section title="Overview">
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<p>Now comes the real hardcode stuff. As mentioned above,
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<code>SummaryInformation</code> and
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<code>DocumentSummaryInformation</code> are just special cases of the
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general concept of a property set. This concept says that a
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<strong>property set</strong> consists of properties and that each
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<strong>property</strong> is an entity with an <strong>ID</strong>, a
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<strong>type</strong>, and a <strong>value</strong>.</p>
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<p>Okay, that was still rather easy. However, to make things more
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complicated, Microsoft in its infinite wisdom decided that a property set
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shalt be broken into <strong>sections</strong>. Each section holds a bunch
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of properties. But since that's still not complicated enough: A section
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can optionally have a dictionary that maps property IDs to property
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names - we'll explain later what that means.</p>
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<p>Okay, that was still rather easy. However, to make things more
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complicated, Microsoft in its infinite wisdom decided that a property set
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shalt be broken into one or more <strong>sections</strong>. Each section
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holds a bunch of properties. But since that's still not complicated
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enough, a section may have an optional <strong>dictionary</strong> that
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maps property IDs to <strong>property names</strong> - we'll explain
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later what that means.</p>
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<p>So the procedure to get to the properties is as follows:</p>
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<p>The procedure to get to the properties is the following:</p>
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<ol>
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<li>Use the <code>PropertySetFactory</code> to create a
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<code>PropertySet</code> from an input stream. You can try this with any
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input stream: You'll either <code>PropertySet</code> instance or an
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exception is thrown.</li>
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<ol>
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<li>Use the <strong><code>PropertySetFactory</code></strong> class to
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create a <code>PropertySet</code> object from a property set stream. If
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you don't know whether an input stream is a property set stream, just
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try to call <code>PropertySetFactory.create(java.io.InputStream)</code>:
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You'll either get a <code>PropertySet</code> instance returned or an
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exception is thrown.</li>
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<li>Call the <code>PropertySet</code>'s method <code>getSections()</code>
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to get a list of sections contained in the property set. Each section is
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an instance of the <code>Section</code> class.</li>
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<li>Call the <code>PropertySet</code>'s method <code>getSections()</code>
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to get the sections contained in the property set. Each section is
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an instance of the <code>Section</code> class.</li>
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<li>Each section has a format ID. The format ID of the first section in a
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property set determines the property set's type. For example, the first
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(and only) section of the SummaryInformation property set has a format ID
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of <code>F29F85E0-4FF9-1068-AB-91-08-00-2B-27-B3-D9</code>. You can
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get the format ID with <code>Section.getFormatID()</code>.</li>
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<li>Each section has a format ID. The format ID of the first section in a
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property set determines the property set's type. For example, the first
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(and only) section of the SummaryInformation property set has a format
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ID of <code>F29F85E0-4FF9-1068-AB-91-08-00-2B-27-B3-D9</code>. You can
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get the format ID with <code>Section.getFormatID()</code>.</li>
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<li>The properties contained in a <code>Section</code> can be retrieved
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with <code>Section.getProperties()</code>. The result is an array of
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<code>Property</code> instances.</li>
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<li>The properties contained in a <code>Section</code> can be retrieved
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with <code>Section.getProperties()</code>. The result is an array of
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<code>Property</code> instances.</li>
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<li>A property has a name, a type, and a value. The <code>Property</code>
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class has methods to retrieve them.</li>
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</ol>
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<li>A property has a name, a type, and a value. The <code>Property</code>
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class has methods to retrieve them.</li>
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</ol>
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</section>
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<p>Let's have a look at a sample Java application that dumps all property
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set streams contained in a POI file system. The full source code of this
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program can be found as <em>ReadCustomPropertySets.java</em> in the
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<em>examples</em> area of the POI source code tree. Here are the key
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sections:</p>
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<section title="A Sample Application">
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<p>Let's have a look at a sample Java application that dumps all property
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set streams contained in a POI file system. The full source code of this
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program can be found as <em>ReadCustomPropertySets.java</em> in the
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<em>examples</em> area of the POI source code tree. Here are the key
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sections:</p>
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<source>import java.io.*;
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import java.util.*;
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@ -381,8 +386,10 @@ import org.apache.poi.util.HexDump;</source>
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<p>The <code>POIFSReader</code> is set up in a way that the listener
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<code>MyPOIFSReaderListener</code> is called on every file in the POI file
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system.</p>
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</section>
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<p>The listener class tries to create a <code>PropertySet</code> from each
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<section title="The Property Set">
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<p>The listener class tries to create a <code>PropertySet</code> from each
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stream using the <code>PropertySetFactory.create()</code> method:</p>
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<source>static class MyPOIFSReaderListener implements POIFSReaderListener
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@ -420,8 +427,10 @@ import org.apache.poi.util.HexDump;</source>
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other types of exceptions cause the program to terminate by throwing a
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runtime exception. If all went well, we can print the name of the property
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set stream.</p>
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</section>
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<p>The next step is to print the number of sections followed by the
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<section title="The Sections">
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<p>The next step is to print the number of sections followed by the
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sections themselves:</p>
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<source>/* Print the number of sections: */
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@ -439,18 +448,18 @@ for (Iterator i = sections.iterator(); i.hasNext();)
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// See below for the complete loop body.
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}</source>
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<p>The <code>PropertySet</code>'s method <code>getSectionCount()</code>
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returns the number of sections.</p>
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<p>The <code>PropertySet</code>'s method <code>getSectionCount()</code>
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returns the number of sections.</p>
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<p>To retrieve the sections, use the <code>getSections()</code>
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method. This method returns a <code>java.util.List</code> containing
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instances of the <code>Section</code> class in their proper order.</p>
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<p>To retrieve the sections, use the <code>getSections()</code>
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method. This method returns a <code>java.util.List</code> containing
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instances of the <code>Section</code> class in their proper order.</p>
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<p>The sample code shows a loop that retrieves the <code>Section</code>
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objects one by one and prints some information about each one. Here is the
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complete body of the loop:</p>
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<p>The sample code shows a loop that retrieves the <code>Section</code>
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objects one by one and prints some information about each one. Here is
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the complete body of the loop:</p>
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<source>/* Print a single section: */
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<source>/* Print a single section: */
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Section sec = (Section) i.next();
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out(" Section " + nr++ + ":");
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String s = hex(sec.getFormatID().getBytes());
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@ -473,49 +482,53 @@ for (int i2 = 0; i2 < properties.length; i2++)
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out(" Property ID: " + id + ", type: " + type +
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", value: " + value);
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}</source>
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</section>
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<p>The first method called on the <code>Section</code> instance is
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<code>getFormatID()</code>. As explained above, the format ID of the first
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section in a property set determines the type of the property set. Its
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type is <code>ClassID</code> which is essentially a sequence of 16
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bytes. A real application using its own type of a custom property set
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should have defined a unique format ID and, when reading a property set
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stream, should check the format ID is equal to that unique format ID. The
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sample program just prints the format ID it finds in a section:</p>
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<section title="The Section's Format ID">
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<p>The first method called on the <code>Section</code> instance is
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<code>getFormatID()</code>. As explained above, the format ID of the
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first section in a property set determines the type of the property
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set. Its type is <code>ClassID</code> which is essentially a sequence of
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16 bytes. A real application using its own type of a custom property set
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should have defined a unique format ID and, when reading a property set
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stream, should check the format ID is equal to that unique format ID. The
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sample program just prints the format ID it finds in a section:</p>
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<source>String s = hex(sec.getFormatID().getBytes());
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<source>String s = hex(sec.getFormatID().getBytes());
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s = s.substring(0, s.length() - 1);
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out(" Format ID: " + s);</source>
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<p>As you can see, the <code>getFormatID()</code> method returns a
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<code>ClassID</code> object. An array containing the bytes can be
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retrieved with <code>ClassID.getBytes()</code>. In order to get a nicely
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formatted printout, the sample program uses the <code>hex()</code> helper
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method which in turn uses the POI utility class <code>HexDump</code> in
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the <code>org.apache.poi.util</code> package. Another helper method is
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<code>out()</code> which just saves typing
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<code>System.out.println()</code>.</p>
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<p>As you can see, the <code>getFormatID()</code> method returns a
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<code>ClassID</code> object. An array containing the bytes can be
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retrieved with <code>ClassID.getBytes()</code>. In order to get a nicely
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formatted printout, the sample program uses the <code>hex()</code> helper
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method which in turn uses the POI utility class <code>HexDump</code> in
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the <code>org.apache.poi.util</code> package. Another helper method is
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<code>out()</code> which just saves typing
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<code>System.out.println()</code>.</p>
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</section>
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<p>Before getting the properties, it is possible to find out how many
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properties are available in the section via the
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<code>Section.getPropertyCount()</code>. The sample application uses this
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method to print the number of properties to the standard output:</p>
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<section title="The Properties">
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<p>Before getting the properties, it is possible to find out how many
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properties are available in the section via the
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<code>Section.getPropertyCount()</code>. The sample application uses this
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method to print the number of properties to the standard output:</p>
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<source>int propertyCount = sec.getPropertyCount();
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<source>int propertyCount = sec.getPropertyCount();
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out(" No. of properties: " + propertyCount);</source>
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<p>Now its time to get to the properties themselves. You can retrieve a
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section's properties with the method
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<code>Section.getProperties()</code>:</p>
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<p>Now its time to get to the properties themselves. You can retrieve a
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section's properties with the method
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<code>Section.getProperties()</code>:</p>
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<source>Property[] properties = sec.getProperties();</source>
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<source>Property[] properties = sec.getProperties();</source>
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<p>As you can see the result is an array of <code>Property</code>
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objects. This class has three methods to retrieve a property's ID, its
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type, and its value. The following code snippet shows how to call
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them:</p>
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<p>As you can see the result is an array of <code>Property</code>
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objects. This class has three methods to retrieve a property's ID, its
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type, and its value. The following code snippet shows how to call
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them:</p>
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<source>for (int i2 = 0; i2 < properties.length; i2++)
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<source>for (int i2 = 0; i2 < properties.length; i2++)
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{
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/* Print a single property: */
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Property p = properties[i2];
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@ -525,15 +538,17 @@ out(" No. of properties: " + propertyCount);</source>
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out(" Property ID: " + id + ", type: " + type +
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", value: " + value);
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}</source>
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</section>
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<p>The output of the sample program might look like the following. It shows
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the summary information and the document summary information property sets
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of a Microsoft Word document. However, unlike the first and second section
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of this HOW-TO the application does not have any code which is specific to
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the <code>SummaryInformation</code> and
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<code>DocumentSummaryInformation</code> classes.</p>
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<section title="Sample Output">
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<p>The output of the sample program might look like the following. It
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shows the summary information and the document summary information
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property sets of a Microsoft Word document. However, unlike the first and
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second section of this HOW-TO the application does not have any code
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which is specific to the <code>SummaryInformation</code> and
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<code>DocumentSummaryInformation</code> classes.</p>
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<source>Property set stream "/SummaryInformation":
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<source>Property set stream "/SummaryInformation":
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No. of sections: 1
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Section 0:
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Format ID: 00000000 F2 9F 85 E0 4F F9 10 68 AB 91 08 00 2B 27 B3 D9 ....O..h....+'..
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@ -588,29 +603,247 @@ No property set stream: "/WordDocument"
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No property set stream: "/CompObj"
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No property set stream: "/1Table"</source>
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<p>There are some interestion items to note:</p>
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<p>There are some interestion items to note:</p>
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<ul>
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<li>The first property set (summary information) consists of a single
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<ul>
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<li>The first property set (summary information) consists of a single
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section, the second property set (document summary information) consists
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of two sections.</li>
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<li>Each section type (identified by its format ID) has its own domain of
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property ID. For example, in the second property set the properties with
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ID 2 have different meanings in the two section. By the way, the format
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IDs of these sections are <strong>not</strong> equal, but you have to
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look hard to find the difference.</li>
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<li>Each section type (identified by its format ID) has its own domain of
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property ID. For example, in the second property set the properties with
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ID 2 have different meanings in the two section. By the way, the format
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IDs of these sections are <strong>not</strong> equal, but you have to
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look hard to find the difference.</li>
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<li>The properties are not in any particular order in the section,
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although they slightly tend to be sorted by their IDs.</li>
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</ul>
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<li>The properties are not in any particular order in the section,
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although they slightly tend to be sorted by their IDs.</li>
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</ul>
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</section>
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<note>[To be continued.]</note>
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<section title="Property IDs">
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<p>Properties in the same section are distinguished by their IDs. This is
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similar to variables in a programming language like Java, which are
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distinguished by their names. But unlike variable names, property IDs are
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simple integral numbers. There is another similarity, however. Just like
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a Java variable has a certain scope (e.g. a member variables in a class),
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a property ID also has its scope of validity: the section.</p>
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<note>A last note: There are still some aspects of HSPF left which are not
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documented in this HOW-TO. You should dig into the Javadoc API
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documentation to learn further details. Since you struggled through this
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document up to this point, you are well prepared.</note>
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<p>Two property IDs in sections with different section format IDs
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don't have the same meaning even though their IDs might be equal. For
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example, ID 4 in the first (and only) section of a summary
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information property set denotes the document's author, while ID 4 in the
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first section of the document summary information property set means the
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document's byte count. The sample output above does not show a property
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with an ID of 4 in the first section of the document summary information
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property set. That means that the document does not have a byte
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count. However, there is a property with an ID of 4 in the
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<em>second</em> section: This is a user-defined property ID - we'll get
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to that topic in a minute.</p>
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<p>So, how can you find out what the meaning of a certain property ID in
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the summary information and the document summary information property set
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is? The standard property sets as such don't have any hints about the
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<strong>meanings of their property IDs</strong>. For example, the summary
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information property set does not tell you that the property ID 4 stands
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for the document's author. This is external knowledge. Microsoft defined
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standard meanings for some of the property IDs in the summary information
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and the document summary information property sets. As a help to the Java
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and POI programmer, the class <code>PropertyIDMap</code> in the
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<code>org.apache.poi.hpsf.wellknown</code> package defines constants
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for the "well-known" property IDs. For example, there is the
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definition</p>
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<source>public final static int PID_AUTHOR = 4;</source>
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<p>These definitions allow you to use symbolic names instead of
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numbers.</p>
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<p>In order to provide support for the other way, too, - i.e. to map
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property IDs to property names - the class <code>PropertyIDMap</code>
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defines two static methods:
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<code>getSummaryInformationProperties()</code> and
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<code>getDocumentSummaryInformationProperties()</code>. Both return
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<code>java.util.Map</code> objects which map property IDs to
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strings. Such a string gives a hint about the property's meaning. For
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example,
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<code>PropertyIDMap.getSummaryInformationProperties().get(4)</code>
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returns the string "PID_AUTHOR". An application could use this string as
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a key to a localized string which is displayed to the user, e.g. "Author"
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in English or "Verfasser" in German. HPSF might provide such
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language-dependend ("localized") mappings in a later release.</p>
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<p>Usually you won't have to deal with those two maps. Instead you should
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call the <code>Section.getPIDString(int)</code> method. It returns the
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string associated with the specified property ID in the context of the
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<code>Section</code> object.</p>
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<p>Above you learned that property IDs have a meaning in the scope of a
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section only. However, there are two exceptions to the rule: The property
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IDs 0 and 1 have a fixed meaning in <strong>all</strong> sections:</p>
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<table>
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<tr>
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<th>Property ID</th>
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<th>Meaning</th>
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</tr>
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<tr>
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<td>0</td>
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<td>The property's value is a <strong>dictionary</strong>, i.e. a
|
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mapping from property IDs to strings.</td>
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</tr>
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<tr>
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<td>1</td>
|
||||
<td>The property's value is the number of a <strong>codepage</strong>,
|
||||
i.e. a mapping from character codes to characters. All strings in the
|
||||
section containing this property must be interpreted using this
|
||||
codepage. Typical property values are 1252 (8-bit "western" characters)
|
||||
or 1200 (16-bit Unicode characters).</td>
|
||||
</tr>
|
||||
</table>
|
||||
</section>
|
||||
|
||||
<section title="Property types">
|
||||
<p>A property is nothing without its value. It is stored in a property set
|
||||
stream as a sequence of bytes. You must know the property's
|
||||
<strong>type</strong> in order to properly interpret those bytes and
|
||||
reasonably handle the value. A property's type is one of the so-called
|
||||
Microsoft-defined <strong>"variant types"</strong>. When you call
|
||||
<code>Property.getType()</code> you'll get a <code>long</code> value
|
||||
which denoting the property's variant type. The class
|
||||
<code>Variant</code> in the <code>org.apache.poi.hpsf</code> package
|
||||
holds most of those <code>long</code> values as named constants. For
|
||||
example, the constant <code>VT_I4 = 3</code> means a signed integer value
|
||||
of four bytes. Examples of other types are <code>VT_LPSTR = 30</code>
|
||||
meaning a null-terminated string of 8-bit characters, <code>VT_LPWSTR =
|
||||
31</code> which means a null-terminated Unicode string, or <code>VT_BOOL
|
||||
= 11</code> denoting a boolean value.</p>
|
||||
|
||||
<p>In most cases you won't need a property's type because HPSF does all
|
||||
the work for you.</p>
|
||||
</section>
|
||||
|
||||
<section title="Property values">
|
||||
<p>When an application wants to retrieve a property's value and calls
|
||||
<code>Property.getValue()</code>, HPSF has to interpret the bytes making
|
||||
out the value according to the property's type. The type determines how
|
||||
many bytes the value consists of and what
|
||||
to do with them. For example, if the type is <code>VT_I4</code>, HPSF
|
||||
knows that the value is four bytes long and that these bytes
|
||||
comprise a signed integer value in the little-endian format. This is
|
||||
quite different from e.g. a type of <code>VT_LPWSTR</code>. In this case
|
||||
HPSF has to scan the value bytes for a Unicode null character and collect
|
||||
everything from the beginning to that null character as a Unicode
|
||||
string.</p>
|
||||
|
||||
<p>The good new is that HPSF does another job for you, too: It maps the
|
||||
variant type to an adequate Java type.</p>
|
||||
|
||||
<table>
|
||||
<tr>
|
||||
<th>Variant type:</th>
|
||||
<th>Java type:</th>
|
||||
</tr>
|
||||
|
||||
<tr>
|
||||
<td>VT_I2</td>
|
||||
<td>java.lang.Integer</td>
|
||||
</tr>
|
||||
|
||||
<tr>
|
||||
<td>VT_I4</td>
|
||||
<td>java.lang.Long</td>
|
||||
</tr>
|
||||
|
||||
<tr>
|
||||
<td>VT_FILETIME</td>
|
||||
<td>java.util.Date</td>
|
||||
</tr>
|
||||
|
||||
<tr>
|
||||
<td>VT_LPSTR</td>
|
||||
<td>String</td>
|
||||
</tr>
|
||||
|
||||
<tr>
|
||||
<td>VT_LPWSTR</td>
|
||||
<td>String</td>
|
||||
</tr>
|
||||
|
||||
<tr>
|
||||
<td>VT_CF</td>
|
||||
<td>byte[]</td>
|
||||
</tr>
|
||||
|
||||
<tr>
|
||||
<td>VT_BOOL</td>
|
||||
<td>java.lang.Boolean</td>
|
||||
</tr>
|
||||
|
||||
</table>
|
||||
|
||||
<p>The bad news is that there are still a couple of variant types HPSF
|
||||
does not yet support. If it encounters one of these types it
|
||||
returns the property's value as a byte array and leaves it to be
|
||||
interpreted by the application.</p>
|
||||
|
||||
<p>An application retrieves a property's value by calling the
|
||||
<code>Property.getValue()</code> method. This method's return type is the
|
||||
abstract <code>Object</code> class. The <code>getValue()</code> method
|
||||
looks up the property's variant type, reads the property's value bytes,
|
||||
creates an instance of an adequate Java type, assigns it the property's
|
||||
value and returns it. Primitive types like <code>int</code> or
|
||||
<code>long</code> will be returned as the corresponding class,
|
||||
e.g. <code>Integer</code> or <code>Long</code>.</p>
|
||||
</section>
|
||||
|
||||
|
||||
<section title="Dictionaries">
|
||||
<p>The property with ID 0 has a very special meaning: It is a
|
||||
<strong>dictionary</strong> mapping property IDs to property names. We
|
||||
have seen already that the meanings of standard properties in the
|
||||
summary information and the document summary information property sets
|
||||
have been defined by Microsoft. The advantage is that the labels of
|
||||
properties like "Author" or "Title" don't have to be stored in the
|
||||
property set. However, a user can define custom fields in, say, Microsoft
|
||||
Word. For each field the user has to specify a name, a type, and a
|
||||
value.</p>
|
||||
|
||||
<p>The names of the custom-defined fields (i.e. the property names) are
|
||||
stored in the document summary information second section's
|
||||
<strong>dictionary</strong>. The dictionary is a map which associates
|
||||
property IDs with property names.</p>
|
||||
|
||||
<p>The method <code>Section.getPIDString(int)</code> not only returns with
|
||||
the well-known property names of the summary information and document
|
||||
summary information property sets, but with self-defined properties,
|
||||
too. It should also work with self-defined properties in self-defined
|
||||
sections.</p>
|
||||
</section>
|
||||
|
||||
<section title="Codepage support">
|
||||
<fixme author="Rainer Klute">Improve codepage support!</fixme>
|
||||
|
||||
<p>The property with ID 1 holds the number of the codepage which was used
|
||||
to encode the strings in this section. The present HPSF codepage support
|
||||
is still very limited: When reading property value strings, HPSF
|
||||
distinguishes between 16-bit characters and 8-bit characters. 16-bit
|
||||
characters should be Unicode characters and thus be okay. 8-bit
|
||||
characters are interpreted according to the platform's default character
|
||||
set. This is fine as long as the document being read has been written on
|
||||
a platform with the same default character set. However, if you receive a
|
||||
document from another region of the world and want to process it with
|
||||
HPSF you are in trouble - unless the creator used Unicode, of course.</p>
|
||||
</section>
|
||||
|
||||
<section title="Further Reading">
|
||||
<p>There are still some aspects of HSPF left which are not covered by this
|
||||
HOW-TO. You should dig into the Javadoc API documentation to learn
|
||||
further details. Since you've struggled through this document up to this
|
||||
point, you are well prepared.</p>
|
||||
</section>
|
||||
</section>
|
||||
</section>
|
||||
</body>
|
||||
|
@ -16,22 +16,25 @@
|
||||
|
||||
<ol>
|
||||
<li>
|
||||
<p>Add writing capability for property sets.</p>
|
||||
<p>Add writing capability for property sets. Presently property sets can
|
||||
be read only.</p>
|
||||
</li>
|
||||
<li>
|
||||
<p>Add codepage support.</p>
|
||||
</li>
|
||||
<li>
|
||||
<p>Add Unicode support.</p>
|
||||
<p>Add codepage support: Presently the bytes making out the string in a
|
||||
property's value are interpreted using the platform's default character
|
||||
set.</p>
|
||||
</li>
|
||||
<li>
|
||||
<p>Add resource bundles to
|
||||
<code>org.apache.poi.hpsf.wellknown</code> to ease
|
||||
localizations.</p>
|
||||
localizations. This would be useful for mapping standard property IDs to
|
||||
localized strings. Example: The property ID 4 could be mapped to "Author"
|
||||
in English or "Verfasser" in German.</p>
|
||||
</li>
|
||||
<li>
|
||||
<p>Implement reading functionality for those property types that are not
|
||||
yet supported (other than byte arrays).</p>
|
||||
yet supported. HPSF should return proper Java types instead of just byte
|
||||
arrays.</p>
|
||||
</li>
|
||||
<li>
|
||||
<p>Add WMF to <code>java.awt.Image</code> example code in <link
|
||||
|
@ -137,6 +137,11 @@ public class TypeReader
|
||||
* Read a byte string. In Java it is represented as a
|
||||
* String object. The 0x00 bytes at the end must be
|
||||
* stripped.
|
||||
*
|
||||
* FIXME: Reading an 8-bit string should pay attention
|
||||
* to the codepage. Currently the byte making out the
|
||||
* property's value are interpreted according to the
|
||||
* platform's default character set.
|
||||
*/
|
||||
final int first = offset + LittleEndian.INT_SIZE;
|
||||
long last = first + LittleEndian.getUInt(src, offset) - 1;
|
||||
|
@ -79,7 +79,8 @@ public class PropertyIDMap extends HashMap
|
||||
{
|
||||
|
||||
/*
|
||||
* The following definitions are for the Summary Information.
|
||||
* The following definitions are for property IDs in the first
|
||||
* (and only) section of the Summary Information property set.
|
||||
*/
|
||||
public final static int PID_TITLE = 2;
|
||||
public final static int PID_SUBJECT = 3;
|
||||
@ -103,7 +104,8 @@ public class PropertyIDMap extends HashMap
|
||||
|
||||
|
||||
/*
|
||||
* The following definitions are for the Document Summary Information.
|
||||
* The following definitions are for property IDs in the first
|
||||
* section of the Document Summary Information property set.
|
||||
*/
|
||||
|
||||
/**
|
||||
|
Loading…
Reference in New Issue
Block a user