private static Timestamp getTimestamp(Object object, TimestampObjectInspector inspector) {
// handle broken ObjectInspectors
if (object instanceof TimestampWritable) {
return ((TimestampWritable) object).getTimestamp();
}
return inspector.getPrimitiveJavaObject(object);
}
/** date by timestamp. */
@SuppressWarnings("deprecation")
@Test
public void date_by_timestamp() {
ValueSerde serde = TimestampValueSerdeFactory.DATE;
TimestampObjectInspector inspector = (TimestampObjectInspector) serde.getInspector();
DateOption option = new DateOption(new Date(2014, 7, 1));
Timestamp value = new Timestamp(2014 - 1900, 7 - 1, 1, 0, 0, 0, 0);
assertThat(inspector.copyObject(option), is((Object) option));
assertThat(inspector.copyObject(option), is(not(sameInstance((Object) option))));
assertThat(inspector.copyObject(null), is(nullValue()));
assertThat(inspector.getPrimitiveJavaObject(option), is(value));
assertThat(inspector.getPrimitiveJavaObject(null), is(nullValue()));
assertThat(inspector.getPrimitiveWritableObject(option), is(new TimestampWritable(value)));
assertThat(inspector.getPrimitiveWritableObject(null), is(nullValue()));
ValueDriver driver = serde.getDriver(inspector);
DateOption copy = new DateOption();
driver.set(copy, option);
assertThat(copy, is(option));
driver.set(copy, null);
assertThat(copy.isNull(), is(true));
}
static void serialize(OutputByteBuffer buffer, Object o, ObjectInspector oi, boolean invert) {
// Is this field a null?
if (o == null) {
buffer.write((byte) 0, invert);
return;
}
// This field is not a null.
buffer.write((byte) 1, invert);
switch (oi.getCategory()) {
case PRIMITIVE:
{
PrimitiveObjectInspector poi = (PrimitiveObjectInspector) oi;
switch (poi.getPrimitiveCategory()) {
case VOID:
{
return;
}
case BOOLEAN:
{
boolean v = ((BooleanObjectInspector) poi).get(o);
buffer.write((byte) (v ? 2 : 1), invert);
return;
}
case BYTE:
{
ByteObjectInspector boi = (ByteObjectInspector) poi;
byte v = boi.get(o);
buffer.write((byte) (v ^ 0x80), invert);
return;
}
case SHORT:
{
ShortObjectInspector spoi = (ShortObjectInspector) poi;
short v = spoi.get(o);
buffer.write((byte) ((v >> 8) ^ 0x80), invert);
buffer.write((byte) v, invert);
return;
}
case INT:
{
IntObjectInspector ioi = (IntObjectInspector) poi;
int v = ioi.get(o);
buffer.write((byte) ((v >> 24) ^ 0x80), invert);
buffer.write((byte) (v >> 16), invert);
buffer.write((byte) (v >> 8), invert);
buffer.write((byte) v, invert);
return;
}
case LONG:
{
LongObjectInspector loi = (LongObjectInspector) poi;
long v = loi.get(o);
buffer.write((byte) ((v >> 56) ^ 0x80), invert);
buffer.write((byte) (v >> 48), invert);
buffer.write((byte) (v >> 40), invert);
buffer.write((byte) (v >> 32), invert);
buffer.write((byte) (v >> 24), invert);
buffer.write((byte) (v >> 16), invert);
buffer.write((byte) (v >> 8), invert);
buffer.write((byte) v, invert);
return;
}
case FLOAT:
{
FloatObjectInspector foi = (FloatObjectInspector) poi;
int v = Float.floatToIntBits(foi.get(o));
if ((v & (1 << 31)) != 0) {
// negative number, flip all bits
v = ~v;
} else {
// positive number, flip the first bit
v = v ^ (1 << 31);
}
buffer.write((byte) (v >> 24), invert);
buffer.write((byte) (v >> 16), invert);
buffer.write((byte) (v >> 8), invert);
buffer.write((byte) v, invert);
return;
}
case DOUBLE:
{
DoubleObjectInspector doi = (DoubleObjectInspector) poi;
long v = Double.doubleToLongBits(doi.get(o));
if ((v & (1L << 63)) != 0) {
// negative number, flip all bits
v = ~v;
} else {
// positive number, flip the first bit
v = v ^ (1L << 63);
}
buffer.write((byte) (v >> 56), invert);
buffer.write((byte) (v >> 48), invert);
buffer.write((byte) (v >> 40), invert);
buffer.write((byte) (v >> 32), invert);
buffer.write((byte) (v >> 24), invert);
buffer.write((byte) (v >> 16), invert);
buffer.write((byte) (v >> 8), invert);
buffer.write((byte) v, invert);
return;
}
case STRING:
{
StringObjectInspector soi = (StringObjectInspector) poi;
Text t = soi.getPrimitiveWritableObject(o);
serializeBytes(buffer, t.getBytes(), t.getLength(), invert);
return;
}
case BINARY:
{
BinaryObjectInspector baoi = (BinaryObjectInspector) poi;
BytesWritable ba = baoi.getPrimitiveWritableObject(o);
byte[] toSer = new byte[ba.getLength()];
System.arraycopy(ba.getBytes(), 0, toSer, 0, ba.getLength());
serializeBytes(buffer, toSer, ba.getLength(), invert);
return;
}
case DATE:
{
DateObjectInspector doi = (DateObjectInspector) poi;
long v = doi.getPrimitiveWritableObject(o).getTimeInSeconds();
buffer.write((byte) ((v >> 56) ^ 0x80), invert);
buffer.write((byte) (v >> 48), invert);
buffer.write((byte) (v >> 40), invert);
buffer.write((byte) (v >> 32), invert);
buffer.write((byte) (v >> 24), invert);
buffer.write((byte) (v >> 16), invert);
buffer.write((byte) (v >> 8), invert);
buffer.write((byte) v, invert);
return;
}
case TIMESTAMP:
{
TimestampObjectInspector toi = (TimestampObjectInspector) poi;
TimestampWritable t = toi.getPrimitiveWritableObject(o);
byte[] data = t.getBinarySortable();
for (int i = 0; i < data.length; i++) {
buffer.write(data[i], invert);
}
return;
}
default:
{
throw new RuntimeException("Unrecognized type: " + poi.getPrimitiveCategory());
}
}
}
case LIST:
{
ListObjectInspector loi = (ListObjectInspector) oi;
ObjectInspector eoi = loi.getListElementObjectInspector();
// \1 followed by each element
int size = loi.getListLength(o);
for (int eid = 0; eid < size; eid++) {
buffer.write((byte) 1, invert);
serialize(buffer, loi.getListElement(o, eid), eoi, invert);
}
// and \0 to terminate
buffer.write((byte) 0, invert);
return;
}
case MAP:
{
MapObjectInspector moi = (MapObjectInspector) oi;
ObjectInspector koi = moi.getMapKeyObjectInspector();
ObjectInspector voi = moi.getMapValueObjectInspector();
// \1 followed by each key and then each value
Map<?, ?> map = moi.getMap(o);
for (Map.Entry<?, ?> entry : map.entrySet()) {
buffer.write((byte) 1, invert);
serialize(buffer, entry.getKey(), koi, invert);
serialize(buffer, entry.getValue(), voi, invert);
}
// and \0 to terminate
buffer.write((byte) 0, invert);
return;
}
case STRUCT:
{
StructObjectInspector soi = (StructObjectInspector) oi;
List<? extends StructField> fields = soi.getAllStructFieldRefs();
for (int i = 0; i < fields.size(); i++) {
serialize(
buffer,
soi.getStructFieldData(o, fields.get(i)),
fields.get(i).getFieldObjectInspector(),
invert);
}
return;
}
case UNION:
{
UnionObjectInspector uoi = (UnionObjectInspector) oi;
byte tag = uoi.getTag(o);
buffer.write(tag, invert);
serialize(buffer, uoi.getField(o), uoi.getObjectInspectors().get(tag), invert);
return;
}
default:
{
throw new RuntimeException("Unrecognized type: " + oi.getCategory());
}
}
}
