public void testInputFormat() {

    try {
      JobConf conf = new JobConf();
      String TMP_DIR = System.getProperty("test.build.data", "/tmp");
      Path filename = new Path("file:///" + TMP_DIR + "/tmpSeqFile");
      SequenceFile.Writer sfw =
          SequenceFile.createWriter(
              FileSystem.getLocal(conf),
              conf,
              filename,
              ChukwaArchiveKey.class,
              ChunkImpl.class,
              SequenceFile.CompressionType.NONE,
              Reporter.NULL);

      StringBuilder buf = new StringBuilder();
      int offsets[] = new int[lines.length];
      for (int i = 0; i < lines.length; ++i) {
        buf.append(lines[i]);
        buf.append("\n");
        offsets[i] = buf.length() - 1;
      }
      ChukwaArchiveKey key = new ChukwaArchiveKey(0, "datatype", "sname", 0);
      ChunkImpl val = new ChunkImpl("datatype", "sname", 0, buf.toString().getBytes(), null);
      val.setRecordOffsets(offsets);
      sfw.append(key, val);
      sfw.append(key, val); // write it twice
      sfw.close();

      long len = FileSystem.getLocal(conf).getFileStatus(filename).getLen();
      InputSplit split = new FileSplit(filename, 0, len, (String[]) null);
      ChukwaInputFormat in = new ChukwaInputFormat();
      RecordReader<LongWritable, Text> r = in.getRecordReader(split, conf, Reporter.NULL);

      LongWritable l = r.createKey();
      Text line = r.createValue();
      for (int i = 0; i < lines.length * 2; ++i) {
        boolean succeeded = r.next(l, line);
        assertTrue(succeeded);
        assertEquals(i, l.get());
        assertEquals(lines[i % lines.length], line.toString());
        System.out.println("read line: " + l.get() + " " + line);
      }
      boolean succeeded = r.next(l, line);
      assertFalse(succeeded);

    } catch (IOException e) {
      e.printStackTrace();
      fail("IO exception " + e);
    }
  }
  public byte[] getNext() throws Exception {

    if (!m_rr.hasNext()) {
      return null;
    }

    OrcStruct lv_row = (OrcStruct) m_rr.next(null);
    Object lv_field_val = null;
    ByteBuffer lv_row_buffer;

    byte[] lv_row_ba = new byte[4096];
    lv_row_buffer = ByteBuffer.wrap(lv_row_ba);
    for (int i = 0; i < m_fields.size(); i++) {
      lv_field_val = lv_row.getFieldValue(i);
      if (lv_field_val == null) {
        lv_row_buffer.putInt(0);
        continue;
      }
      String lv_field_val_str = lv_field_val.toString();
      lv_row_buffer.putInt(lv_field_val_str.length());
      if (lv_field_val != null) {
        lv_row_buffer.put(lv_field_val_str.getBytes());
      }
    }

    System.out.println(lv_row_buffer);
    return lv_row_buffer.array();
  }
  // Dumps the contents of the file as ByteBuffer.
  public void readFile_ByteBuffer() throws Exception {

    OrcStruct lv_row = null;
    Object lv_field_val = null;
    ByteBuffer lv_row_buffer;
    while (m_rr.hasNext()) {
      byte[] lv_row_ba = new byte[4096];
      lv_row_buffer = ByteBuffer.wrap(lv_row_ba);
      lv_row = (OrcStruct) m_rr.next(lv_row);
      for (int i = 0; i < m_fields.size(); i++) {
        lv_field_val = lv_row.getFieldValue(i);
        if (lv_field_val == null) {
          lv_row_buffer.putInt(0);
          continue;
        }
        String lv_field_val_str = lv_field_val.toString();
        lv_row_buffer.putInt(lv_field_val_str.length());
        if (lv_field_val != null) {
          lv_row_buffer.put(lv_field_val_str.getBytes());
        }
      }
      System.out.println(lv_row_buffer);
      //	    System.out.println(new String(lv_row_buffer.array()));
    }
  }
Example #4
0
    @Override
    public String[] next() {
      if (!hasNext()) {
        throw new NoSuchElementException();
      }

      return reader.next();
    }
Example #5
0
    public synchronized boolean next(K key, V value) throws IOException {

      setProgress(getProgress());
      long beforePos = getPos();
      boolean ret = rawIn.next(key, value);
      if (ret) {
        inputRecordCounter.increment(1);
        inputByteCounter.increment(getPos() - beforePos);
      }
      return ret;
    }
 private static List<Text> readSplit(TextInputFormat format, InputSplit split, JobConf job)
     throws IOException {
   List<Text> result = new ArrayList<Text>();
   RecordReader<LongWritable, Text> reader = format.getRecordReader(split, job, voidReporter);
   LongWritable key = reader.createKey();
   Text value = reader.createValue();
   while (reader.next(key, value)) {
     result.add(value);
     value = reader.createValue();
   }
   reader.close();
   return result;
 }
  // Dumps the content of the file. The columns are '|' separated.
  public void readFile_String() throws Exception {

    OrcStruct lv_row = null;
    Object lv_field_val = null;
    StringBuilder lv_row_string = new StringBuilder(1024);
    while (m_rr.hasNext()) {
      lv_row = (OrcStruct) m_rr.next(lv_row);
      lv_row_string.setLength(0);
      for (int i = 0; i < m_fields.size(); i++) {
        lv_field_val = lv_row.getFieldValue(i);
        if (lv_field_val != null) {
          lv_row_string.append(lv_field_val);
        }
        lv_row_string.append('|');
      }
      System.out.println(lv_row_string);
    }
  }
    void next(OrcStruct next) throws IOException {
      if (recordReader.hasNext()) {
        nextRecord = (OrcStruct) recordReader.next(next);
        // set the key
        key.setValues(
            OrcRecordUpdater.getOriginalTransaction(nextRecord),
            OrcRecordUpdater.getBucket(nextRecord),
            OrcRecordUpdater.getRowId(nextRecord),
            OrcRecordUpdater.getCurrentTransaction(nextRecord));

        // if this record is larger than maxKey, we need to stop
        if (maxKey != null && key.compareRow(maxKey) > 0) {
          LOG.debug("key " + key + " > maxkey " + maxKey);
          nextRecord = null;
          recordReader.close();
        }
      } else {
        nextRecord = null;
        recordReader.close();
      }
    }
  @Test
  public void testFormat() throws Exception {
    JobConf job = new JobConf(defaultConf);
    Path file = new Path(workDir, "test.txt");

    // A reporter that does nothing
    Reporter reporter = Reporter.NULL;

    int seed = new Random().nextInt();
    LOG.info("seed = " + seed);
    Random random = new Random(seed);

    localFs.delete(workDir, true);
    FileInputFormat.setInputPaths(job, workDir);

    // for a variety of lengths
    for (int length = 0; length < MAX_LENGTH; length += random.nextInt(MAX_LENGTH / 10) + 1) {

      LOG.debug("creating; entries = " + length);

      // create a file with length entries
      Writer writer = new OutputStreamWriter(localFs.create(file));
      try {
        for (int i = 0; i < length; i++) {
          writer.write(Integer.toString(i));
          writer.write("\n");
        }
      } finally {
        writer.close();
      }

      // try splitting the file in a variety of sizes
      TextInputFormat format = new TextInputFormat();
      format.configure(job);
      LongWritable key = new LongWritable();
      Text value = new Text();
      for (int i = 0; i < 3; i++) {
        int numSplits = random.nextInt(MAX_LENGTH / 20) + 1;
        LOG.debug("splitting: requesting = " + numSplits);
        InputSplit[] splits = format.getSplits(job, numSplits);
        LOG.debug("splitting: got =        " + splits.length);

        if (length == 0) {
          assertEquals(
              "Files of length 0 are not returned from FileInputFormat.getSplits().",
              1,
              splits.length);
          assertEquals("Empty file length == 0", 0, splits[0].getLength());
        }

        // check each split
        BitSet bits = new BitSet(length);
        for (int j = 0; j < splits.length; j++) {
          LOG.debug("split[" + j + "]= " + splits[j]);
          RecordReader<LongWritable, Text> reader =
              format.getRecordReader(splits[j], job, reporter);
          try {
            int count = 0;
            while (reader.next(key, value)) {
              int v = Integer.parseInt(value.toString());
              LOG.debug("read " + v);
              if (bits.get(v)) {
                LOG.warn(
                    "conflict with " + v + " in split " + j + " at position " + reader.getPos());
              }
              assertFalse("Key in multiple partitions.", bits.get(v));
              bits.set(v);
              count++;
            }
            LOG.debug("splits[" + j + "]=" + splits[j] + " count=" + count);
          } finally {
            reader.close();
          }
        }
        assertEquals("Some keys in no partition.", length, bits.cardinality());
      }
    }
  }
  @Test
  public void testSplitableCodecs() throws IOException {
    JobConf conf = new JobConf(defaultConf);
    int seed = new Random().nextInt();
    // Create the codec
    CompressionCodec codec = null;
    try {
      codec =
          (CompressionCodec)
              ReflectionUtils.newInstance(
                  conf.getClassByName("org.apache.hadoop.io.compress.BZip2Codec"), conf);
    } catch (ClassNotFoundException cnfe) {
      throw new IOException("Illegal codec!");
    }
    Path file = new Path(workDir, "test" + codec.getDefaultExtension());

    // A reporter that does nothing
    Reporter reporter = Reporter.NULL;
    LOG.info("seed = " + seed);
    Random random = new Random(seed);
    FileSystem localFs = FileSystem.getLocal(conf);

    localFs.delete(workDir, true);
    FileInputFormat.setInputPaths(conf, workDir);

    final int MAX_LENGTH = 500000;

    // for a variety of lengths
    for (int length = MAX_LENGTH / 2;
        length < MAX_LENGTH;
        length += random.nextInt(MAX_LENGTH / 4) + 1) {

      LOG.info("creating; entries = " + length);

      // create a file with length entries
      Writer writer = new OutputStreamWriter(codec.createOutputStream(localFs.create(file)));
      try {
        for (int i = 0; i < length; i++) {
          writer.write(Integer.toString(i));
          writer.write("\n");
        }
      } finally {
        writer.close();
      }

      // try splitting the file in a variety of sizes
      TextInputFormat format = new TextInputFormat();
      format.configure(conf);
      LongWritable key = new LongWritable();
      Text value = new Text();
      for (int i = 0; i < 3; i++) {
        int numSplits = random.nextInt(MAX_LENGTH / 2000) + 1;
        LOG.info("splitting: requesting = " + numSplits);
        InputSplit[] splits = format.getSplits(conf, numSplits);
        LOG.info("splitting: got =        " + splits.length);

        // check each split
        BitSet bits = new BitSet(length);
        for (int j = 0; j < splits.length; j++) {
          LOG.debug("split[" + j + "]= " + splits[j]);
          RecordReader<LongWritable, Text> reader =
              format.getRecordReader(splits[j], conf, reporter);
          try {
            int counter = 0;
            while (reader.next(key, value)) {
              int v = Integer.parseInt(value.toString());
              LOG.debug("read " + v);

              if (bits.get(v)) {
                LOG.warn(
                    "conflict with " + v + " in split " + j + " at position " + reader.getPos());
              }
              assertFalse("Key in multiple partitions.", bits.get(v));
              bits.set(v);
              counter++;
            }
            if (counter > 0) {
              LOG.info("splits[" + j + "]=" + splits[j] + " count=" + counter);
            } else {
              LOG.debug("splits[" + j + "]=" + splits[j] + " count=" + counter);
            }
          } finally {
            reader.close();
          }
        }
        assertEquals("Some keys in no partition.", length, bits.cardinality());
      }
    }
  }
  public void testFormat() throws Exception {
    JobConf job = new JobConf(conf);
    FileSystem fs = FileSystem.getLocal(conf);
    Path dir = new Path(System.getProperty("test.build.data", ".") + "/mapred");
    Path file = new Path(dir, "test.seq");

    Reporter reporter = Reporter.NULL;

    int seed = new Random().nextInt();
    // LOG.info("seed = "+seed);
    Random random = new Random(seed);

    fs.delete(dir, true);

    FileInputFormat.setInputPaths(job, dir);

    // for a variety of lengths
    for (int length = 0; length < MAX_LENGTH; length += random.nextInt(MAX_LENGTH / 10) + 1) {

      // LOG.info("creating; entries = " + length);

      // create a file with length entries
      SequenceFile.Writer writer =
          SequenceFile.createWriter(fs, conf, file, IntWritable.class, BytesWritable.class);
      try {
        for (int i = 0; i < length; i++) {
          IntWritable key = new IntWritable(i);
          byte[] data = new byte[random.nextInt(10)];
          random.nextBytes(data);
          BytesWritable value = new BytesWritable(data);
          writer.append(key, value);
        }
      } finally {
        writer.close();
      }

      // try splitting the file in a variety of sizes
      InputFormat<IntWritable, BytesWritable> format =
          new SequenceFileInputFormat<IntWritable, BytesWritable>();
      IntWritable key = new IntWritable();
      BytesWritable value = new BytesWritable();
      for (int i = 0; i < 3; i++) {
        int numSplits = random.nextInt(MAX_LENGTH / (SequenceFile.SYNC_INTERVAL / 20)) + 1;
        // LOG.info("splitting: requesting = " + numSplits);
        InputSplit[] splits = format.getSplits(job, numSplits);
        // LOG.info("splitting: got =        " + splits.length);

        // check each split
        BitSet bits = new BitSet(length);
        for (int j = 0; j < splits.length; j++) {
          RecordReader<IntWritable, BytesWritable> reader =
              format.getRecordReader(splits[j], job, reporter);
          try {
            int count = 0;
            while (reader.next(key, value)) {
              // if (bits.get(key.get())) {
              // LOG.info("splits["+j+"]="+splits[j]+" : " +
              // key.get());
              // LOG.info("@"+reader.getPos());
              // }
              assertFalse("Key in multiple partitions.", bits.get(key.get()));
              bits.set(key.get());
              count++;
            }
            // LOG.info("splits["+j+"]="+splits[j]+" count=" +
            // count);
          } finally {
            reader.close();
          }
        }
        assertEquals("Some keys in no partition.", length, bits.cardinality());
      }
    }
  }
  // This method is just for experimentation.
  public void testRead() throws Exception {

    m_reader = OrcFile.createReader(m_file_path, OrcFile.readerOptions(m_conf));

    System.out.println("Reader: " + m_reader);

    System.out.println("# Rows: " + m_reader.getNumberOfRows());
    m_types = m_reader.getTypes();
    System.out.println("# Types in the file: " + m_types.size());

    for (int i = 0; i < m_types.size(); i++) {
      System.out.println("Type " + i + ": " + m_types.get(i).getKind());
    }

    System.out.println("Compression: " + m_reader.getCompression());
    if (m_reader.getCompression() != CompressionKind.NONE) {
      System.out.println("Compression size: " + m_reader.getCompressionSize());
    }

    StructObjectInspector m_oi = (StructObjectInspector) m_reader.getObjectInspector();

    System.out.println("object inspector type category: " + m_oi.getCategory());
    System.out.println("object inspector type name    : " + m_oi.getTypeName());

    m_fields = m_oi.getAllStructFieldRefs();
    System.out.println("Number of columns in the table: " + m_fields.size());

    RecordReader m_rr = m_reader.rows();

    // Print the type info:
    for (int i = 0; i < m_fields.size(); i++) {
      System.out.println("Column " + i + " name: " + m_fields.get(i).getFieldName());
      ObjectInspector lv_foi = m_fields.get(i).getFieldObjectInspector();
      System.out.println("Column " + i + " type category: " + lv_foi.getCategory());
      System.out.println("Column " + i + " type name: " + lv_foi.getTypeName());
      //		Object lv_column_val = m_oi.getStructFieldData(lv_row, m_fields.get(i));
      // System.out.print("Column " + i + " value: " + lv_row.getFieldValue(i));
    }

    OrcStruct lv_row = null;
    Object lv_field_val = null;
    StringBuilder lv_row_string = new StringBuilder(1024);
    while (m_rr.hasNext()) {
      lv_row = (OrcStruct) m_rr.next(lv_row);
      lv_row_string.setLength(0);
      for (int i = 0; i < m_fields.size(); i++) {
        lv_field_val = lv_row.getFieldValue(i);
        if (lv_field_val != null) {
          lv_row_string.append(lv_field_val);
        }
        lv_row_string.append('|');
      }
      System.out.println(lv_row_string);
    }

    /**
     * Typecasting to appropriate type based on the 'kind' if (OrcProto.Type.Kind.INT ==
     * m_types.get(1).getKind()) { IntWritable lvf_1_val = (IntWritable) lv_row.getFieldValue(0);
     * System.out.println("Column 1 value: " + lvf_1_val); }
     */
  }