@Test
public void stringSerialization() {
// Characters
DataOutput out = serialize.getDataOutput(((int) Character.MAX_VALUE) * 2 + 8, true);
for (char c = Character.MIN_VALUE; c < Character.MAX_VALUE; c++) {
out.writeObjectNotNull(Character.valueOf(c));
}
ReadBuffer b = out.getStaticBuffer().asReadBuffer();
for (char c = Character.MIN_VALUE; c < Character.MAX_VALUE; c++) {
assertEquals(c, serialize.readObjectNotNull(b, Character.class).charValue());
}
// String
for (int t = 0; t < 10000; t++) {
DataOutput out1 = serialize.getDataOutput(32 + 5, true);
DataOutput out2 = serialize.getDataOutput(32 + 5, true);
String s1 = RandomGenerator.randomString(1, 32);
String s2 = RandomGenerator.randomString(1, 32);
out1.writeObjectNotNull(s1);
out2.writeObjectNotNull(s2);
StaticBuffer b1 = out1.getStaticBuffer();
StaticBuffer b2 = out2.getStaticBuffer();
assertEquals(s1, serialize.readObjectNotNull(b1.asReadBuffer(), String.class));
assertEquals(s2, serialize.readObjectNotNull(b2.asReadBuffer(), String.class));
assertEquals(
s1 + " vs " + s2, Integer.signum(s1.compareTo(s2)), Integer.signum(b1.compareTo(b2)));
}
}
@Test
public void objectWriteRead() {
// serialize.registerClass(short[].class);
// serialize.registerClass(TestClass.class);
DataOutput out = serialize.getDataOutput(128, true);
String str = "This is a test";
int i = 5;
TestClass c = new TestClass(5, 8, new short[] {1, 2, 3, 4, 5}, TestEnum.Two);
Number n = new Double(3.555);
out.writeObjectNotNull(str);
out.putInt(i);
out.writeObject(c, TestClass.class);
out.writeClassAndObject(n);
ReadBuffer b = out.getStaticBuffer().asReadBuffer();
if (printStats) log.debug(bufferStats(b));
String str2 = serialize.readObjectNotNull(b, String.class);
assertEquals(str, str2);
if (printStats) log.debug(bufferStats(b));
assertEquals(b.getInt(), i);
TestClass c2 = serialize.readObject(b, TestClass.class);
assertEquals(c, c2);
if (printStats) log.debug(bufferStats(b));
assertEquals(n, serialize.readClassAndObject(b));
if (printStats) log.debug(bufferStats(b));
assertFalse(b.hasRemaining());
}
@Before
public void setUp() throws Exception {
serialize = new KryoSerializer(false);
serialize.registerClass(TestEnum.class, RESERVED_ID_OFFSET + 1);
serialize.registerClass(TestClass.class, RESERVED_ID_OFFSET + 2);
serialize.registerClass(short[].class, RESERVED_ID_OFFSET + 3);
printStats = true;
}
@Test
public void enumSerializeTest() {
DataOutput out = serialize.getDataOutput(128, true);
out.writeObjectNotNull(TestEnum.Two);
ReadBuffer b = out.getStaticBuffer().asReadBuffer();
if (printStats) log.debug(bufferStats(b));
assertEquals(TestEnum.Two, serialize.readObjectNotNull(b, TestEnum.class));
assertFalse(b.hasRemaining());
}
@Test
public void classSerialization() {
DataOutput out = serialize.getDataOutput(128, true);
out.writeObjectNotNull(Boolean.class);
out.writeObjectNotNull(Byte.class);
out.writeObjectNotNull(Double.class);
ReadBuffer b = out.getStaticBuffer().asReadBuffer();
assertEquals(Boolean.class, serialize.readObjectNotNull(b, Class.class));
assertEquals(Byte.class, serialize.readObjectNotNull(b, Class.class));
assertEquals(Double.class, serialize.readObjectNotNull(b, Class.class));
}
private Object readInline(ByteBuffer read, TitanType type) {
if (type.isPropertyKey()) {
TitanKey proptype = ((TitanKey) type);
if (hasGenericDataType(proptype)) return serializer.readClassAndObject(read);
else return serializer.readObject(read, proptype.getDataType());
} else {
assert type.isEdgeLabel();
Long id = Long.valueOf(VariableLong.readPositive(read));
if (id.longValue() == 0) return null;
else return id;
}
}
@Test
public void largeWriteTest() {
String base = "ABCDEFGHIJKLMNOPQRSTUVWXYZ"; // 26 chars
String str = "";
for (int i = 0; i < 100; i++) str += base;
DataOutput out = serialize.getDataOutput(128, true);
out.writeObjectNotNull(str);
ReadBuffer b = out.getStaticBuffer().asReadBuffer();
if (printStats) log.debug(bufferStats(b));
assertEquals(str, serialize.readObjectNotNull(b, String.class));
assertFalse(b.hasRemaining());
}
@Test
public void parallelDeserialization() throws InterruptedException {
DataOutput out = serialize.getDataOutput(128, true);
out.putLong(8);
out.writeClassAndObject(Long.valueOf(8));
TestClass c = new TestClass(5, 8, new short[] {1, 2, 3, 4, 5}, TestEnum.Two);
out.writeObject(c, TestClass.class);
final StaticBuffer b = out.getStaticBuffer();
int numThreads = 100;
Thread[] threads = new Thread[numThreads];
for (int i = 0; i < numThreads; i++) {
threads[i] =
new Thread(
new Runnable() {
@Override
public void run() {
for (int j = 0; j < 100000; j++) {
ReadBuffer c = b.asReadBuffer();
assertEquals(8, c.getLong());
Long l = (Long) serialize.readClassAndObject(c);
assertEquals(8, l.longValue());
TestClass c2 = serialize.readObjectNotNull(c, TestClass.class);
}
}
});
threads[i].start();
}
for (int i = 0; i < numThreads; i++) {
threads[i].join();
}
}
@Test
public void longWriteTest() {
String base = "ABCDEFGHIJKLMNOPQRSTUVWXYZ"; // 26 chars
int no = 100;
DataOutput out = serialize.getDataOutput(128, true);
for (int i = 0; i < no; i++) {
String str = base + (i + 1);
out.writeObjectNotNull(str);
}
ReadBuffer b = out.getStaticBuffer().asReadBuffer();
if (printStats) log.debug(bufferStats(b));
for (int i = 0; i < no; i++) {
String str = base + (i + 1);
String read = serialize.readObjectNotNull(b, String.class);
assertEquals(str, read);
}
assertFalse(b.hasRemaining());
}
@Test(expected = IllegalArgumentException.class)
public void checkNonObject() {
DataOutput out = serialize.getDataOutput(128, false);
out.writeObject("This is a test", String.class);
}
@Test
public void primitiveSerialization() {
DataOutput out = serialize.getDataOutput(128, true);
out.writeObjectNotNull(Boolean.FALSE);
out.writeObjectNotNull(Boolean.TRUE);
out.writeObjectNotNull(Byte.MIN_VALUE);
out.writeObjectNotNull(Byte.MAX_VALUE);
out.writeObjectNotNull(new Byte((byte) 0));
out.writeObjectNotNull(Short.MIN_VALUE);
out.writeObjectNotNull(Short.MAX_VALUE);
out.writeObjectNotNull(new Short((short) 0));
out.writeObjectNotNull(Character.MIN_VALUE);
out.writeObjectNotNull(Character.MAX_VALUE);
out.writeObjectNotNull(new Character('a'));
out.writeObjectNotNull(Integer.MIN_VALUE);
out.writeObjectNotNull(Integer.MAX_VALUE);
out.writeObjectNotNull(new Integer(0));
out.writeObjectNotNull(Long.MIN_VALUE);
out.writeObjectNotNull(Long.MAX_VALUE);
out.writeObjectNotNull(new Long(0));
out.writeObjectNotNull(FloatSerializer.MIN_VALUE);
out.writeObjectNotNull(FloatSerializer.MAX_VALUE);
out.writeObjectNotNull(new Float((float) 0.0));
out.writeObjectNotNull(DoubleSerializer.MIN_VALUE);
out.writeObjectNotNull(DoubleSerializer.MAX_VALUE);
out.writeObjectNotNull(new Double(0.0));
ReadBuffer b = out.getStaticBuffer().asReadBuffer();
assertEquals(Boolean.FALSE, serialize.readObjectNotNull(b, Boolean.class));
assertEquals(Boolean.TRUE, serialize.readObjectNotNull(b, Boolean.class));
assertEquals(Byte.MIN_VALUE, serialize.readObjectNotNull(b, Byte.class).longValue());
assertEquals(Byte.MAX_VALUE, serialize.readObjectNotNull(b, Byte.class).longValue());
assertEquals(0, serialize.readObjectNotNull(b, Byte.class).longValue());
assertEquals(Short.MIN_VALUE, serialize.readObjectNotNull(b, Short.class).longValue());
assertEquals(Short.MAX_VALUE, serialize.readObjectNotNull(b, Short.class).longValue());
assertEquals(0, serialize.readObjectNotNull(b, Short.class).longValue());
assertEquals(Character.MIN_VALUE, serialize.readObjectNotNull(b, Character.class).charValue());
assertEquals(Character.MAX_VALUE, serialize.readObjectNotNull(b, Character.class).charValue());
assertEquals(new Character('a'), serialize.readObjectNotNull(b, Character.class));
assertEquals(Integer.MIN_VALUE, serialize.readObjectNotNull(b, Integer.class).longValue());
assertEquals(Integer.MAX_VALUE, serialize.readObjectNotNull(b, Integer.class).longValue());
assertEquals(0, serialize.readObjectNotNull(b, Integer.class).longValue());
assertEquals(Long.MIN_VALUE, serialize.readObjectNotNull(b, Long.class).longValue());
assertEquals(Long.MAX_VALUE, serialize.readObjectNotNull(b, Long.class).longValue());
assertEquals(0, serialize.readObjectNotNull(b, Long.class).longValue());
assertEquals(
FloatSerializer.MIN_VALUE, serialize.readObjectNotNull(b, Float.class).floatValue(), 1e-20);
assertEquals(
FloatSerializer.MAX_VALUE, serialize.readObjectNotNull(b, Float.class).floatValue(), 1e-20);
assertEquals(0.0, serialize.readObjectNotNull(b, Float.class).floatValue(), 1e-20);
assertEquals(
DoubleSerializer.MIN_VALUE,
serialize.readObjectNotNull(b, Double.class).doubleValue(),
1e-40);
assertEquals(
DoubleSerializer.MAX_VALUE,
serialize.readObjectNotNull(b, Double.class).doubleValue(),
1e-40);
assertEquals(0.0, serialize.readObjectNotNull(b, Double.class).doubleValue(), 1e-20);
}
private Entry getEntry(
InternalTitanTransaction tx,
InternalRelation edge,
InternalTitanVertex perspective,
Map<TitanType, TypeSignature> signatures,
boolean columnOnly) {
TitanType et = edge.getType();
long etid = et.getID();
int dirID;
if (edge.isProperty()) {
dirID = 0;
} else if (edge.getVertex(0).equals(perspective)) {
// Out TitanRelation
assert edge.isDirected() || edge.isUnidirected();
dirID = 2;
} else {
// In TitanRelation
assert !edge.isUnidirected() && edge.getVertex(1).equals(perspective);
dirID = 3;
}
int etIDLength = IDHandler.edgeTypeLength(etid, idManager);
ByteBuffer column = null, value = null;
if (et.isSimple()) {
if (et.isFunctional()) {
column = ByteBuffer.allocate(etIDLength);
IDHandler.writeEdgeType(column, etid, dirID, idManager);
} else {
column = ByteBuffer.allocate(etIDLength + VariableLong.positiveLength(edge.getID()));
IDHandler.writeEdgeType(column, etid, dirID, idManager);
VariableLong.writePositive(column, edge.getID());
}
column.flip();
if (!columnOnly) {
if (edge.isEdge()) {
long nodeIDDiff =
((TitanEdge) edge).getOtherVertex(perspective).getID() - perspective.getID();
int nodeIDDiffLength = VariableLong.length(nodeIDDiff);
if (et.isFunctional()) {
value =
ByteBuffer.allocate(nodeIDDiffLength + VariableLong.positiveLength(edge.getID()));
VariableLong.write(value, nodeIDDiff);
VariableLong.writePositive(value, edge.getID());
} else {
value = ByteBuffer.allocate(nodeIDDiffLength);
VariableLong.write(value, nodeIDDiff);
}
value.flip();
} else {
assert edge.isProperty();
DataOutput out = serializer.getDataOutput(defaultOutputCapacity, true);
// Write object
writeAttribute(out, (TitanProperty) edge);
if (et.isFunctional()) {
VariableLong.writePositive(out, edge.getID());
}
value = out.getByteBuffer();
}
}
} else {
TypeSignature ets = getSignature(tx, et, signatures);
InternalRelation[] keys = new InternalRelation[ets.keyLength()],
values = new InternalRelation[ets.valueLength()];
List<InternalRelation> rest = new ArrayList<InternalRelation>();
ets.sort(edge.getRelations(SimpleAtomicQuery.queryAll(edge), false), keys, values, rest);
DataOutput out = serializer.getDataOutput(defaultOutputCapacity, true);
IDHandler.writeEdgeType(out, etid, dirID, idManager);
for (int i = 0; i < keys.length; i++) writeInlineEdge(out, keys[i], ets.getKeyType(i));
if (!et.isFunctional()) {
VariableLong.writePositive(out, edge.getID());
}
column = out.getByteBuffer();
if (!columnOnly) {
out = serializer.getDataOutput(defaultOutputCapacity, true);
if (edge.isEdge()) {
long nodeIDDiff =
((TitanEdge) edge).getOtherVertex(perspective).getID() - perspective.getID();
VariableLong.write(out, nodeIDDiff);
} else {
assert edge.isProperty();
writeAttribute(out, (TitanProperty) edge);
}
if (et.isFunctional()) {
assert edge.isEdge();
VariableLong.writePositive(out, edge.getID());
}
for (int i = 0; i < values.length; i++)
writeInlineEdge(out, values[i], ets.getValueType(i));
for (InternalRelation v : rest) writeInlineEdge(out, v);
value = out.getByteBuffer();
}
}
return new Entry(column, value);
}
private List<Entry> queryForEntries(AtomicQuery query, TransactionHandle txh) {
ByteBuffer key = IDHandler.getKey(query.getVertexID());
List<Entry> entries = null;
LimitTracker limit = new LimitTracker(query);
boolean dirs[] = getAllowedDirections(query);
if (query.hasEdgeTypeCondition()) {
TitanType et = query.getTypeCondition();
if (!et.isNew()) { // Result set must be empty if TitanType is new
ArrayList<Object> applicableConstraints = null;
boolean isRange = false;
if (query.hasConstraints()) {
assert !et.isSimple();
TypeDefinition def = ((InternalTitanType) et).getDefinition();
String[] keysig = def.getKeySignature();
applicableConstraints = new ArrayList<Object>(keysig.length);
Map<String, Object> constraints = query.getConstraints();
for (int i = 0; i < keysig.length; i++) {
if (constraints.containsKey(keysig[i])) {
Object iv = constraints.get(keysig[i]);
applicableConstraints.add(iv);
if (iv != null && (iv instanceof AtomicInterval) && ((AtomicInterval) iv).isRange()) {
isRange = true;
break;
}
} else break;
}
if (applicableConstraints.isEmpty()) applicableConstraints = null;
}
for (int dirID = 0; dirID < 4; dirID++) {
if (dirs[dirID]) {
if (applicableConstraints != null) {
assert !applicableConstraints.isEmpty();
DataOutput start = serializer.getDataOutput(defaultOutputCapacity, true);
DataOutput end = null;
if (isRange) end = serializer.getDataOutput(defaultOutputCapacity, true);
IDHandler.writeEdgeType(start, et.getID(), dirID, idManager);
if (isRange) IDHandler.writeEdgeType(end, et.getID(), dirID, idManager);
// Write all applicable key constraints
for (Object iv : applicableConstraints) {
if (iv instanceof AtomicInterval) {
AtomicInterval interval = (AtomicInterval) iv;
if (interval.isPoint()) {
start.writeObject(interval.getStartPoint());
if (isRange) end.writeObject(interval.getStartPoint());
} else {
assert isRange;
assert interval.isRange();
ByteBuffer startColumn, endColumn;
if (interval.getStartPoint() != null) {
start.writeObject(interval.getStartPoint());
startColumn = start.getByteBuffer();
if (!interval.startInclusive())
startColumn = ByteBufferUtil.nextBiggerBuffer(startColumn);
} else {
assert interval.startInclusive();
startColumn = start.getByteBuffer();
}
if (interval.getEndPoint() != null) {
end.writeObject(interval.getEndPoint());
} else {
assert interval.endInclusive();
}
endColumn = end.getByteBuffer();
if (interval.endInclusive())
endColumn = ByteBufferUtil.nextBiggerBuffer(endColumn);
entries = appendResults(key, startColumn, endColumn, entries, limit, txh);
break; // redundant, this must be the last iteration because its a range
}
} else {
assert iv == null || (iv instanceof TitanVertex);
long id = 0;
if (iv != null) id = ((TitanVertex) iv).getID();
VariableLong.writePositive(start, id);
if (isRange) VariableLong.writePositive(end, id);
}
}
if (!isRange)
entries = appendResults(key, start.getByteBuffer(), entries, limit, txh);
} else {
ByteBuffer columnStart = IDHandler.getEdgeType(et.getID(), dirID, idManager);
entries = appendResults(key, columnStart, entries, limit, txh);
}
}
}
}
} else if (query.hasGroupCondition()) {
int groupid = query.getGroupCondition().getID();
for (int dirID = 0; dirID < 4; dirID++) {
if (dirs[dirID]) {
ByteBuffer columnStart = IDHandler.getEdgeTypeGroup(groupid, dirID, idManager);
entries = appendResults(key, columnStart, entries, limit, txh);
}
}
} else {
int lastDirID = -1;
for (int dirID = 0; dirID <= 4; dirID++) {
if ((dirID >= 4 || !dirs[dirID]) && lastDirID >= 0) {
ByteBuffer columnStart = IDHandler.getEdgeTypeGroup(0, lastDirID, idManager);
ByteBuffer columnEnd =
IDHandler.getEdgeTypeGroup(idManager.getMaxGroupID() + 1, dirID - 1, idManager);
entries = appendResults(key, columnStart, columnEnd, entries, limit, txh);
lastDirID = -1;
}
if (dirID < 4) {
if (dirs[dirID] && lastDirID == -1) lastDirID = dirID;
}
}
}
if (entries == null) return ImmutableList.of();
else return entries;
}
protected void loadRelations(
Iterable<Entry> entries, VertexRelationLoader loader, InternalTitanTransaction tx) {
Map<String, TitanType> etCache = new HashMap<String, TitanType>();
TitanType titanType = null;
for (Entry entry : entries) {
ByteBuffer column = entry.getColumn();
int dirID = IDHandler.getDirectionID(column.get(column.position()));
long etid = IDHandler.readEdgeType(column, idManager);
if (titanType == null || titanType.getID() != etid) {
titanType = getTypeFromID(etid, tx);
}
Object[] keys = null;
if (!titanType.isSimple()) {
TypeDefinition def = ((InternalTitanType) titanType).getDefinition();
String[] keysig = def.getKeySignature();
keys = new Object[keysig.length];
for (int i = 0; i < keysig.length; i++)
keys[i] = readInline(column, getEdgeType(keysig[i], etCache, tx));
}
long edgeid = 0;
if (!titanType.isFunctional()) {
edgeid = VariableLong.readPositive(column);
}
ByteBuffer value = entry.getValue();
if (titanType.isEdgeLabel()) {
long nodeIDDiff = VariableLong.read(value);
if (titanType.isFunctional()) edgeid = VariableLong.readPositive(value);
assert edgeid > 0;
long otherid = loader.getVertexId() + nodeIDDiff;
assert dirID == 3 || dirID == 2;
Direction dir = dirID == 3 ? Direction.IN : Direction.OUT;
if (!tx.isDeletedRelation(edgeid))
loader.loadEdge(edgeid, (TitanLabel) titanType, dir, otherid);
} else {
assert titanType.isPropertyKey();
assert dirID == 0;
TitanKey propType = ((TitanKey) titanType);
Object attribute = null;
if (hasGenericDataType(propType)) {
attribute = serializer.readClassAndObject(value);
} else {
attribute = serializer.readObjectNotNull(value, propType.getDataType());
}
assert attribute != null;
if (titanType.isFunctional()) edgeid = VariableLong.readPositive(value);
assert edgeid > 0;
if (!tx.isDeletedRelation(edgeid)) loader.loadProperty(edgeid, propType, attribute);
}
// Read value inline edges if any
if (!titanType.isSimple()) {
TypeDefinition def = ((InternalTitanType) titanType).getDefinition();
// First create all keys buffered above
String[] keysig = def.getKeySignature();
for (int i = 0; i < keysig.length; i++) {
createInlineEdge(loader, getEdgeType(keysig[i], etCache, tx), keys[i]);
}
// value signature
for (String str : def.getCompactSignature())
readLabel(loader, value, getEdgeType(str, etCache, tx));
// Third: read rest
while (value.hasRemaining()) {
TitanType type =
(TitanType) tx.getExistingVertex(IDHandler.readInlineEdgeType(value, idManager));
readLabel(loader, value, type);
}
}
}
}
private ByteBuffer getIndexKey(Object att) {
DataOutput out = serializer.getDataOutput(defaultOutputCapacity, true);
out.writeObjectNotNull(att);
return out.getByteBuffer();
}
