private Writable createMap(final Object obj, final MapObjectInspector inspector) throws SerDeException { final Map<?, ?> sourceMap = inspector.getMap(obj); final ObjectInspector keyInspector = inspector.getMapKeyObjectInspector(); final ObjectInspector valueInspector = inspector.getMapValueObjectInspector(); final List<ArrayWritable> array = new ArrayList<ArrayWritable>(); if (sourceMap != null) { for (final Entry<?, ?> keyValue : sourceMap.entrySet()) { final Writable key = createObject(keyValue.getKey(), keyInspector); final Writable value = createObject(keyValue.getValue(), valueInspector); if (key != null) { Writable[] arr = new Writable[2]; arr[0] = key; arr[1] = value; array.add(new ArrayWritable(Writable.class, arr)); } } } if (array.size() > 0) { final ArrayWritable subArray = new ArrayWritable(ArrayWritable.class, array.toArray(new ArrayWritable[array.size()])); return new ArrayWritable(Writable.class, new Writable[] {subArray}); } else { return null; } }
@Override public Object evaluate(DeferredObject[] arguments) throws HiveException { retArray.clear(); Object mapObj = arguments[0].get(); retArray.addAll(mapOI.getMap(mapObj).values()); return retArray; }
/** * Serializes a Hive map<> using a JSONObject. * * @param obj the object to serialize * @param moi the object's inspector * @return */ private JSONObject serializeMap(Object obj, MapObjectInspector moi) { if (obj == null) { return null; } JSONObject jo = new JSONObject(); Map m = moi.getMap(obj); for (Object k : m.keySet()) { try { jo.put( serializeField(k, moi.getMapKeyObjectInspector()).toString(), serializeField(m.get(k), moi.getMapValueObjectInspector())); } catch (JSONException ex) { LOG.warn("Problem serializing map"); } } return jo; }
private static Block serializeMap( Type type, BlockBuilder builder, Object object, MapObjectInspector inspector) { Map<?, ?> map = inspector.getMap(object); if (map == null) { requireNonNull(builder, "parent builder is null").appendNull(); return null; } List<Type> typeParameters = type.getTypeParameters(); checkArgument(typeParameters.size() == 2, "map must have exactly 2 type parameter"); Type keyType = typeParameters.get(0); Type valueType = typeParameters.get(1); ObjectInspector keyInspector = inspector.getMapKeyObjectInspector(); ObjectInspector valueInspector = inspector.getMapValueObjectInspector(); BlockBuilder currentBuilder; if (builder != null) { currentBuilder = builder.beginBlockEntry(); } else { currentBuilder = new InterleavedBlockBuilder(typeParameters, new BlockBuilderStatus(), map.size()); } for (Map.Entry<?, ?> entry : map.entrySet()) { // Hive skips map entries with null keys if (entry.getKey() != null) { serializeObject(keyType, currentBuilder, entry.getKey(), keyInspector); serializeObject(valueType, currentBuilder, entry.getValue(), valueInspector); } } if (builder != null) { builder.closeEntry(); return null; } else { Block resultBlock = currentBuilder.build(); return resultBlock; } }
/** * True if Object passed is representing null object. * * @param o The object * @param oi The ObjectInspector * @return true if the object passed is representing NULL object false otherwise */ public static boolean hasAnyNullObject(Object o, ObjectInspector oi) { switch (oi.getCategory()) { case PRIMITIVE: { if (o == null) { return true; } return false; } case LIST: { ListObjectInspector loi = (ListObjectInspector) oi; ObjectInspector listElementObjectInspector = loi.getListElementObjectInspector(); List<?> olist = loi.getList(o); if (olist == null) { return true; } else { // there are no elements in the list if (olist.size() == 0) { return false; } // if all the elements are representing null, then return true for (int i = 0; i < olist.size(); i++) { if (hasAnyNullObject(olist.get(i), listElementObjectInspector)) { return true; } } return false; } } case MAP: { MapObjectInspector moi = (MapObjectInspector) oi; ObjectInspector mapKeyObjectInspector = moi.getMapKeyObjectInspector(); ObjectInspector mapValueObjectInspector = moi.getMapValueObjectInspector(); Map<?, ?> omap = moi.getMap(o); if (omap == null) { return true; } else { // there are no elements in the map if (omap.entrySet().size() == 0) { return false; } // if all the entries of map are representing null, then return true for (Map.Entry<?, ?> entry : omap.entrySet()) { if (hasAnyNullObject(entry.getKey(), mapKeyObjectInspector) || hasAnyNullObject(entry.getValue(), mapValueObjectInspector)) { return true; } } return false; } } case STRUCT: { StructObjectInspector soi = (StructObjectInspector) oi; List<? extends StructField> structFields = soi.getAllStructFieldRefs(); if (o == null) { return true; } else { // there are no fields in the struct if (structFields.size() == 0) { return false; } // if any the fields of struct are representing null, then return true for (int i = 0; i < structFields.size(); i++) { if (hasAnyNullObject( soi.getStructFieldData(o, structFields.get(i)), structFields.get(i).getFieldObjectInspector())) { return true; } } return false; } } case UNION: { UnionObjectInspector uoi = (UnionObjectInspector) oi; if (o == null) { return true; } else { // there are no elements in the union if (uoi.getObjectInspectors().size() == 0) { return false; } return hasAnyNullObject(uoi.getField(o), uoi.getObjectInspectors().get(uoi.getTag(o))); } } default: throw new RuntimeException("Unknown type in ObjectInspector!"); } }
static void buildJSONString(StringBuilder sb, Object o, ObjectInspector oi, String nullStr) { switch (oi.getCategory()) { case PRIMITIVE: { PrimitiveObjectInspector poi = (PrimitiveObjectInspector) oi; if (o == null) { sb.append(nullStr); } else { switch (poi.getPrimitiveCategory()) { case BOOLEAN: { boolean b = ((BooleanObjectInspector) poi).get(o); sb.append(b ? "true" : "false"); break; } case BYTE: { sb.append(((ByteObjectInspector) poi).get(o)); break; } case SHORT: { sb.append(((ShortObjectInspector) poi).get(o)); break; } case INT: { sb.append(((IntObjectInspector) poi).get(o)); break; } case LONG: { sb.append(((LongObjectInspector) poi).get(o)); break; } case FLOAT: { sb.append(((FloatObjectInspector) poi).get(o)); break; } case DOUBLE: { sb.append(((DoubleObjectInspector) poi).get(o)); break; } case STRING: { sb.append('"'); sb.append(escapeString(((StringObjectInspector) poi).getPrimitiveJavaObject(o))); sb.append('"'); break; } case CHAR: { sb.append('"'); sb.append( escapeString( ((HiveCharObjectInspector) poi).getPrimitiveJavaObject(o).toString())); sb.append('"'); break; } case VARCHAR: { sb.append('"'); sb.append( escapeString( ((HiveVarcharObjectInspector) poi).getPrimitiveJavaObject(o).toString())); sb.append('"'); break; } case DATE: { sb.append('"'); sb.append(((DateObjectInspector) poi).getPrimitiveWritableObject(o)); sb.append('"'); break; } case TIMESTAMP: { sb.append('"'); sb.append(((TimestampObjectInspector) poi).getPrimitiveWritableObject(o)); sb.append('"'); break; } case BINARY: { BytesWritable bw = ((BinaryObjectInspector) oi).getPrimitiveWritableObject(o); Text txt = new Text(); txt.set(bw.getBytes(), 0, bw.getLength()); sb.append(txt.toString()); break; } case DECIMAL: { sb.append(((HiveDecimalObjectInspector) oi).getPrimitiveJavaObject(o)); break; } default: throw new RuntimeException("Unknown primitive type: " + poi.getPrimitiveCategory()); } } break; } case LIST: { ListObjectInspector loi = (ListObjectInspector) oi; ObjectInspector listElementObjectInspector = loi.getListElementObjectInspector(); List<?> olist = loi.getList(o); if (olist == null) { sb.append(nullStr); } else { sb.append(LBRACKET); for (int i = 0; i < olist.size(); i++) { if (i > 0) { sb.append(COMMA); } buildJSONString(sb, olist.get(i), listElementObjectInspector, JSON_NULL); } sb.append(RBRACKET); } break; } case MAP: { MapObjectInspector moi = (MapObjectInspector) oi; ObjectInspector mapKeyObjectInspector = moi.getMapKeyObjectInspector(); ObjectInspector mapValueObjectInspector = moi.getMapValueObjectInspector(); Map<?, ?> omap = moi.getMap(o); if (omap == null) { sb.append(nullStr); } else { sb.append(LBRACE); boolean first = true; for (Object entry : omap.entrySet()) { if (first) { first = false; } else { sb.append(COMMA); } Map.Entry<?, ?> e = (Map.Entry<?, ?>) entry; buildJSONString(sb, e.getKey(), mapKeyObjectInspector, JSON_NULL); sb.append(COLON); buildJSONString(sb, e.getValue(), mapValueObjectInspector, JSON_NULL); } sb.append(RBRACE); } break; } case STRUCT: { StructObjectInspector soi = (StructObjectInspector) oi; List<? extends StructField> structFields = soi.getAllStructFieldRefs(); if (o == null) { sb.append(nullStr); } else { sb.append(LBRACE); for (int i = 0; i < structFields.size(); i++) { if (i > 0) { sb.append(COMMA); } sb.append(QUOTE); sb.append(structFields.get(i).getFieldName()); sb.append(QUOTE); sb.append(COLON); buildJSONString( sb, soi.getStructFieldData(o, structFields.get(i)), structFields.get(i).getFieldObjectInspector(), JSON_NULL); } sb.append(RBRACE); } break; } case UNION: { UnionObjectInspector uoi = (UnionObjectInspector) oi; if (o == null) { sb.append(nullStr); } else { sb.append(LBRACE); sb.append(uoi.getTag(o)); sb.append(COLON); buildJSONString( sb, uoi.getField(o), uoi.getObjectInspectors().get(uoi.getTag(o)), JSON_NULL); sb.append(RBRACE); } break; } default: throw new RuntimeException("Unknown type in ObjectInspector!"); } }
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()); } } }