use of org.apache.hadoop.hive.serde2.objectinspector.primitive.HiveDecimalObjectInspector in project hive by apache.
the class GenericUDFFormatNumber method evaluate.
@Override
public Object evaluate(DeferredObject[] arguments) throws HiveException {
Object arg0;
Object arg1;
if ((arg0 = arguments[0].get()) == null || (arg1 = arguments[1].get()) == null) {
return null;
}
if (!dType.equals(PrimitiveCategory.STRING)) {
int dValue = ((IntObjectInspector) argumentOIs[1]).get(arg1);
if (dValue < 0) {
throw new HiveException("Argument 2 of function FORMAT_NUMBER must be >= 0, but \"" + dValue + "\" was found");
}
if (dValue != lastDValue) {
// construct a new DecimalFormat only if a new dValue
pattern.delete(0, pattern.length());
pattern.append("#,###,###,###,###,###,##0");
// decimal place
if (dValue > 0) {
pattern.append(".");
for (int i = 0; i < dValue; i++) {
pattern.append("0");
}
}
DecimalFormat dFormat = new DecimalFormat(pattern.toString());
lastDValue = dValue;
numberFormat.applyPattern(dFormat.toPattern());
}
}
double xDoubleValue = 0.0;
float xFloatValue = 0.0f;
HiveDecimal xDecimalValue = null;
int xIntValue = 0;
long xLongValue = 0L;
PrimitiveObjectInspector xObjectInspector = (PrimitiveObjectInspector) argumentOIs[0];
switch(xObjectInspector.getPrimitiveCategory()) {
case VOID:
case DOUBLE:
xDoubleValue = ((DoubleObjectInspector) argumentOIs[0]).get(arg0);
resultText.set(numberFormat.format(xDoubleValue));
break;
case FLOAT:
xFloatValue = ((FloatObjectInspector) argumentOIs[0]).get(arg0);
resultText.set(numberFormat.format(xFloatValue));
break;
case DECIMAL:
xDecimalValue = ((HiveDecimalObjectInspector) argumentOIs[0]).getPrimitiveJavaObject(arg0);
resultText.set(numberFormat.format(xDecimalValue.bigDecimalValue()));
break;
case BYTE:
case SHORT:
case INT:
xIntValue = ((IntObjectInspector) argumentOIs[0]).get(arg0);
resultText.set(numberFormat.format(xIntValue));
break;
case LONG:
xLongValue = ((LongObjectInspector) argumentOIs[0]).get(arg0);
resultText.set(numberFormat.format(xLongValue));
break;
default:
throw new HiveException("Argument 1 of function FORMAT_NUMBER must be " + serdeConstants.TINYINT_TYPE_NAME + "\"" + " or \"" + serdeConstants.SMALLINT_TYPE_NAME + "\"" + " or \"" + serdeConstants.INT_TYPE_NAME + "\"" + " or \"" + serdeConstants.BIGINT_TYPE_NAME + "\"" + " or \"" + serdeConstants.DOUBLE_TYPE_NAME + "\"" + " or \"" + serdeConstants.FLOAT_TYPE_NAME + "\"" + " or \"" + serdeConstants.DECIMAL_TYPE_NAME + "\", but \"" + argumentOIs[0].getTypeName() + "\" was found.");
}
return resultText;
}
use of org.apache.hadoop.hive.serde2.objectinspector.primitive.HiveDecimalObjectInspector in project hive by apache.
the class BinarySortableSerDe method serialize.
static void serialize(ByteStream.Output buffer, Object o, ObjectInspector oi, boolean invert, byte nullMarker, byte notNullMarker) throws SerDeException {
// Is this field a null?
if (o == null) {
writeByte(buffer, nullMarker, invert);
return;
}
// This field is not a null.
writeByte(buffer, notNullMarker, invert);
switch(oi.getCategory()) {
case PRIMITIVE:
{
PrimitiveObjectInspector poi = (PrimitiveObjectInspector) oi;
switch(poi.getPrimitiveCategory()) {
case VOID:
{
return;
}
case BOOLEAN:
{
boolean v = ((BooleanObjectInspector) poi).get(o);
writeByte(buffer, (byte) (v ? 2 : 1), invert);
return;
}
case BYTE:
{
ByteObjectInspector boi = (ByteObjectInspector) poi;
byte v = boi.get(o);
writeByte(buffer, (byte) (v ^ 0x80), invert);
return;
}
case SHORT:
{
ShortObjectInspector spoi = (ShortObjectInspector) poi;
short v = spoi.get(o);
serializeShort(buffer, v, invert);
return;
}
case INT:
{
IntObjectInspector ioi = (IntObjectInspector) poi;
int v = ioi.get(o);
serializeInt(buffer, v, invert);
return;
}
case LONG:
{
LongObjectInspector loi = (LongObjectInspector) poi;
long v = loi.get(o);
serializeLong(buffer, v, invert);
return;
}
case FLOAT:
{
FloatObjectInspector foi = (FloatObjectInspector) poi;
serializeFloat(buffer, foi.get(o), invert);
return;
}
case DOUBLE:
{
DoubleObjectInspector doi = (DoubleObjectInspector) poi;
serializeDouble(buffer, doi.get(o), invert);
return;
}
case STRING:
{
StringObjectInspector soi = (StringObjectInspector) poi;
Text t = soi.getPrimitiveWritableObject(o);
serializeBytes(buffer, t.getBytes(), t.getLength(), invert);
return;
}
case CHAR:
{
HiveCharObjectInspector hcoi = (HiveCharObjectInspector) poi;
HiveCharWritable hc = hcoi.getPrimitiveWritableObject(o);
// Trailing space should ignored for char comparisons.
// So write stripped values for this SerDe.
Text t = hc.getStrippedValue();
serializeBytes(buffer, t.getBytes(), t.getLength(), invert);
return;
}
case VARCHAR:
{
HiveVarcharObjectInspector hcoi = (HiveVarcharObjectInspector) poi;
HiveVarcharWritable hc = hcoi.getPrimitiveWritableObject(o);
// use varchar's text field directly
Text t = hc.getTextValue();
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;
int v = doi.getPrimitiveWritableObject(o).getDays();
serializeInt(buffer, v, invert);
return;
}
case TIMESTAMP:
{
TimestampObjectInspector toi = (TimestampObjectInspector) poi;
TimestampWritable t = toi.getPrimitiveWritableObject(o);
serializeTimestampWritable(buffer, t, invert);
return;
}
case TIMESTAMPLOCALTZ:
{
TimestampLocalTZObjectInspector toi = (TimestampLocalTZObjectInspector) poi;
TimestampLocalTZWritable t = toi.getPrimitiveWritableObject(o);
serializeTimestampTZWritable(buffer, t, invert);
return;
}
case INTERVAL_YEAR_MONTH:
{
HiveIntervalYearMonthObjectInspector ioi = (HiveIntervalYearMonthObjectInspector) poi;
HiveIntervalYearMonth intervalYearMonth = ioi.getPrimitiveJavaObject(o);
serializeHiveIntervalYearMonth(buffer, intervalYearMonth, invert);
return;
}
case INTERVAL_DAY_TIME:
{
HiveIntervalDayTimeObjectInspector ioi = (HiveIntervalDayTimeObjectInspector) poi;
HiveIntervalDayTime intervalDayTime = ioi.getPrimitiveJavaObject(o);
serializeHiveIntervalDayTime(buffer, intervalDayTime, invert);
return;
}
case DECIMAL:
{
HiveDecimalObjectInspector boi = (HiveDecimalObjectInspector) poi;
HiveDecimal dec = boi.getPrimitiveJavaObject(o);
serializeHiveDecimal(buffer, dec, 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++) {
writeByte(buffer, (byte) 1, invert);
serialize(buffer, loi.getListElement(o, eid), eoi, invert, nullMarker, notNullMarker);
}
// and \0 to terminate
writeByte(buffer, (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()) {
writeByte(buffer, (byte) 1, invert);
serialize(buffer, entry.getKey(), koi, invert, nullMarker, notNullMarker);
serialize(buffer, entry.getValue(), voi, invert, nullMarker, notNullMarker);
}
// and \0 to terminate
writeByte(buffer, (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, nullMarker, notNullMarker);
}
return;
}
case UNION:
{
UnionObjectInspector uoi = (UnionObjectInspector) oi;
byte tag = uoi.getTag(o);
writeByte(buffer, tag, invert);
serialize(buffer, uoi.getField(o), uoi.getObjectInspectors().get(tag), invert, nullMarker, notNullMarker);
return;
}
default:
{
throw new RuntimeException("Unrecognized type: " + oi.getCategory());
}
}
}
use of org.apache.hadoop.hive.serde2.objectinspector.primitive.HiveDecimalObjectInspector in project hive by apache.
the class LazyBinarySerDe method serialize.
/**
* A recursive function that serialize an object to a byte buffer based on its
* object inspector.
*
* @param byteStream
* the byte stream storing the serialization data
* @param obj
* the object to serialize
* @param objInspector
* the object inspector
* @param skipLengthPrefix a boolean indicating whether length prefix is
* needed for list/map/struct
* @param warnedOnceNullMapKey a boolean indicating whether a warning
* has been issued once already when encountering null map keys
*/
public static void serialize(RandomAccessOutput byteStream, Object obj, ObjectInspector objInspector, boolean skipLengthPrefix, BooleanRef warnedOnceNullMapKey) throws SerDeException {
// do nothing for null object
if (null == obj) {
return;
}
switch(objInspector.getCategory()) {
case PRIMITIVE:
{
PrimitiveObjectInspector poi = (PrimitiveObjectInspector) objInspector;
switch(poi.getPrimitiveCategory()) {
case VOID:
{
return;
}
case BOOLEAN:
{
boolean v = ((BooleanObjectInspector) poi).get(obj);
byteStream.write((byte) (v ? 1 : 0));
return;
}
case BYTE:
{
ByteObjectInspector boi = (ByteObjectInspector) poi;
byte v = boi.get(obj);
byteStream.write(v);
return;
}
case SHORT:
{
ShortObjectInspector spoi = (ShortObjectInspector) poi;
short v = spoi.get(obj);
byteStream.write((byte) (v >> 8));
byteStream.write((byte) (v));
return;
}
case INT:
{
IntObjectInspector ioi = (IntObjectInspector) poi;
int v = ioi.get(obj);
LazyBinaryUtils.writeVInt(byteStream, v);
return;
}
case LONG:
{
LongObjectInspector loi = (LongObjectInspector) poi;
long v = loi.get(obj);
LazyBinaryUtils.writeVLong(byteStream, v);
return;
}
case FLOAT:
{
FloatObjectInspector foi = (FloatObjectInspector) poi;
int v = Float.floatToIntBits(foi.get(obj));
byteStream.write((byte) (v >> 24));
byteStream.write((byte) (v >> 16));
byteStream.write((byte) (v >> 8));
byteStream.write((byte) (v));
return;
}
case DOUBLE:
{
DoubleObjectInspector doi = (DoubleObjectInspector) poi;
LazyBinaryUtils.writeDouble(byteStream, doi.get(obj));
return;
}
case STRING:
{
StringObjectInspector soi = (StringObjectInspector) poi;
Text t = soi.getPrimitiveWritableObject(obj);
serializeText(byteStream, t, skipLengthPrefix);
return;
}
case CHAR:
{
HiveCharObjectInspector hcoi = (HiveCharObjectInspector) poi;
Text t = hcoi.getPrimitiveWritableObject(obj).getTextValue();
serializeText(byteStream, t, skipLengthPrefix);
return;
}
case VARCHAR:
{
HiveVarcharObjectInspector hcoi = (HiveVarcharObjectInspector) poi;
Text t = hcoi.getPrimitiveWritableObject(obj).getTextValue();
serializeText(byteStream, t, skipLengthPrefix);
return;
}
case BINARY:
{
BinaryObjectInspector baoi = (BinaryObjectInspector) poi;
BytesWritable bw = baoi.getPrimitiveWritableObject(obj);
int length = bw.getLength();
if (!skipLengthPrefix) {
LazyBinaryUtils.writeVInt(byteStream, length);
} else {
if (length == 0) {
throw new RuntimeException("LazyBinaryColumnarSerde cannot serialize a non-null zero " + "length binary field. Consider using either LazyBinarySerde or ColumnarSerde.");
}
}
byteStream.write(bw.getBytes(), 0, length);
return;
}
case DATE:
{
DateWritable d = ((DateObjectInspector) poi).getPrimitiveWritableObject(obj);
writeDateToByteStream(byteStream, d);
return;
}
case TIMESTAMP:
{
TimestampObjectInspector toi = (TimestampObjectInspector) poi;
TimestampWritable t = toi.getPrimitiveWritableObject(obj);
t.writeToByteStream(byteStream);
return;
}
case TIMESTAMPLOCALTZ:
{
TimestampLocalTZWritable t = ((TimestampLocalTZObjectInspector) poi).getPrimitiveWritableObject(obj);
t.writeToByteStream(byteStream);
return;
}
case INTERVAL_YEAR_MONTH:
{
HiveIntervalYearMonthWritable intervalYearMonth = ((HiveIntervalYearMonthObjectInspector) poi).getPrimitiveWritableObject(obj);
intervalYearMonth.writeToByteStream(byteStream);
return;
}
case INTERVAL_DAY_TIME:
{
HiveIntervalDayTimeWritable intervalDayTime = ((HiveIntervalDayTimeObjectInspector) poi).getPrimitiveWritableObject(obj);
intervalDayTime.writeToByteStream(byteStream);
return;
}
case DECIMAL:
{
HiveDecimalObjectInspector bdoi = (HiveDecimalObjectInspector) poi;
HiveDecimalWritable t = bdoi.getPrimitiveWritableObject(obj);
if (t == null) {
return;
}
writeToByteStream(byteStream, t);
return;
}
default:
{
throw new RuntimeException("Unrecognized type: " + poi.getPrimitiveCategory());
}
}
}
case LIST:
{
ListObjectInspector loi = (ListObjectInspector) objInspector;
ObjectInspector eoi = loi.getListElementObjectInspector();
int byteSizeStart = 0;
int listStart = 0;
if (!skipLengthPrefix) {
// 1/ reserve spaces for the byte size of the list
// which is a integer and takes four bytes
byteSizeStart = byteStream.getLength();
byteStream.reserve(4);
listStart = byteStream.getLength();
}
// 2/ write the size of the list as a VInt
int size = loi.getListLength(obj);
LazyBinaryUtils.writeVInt(byteStream, size);
// 3/ write the null bytes
byte nullByte = 0;
for (int eid = 0; eid < size; eid++) {
// set the bit to 1 if an element is not null
if (null != loi.getListElement(obj, eid)) {
nullByte |= 1 << (eid % 8);
}
// if this is the last element
if (7 == eid % 8 || eid == size - 1) {
byteStream.write(nullByte);
nullByte = 0;
}
}
// 4/ write element by element from the list
for (int eid = 0; eid < size; eid++) {
serialize(byteStream, loi.getListElement(obj, eid), eoi, false, warnedOnceNullMapKey);
}
if (!skipLengthPrefix) {
// 5/ update the list byte size
int listEnd = byteStream.getLength();
int listSize = listEnd - listStart;
writeSizeAtOffset(byteStream, byteSizeStart, listSize);
}
return;
}
case MAP:
{
MapObjectInspector moi = (MapObjectInspector) objInspector;
ObjectInspector koi = moi.getMapKeyObjectInspector();
ObjectInspector voi = moi.getMapValueObjectInspector();
Map<?, ?> map = moi.getMap(obj);
int byteSizeStart = 0;
int mapStart = 0;
if (!skipLengthPrefix) {
// 1/ reserve spaces for the byte size of the map
// which is a integer and takes four bytes
byteSizeStart = byteStream.getLength();
byteStream.reserve(4);
mapStart = byteStream.getLength();
}
// 2/ write the size of the map which is a VInt
int size = map.size();
LazyBinaryUtils.writeVInt(byteStream, size);
// 3/ write the null bytes
int b = 0;
byte nullByte = 0;
for (Map.Entry<?, ?> entry : map.entrySet()) {
// set the bit to 1 if a key is not null
if (null != entry.getKey()) {
nullByte |= 1 << (b % 8);
} else if (warnedOnceNullMapKey != null) {
if (!warnedOnceNullMapKey.value) {
LOG.warn("Null map key encountered! Ignoring similar problems.");
}
warnedOnceNullMapKey.value = true;
}
b++;
// set the bit to 1 if a value is not null
if (null != entry.getValue()) {
nullByte |= 1 << (b % 8);
}
b++;
// or if this is the last key-value pair
if (0 == b % 8 || b == size * 2) {
byteStream.write(nullByte);
nullByte = 0;
}
}
// 4/ write key-value pairs one by one
for (Map.Entry<?, ?> entry : map.entrySet()) {
serialize(byteStream, entry.getKey(), koi, false, warnedOnceNullMapKey);
serialize(byteStream, entry.getValue(), voi, false, warnedOnceNullMapKey);
}
if (!skipLengthPrefix) {
// 5/ update the byte size of the map
int mapEnd = byteStream.getLength();
int mapSize = mapEnd - mapStart;
writeSizeAtOffset(byteStream, byteSizeStart, mapSize);
}
return;
}
case STRUCT:
case UNION:
{
int byteSizeStart = 0;
int typeStart = 0;
if (!skipLengthPrefix) {
// 1/ reserve spaces for the byte size of the struct
// which is a integer and takes four bytes
byteSizeStart = byteStream.getLength();
byteStream.reserve(4);
typeStart = byteStream.getLength();
}
if (ObjectInspector.Category.STRUCT.equals(objInspector.getCategory())) {
// 2/ serialize the struct
serializeStruct(byteStream, obj, (StructObjectInspector) objInspector, warnedOnceNullMapKey);
} else {
// 2/ serialize the union
serializeUnion(byteStream, obj, (UnionObjectInspector) objInspector, warnedOnceNullMapKey);
}
if (!skipLengthPrefix) {
// 3/ update the byte size of the struct
int typeEnd = byteStream.getLength();
int typeSize = typeEnd - typeStart;
writeSizeAtOffset(byteStream, byteSizeStart, typeSize);
}
return;
}
default:
{
throw new RuntimeException("Unrecognized type: " + objInspector.getCategory());
}
}
}
use of org.apache.hadoop.hive.serde2.objectinspector.primitive.HiveDecimalObjectInspector in project hive by apache.
the class ObjectInspectorUtils method hashCode.
public static int hashCode(Object o, ObjectInspector objIns) {
if (o == null) {
return 0;
}
switch(objIns.getCategory()) {
case PRIMITIVE:
{
PrimitiveObjectInspector poi = ((PrimitiveObjectInspector) objIns);
switch(poi.getPrimitiveCategory()) {
case VOID:
return 0;
case BOOLEAN:
return ((BooleanObjectInspector) poi).get(o) ? 1 : 0;
case BYTE:
return ((ByteObjectInspector) poi).get(o);
case SHORT:
return ((ShortObjectInspector) poi).get(o);
case INT:
return ((IntObjectInspector) poi).get(o);
case LONG:
{
long a = ((LongObjectInspector) poi).get(o);
return (int) ((a >>> 32) ^ a);
}
case FLOAT:
return Float.floatToIntBits(((FloatObjectInspector) poi).get(o));
case DOUBLE:
{
// This hash function returns the same result as Double.hashCode()
// while DoubleWritable.hashCode returns a different result.
long a = Double.doubleToLongBits(((DoubleObjectInspector) poi).get(o));
return (int) ((a >>> 32) ^ a);
}
case STRING:
{
// This hash function returns the same result as String.hashCode() when
// all characters are ASCII, while Text.hashCode() always returns a
// different result.
Text t = ((StringObjectInspector) poi).getPrimitiveWritableObject(o);
int r = 0;
for (int i = 0; i < t.getLength(); i++) {
r = r * 31 + t.getBytes()[i];
}
return r;
}
case CHAR:
return ((HiveCharObjectInspector) poi).getPrimitiveWritableObject(o).hashCode();
case VARCHAR:
return ((HiveVarcharObjectInspector) poi).getPrimitiveWritableObject(o).hashCode();
case BINARY:
return ((BinaryObjectInspector) poi).getPrimitiveWritableObject(o).hashCode();
case DATE:
return ((DateObjectInspector) poi).getPrimitiveWritableObject(o).hashCode();
case TIMESTAMP:
TimestampWritable t = ((TimestampObjectInspector) poi).getPrimitiveWritableObject(o);
return t.hashCode();
case TIMESTAMPLOCALTZ:
TimestampLocalTZWritable tstz = ((TimestampLocalTZObjectInspector) poi).getPrimitiveWritableObject(o);
return tstz.hashCode();
case INTERVAL_YEAR_MONTH:
HiveIntervalYearMonthWritable intervalYearMonth = ((HiveIntervalYearMonthObjectInspector) poi).getPrimitiveWritableObject(o);
return intervalYearMonth.hashCode();
case INTERVAL_DAY_TIME:
HiveIntervalDayTimeWritable intervalDayTime = ((HiveIntervalDayTimeObjectInspector) poi).getPrimitiveWritableObject(o);
return intervalDayTime.hashCode();
case DECIMAL:
// compatible hash code.
return ((HiveDecimalObjectInspector) poi).getPrimitiveWritableObject(o).hashCode();
default:
{
throw new RuntimeException("Unknown type: " + poi.getPrimitiveCategory());
}
}
}
case LIST:
{
int r = 0;
ListObjectInspector listOI = (ListObjectInspector) objIns;
ObjectInspector elemOI = listOI.getListElementObjectInspector();
for (int ii = 0; ii < listOI.getListLength(o); ++ii) {
r = 31 * r + hashCode(listOI.getListElement(o, ii), elemOI);
}
return r;
}
case MAP:
{
int r = 0;
MapObjectInspector mapOI = (MapObjectInspector) objIns;
ObjectInspector keyOI = mapOI.getMapKeyObjectInspector();
ObjectInspector valueOI = mapOI.getMapValueObjectInspector();
Map<?, ?> map = mapOI.getMap(o);
for (Map.Entry<?, ?> entry : map.entrySet()) {
r += hashCode(entry.getKey(), keyOI) ^ hashCode(entry.getValue(), valueOI);
}
return r;
}
case STRUCT:
int r = 0;
StructObjectInspector structOI = (StructObjectInspector) objIns;
List<? extends StructField> fields = structOI.getAllStructFieldRefs();
for (StructField field : fields) {
r = 31 * r + hashCode(structOI.getStructFieldData(o, field), field.getFieldObjectInspector());
}
return r;
case UNION:
UnionObjectInspector uOI = (UnionObjectInspector) objIns;
byte tag = uOI.getTag(o);
return hashCode(uOI.getField(o), uOI.getObjectInspectors().get(tag));
default:
throw new RuntimeException("Unknown type: " + objIns.getTypeName());
}
}
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