public void readFields(DataInput in) throws IOException { byte version = in.readByte(); switch(version) { case 1: majorCode = in.readByte(); minorCode = in.readShort(); args = WritableUtils.readCompressedStringArray(in); break; case 2: majorCode = in.readByte(); minorCode = in.readShort(); args = WritableUtils.readStringArray(in); break; default: throw new VersionMismatchException(VERSION, version); } }
@Override public void readFields(DataInput in) throws IOException { fragmentOrdinal = in.readLong(); collections = WritableUtils.readStringArray(in); int numMetadata = in.readInt(); if (numMetadata > 0) { String[] metaStrings = WritableUtils.readStringArray(in); metadata = new HashMap<String, String>(numMetadata); for (int i = 0; i < metaStrings.length - 1; i++) { metadata.put(metaStrings[i], metaStrings[i + 1]); } } quality = in.readInt(); }
@Override public void readFields(DataInput in) throws IOException { queueName = Text.readString(in); operations = WritableUtils.readStringArray(in); }
@Override public void readFields(DataInput in) throws IOException { queueName = Text.readString(in); operations = WritableUtils.readStringArray(in); }
public void readFields(DataInput di) throws IOException { target = WritableUtils.readString(di); sources = WritableUtils.readStringArray(di); }
/** * Read the token aliases and {@link Credentials} from a Hadoop FileSystem. * @param file path of the file to be read * @param conf a Hadoop {@link} Configuration for the Hadoop FileSystem * @throws IOException if file cannot be read */ public void read(String file, Configuration conf) throws IOException { Path inFile = new Path(file); try (FSDataInputStream fis = inFile.getFileSystem(conf).open(inFile)) { tokenAliases.addAll(Arrays.asList(WritableUtils.readStringArray(fis))); credentials.readTokenStorageStream(fis); } }
@Override public void readFields(DataInput in) throws IOException { queueName = StringInterner.weakIntern(Text.readString(in)); operations = WritableUtils.readStringArray(in); }
@Override public void readFields(DataInput in) throws IOException { queueName = StringInterner.weakIntern(Text.readString(in)); operations = WritableUtils.readStringArray(in); }
@Override public void readFields(DataInput dataInput) throws IOException { domainName = WritableUtils.readString(dataInput); partitionNumber = WritableUtils.readVInt(dataInput); locations = WritableUtils.readStringArray(dataInput); }
@Override public void readFields(DataInput in) throws IOException { queueName = StringInterner.weakIntern(Text.readString(in)); operations = WritableUtils.readStringArray(in); }
@Override public void readFields(DataInput in) throws IOException { queueName = StringInterner.weakIntern(Text.readString(in)); operations = WritableUtils.readStringArray(in); }
public void readFields(DataInput in) throws IOException { this.taskid = TaskID.read(in); this.progress = in.readFloat(); this.state = Text.readString(in); this.startTime = in.readLong(); this.finishTime = in.readLong(); diagnostics = WritableUtils.readStringArray(in); counters = new Counters(); counters.readFields(in); } }
public void readFields(DataInput in) throws IOException { super.readFields(in); shortTestString = in.readUTF(); longTestString = WritableUtils.readString(in); compressableTestString = WritableUtils.readCompressedString(in); containedObject.readFields(in); // Warning if this is a recursive call, you need a null value. testStringArray = WritableUtils.readStringArray(in); }
public void readFields(DataInput in) throws IOException { this.taskid.readFields(in); this.progress = in.readFloat(); this.state = Text.readString(in); this.startTime = in.readLong(); this.finishTime = in.readLong(); diagnostics = WritableUtils.readStringArray(in); counters = new Counters(); counters.readFields(in); currentStatus = WritableUtils.readEnum(in, TIPStatus.class); if (currentStatus == TIPStatus.RUNNING) { int num = WritableUtils.readVInt(in); for (int i = 0; i < num; i++) { TaskAttemptID t = new TaskAttemptID(); t.readFields(in); runningAttempts.add(t); } } else if (currentStatus == TIPStatus.COMPLETE) { successfulAttempt.readFields(in); } } }
public void readFields(DataInput in) throws IOException { this.taskid.readFields(in); this.progress = in.readFloat(); this.state = Text.readString(in); this.startTime = in.readLong(); this.finishTime = in.readLong(); diagnostics = WritableUtils.readStringArray(in); counters = new Counters(); counters.readFields(in); currentStatus = WritableUtils.readEnum(in, TIPStatus.class); if (currentStatus == TIPStatus.RUNNING) { int num = WritableUtils.readVInt(in); for (int i = 0; i < num; i++) { TaskAttemptID t = new TaskAttemptID(); t.readFields(in); runningAttempts.add(t); } } else if (currentStatus == TIPStatus.COMPLETE) { successfulAttempt.readFields(in); } } }
public void readFields(DataInput in) throws IOException { this.taskid.readFields(in); this.progress = in.readFloat(); this.state = StringInterner.weakIntern(Text.readString(in)); this.startTime = in.readLong(); this.finishTime = in.readLong(); diagnostics = WritableUtils.readStringArray(in); counters = new Counters(); counters.readFields(in); currentStatus = WritableUtils.readEnum(in, TIPStatus.class); if (currentStatus == TIPStatus.RUNNING) { int num = WritableUtils.readVInt(in); for (int i = 0; i < num; i++) { TaskAttemptID t = new TaskAttemptID(); t.readFields(in); runningAttempts.add(t); } } else if (currentStatus == TIPStatus.COMPLETE) { successfulAttempt.readFields(in); } } }
public void readFields(DataInput in) throws IOException { this.taskid.readFields(in); this.progress = in.readFloat(); this.state = StringInterner.weakIntern(Text.readString(in)); this.startTime = in.readLong(); this.finishTime = in.readLong(); diagnostics = WritableUtils.readStringArray(in); counters = new Counters(); counters.readFields(in); currentStatus = WritableUtils.readEnum(in, TIPStatus.class); if (currentStatus == TIPStatus.RUNNING) { int num = WritableUtils.readVInt(in); for (int i = 0; i < num; i++) { TaskAttemptID t = new TaskAttemptID(); t.readFields(in); runningAttempts.add(t); } } else if (currentStatus == TIPStatus.COMPLETE) { successfulAttempt.readFields(in); } } }
public void readFields(DataInput in) throws IOException { this.taskid.readFields(in); this.progress = in.readFloat(); this.state = StringInterner.weakIntern(Text.readString(in)); this.startTime = in.readLong(); this.finishTime = in.readLong(); diagnostics = WritableUtils.readStringArray(in); counters = new Counters(); counters.readFields(in); currentStatus = WritableUtils.readEnum(in, TIPStatus.class); if (currentStatus == TIPStatus.RUNNING) { int num = WritableUtils.readVInt(in); for (int i = 0; i < num; i++) { TaskAttemptID t = new TaskAttemptID(); t.readFields(in); runningAttempts.add(t); } } else if (currentStatus == TIPStatus.COMPLETE) { successfulAttempt.readFields(in); } } }
@Override public void readFields(DataInput in) throws IOException { super.readFields(in); shortTestString = in.readUTF(); longTestString = WritableUtils.readString(in); compressableTestString = WritableUtils.readCompressedString(in); containedObject.readFields(in); // Warning if this is a recursive call, you need a null value. testStringArray = WritableUtils.readStringArray(in); }
@Override public void readFields(DataInput in) throws IOException { super.readFields(in); shortTestString = in.readUTF(); longTestString = WritableUtils.readString(in); compressableTestString = WritableUtils.readCompressedString(in); containedObject.readFields(in); // Warning if this is a recursive call, you need a null value. testStringArray = WritableUtils.readStringArray(in); }