/** * Decompose. * * @param value * the value * @param clazz * the clazz * @return the object */ private static Object decompose(Object value, Class clazz) { ByteBuffer buf = ByteBuffer.wrap((byte[]) value, 0, ((byte[]) value).length); return ByteBufferUtil.toFloat(buf); } }
public Float deserialize(ByteBuffer bytes) { if (bytes.remaining() == 0) return null; return ByteBufferUtil.toFloat(bytes); }
private static Object decompose(Object value, Class clazz) { ByteBuffer buf = ByteBuffer.wrap((byte[]) value, 0, ((byte[]) value).length); return ByteBufferUtil.toFloat(buf); } }
public Float deserialize(ByteBuffer bytes) { if (bytes.remaining() == 0) return null; return ByteBufferUtil.toFloat(bytes); }
public Float deserialize(ByteBuffer bytes) { if (bytes.remaining() == 0) return null; return ByteBufferUtil.toFloat(bytes); }
public Float deserialize(ByteBuffer bytes) { if (bytes.remaining() == 0) return null; return ByteBufferUtil.toFloat(bytes); }
public Float deserialize(ByteBuffer bytes) { if (bytes.remaining() == 0) return null; return ByteBufferUtil.toFloat(bytes); }
public Float deserialize(ByteBuffer bytes) { if (bytes.remaining() == 0) return null; return ByteBufferUtil.toFloat(bytes); }
@Override public Double deserialize(ByteBuffer paramByteBuffer, ProtocolVersion paramProtocolVersion) throws InvalidTypeException { if (paramByteBuffer == null) { return null; } // always duplicate the ByteBuffer instance before consuming it! Float value = ByteBufferUtil.toFloat(paramByteBuffer.duplicate()); return value.doubleValue(); }
@Override public Double deserialize(ByteBuffer paramByteBuffer, ProtocolVersion paramProtocolVersion) throws InvalidTypeException { if (paramByteBuffer == null) { return null; } // always duplicate the ByteBuffer instance before consuming it! Float value = ByteBufferUtil.toFloat(paramByteBuffer.duplicate()); return value.doubleValue(); }