示例#1
0
 @Override
 public void execute() {
   final WordIndexContextProvider wicp = wicpReactor.getInstance();
   // add new link and possibly word
   final NodeId contextNodeId = wicp.getWordIndexContext();
   final NodeKey nodeKey = new NamedNodeKey(contextNodeId, word);
   //
   final Coordinator coordinator = coordReactor.getInstance();
   final Reservation reservation =
       coordinator.reserve(
           CoordinatorUtil.makeSetOfRules(new BaseKeyRule(nodeKey)),
           CoordinatorUtil.makeSetOfIntents(new BaseKeyIntent(nodeKey)));
   try {
     final BeginTransactionResult btr = kernel.beginTransaction();
     final NodesTransaction txn = btr.getTxn();
     boolean commit = false;
     try {
       NodeId wordNodeId = txn.getNode(nodeKey);
       if (wordNodeId == null) {
         // TODO use unique datum?
         wordNodeId = txn.insertNode(new StringDatum(word));
         txn.insertKey(nodeKey, wordNodeId, false);
         txn.dereference(wordNodeId);
       }
       final NodeId linkNodeId = txn.insertNode();
       txn.insertLink(linkNodeId, nodeBeingIndexed, wordParentMeaningNodeId, false);
       txn.insertLink(linkNodeId, wordNodeId, wordMeaningNodeId, false);
       txn.dereference(linkNodeId);
       commit = true;
     } finally {
       txn.finish(commit);
     }
   } finally {
     reservation.release();
   }
 }
示例#2
0
 @Override
 public void updateIndex(
     final @NonNull NodesTransaction txn, final @NonNull NodeId nodeId, final boolean deferred) {
   final ValidatingKernel kernel = k1Reactor.getInstance();
   final Queue queue = queueReactor.getInstance();
   final WordMeaning wordMeaning = wordMeaningReactor.getInstance();
   final WordParentMeaning wordParentMeaning = wordParentMeaningReactor.getInstance();
   final MimeTypeMeaning mimeTypeMeaning = mimeTypeMeaningReactor.getInstance();
   final LocaleMeaning localeMeaning = localeMeaningReactor.getInstance();
   final Coordinator coordinator = coordReactor.getInstance();
   final Reservation reservation =
       coordinator.reserve(
           CoordinatorUtil.makeSetOfRules(new BaseNodeRule(nodeId)),
           CoordinatorUtil.makeSetOfIntents(new BaseNodeIntent(nodeId)));
   try {
     final Datum datum = txn.getDatum(nodeId);
     final MimeType mimeType = mimeTypeMeaning.getMimeType(txn, nodeId);
     final Locale locale = localeMeaning.getLocale(txn, nodeId);
     final List<Stemmer> stemmers = StemmerUtil.getStemmers(bundleContext, locale);
     WordParser parser;
     if (mimeType != null) {
       parser = getParser(mimeType.toString());
     } else if (datum instanceof StringDatum) {
       parser = getParser("text/plain");
     } else {
       parser = null;
     }
     if (parser == null) return;
     Cursor<NodeId> cursor = null;
     final Map<String, NodeId> oldIndexEntries = new HashMap<String, NodeId>();
     final Set<NodeId> oldNodesToDelete = new HashSet<NodeId>();
     try {
       cursor = txn.fetchSourceNodes(nodeId, wordParentMeaning.getNodeId());
       for (final NodeId linkNodeId : cursor) {
         if (linkNodeId != null) {
           final NodeId wordNodeId = txn.getTarget(linkNodeId, wordMeaning.getNodeId());
           if (wordNodeId != null) {
             final Datum wordDatum = txn.getDatum(wordNodeId);
             if (wordDatum instanceof StringDatum) {
               final String indexEntry = ((StringDatum) wordDatum).getValue();
               final NodeId oldLinkNodeId = oldIndexEntries.get(indexEntry);
               if (oldLinkNodeId != null) {
                 // get rid of redundant link
                 oldNodesToDelete.add(linkNodeId);
               } else {
                 oldIndexEntries.put(indexEntry, linkNodeId);
               }
             }
           }
         }
       }
     } finally {
       if (cursor != null) cursor.close();
     }
     // enqueue deletes for all redundant links
     for (final NodeId linkNodeId : oldNodesToDelete) {
       if (linkNodeId != null) {
         final QueueOperation op =
             new DeleteIndexLinkOperation(
                 kernel,
                 nodeId,
                 linkNodeId,
                 wordParentMeaning.getNodeId(),
                 wordMeaning.getNodeId());
         if (deferred) {
           queue.add(op, 0);
           queue.start();
         } else op.execute();
       }
     }
     Reader reader;
     try {
       reader = new InputStreamReader(datum.getInputStream());
     } catch (final IOException e) {
       // TODO log something
       reader = null;
     }
     if (reader == null) return;
     final Set<String> newStemmedWords = new HashSet<String>();
     Set<String> words = new HashSet<String>();
     for (final String word : parser.parse(reader)) {
       if (word != null) {
         words.add(word);
       }
     }
     for (final Stemmer stemmer : stemmers) {
       if (stemmer != null) {
         words = stemmer.stem(words);
       }
     }
     newStemmedWords.addAll(words);
     for (final String word : newStemmedWords) {
       if (word != null) {
         final NodeId oldLinkNodeId = oldIndexEntries.get(word);
         if (oldLinkNodeId != null) {
           oldIndexEntries.remove(word);
         } else {
           final QueueOperation op =
               new IndexOperation(
                   kernel,
                   wicpReactor,
                   coordReactor,
                   word,
                   nodeId,
                   wordParentMeaning.getNodeId(),
                   wordMeaning.getNodeId());
           queue.add(op, 0);
         }
       }
     }
     // enqueue deletes for all old word links that no longer apply
     for (final NodeId linkNodeId : oldIndexEntries.values()) {
       if (linkNodeId != null) {
         final QueueOperation op =
             new DeleteIndexLinkOperation(
                 kernel,
                 nodeId,
                 linkNodeId,
                 wordParentMeaning.getNodeId(),
                 wordMeaning.getNodeId());
         if (deferred) queue.add(op, 0);
         else op.execute();
       }
     }
   } finally {
     reservation.release();
   }
 }