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137 lines
5.3 KiB
137 lines
5.3 KiB
/*
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* Copyright (c) 2000, 2013, Oracle and/or its affiliates. All rights reserved.
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* ORACLE PROPRIETARY/CONFIDENTIAL. Use is subject to license terms.
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*
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*/
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package javax.print;
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import java.io.IOException;
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/**
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* Interface MultiDoc specifies the interface for an object that supplies more
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* than one piece of print data for a Print Job. "Doc" is a short,
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* easy-to-pronounce term that means "a piece of print data," and a "multidoc"
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* is a group of several docs. The client passes to the Print Job an object
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* that implements interface MultiDoc, and the Print Job calls methods on
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* that object to obtain the print data.
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* <P>
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* Interface MultiDoc provides an abstraction similar to a "linked list" of
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* docs. A multidoc object is like a node in the linked list, containing the
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* current doc in the list and a pointer to the next node (multidoc) in the
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* list. The Print Job can call the multidoc's {@link #getDoc()
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* getDoc()} method to get the current doc. When it's ready to go
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* on to the next doc, the Print Job can call the multidoc's {@link #next()
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* next()} method to get the next multidoc, which contains the
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* next doc. So Print Job code for accessing a multidoc might look like this:
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* <PRE>
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* void processMultiDoc(MultiDoc theMultiDoc) {
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*
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* MultiDoc current = theMultiDoc;
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* while (current != null) {
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* processDoc (current.getDoc());
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* current = current.next();
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* }
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* }
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* </PRE>
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* <P>
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* Of course, interface MultiDoc can be implemented in any way that fulfills
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* the contract; it doesn't have to use a linked list in the implementation.
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* <P>
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* To get all the print data for a multidoc print job, a Print Service
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* proxy could use either of two patterns:
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* <OL TYPE=1>
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* <LI>
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* The <B>interleaved</B> pattern: Get the doc from the current multidoc. Get
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* the print data representation object from the current doc. Get all the print
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* data from the print data representation object. Get the next multidoc from
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* the current multidoc, and repeat until there are no more. (The code example
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* above uses the interleaved pattern.)
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* <P>
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* <LI>
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* The <B>all-at-once</B> pattern: Get the doc from the current multidoc, and
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* save the doc in a list. Get the next multidoc from the current multidoc, and
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* repeat until there are no more. Then iterate over the list of saved docs. Get
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* the print data representation object from the current doc. Get all the print
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* data from the print data representation object. Go to the next doc in the
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* list, and repeat until there are no more.
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* </OL>
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* Now, consider a printing client that is generating print data on the fly and
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* does not have the resources to store more than one piece of print data at a
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* time. If the print service proxy used the all-at-once pattern to get the
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* print data, it would pose a problem for such a client; the client would have
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* to keep all the docs' print data around until the print service proxy comes
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* back and asks for them, which the client is not able to do. To work with such
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* a client, the print service proxy must use the interleaved pattern.
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* <P>
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* To address this problem, and to simplify the design of clients providing
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* multiple docs to a Print Job, every Print Service proxy that supports
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* multidoc print jobs is required to access a MultiDoc object using the
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* interleaved pattern. That is, given a MultiDoc object, the print service
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* proxy will call {@link #getDoc() getDoc()} one or more times
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* until it successfully obtains the current Doc object. The print service proxy
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* will then obtain the current doc's print data, not proceeding until all the
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* print data is obtained or an unrecoverable error occurs. If it is able to
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* continue, the print service proxy will then call {@link #next()
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* next()} one or more times until it successfully obtains either
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* the next MultiDoc object or an indication that there are no more. An
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* implementation of interface MultiDoc can assume the print service proxy will
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* follow this interleaved pattern; for any other pattern of usage, the MultiDoc
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* implementation's behavior is unspecified.
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* <P>
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* There is no restriction on the number of client threads that may be
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* simultaneously accessing the same multidoc. Therefore, all implementations of
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* interface MultiDoc must be designed to be multiple thread safe. In fact, a
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* client thread could be adding docs to the end of the (conceptual) list while
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* a Print Job thread is simultaneously obtaining docs from the beginning of the
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* list; provided the multidoc object synchronizes the threads properly, the two
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* threads will not interfere with each other
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*/
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public interface MultiDoc {
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/**
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* Obtain the current doc object.
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*
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* @return Current doc object.
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*
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* @exception IOException
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* Thrown if a error occurred reading the document.
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*/
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public Doc getDoc() throws IOException;
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/**
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* Go to the multidoc object that contains the next doc object in the
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* sequence of doc objects.
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*
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* @return Multidoc object containing the next doc object, or null if
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* there are no further doc objects.
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*
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* @exception IOException
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* Thrown if an error occurred locating the next document
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*/
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public MultiDoc next() throws IOException;
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}
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