public String toReadableText() { if (data == null) { return null; } else { return BytesUtil.toHex(data, offset, length); } }
public static String toReadableText(byte[] array) { if (array == null) return null; return toHex(array); }
@Override public String toString() { return BytesUtil.toHex(data, offset, length); }
public String getEndKeyAsString() { return BytesUtil.toHex(this.endKey); }
public String getStartKeyAsString() { return BytesUtil.toHex(this.startKey); }
public static String toHex(byte[] array) { return toHex(array, 0, array.length); }
private String getStatsString(byte[] region, CubeVisitResponse result) { StringBuilder sb = new StringBuilder(); Stats stats = result.getStats(); byte[] compressedRows = HBaseZeroCopyByteString.zeroCopyGetBytes(result.getCompressedRows()); sb.append("Endpoint RPC returned from HTable ").append(cubeSeg.getStorageLocationIdentifier()).append(" Shard ") .append(BytesUtil.toHex(region)).append(" on host: ").append(stats.getHostname()).append("."); sb.append("Total scanned row: ").append(stats.getScannedRowCount()).append(". "); sb.append("Total scanned bytes: ").append(stats.getScannedBytes()).append(". "); sb.append("Total filtered row: ").append(stats.getFilteredRowCount()).append(". "); sb.append("Total aggred row: ").append(stats.getAggregatedRowCount()).append(". "); sb.append("Time elapsed in EP: ").append(stats.getServiceEndTime() - stats.getServiceStartTime()) .append("(ms). "); sb.append("Server CPU usage: ").append(stats.getSystemCpuLoad()).append(", server physical mem left: ") .append(stats.getFreePhysicalMemorySize()).append(", server swap mem left:") .append(stats.getFreeSwapSpaceSize()).append("."); sb.append("Etc message: ").append(stats.getEtcMsg()).append("."); sb.append("Normal Complete: ").append(stats.getNormalComplete() == 1).append("."); sb.append("Compressed row size: ").append(compressedRows.length); return sb.toString(); }
@Test public void testReadable() { String x = "\\x00\\x00\\x00\\x00\\x00\\x01\\xFC\\xA8"; byte[] bytes = BytesUtil.fromReadableText(x); String y = BytesUtil.toHex(bytes); assertEquals(x, y); }
public static String toReadableText(byte[] array) { return toHex(array); }
private void initDebugString() { this.startKeyString = BytesUtil.toHex(this.startKey); this.stopKeyString = BytesUtil.toHex(this.stopKey); StringBuilder buf = new StringBuilder(); for (Pair<byte[], byte[]> fuzzyKey : this.fuzzyKeys) { buf.append(BytesUtil.toHex(fuzzyKey.getFirst())); buf.append(" "); buf.append(BytesUtil.toHex(fuzzyKey.getSecond())); } this.fuzzyKeyString = buf.toString(); }
public static String toHex(byte[] array) { return toHex(new ImmutableBytesWritable(array)); }
if (splitKeys != null) { for (int i = 0; i < splitKeys.length; i++) { System.out.println("split key " + i + ": " + BytesUtil.toHex(splitKeys[i]));
public String toReadableText() { if (data == null) { return null; } else { return BytesUtil.toHex(data, offset, length); } }
public static String toReadableText(byte[] array) { if (array == null) return null; return toHex(array); }
@Override public String toString() { return BytesUtil.toHex(data, offset, length); }
public String getStartKeyAsString() { return BytesUtil.toHex(this.startKey); }
public static String toHex(byte[] array) { return toHex(array, 0, array.length); }
public static String toReadableText(byte[] array) { return toHex(array); }