public void testDuellMemIndex() throws IOException {
    LineFileDocs lineFileDocs = new LineFileDocs(random());
    int numDocs = atLeast(10);
    MemoryIndex memory = randomMemoryIndex();
    for (int i = 0; i < numDocs; i++) {
      Directory dir = newDirectory();
      MockAnalyzer mockAnalyzer = new MockAnalyzer(random());
      mockAnalyzer.setMaxTokenLength(TestUtil.nextInt(random(), 1, IndexWriter.MAX_TERM_LENGTH));
      IndexWriter writer = new IndexWriter(dir, newIndexWriterConfig(random(), mockAnalyzer));
      Document nextDoc = lineFileDocs.nextDoc();
      Document doc = new Document();
      for (IndexableField field : nextDoc.getFields()) {
        if (field.fieldType().indexOptions() != IndexOptions.NONE) {
          doc.add(field);
          if (random().nextInt(3) == 0) {
            doc.add(field); // randomly add the same field twice
          }
        }
      }

      writer.addDocument(doc);
      writer.close();
      for (IndexableField field : doc) {
        memory.addField(field.name(), ((Field) field).stringValue(), mockAnalyzer);
      }
      DirectoryReader competitor = DirectoryReader.open(dir);
      LeafReader memIndexReader = (LeafReader) memory.createSearcher().getIndexReader();
      TestUtil.checkReader(memIndexReader);
      duellReaders(competitor, memIndexReader);
      IOUtils.close(competitor, memIndexReader);
      memory.reset();
      dir.close();
    }
    lineFileDocs.close();
  }
示例#2
0
  public void testUpdateSameDoc() throws Exception {
    final Directory dir = newDirectory();

    final LineFileDocs docs = new LineFileDocs(random());
    for (int r = 0; r < 3; r++) {
      final IndexWriter w =
          new IndexWriter(
              dir, newIndexWriterConfig(new MockAnalyzer(random())).setMaxBufferedDocs(2));
      final int numUpdates = atLeast(20);
      int numThreads = TestUtil.nextInt(random(), 2, 6);
      IndexingThread[] threads = new IndexingThread[numThreads];
      for (int i = 0; i < numThreads; i++) {
        threads[i] = new IndexingThread(docs, w, numUpdates);
        threads[i].start();
      }

      for (int i = 0; i < numThreads; i++) {
        threads[i].join();
      }

      w.close();
    }

    IndexReader open = DirectoryReader.open(dir);
    assertEquals(1, open.numDocs());
    open.close();
    docs.close();
    dir.close();
  }
  public void testNRTAndCommit() throws Exception {
    Directory dir = newDirectory();
    NRTCachingDirectory cachedDir = new NRTCachingDirectory(dir, 2.0, 25.0);
    MockAnalyzer analyzer = new MockAnalyzer(random());
    analyzer.setMaxTokenLength(TestUtil.nextInt(random(), 1, IndexWriter.MAX_TERM_LENGTH));
    IndexWriterConfig conf = newIndexWriterConfig(analyzer);
    RandomIndexWriter w = new RandomIndexWriter(random(), cachedDir, conf);
    final LineFileDocs docs = new LineFileDocs(random(), true);
    final int numDocs = TestUtil.nextInt(random(), 100, 400);

    if (VERBOSE) {
      System.out.println("TEST: numDocs=" + numDocs);
    }

    final List<BytesRef> ids = new ArrayList<>();
    DirectoryReader r = null;
    for (int docCount = 0; docCount < numDocs; docCount++) {
      final Document doc = docs.nextDoc();
      ids.add(new BytesRef(doc.get("docid")));
      w.addDocument(doc);
      if (random().nextInt(20) == 17) {
        if (r == null) {
          r = DirectoryReader.open(w.w);
        } else {
          final DirectoryReader r2 = DirectoryReader.openIfChanged(r);
          if (r2 != null) {
            r.close();
            r = r2;
          }
        }
        assertEquals(1 + docCount, r.numDocs());
        final IndexSearcher s = newSearcher(r);
        // Just make sure search can run; we can't assert
        // totHits since it could be 0
        TopDocs hits = s.search(new TermQuery(new Term("body", "the")), 10);
        // System.out.println("tot hits " + hits.totalHits);
      }
    }

    if (r != null) {
      r.close();
    }

    // Close should force cache to clear since all files are sync'd
    w.close();

    final String[] cachedFiles = cachedDir.listCachedFiles();
    for (String file : cachedFiles) {
      System.out.println("FAIL: cached file " + file + " remains after sync");
    }
    assertEquals(0, cachedFiles.length);

    r = DirectoryReader.open(dir);
    for (BytesRef id : ids) {
      assertEquals(1, r.docFreq(new Term("docid", id)));
    }
    r.close();
    cachedDir.close();
    docs.close();
  }
示例#4
0
  /** populates a writer with random stuff. this must be fully reproducable with the seed! */
  public static void createRandomIndex(int numdocs, RandomIndexWriter writer, Random random)
      throws IOException {
    LineFileDocs lineFileDocs = new LineFileDocs(random);

    for (int i = 0; i < numdocs; i++) {
      writer.addDocument(lineFileDocs.nextDoc());
    }

    lineFileDocs.close();
  }
  public void test() throws Exception {
    final Directory d = newDirectory();
    MockAnalyzer analyzer = new MockAnalyzer(random());
    analyzer.setMaxTokenLength(TestUtil.nextInt(random(), 1, IndexWriter.MAX_TERM_LENGTH));

    final MyIndexWriter w =
        new MyIndexWriter(d, newIndexWriterConfig(TEST_VERSION_CURRENT, analyzer));

    // Try to make an index that requires merging:
    w.getConfig().setMaxBufferedDocs(TestUtil.nextInt(random(), 2, 11));
    final int numStartDocs = atLeast(20);
    final LineFileDocs docs = new LineFileDocs(random(), true);
    for (int docIDX = 0; docIDX < numStartDocs; docIDX++) {
      w.addDocument(docs.nextDoc());
    }
    MergePolicy mp = w.getConfig().getMergePolicy();
    final int mergeAtOnce = 1 + w.segmentInfos.size();
    if (mp instanceof TieredMergePolicy) {
      ((TieredMergePolicy) mp).setMaxMergeAtOnce(mergeAtOnce);
    } else if (mp instanceof LogMergePolicy) {
      ((LogMergePolicy) mp).setMergeFactor(mergeAtOnce);
    } else {
      // skip test
      w.close();
      d.close();
      return;
    }

    final AtomicBoolean doStop = new AtomicBoolean();
    w.getConfig().setMaxBufferedDocs(2);
    Thread t =
        new Thread() {
          @Override
          public void run() {
            try {
              while (!doStop.get()) {
                w.updateDocument(
                    new Term("docid", "" + random().nextInt(numStartDocs)), docs.nextDoc());
                // Force deletes to apply
                w.getReader().close();
              }
            } catch (Throwable t) {
              throw new RuntimeException(t);
            }
          }
        };
    t.start();
    w.forceMerge(1);
    doStop.set(true);
    t.join();
    assertTrue("merge count is " + w.mergeCount.get(), w.mergeCount.get() <= 1);
    w.close();
    d.close();
    docs.close();
  }
  @Test
  public void testRealisticKeys() throws Exception {
    Analyzer analyzer = new MockAnalyzer(random());
    RandomIndexWriter iw =
        new RandomIndexWriter(random(), dir, iwcWithSuggestField(analyzer, "suggest_field"));
    LineFileDocs lineFileDocs = new LineFileDocs(random());
    int num = Math.min(1000, atLeast(100));
    Map<String, Integer> mappings = new HashMap<>();
    for (int i = 0; i < num; i++) {
      Document document = lineFileDocs.nextDoc();
      String title = document.getField("title").stringValue();
      int weight = Math.abs(random().nextInt());
      Integer prevWeight = mappings.get(title);
      if (prevWeight == null || prevWeight < weight) {
        mappings.put(title, weight);
      }
      Document doc = new Document();
      doc.add(new SuggestField("suggest_field", title, weight));
      iw.addDocument(doc);

      if (rarely()) {
        iw.commit();
      }
    }

    DirectoryReader reader = iw.getReader();
    SuggestIndexSearcher indexSearcher = new SuggestIndexSearcher(reader);

    for (Map.Entry<String, Integer> entry : mappings.entrySet()) {
      String title = entry.getKey();

      PrefixCompletionQuery query =
          new PrefixCompletionQuery(analyzer, new Term("suggest_field", title));
      TopSuggestDocs suggest = indexSearcher.suggest(query, mappings.size());
      assertTrue(suggest.totalHits > 0);
      boolean matched = false;
      for (ScoreDoc scoreDoc : suggest.scoreDocs) {
        matched = Float.compare(scoreDoc.score, (float) entry.getValue()) == 0;
        if (matched) {
          break;
        }
      }
      assertTrue("at least one of the entries should have the score", matched);
    }

    reader.close();
    iw.close();
  }
 @Override
 public void run() {
   try {
     long ramSize = 0;
     while (pendingDocs.decrementAndGet() > -1) {
       Document doc = docs.nextDoc();
       writer.addDocument(doc);
       long newRamSize = writer.ramSizeInBytes();
       if (newRamSize != ramSize) {
         ramSize = newRamSize;
       }
       if (doRandomCommit) {
         if (rarely()) {
           writer.commit();
         }
       }
     }
     writer.commit();
   } catch (Throwable ex) {
     System.out.println("FAILED exc:");
     ex.printStackTrace(System.out);
     throw new RuntimeException(ex);
   }
 }
示例#8
0
  @Test
  public void testRollingUpdates() throws Exception {
    Random random = new Random(random().nextLong());
    final BaseDirectoryWrapper dir = newDirectory();
    // test checks for no unref'ed files with the IW helper method, which isn't aware of "tried to
    // delete files"
    if (dir instanceof MockDirectoryWrapper) {
      ((MockDirectoryWrapper) dir).setEnableVirusScanner(false);
    }

    final LineFileDocs docs = new LineFileDocs(random, true);

    // provider.register(new MemoryCodec());
    if (random().nextBoolean()) {
      Codec.setDefault(
          TestUtil.alwaysPostingsFormat(
              new MemoryPostingsFormat(random().nextBoolean(), random.nextFloat())));
    }

    MockAnalyzer analyzer = new MockAnalyzer(random());
    analyzer.setMaxTokenLength(TestUtil.nextInt(random(), 1, IndexWriter.MAX_TERM_LENGTH));

    final IndexWriter w = new IndexWriter(dir, newIndexWriterConfig(analyzer));
    final int SIZE = atLeast(20);
    int id = 0;
    IndexReader r = null;
    IndexSearcher s = null;
    final int numUpdates =
        (int)
            (SIZE * (2 + (TEST_NIGHTLY ? 200 * random().nextDouble() : 5 * random().nextDouble())));
    if (VERBOSE) {
      System.out.println("TEST: numUpdates=" + numUpdates);
    }
    int updateCount = 0;
    // TODO: sometimes update ids not in order...
    for (int docIter = 0; docIter < numUpdates; docIter++) {
      final Document doc = docs.nextDoc();
      final String myID = Integer.toString(id);
      if (id == SIZE - 1) {
        id = 0;
      } else {
        id++;
      }
      if (VERBOSE) {
        System.out.println("  docIter=" + docIter + " id=" + id);
      }
      ((Field) doc.getField("docid")).setStringValue(myID);

      Term idTerm = new Term("docid", myID);

      final boolean doUpdate;
      if (s != null && updateCount < SIZE) {
        TopDocs hits = s.search(new TermQuery(idTerm), 1);
        assertEquals(1, hits.totalHits);
        doUpdate = !w.tryDeleteDocument(r, hits.scoreDocs[0].doc);
        if (VERBOSE) {
          if (doUpdate) {
            System.out.println("  tryDeleteDocument failed");
          } else {
            System.out.println("  tryDeleteDocument succeeded");
          }
        }
      } else {
        doUpdate = true;
        if (VERBOSE) {
          System.out.println("  no searcher: doUpdate=true");
        }
      }

      updateCount++;

      if (doUpdate) {
        if (random().nextBoolean()) {
          w.updateDocument(idTerm, doc);
        } else {
          // It's OK to not be atomic for this test (no separate thread reopening readers):
          w.deleteDocuments(new TermQuery(idTerm));
          w.addDocument(doc);
        }
      } else {
        w.addDocument(doc);
      }

      if (docIter >= SIZE && random().nextInt(50) == 17) {
        if (r != null) {
          r.close();
        }

        final boolean applyDeletions = random().nextBoolean();

        if (VERBOSE) {
          System.out.println("TEST: reopen applyDeletions=" + applyDeletions);
        }

        r = w.getReader(applyDeletions);
        if (applyDeletions) {
          s = newSearcher(r);
        } else {
          s = null;
        }
        assertTrue(
            "applyDeletions=" + applyDeletions + " r.numDocs()=" + r.numDocs() + " vs SIZE=" + SIZE,
            !applyDeletions || r.numDocs() == SIZE);
        updateCount = 0;
      }
    }

    if (r != null) {
      r.close();
    }

    w.commit();
    assertEquals(SIZE, w.numDocs());

    w.close();

    TestIndexWriter.assertNoUnreferencedFiles(dir, "leftover files after rolling updates");

    docs.close();

    // LUCENE-4455:
    SegmentInfos infos = SegmentInfos.readLatestCommit(dir);
    long totalBytes = 0;
    for (SegmentCommitInfo sipc : infos) {
      totalBytes += sipc.sizeInBytes();
    }
    long totalBytes2 = 0;

    for (String fileName : dir.listAll()) {
      if (IndexFileNames.CODEC_FILE_PATTERN.matcher(fileName).matches()) {
        totalBytes2 += dir.fileLength(fileName);
      }
    }
    assertEquals(totalBytes2, totalBytes);
    dir.close();
  }
 @AfterClass
 public static void afterClass() throws Exception {
   lineDocFile.close();
   lineDocFile = null;
 }
  public void runTest(String testName) throws Exception {

    failed.set(false);
    addCount.set(0);
    delCount.set(0);
    packCount.set(0);

    final long t0 = System.currentTimeMillis();

    Random random = new Random(random().nextLong());
    final LineFileDocs docs = new LineFileDocs(random, true);
    final Path tempDir = createTempDir(testName);
    dir = getDirectory(newMockFSDirectory(tempDir)); // some subclasses rely on this being MDW
    if (dir instanceof BaseDirectoryWrapper) {
      ((BaseDirectoryWrapper) dir)
          .setCheckIndexOnClose(false); // don't double-checkIndex, we do it ourselves.
    }
    MockAnalyzer analyzer = new MockAnalyzer(random());
    analyzer.setMaxTokenLength(TestUtil.nextInt(random(), 1, IndexWriter.MAX_TERM_LENGTH));
    final IndexWriterConfig conf = newIndexWriterConfig(analyzer).setCommitOnClose(false);
    conf.setInfoStream(new FailOnNonBulkMergesInfoStream());
    if (conf.getMergePolicy() instanceof MockRandomMergePolicy) {
      ((MockRandomMergePolicy) conf.getMergePolicy()).setDoNonBulkMerges(false);
    }

    if (LuceneTestCase.TEST_NIGHTLY) {
      // newIWConfig makes smallish max seg size, which
      // results in tons and tons of segments for this test
      // when run nightly:
      MergePolicy mp = conf.getMergePolicy();
      if (mp instanceof TieredMergePolicy) {
        ((TieredMergePolicy) mp).setMaxMergedSegmentMB(5000.);
      } else if (mp instanceof LogByteSizeMergePolicy) {
        ((LogByteSizeMergePolicy) mp).setMaxMergeMB(1000.);
      } else if (mp instanceof LogMergePolicy) {
        ((LogMergePolicy) mp).setMaxMergeDocs(100000);
      }
    }

    conf.setMergedSegmentWarmer(
        new IndexWriter.IndexReaderWarmer() {
          @Override
          public void warm(LeafReader reader) throws IOException {
            if (VERBOSE) {
              System.out.println("TEST: now warm merged reader=" + reader);
            }
            warmed.put(((SegmentReader) reader).core, Boolean.TRUE);
            final int maxDoc = reader.maxDoc();
            final Bits liveDocs = reader.getLiveDocs();
            int sum = 0;
            final int inc = Math.max(1, maxDoc / 50);
            for (int docID = 0; docID < maxDoc; docID += inc) {
              if (liveDocs == null || liveDocs.get(docID)) {
                final StoredDocument doc = reader.document(docID);
                sum += doc.getFields().size();
              }
            }

            IndexSearcher searcher = newSearcher(reader);
            sum += searcher.search(new TermQuery(new Term("body", "united")), 10).totalHits;

            if (VERBOSE) {
              System.out.println("TEST: warm visited " + sum + " fields");
            }
          }
        });

    if (VERBOSE) {
      conf.setInfoStream(
          new PrintStreamInfoStream(System.out) {
            @Override
            public void message(String component, String message) {
              if ("TP".equals(component)) {
                return; // ignore test points!
              }
              super.message(component, message);
            }
          });
    }
    writer = new IndexWriter(dir, conf);
    TestUtil.reduceOpenFiles(writer);

    final ExecutorService es =
        random().nextBoolean()
            ? null
            : Executors.newCachedThreadPool(new NamedThreadFactory(testName));

    doAfterWriter(es);

    final int NUM_INDEX_THREADS = TestUtil.nextInt(random(), 2, 4);

    final int RUN_TIME_SEC = LuceneTestCase.TEST_NIGHTLY ? 300 : RANDOM_MULTIPLIER;

    final Set<String> delIDs = Collections.synchronizedSet(new HashSet<String>());
    final Set<String> delPackIDs = Collections.synchronizedSet(new HashSet<String>());
    final List<SubDocs> allSubDocs = Collections.synchronizedList(new ArrayList<SubDocs>());

    final long stopTime = System.currentTimeMillis() + RUN_TIME_SEC * 1000;

    final Thread[] indexThreads =
        launchIndexingThreads(docs, NUM_INDEX_THREADS, stopTime, delIDs, delPackIDs, allSubDocs);

    if (VERBOSE) {
      System.out.println(
          "TEST: DONE start "
              + NUM_INDEX_THREADS
              + " indexing threads ["
              + (System.currentTimeMillis() - t0)
              + " ms]");
    }

    // Let index build up a bit
    Thread.sleep(100);

    doSearching(es, stopTime);

    if (VERBOSE) {
      System.out.println("TEST: all searching done [" + (System.currentTimeMillis() - t0) + " ms]");
    }

    for (int thread = 0; thread < indexThreads.length; thread++) {
      indexThreads[thread].join();
    }

    if (VERBOSE) {
      System.out.println(
          "TEST: done join indexing threads ["
              + (System.currentTimeMillis() - t0)
              + " ms]; addCount="
              + addCount
              + " delCount="
              + delCount);
    }

    final IndexSearcher s = getFinalSearcher();
    if (VERBOSE) {
      System.out.println("TEST: finalSearcher=" + s);
    }

    assertFalse(failed.get());

    boolean doFail = false;

    // Verify: make sure delIDs are in fact deleted:
    for (String id : delIDs) {
      final TopDocs hits = s.search(new TermQuery(new Term("docid", id)), 1);
      if (hits.totalHits != 0) {
        System.out.println(
            "doc id="
                + id
                + " is supposed to be deleted, but got "
                + hits.totalHits
                + " hits; first docID="
                + hits.scoreDocs[0].doc);
        doFail = true;
      }
    }

    // Verify: make sure delPackIDs are in fact deleted:
    for (String id : delPackIDs) {
      final TopDocs hits = s.search(new TermQuery(new Term("packID", id)), 1);
      if (hits.totalHits != 0) {
        System.out.println(
            "packID=" + id + " is supposed to be deleted, but got " + hits.totalHits + " matches");
        doFail = true;
      }
    }

    // Verify: make sure each group of sub-docs are still in docID order:
    for (SubDocs subDocs : allSubDocs) {
      TopDocs hits = s.search(new TermQuery(new Term("packID", subDocs.packID)), 20);
      if (!subDocs.deleted) {
        // We sort by relevance but the scores should be identical so sort falls back to by docID:
        if (hits.totalHits != subDocs.subIDs.size()) {
          System.out.println(
              "packID="
                  + subDocs.packID
                  + ": expected "
                  + subDocs.subIDs.size()
                  + " hits but got "
                  + hits.totalHits);
          doFail = true;
        } else {
          int lastDocID = -1;
          int startDocID = -1;
          for (ScoreDoc scoreDoc : hits.scoreDocs) {
            final int docID = scoreDoc.doc;
            if (lastDocID != -1) {
              assertEquals(1 + lastDocID, docID);
            } else {
              startDocID = docID;
            }
            lastDocID = docID;
            final StoredDocument doc = s.doc(docID);
            assertEquals(subDocs.packID, doc.get("packID"));
          }

          lastDocID = startDocID - 1;
          for (String subID : subDocs.subIDs) {
            hits = s.search(new TermQuery(new Term("docid", subID)), 1);
            assertEquals(1, hits.totalHits);
            final int docID = hits.scoreDocs[0].doc;
            if (lastDocID != -1) {
              assertEquals(1 + lastDocID, docID);
            }
            lastDocID = docID;
          }
        }
      } else {
        // Pack was deleted -- make sure its docs are
        // deleted.  We can't verify packID is deleted
        // because we can re-use packID for update:
        for (String subID : subDocs.subIDs) {
          assertEquals(0, s.search(new TermQuery(new Term("docid", subID)), 1).totalHits);
        }
      }
    }

    // Verify: make sure all not-deleted docs are in fact
    // not deleted:
    final int endID = Integer.parseInt(docs.nextDoc().get("docid"));
    docs.close();

    for (int id = 0; id < endID; id++) {
      String stringID = "" + id;
      if (!delIDs.contains(stringID)) {
        final TopDocs hits = s.search(new TermQuery(new Term("docid", stringID)), 1);
        if (hits.totalHits != 1) {
          System.out.println(
              "doc id="
                  + stringID
                  + " is not supposed to be deleted, but got hitCount="
                  + hits.totalHits
                  + "; delIDs="
                  + delIDs);
          doFail = true;
        }
      }
    }
    assertFalse(doFail);

    assertEquals(
        "index=" + writer.segString() + " addCount=" + addCount + " delCount=" + delCount,
        addCount.get() - delCount.get(),
        s.getIndexReader().numDocs());
    releaseSearcher(s);

    writer.commit();

    assertEquals(
        "index=" + writer.segString() + " addCount=" + addCount + " delCount=" + delCount,
        addCount.get() - delCount.get(),
        writer.numDocs());

    doClose();

    try {
      writer.commit();
    } finally {
      writer.close();
    }

    // Cannot close until after writer is closed because
    // writer has merged segment warmer that uses IS to run
    // searches, and that IS may be using this es!
    if (es != null) {
      es.shutdown();
      es.awaitTermination(1, TimeUnit.SECONDS);
    }

    TestUtil.checkIndex(dir);
    dir.close();
    IOUtils.rm(tempDir);

    if (VERBOSE) {
      System.out.println("TEST: done [" + (System.currentTimeMillis() - t0) + " ms]");
    }
  }
  @Test
  public void testDuellCompletions()
      throws IOException, NoSuchFieldException, SecurityException, IllegalArgumentException,
          IllegalAccessException {
    final boolean preserveSeparators = getRandom().nextBoolean();
    final boolean preservePositionIncrements = getRandom().nextBoolean();
    final boolean usePayloads = getRandom().nextBoolean();
    final int options = preserveSeparators ? AnalyzingSuggester.PRESERVE_SEP : 0;

    XAnalyzingSuggester reference =
        new XAnalyzingSuggester(
            new StandardAnalyzer(),
            null,
            new StandardAnalyzer(),
            options,
            256,
            -1,
            preservePositionIncrements,
            null,
            false,
            1,
            XAnalyzingSuggester.SEP_LABEL,
            XAnalyzingSuggester.PAYLOAD_SEP,
            XAnalyzingSuggester.END_BYTE,
            XAnalyzingSuggester.HOLE_CHARACTER);
    LineFileDocs docs = new LineFileDocs(getRandom());
    int num = scaledRandomIntBetween(150, 300);
    final String[] titles = new String[num];
    final long[] weights = new long[num];
    for (int i = 0; i < titles.length; i++) {
      Document nextDoc = docs.nextDoc();
      IndexableField field = nextDoc.getField("title");
      titles[i] = field.stringValue();
      weights[i] = between(0, 100);
    }
    docs.close();
    final InputIterator primaryIter =
        new InputIterator() {
          int index = 0;
          long currentWeight = -1;

          @Override
          public BytesRef next() throws IOException {
            if (index < titles.length) {
              currentWeight = weights[index];
              return new BytesRef(titles[index++]);
            }
            return null;
          }

          @Override
          public long weight() {
            return currentWeight;
          }

          @Override
          public BytesRef payload() {
            return null;
          }

          @Override
          public boolean hasPayloads() {
            return false;
          }

          @Override
          public Set<BytesRef> contexts() {
            return null;
          }

          @Override
          public boolean hasContexts() {
            return false;
          }
        };
    InputIterator iter;
    if (usePayloads) {
      iter =
          new InputIterator() {
            @Override
            public long weight() {
              return primaryIter.weight();
            }

            @Override
            public BytesRef next() throws IOException {
              return primaryIter.next();
            }

            @Override
            public BytesRef payload() {
              return new BytesRef(Long.toString(weight()));
            }

            @Override
            public boolean hasPayloads() {
              return true;
            }

            @Override
            public Set<BytesRef> contexts() {
              return null;
            }

            @Override
            public boolean hasContexts() {
              return false;
            }
          };
    } else {
      iter = primaryIter;
    }
    reference.build(iter);
    PostingsFormat provider = PostingsFormat.forName(Lucene.LATEST_POSTINGS_FORMAT);

    NamedAnalyzer namedAnalzyer = new NamedAnalyzer("foo", new StandardAnalyzer());
    final CompletionFieldMapper mapper =
        new CompletionFieldMapper(
            new Names("foo"),
            namedAnalzyer,
            namedAnalzyer,
            provider,
            null,
            usePayloads,
            preserveSeparators,
            preservePositionIncrements,
            Integer.MAX_VALUE,
            indexSettings,
            AbstractFieldMapper.MultiFields.empty(),
            null,
            ContextMapping.EMPTY_MAPPING);
    Lookup buildAnalyzingLookup = buildAnalyzingLookup(mapper, titles, titles, weights);
    Field field = buildAnalyzingLookup.getClass().getDeclaredField("maxAnalyzedPathsForOneInput");
    field.setAccessible(true);
    Field refField = reference.getClass().getDeclaredField("maxAnalyzedPathsForOneInput");
    refField.setAccessible(true);
    assertThat(refField.get(reference), equalTo(field.get(buildAnalyzingLookup)));

    for (int i = 0; i < titles.length; i++) {
      int res = between(1, 10);
      final StringBuilder builder = new StringBuilder();
      SuggestUtils.analyze(
          namedAnalzyer.tokenStream("foo", titles[i]),
          new SuggestUtils.TokenConsumer() {
            @Override
            public void nextToken() throws IOException {
              if (builder.length() == 0) {
                builder.append(this.charTermAttr.toString());
              }
            }
          });
      String firstTerm = builder.toString();
      String prefix =
          firstTerm.isEmpty() ? "" : firstTerm.substring(0, between(1, firstTerm.length()));
      List<LookupResult> refLookup = reference.lookup(prefix, false, res);
      List<LookupResult> lookup = buildAnalyzingLookup.lookup(prefix, false, res);
      assertThat(refLookup.toString(), lookup.size(), equalTo(refLookup.size()));
      for (int j = 0; j < refLookup.size(); j++) {
        assertThat(lookup.get(j).key, equalTo(refLookup.get(j).key));
        assertThat(
            "prefix: "
                + prefix
                + " "
                + j
                + " -- missmatch cost: "
                + lookup.get(j).key
                + " - "
                + lookup.get(j).value
                + " | "
                + refLookup.get(j).key
                + " - "
                + refLookup.get(j).value,
            lookup.get(j).value,
            equalTo(refLookup.get(j).value));
        assertThat(lookup.get(j).payload, equalTo(refLookup.get(j).payload));
        if (usePayloads) {
          assertThat(
              lookup.get(j).payload.utf8ToString(), equalTo(Long.toString(lookup.get(j).value)));
        }
      }
    }
  }