public DataOutputX writeLong5(long v) throws IOException { write(toBytes5(v), 0, 5); return this; }
public DataOutputX writeLong5(long v) throws IOException { write(toBytes5(v), 0, 5); return this; }
public DataOutputX writeLong5(long v) throws IOException { write(toBytes5(v), 0, 5); return this; }
public DataOutputX writeLong5(long v) throws IOException { write(toBytes5(v), 0, 5); return this; }
public DataOutputX writeLong5(long v) throws IOException { write(toBytes5(v), 0, 5); return this; }
public synchronized void put(int keyHash, long value) throws IOException { byte[] buffer = DataOutputX.toBytes5(value); int pos = _offset(keyHash); if ( DataInputX.toLong5(this.memBuffer, pos) == 0) { addCount(1); } System.arraycopy(buffer, 0, this.memBuffer, pos, _keyLength); this.dirty=true; }
public synchronized void put(long time, long value) throws IOException { byte[] buffer = DataOutputX.toBytes5(value); int pos = _offset(time); //increase count if new one if (DataInputX.toLong5(this.memBuffer, pos) == 0) { addCount(1); } System.arraycopy(buffer, 0, this.memBuffer, pos, _keyLength); this.dirty = true; }
byte[] b = new byte[6]; b[0] = 5; write(toBytes5(b, 1, v), 0, 6); } else if (Long.MIN_VALUE <= v && v <= Long.MAX_VALUE) { byte[] b = new byte[9];
byte[] b = new byte[6]; b[0] = 5; write(toBytes5(b, 1, v), 0, 6); } else if (Long.MIN_VALUE <= v && v <= Long.MAX_VALUE) { byte[] b = new byte[9];
byte[] b = new byte[6]; b[0] = 5; write(toBytes5(b, 1, v), 0, 6); } else if (Long.MIN_VALUE <= v && v <= Long.MAX_VALUE) { byte[] b = new byte[9];
byte[] b = new byte[6]; b[0] = 5; write(toBytes5(b, 1, v), 0, 6); } else if (Long.MIN_VALUE <= v && v <= Long.MAX_VALUE) { byte[] b = new byte[9];
byte[] b = new byte[6]; b[0] = 5; write(toBytes5(b, 1, v), 0, 6); } else if (Long.MIN_VALUE <= v && v <= Long.MAX_VALUE) { byte[] b = new byte[9];
public DataOutputX writeLong5(long v) throws IOException { write(toBytes5(v), 0, 5); return this; }
public DataOutputX writeLong5(long v) throws IOException { write(toBytes5(v), 0, 5); return this; }
public DataOutputX writeLong5(long v) throws IOException { write(toBytes5(v), 0, 5); return this; }
public synchronized void put(long time, long value) throws IOException { byte[] buffer = DataOutputX.toBytes5(value); int pos = _offset(time); //increase count if new one if (DataInputX.toLong5(this.memBuffer, pos) == 0) { addCount(1); } System.arraycopy(buffer, 0, this.memBuffer, pos, _keyLength); this.dirty = true; }
public synchronized void put(int keyHash, long value) throws IOException { byte[] buffer = DataOutputX.toBytes5(value); int pos = _offset(keyHash); if ( DataInputX.toLong5(this.memBuffer, pos) == 0) { addCount(1); } System.arraycopy(buffer, 0, this.memBuffer, pos, _keyLength); this.dirty=true; }
byte[] b = new byte[6]; b[0] = 5; write(toBytes5(b, 1, v), 0, 6); } else if (Long.MIN_VALUE <= v && v <= Long.MAX_VALUE) { byte[] b = new byte[9];
byte[] b = new byte[6]; b[0] = 5; write(toBytes5(b, 1, v), 0, 6); } else if (Long.MIN_VALUE <= v && v <= Long.MAX_VALUE) { byte[] b = new byte[9];
byte[] b = new byte[6]; b[0] = 5; write(toBytes5(b, 1, v), 0, 6); } else if (Long.MIN_VALUE <= v && v <= Long.MAX_VALUE) { byte[] b = new byte[9];