Source Code Cross Referenced for NamespaceIterator.java in  » XML » XPath-Saxon » net » sf » saxon » om » Java Source Code / Java DocumentationJava Source Code and Java Documentation

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Java Source Code / Java Documentation » XML » XPath Saxon » net.sf.saxon.om 
Source Cross Referenced  Class Diagram Java Document (Java Doc) 


001:        package net.sf.saxon.om;
002:
003:        import net.sf.saxon.Configuration;
004:        import net.sf.saxon.event.Receiver;
005:        import net.sf.saxon.pattern.AnyNodeTest;
006:        import net.sf.saxon.pattern.NodeKindTest;
007:        import net.sf.saxon.pattern.NodeTest;
008:        import net.sf.saxon.sort.IntHashSet;
009:        import net.sf.saxon.sort.IntIterator;
010:        import net.sf.saxon.trans.XPathException;
011:        import net.sf.saxon.type.Type;
012:        import net.sf.saxon.value.StringValue;
013:        import net.sf.saxon.value.Value;
014:
015:        /**
016:         * This class provides an implementation of the namespace axis over any implementation
017:         * of the data model. It relies on element nodes to implement the method
018:         * {@link NodeInfo#getDeclaredNamespaces(int[])}
019:         */
020:        public class NamespaceIterator implements  AxisIterator {
021:
022:            private NodeInfo element;
023:            private NodeTest test;
024:            private int index;
025:            private int position;
026:            private NamespaceNodeImpl next;
027:            private NamespaceNodeImpl current;
028:            private IntIterator nsIterator;
029:            private int count;
030:
031:            //private static final Integer xmlnscode = new Integer(NamespaceConstant.XML_NAMESPACE_CODE);
032:
033:            public NamespaceIterator(NodeInfo element, NodeTest test) {
034:                this .element = element;
035:                this .test = test;
036:                if (test instanceof  AnyNodeTest
037:                        || test == NodeKindTest.NAMESPACE) {
038:                    this .test = null;
039:                }
040:                index = -1;
041:
042:                IntHashSet undeclared = new IntHashSet(8);
043:                IntHashSet declared = new IntHashSet(8);
044:                int[] buffer = new int[8];
045:                NodeInfo node = element;
046:                declared.add(NamespaceConstant.XML_NAMESPACE_CODE);
047:                while (node != null && node.getNodeKind() == Type.ELEMENT) {
048:
049:                    int[] nslist = node.getDeclaredNamespaces(buffer);
050:                    if (nslist != null) {
051:                        for (int i = 0; i < nslist.length; i++) {
052:                            if (nslist[i] == -1) {
053:                                break;
054:                            }
055:                            short uriCode = (short) (nslist[i] & 0xffff);
056:                            short prefixCode = (short) (nslist[i] >> 16);
057:                            if (uriCode == 0) {
058:                                // this is an undeclaration
059:                                undeclared.add(prefixCode);
060:                            } else {
061:                                //Integer key = new Integer(prefixCode);
062:                                if (!undeclared.contains(prefixCode)) {
063:                                    declared.add(nslist[i]);
064:                                    undeclared.add(prefixCode);
065:                                }
066:                            }
067:                        }
068:                    }
069:                    node = node.getParent();
070:                }
071:                count = declared.size();
072:                nsIterator = declared.iterator();
073:            }
074:
075:            /**
076:             * Get the next item in the sequence.
077:             */
078:
079:            public void advance() {
080:                while (nsIterator.hasNext()) {
081:                    int nscode = nsIterator.next();
082:                    next = new NamespaceNodeImpl(element, nscode, ++index);
083:                    if (test == null || test.matches(next)) {
084:                        return;
085:                    }
086:                }
087:                next = null;
088:            }
089:
090:            /**
091:             * Get the next item in the sequence. <BR>
092:             *
093:             * @return the next Item. If there are no more nodes, return null.
094:             */
095:
096:            public Item next() {
097:                if (index == -1) {
098:                    advance();
099:                    index = 0;
100:                }
101:                current = next;
102:                if (current == null) {
103:                    position = -1;
104:                    return null;
105:                }
106:                advance();
107:                position++;
108:                return current;
109:            }
110:
111:            /**
112:             * Get the current item in the sequence.
113:             *
114:             * @return the current item, that is, the item most recently returned by
115:             *         next()
116:             */
117:
118:            public Item current() {
119:                return current;
120:            }
121:
122:            /**
123:             * Get the current position
124:             *
125:             * @return the position of the current item (the item most recently
126:             *         returned by next()), starting at 1 for the first node
127:             */
128:
129:            public int position() {
130:                return position;
131:            }
132:
133:            /**
134:             * Get another iterator over the same sequence of items, positioned at the
135:             * start of the sequence
136:             *
137:             * @return a new iterator over the same sequence
138:             */
139:
140:            public SequenceIterator getAnother() {
141:                return new NamespaceIterator(element, test);
142:            }
143:
144:            /**
145:             * Get properties of this iterator, as a bit-significant integer.
146:             *
147:             * @return the properties of this iterator. This will be some combination of
148:             *         properties such as {@link GROUNDED}, {@link LAST_POSITION_FINDER},
149:             *         and {@link LOOKAHEAD}. It is always
150:             *         acceptable to return the value zero, indicating that there are no known special properties.
151:             *         It is acceptable for the properties of the iterator to change depending on its state.
152:             */
153:
154:            public int getProperties() {
155:                return 0;
156:            }
157:
158:            /**
159:             * Get a list of in-scope namespace codes. If an array of namespace codes is needed, without
160:             * actually constructing the namespace nodes, a caller may create the NamespaceIterator and then
161:             * call this method. The result is an array of integers, each containing a prefix code in the top
162:             * half and a uri code in the bottom half. Note that calling this method is destructive: the
163:             * iterator is consumed and cannot be used again.
164:             */
165:
166:            public int[] getInScopeNamespaceCodes() {
167:                int[] codes = new int[count];
168:                int i = 0;
169:                while (nsIterator.hasNext()) {
170:                    codes[i++] = nsIterator.next();
171:                }
172:                return codes;
173:            }
174:
175:            /**
176:             * Inner class: a model-independent representation of a namespace node
177:             */
178:
179:            public static class NamespaceNodeImpl implements  NodeInfo,
180:                    FingerprintedNode {
181:
182:                NodeInfo element;
183:                int nscode;
184:                int position;
185:                int namecode;
186:
187:                public NamespaceNodeImpl(NodeInfo element, int nscode,
188:                        int position) {
189:                    this .element = element;
190:                    this .nscode = nscode;
191:                    this .position = position;
192:                    NamePool pool = element.getNamePool();
193:                    String prefix = pool.getPrefixFromNamespaceCode(nscode);
194:                    if ("".equals(prefix)) {
195:                        this .namecode = -1;
196:                    } else {
197:                        this .namecode = pool.allocate("", "", prefix);
198:                    }
199:                }
200:
201:                /**
202:                 * Get the kind of node. This will be a value such as Type.ELEMENT or Type.ATTRIBUTE
203:                 *
204:                 * @return an integer identifying the kind of node. These integer values are the
205:                 *         same as those used in the DOM
206:                 * @see net.sf.saxon.type.Type
207:                 */
208:
209:                public int getNodeKind() {
210:                    return Type.NAMESPACE;
211:                }
212:
213:                /**
214:                 * Determine whether this is the same node as another node.
215:                 * Note: a.isSameNodeInfo(b) if and only if generateId(a)==generateId(b).
216:                 * This method has the same semantics as isSameNode() in DOM Level 3, but
217:                 * works on Saxon NodeInfo objects rather than DOM Node objects.
218:                 *
219:                 * @param other the node to be compared with this node
220:                 * @return true if this NodeInfo object and the supplied NodeInfo object represent
221:                 *         the same node in the tree.
222:                 */
223:
224:                public boolean isSameNodeInfo(NodeInfo other) {
225:                    if (!(other instanceof  NamespaceNodeImpl)) {
226:                        return false;
227:                    }
228:                    return element
229:                            .isSameNodeInfo(((NamespaceNodeImpl) other).element)
230:                            && nscode == ((NamespaceNodeImpl) other).nscode;
231:
232:                }
233:
234:                /**
235:                 * Get the System ID for the node.
236:                 *
237:                 * @return the System Identifier of the entity in the source document
238:                 *         containing the node, or null if not known. Note this is not the
239:                 *         same as the base URI: the base URI can be modified by xml:base, but
240:                 *         the system ID cannot.
241:                 */
242:
243:                public String getSystemId() {
244:                    return element.getSystemId();
245:                }
246:
247:                /**
248:                 * Get the Base URI for the node, that is, the URI used for resolving a relative URI contained
249:                 * in the node. This will be the same as the System ID unless xml:base has been used.
250:                 *
251:                 * @return the base URI of the node
252:                 */
253:
254:                public String getBaseURI() {
255:                    return element.getBaseURI();
256:                }
257:
258:                /**
259:                 * Get line number
260:                 *
261:                 * @return the line number of the node in its original source document; or
262:                 *         -1 if not available
263:                 */
264:
265:                public int getLineNumber() {
266:                    return element.getLineNumber();
267:                }
268:
269:                /**
270:                 * Determine the relative position of this node and another node, in document order.
271:                 * The other node will always be in the same document.
272:                 *
273:                 * @param other The other node, whose position is to be compared with this
274:                 *              node
275:                 * @return -1 if this node precedes the other node, +1 if it follows the
276:                 *         other node, or 0 if they are the same node. (In this case,
277:                 *         isSameNode() will always return true, and the two nodes will
278:                 *         produce the same result for generateId())
279:                 */
280:
281:                public int compareOrder(NodeInfo other) {
282:                    if (other instanceof  NamespaceNodeImpl
283:                            && element
284:                                    .isSameNodeInfo(((NamespaceNodeImpl) other).element)) {
285:                        // JDK 1.5: return Integer.signum(position - ((NamespaceNodeI)other).position);
286:                        int c = position - ((NamespaceNodeImpl) other).position;
287:                        if (c == 0)
288:                            return 0;
289:                        if (c < 0)
290:                            return -1;
291:                        return +1;
292:                    } else {
293:                        return element.compareOrder(other);
294:                    }
295:                }
296:
297:                /**
298:                 * Return the string value of the node. The interpretation of this depends on the type
299:                 * of node. For a namespace node, it is the namespace URI.
300:                 *
301:                 * @return the string value of the node
302:                 */
303:
304:                public String getStringValue() {
305:                    return element.getNamePool().getURIFromURICode(
306:                            (short) (nscode & 0xffff));
307:                }
308:
309:                /**
310:                 * Get the value of the item as a CharSequence. This is in some cases more efficient than
311:                 * the version of the method that returns a String.
312:                 */
313:
314:                public CharSequence getStringValueCS() {
315:                    return getStringValue();
316:                }
317:
318:                /**
319:                 * Get name code. The name code is a coded form of the node name: two nodes
320:                 * with the same name code have the same namespace URI, the same local name,
321:                 * and the same prefix. By masking the name code with &0xfffff, you get a
322:                 * fingerprint: two nodes with the same fingerprint have the same local name
323:                 * and namespace URI.
324:                 *
325:                 * @return an integer name code, which may be used to obtain the actual node
326:                 *         name from the name pool
327:                 * @see NamePool#allocate allocate
328:                 * @see NamePool#getFingerprint getFingerprint
329:                 */
330:
331:                public int getNameCode() {
332:                    return namecode;
333:                }
334:
335:                /**
336:                 * Get fingerprint. The fingerprint is a coded form of the expanded name
337:                 * of the node: two nodes
338:                 * with the same name code have the same namespace URI and the same local name.
339:                 * A fingerprint of -1 should be returned for a node with no name.
340:                 *
341:                 * @return an integer fingerprint; two nodes with the same fingerprint have
342:                 *         the same expanded QName
343:                 */
344:
345:                public int getFingerprint() {
346:                    if (namecode == -1) {
347:                        return -1;
348:                    }
349:                    return namecode & NamePool.FP_MASK;
350:                }
351:
352:                /**
353:                 * Get the local part of the name of this node. This is the name after the ":" if any.
354:                 *
355:                 * @return the local part of the name. For an unnamed node, returns "". Unlike the DOM
356:                 *         interface, this returns the full name in the case of a non-namespaced name.
357:                 */
358:
359:                public String getLocalPart() {
360:                    if (namecode == -1) {
361:                        return "";
362:                    } else {
363:                        return element.getNamePool().getLocalName(namecode);
364:                    }
365:                }
366:
367:                /**
368:                 * Get the URI part of the name of this node. This is the URI corresponding to the
369:                 * prefix, or the URI of the default namespace if appropriate.
370:                 *
371:                 * @return The URI of the namespace of this node. Since the name of a namespace
372:                 * node is always an NCName (the namespace prefix), this method always returns "".
373:                 */
374:
375:                public String getURI() {
376:                    return "";
377:                }
378:
379:                /**
380:                 * Get the display name of this node. For elements and attributes this is [prefix:]localname.
381:                 * For unnamed nodes, it is an empty string.
382:                 *
383:                 * @return The display name of this node. For a node with no name, return
384:                 *         an empty string.
385:                 */
386:
387:                public String getDisplayName() {
388:                    return getLocalPart();
389:                }
390:
391:                /**
392:                 * Get the prefix of the name of the node. This is defined only for elements and attributes.
393:                 * If the node has no prefix, or for other kinds of node, return a zero-length string.
394:                 *
395:                 * @return The prefix of the name of the node.
396:                 */
397:
398:                public String getPrefix() {
399:                    return "";
400:                }
401:
402:                /**
403:                 * Get the configuration
404:                 */
405:
406:                public Configuration getConfiguration() {
407:                    return element.getConfiguration();
408:                }
409:
410:                /**
411:                 * Get the NamePool that holds the namecode for this node
412:                 *
413:                 * @return the namepool
414:                 */
415:
416:                public NamePool getNamePool() {
417:                    return element.getNamePool();
418:                }
419:
420:                /**
421:                 * Get the type annotation of this node, if any.
422:                 * Returns -1 for kinds of nodes that have no annotation, and for elements annotated as
423:                 * untyped, and attributes annotated as untypedAtomic.
424:                 *
425:                 * @return the type annotation of the node.
426:                 * @see net.sf.saxon.type.Type
427:                 */
428:
429:                public int getTypeAnnotation() {
430:                    return -1;
431:                }
432:
433:                /**
434:                 * Get the NodeInfo object representing the parent of this node
435:                 *
436:                 * @return the parent of this node; null if this node has no parent
437:                 */
438:
439:                public NodeInfo getParent() {
440:                    return element;
441:                }
442:
443:                /**
444:                 * Return an iteration over all the nodes reached by the given axis from this node
445:                 *
446:                 * @param axisNumber an integer identifying the axis; one of the constants
447:                 *                   defined in class net.sf.saxon.om.Axis
448:                 * @return an AxisIterator that scans the nodes reached by the axis in
449:                 *         turn.
450:                 * @throws UnsupportedOperationException if the namespace axis is
451:                 *                                       requested and this axis is not supported for this implementation.
452:                 * @see Axis
453:                 */
454:
455:                public AxisIterator iterateAxis(byte axisNumber) {
456:                    return iterateAxis(axisNumber, new AnyNodeTest());
457:                }
458:
459:                /**
460:                 * Return an iteration over all the nodes reached by the given axis from this node
461:                 * that match a given NodeTest
462:                 *
463:                 * @param axisNumber an integer identifying the axis; one of the constants
464:                 *                   defined in class net.sf.saxon.om.Axis
465:                 * @param nodeTest   A pattern to be matched by the returned nodes; nodes
466:                 *                   that do not match this pattern are not included in the result
467:                 * @return a NodeEnumeration that scans the nodes reached by the axis in
468:                 *         turn.
469:                 * @throws UnsupportedOperationException if the namespace axis is
470:                 *                                       requested and this axis is not supported for this implementation.
471:                 * @see Axis
472:                 */
473:
474:                public AxisIterator iterateAxis(byte axisNumber,
475:                        NodeTest nodeTest) {
476:                    switch (axisNumber) {
477:                    case Axis.ANCESTOR:
478:                        return element.iterateAxis(Axis.ANCESTOR_OR_SELF,
479:                                nodeTest);
480:
481:                    case Axis.ANCESTOR_OR_SELF:
482:                        if (nodeTest.matches(this )) {
483:                            return new PrependIterator(this , element
484:                                    .iterateAxis(Axis.ANCESTOR_OR_SELF,
485:                                            nodeTest));
486:                        } else {
487:                            return element.iterateAxis(Axis.ANCESTOR_OR_SELF,
488:                                    nodeTest);
489:                        }
490:
491:                    case Axis.ATTRIBUTE:
492:                    case Axis.CHILD:
493:                    case Axis.DESCENDANT:
494:                    case Axis.DESCENDANT_OR_SELF:
495:                    case Axis.FOLLOWING_SIBLING:
496:                    case Axis.NAMESPACE:
497:                    case Axis.PRECEDING_SIBLING:
498:                        return EmptyIterator.getInstance();
499:
500:                    case Axis.FOLLOWING:
501:                        return new Navigator.AxisFilter(
502:                                new Navigator.FollowingEnumeration(this ),
503:                                nodeTest);
504:
505:                    case Axis.PARENT:
506:                        if (nodeTest.matches(element)) {
507:                            return SingletonIterator.makeIterator(element);
508:                        }
509:                        return EmptyIterator.getInstance();
510:
511:                    case Axis.PRECEDING:
512:                        return new Navigator.AxisFilter(
513:                                new Navigator.PrecedingEnumeration(this , false),
514:                                nodeTest);
515:
516:                    case Axis.SELF:
517:                        if (nodeTest.matches(this )) {
518:                            return SingletonIterator.makeIterator(this );
519:                        }
520:                        return EmptyIterator.getInstance();
521:
522:                    case Axis.PRECEDING_OR_ANCESTOR:
523:                        return new Navigator.AxisFilter(
524:                                new Navigator.PrecedingEnumeration(this , true),
525:                                nodeTest);
526:                    default:
527:                        throw new IllegalArgumentException(
528:                                "Unknown axis number " + axisNumber);
529:                    }
530:                }
531:
532:                /**
533:                 * Get the value of a given attribute of this node
534:                 *
535:                 * @param fingerprint The fingerprint of the attribute name
536:                 * @return the attribute value if it exists or null if not
537:                 */
538:
539:                public String getAttributeValue(int fingerprint) {
540:                    return null;
541:                }
542:
543:                /**
544:                 * Get the root node of the tree containing this node
545:                 *
546:                 * @return the NodeInfo representing the top-level ancestor of this node.
547:                 *         This will not necessarily be a document node
548:                 */
549:
550:                public NodeInfo getRoot() {
551:                    return element.getRoot();
552:                }
553:
554:                /**
555:                 * Get the root node, if it is a document node.
556:                 *
557:                 * @return the DocumentInfo representing the containing document. If this
558:                 *         node is part of a tree that does not have a document node as its
559:                 *         root, return null.
560:                 */
561:
562:                public DocumentInfo getDocumentRoot() {
563:                    return element.getDocumentRoot();
564:                }
565:
566:                /**
567:                 * Determine whether the node has any children. <br />
568:                 * Note: the result is equivalent to <br />
569:                 * getEnumeration(Axis.CHILD, AnyNodeTest.getInstance()).hasNext()
570:                 *
571:                 * @return True if the node has one or more children
572:                 */
573:
574:                public boolean hasChildNodes() {
575:                    return false;
576:                }
577:
578:                /**
579:                 * Get a character string that uniquely identifies this node.
580:                 * Note: a.isSameNode(b) if and only if generateId(a)==generateId(b)
581:                 *
582:                 * @return a string that uniquely identifies this node, across all
583:                 *         documents.
584:                 */
585:
586:                public String generateId() {
587:                    return element.generateId() + 'n' + position;
588:                }
589:
590:                /**
591:                 * Get the document number of the document containing this node. For a free-standing
592:                 * orphan node, just return the hashcode.
593:                 */
594:
595:                public int getDocumentNumber() {
596:                    return element.getDocumentNumber();
597:                }
598:
599:                /**
600:                 * Copy this node to a given outputter
601:                 *
602:                 * @param out             the Receiver to which the node should be copied
603:                 * @param whichNamespaces in the case of an element, controls
604:                 *                        which namespace nodes should be copied. Values are {@link #NO_NAMESPACES},
605:                 *                        {@link #LOCAL_NAMESPACES}, {@link #ALL_NAMESPACES}
606:                 * @param copyAnnotations indicates whether the type annotations
607:                 *                        of element and attribute nodes should be copied
608:                 * @param locationId      If non-zero, identifies the location of the instruction
609:                 *                        that requested this copy. If zero, indicates that the location information
610:                 *                        for the original node is to be copied; in this case the Receiver must be
611:                 *                        a LocationCopier
612:                 * @throws net.sf.saxon.trans.XPathException
613:                 *
614:                 */
615:
616:                public void copy(Receiver out, int whichNamespaces,
617:                        boolean copyAnnotations, int locationId)
618:                        throws XPathException {
619:                    out.namespace(nscode, 0);
620:                }
621:
622:                /**
623:                 * Output all namespace nodes associated with this element. Does nothing if
624:                 * the node is not an element.
625:                 *
626:                 * @param out              The relevant outputter
627:                 * @param includeAncestors True if namespaces declared on ancestor
628:                 */
629:
630:                public void sendNamespaceDeclarations(Receiver out,
631:                        boolean includeAncestors) throws XPathException {
632:
633:                }
634:
635:                /**
636:                 * Get all namespace undeclarations and undeclarations defined on this element.
637:                 *
638:                 * @param buffer If this is non-null, and the result array fits in this buffer, then the result
639:                 *               may overwrite the contents of this array, to avoid the cost of allocating a new array on the heap.
640:                 * @return An array of integers representing the namespace declarations and undeclarations present on
641:                 *         this element. For a node other than an element, return null. Otherwise, the returned array is a
642:                 *         sequence of namespace codes, whose meaning may be interpreted by reference to the name pool. The
643:                 *         top half word of each namespace code represents the prefix, the bottom half represents the URI.
644:                 *         If the bottom half is zero, then this is a namespace undeclaration rather than a declaration.
645:                 *         The XML namespace is never included in the list. If the supplied array is larger than required,
646:                 *         then the first unused entry will be set to -1.
647:                 *         <p/>
648:                 *         <p>For a node other than an element, the method returns null.</p>
649:                 */
650:
651:                public int[] getDeclaredNamespaces(int[] buffer) {
652:                    return null;
653:                }
654:
655:                /**
656:                 * Set the system identifier for this Source.
657:                 * <p/>
658:                 * <p>The system identifier is optional if the source does not
659:                 * get its data from a URL, but it may still be useful to provide one.
660:                 * The application can use a system identifier, for example, to resolve
661:                 * relative URIs and to include in error messages and warnings.</p>
662:                 *
663:                 * @param systemId The system identifier as a URL string.
664:                 */
665:                public void setSystemId(String systemId) {
666:
667:                }
668:
669:                /**
670:                 * Get the typed value of the item
671:                 *
672:                 * @return the typed value of the item. In general this will be a sequence
673:                 * @throws net.sf.saxon.trans.XPathException
674:                 *          where no typed value is available, e.g. for
675:                 *          an element with complex content
676:                 */
677:
678:                public SequenceIterator getTypedValue() throws XPathException {
679:                    return SingletonIterator.makeIterator(new StringValue(
680:                            getStringValueCS()));
681:                }
682:
683:                /**
684:                 * Get the typed value. The result of this method will always be consistent with the method
685:                 * {@link Item#getTypedValue()}. However, this method is often more convenient and may be
686:                 * more efficient, especially in the common case where the value is expected to be a singleton.
687:                 *
688:                 * @return the typed value. If requireSingleton is set to true, the result will always be an
689:                 *         AtomicValue. In other cases it may be a Value representing a sequence whose items are atomic
690:                 *         values.
691:                 * @since 8.5
692:                 */
693:
694:                public Value atomize() throws XPathException {
695:                    return new StringValue(getStringValueCS());
696:                }
697:            }
698:        }
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