@NotNull
public ValueContainerImpl<Value> copy() {
ValueContainerImpl<Value> container = new ValueContainerImpl<Value>();
if (myInputIdMapping instanceof THashMap) {
final THashMap<Value, Object> mapping = (THashMap<Value, Object>) myInputIdMapping;
final THashMap<Value, Object> newMapping = new THashMap<Value, Object>(mapping.size());
container.myInputIdMapping = newMapping;
mapping.forEachEntry(
new TObjectObjectProcedure<Value, Object>() {
@Override
public boolean execute(Value key, Object val) {
if (val instanceof ChangeBufferingList) {
newMapping.put(key, ((ChangeBufferingList) val).clone());
} else {
newMapping.put(key, val);
}
return true;
}
});
} else {
container.myInputIdMapping = myInputIdMapping;
container.myInputIdMappingValue =
myInputIdMappingValue instanceof ChangeBufferingList
? ((ChangeBufferingList) myInputIdMappingValue).clone()
: myInputIdMappingValue;
}
return container;
}
@Override
public boolean removeValue(int inputId, Value value) {
ValueContainerImpl<Value> merged = myMerged;
if (merged != null) {
merged.removeValue(inputId, value);
}
ValueContainerImpl<Value> added = myAdded;
if (added != null) added.removeValue(inputId, value);
return true;
}
// need 'synchronized' to ensure atomic initialization of merged data
// because several threads that acquired read lock may simultaneously execute the method
private ValueContainerImpl<Value> getMergedData() {
ValueContainerImpl<Value> merged = myMerged;
if (merged != null) {
return merged;
}
synchronized (myInitializer.getLock()) {
merged = myMerged;
if (merged != null) {
return merged;
}
final ValueContainer<Value> fromDisk = myInitializer.compute();
final ValueContainerImpl<Value> newMerged;
if (fromDisk instanceof ValueContainerImpl) {
newMerged = ((ValueContainerImpl<Value>) fromDisk).copy();
} else {
newMerged = ((ChangeTrackingValueContainer<Value>) fromDisk).getMergedData().copy();
}
TIntHashSet invalidated = myInvalidated;
if (invalidated != null) {
invalidated.forEach(
new TIntProcedure() {
@Override
public boolean execute(int inputId) {
newMerged.removeAssociatedValue(inputId);
return true;
}
});
}
ValueContainerImpl<Value> added = myAdded;
if (added != null) {
added.forEach(
new ContainerAction<Value>() {
@Override
public boolean perform(final int id, final Value value) {
newMerged.removeAssociatedValue(
id); // enforcing "one-value-per-file for particular key" invariant
newMerged.addValue(id, value);
return true;
}
});
}
setNeedsCompacting(fromDisk.needsCompacting());
myMerged = newMerged;
return newMerged;
}
}
@Override
public ValueContainerImpl<Value> clone() {
try {
final ValueContainerImpl clone = (ValueContainerImpl) super.clone();
if (myInputIdMapping instanceof THashMap) {
clone.myInputIdMapping = mapCopy((THashMap<Value, Object>) myInputIdMapping);
} else if (myInputIdMappingValue instanceof ChangeBufferingList) {
clone.myInputIdMappingValue = ((ChangeBufferingList) myInputIdMappingValue).clone();
}
return clone;
} catch (CloneNotSupportedException e) {
throw new RuntimeException(e);
}
}
@Override
public void addValue(int inputId, Value value) {
ValueContainerImpl<Value> merged = myMerged;
if (merged != null) {
merged.addValue(inputId, value);
}
ValueContainerImpl<Value> added = myAdded;
if (added == null) {
myAdded = added = new ValueContainerImpl<Value>();
}
added.addValue(
inputId,
value); // will flush the changes & caller should ensure exclusiveness to avoid intermediate
// visibility issues
}
@Override
public void removeAssociatedValue(int inputId) {
ValueContainerImpl<Value> merged = myMerged;
if (merged != null) {
merged.removeAssociatedValue(inputId);
}
ValueContainerImpl<Value> added = myAdded;
if (added != null) added.removeAssociatedValue(inputId);
TIntHashSet invalidated = myInvalidated;
if (invalidated == null) {
invalidated = new TIntHashSet(1);
}
invalidated.add(inputId);
myInvalidated = invalidated; // volatile write
}
public ValueContainerImpl<T> read(final DataInput in) throws IOException {
DataInputStream stream = (DataInputStream) in;
final ValueContainerImpl<T> valueContainer = new ValueContainerImpl<T>();
while (stream.available() > 0) {
final int valueCount = DataInputOutputUtil.readSINT(in);
if (valueCount < 0) {
valueContainer.removeAllValues(-valueCount);
valueContainer.setNeedsCompacting(true);
} else {
for (int valueIdx = 0; valueIdx < valueCount; valueIdx++) {
final T value = myExternalizer.read(in);
final int idCount = DataInputOutputUtil.readSINT(in);
for (int i = 0; i < idCount; i++) {
final int id = DataInputOutputUtil.readSINT(in);
if (id < 0) {
valueContainer.removeValue(-id, value);
valueContainer.setNeedsCompacting(true);
} else {
valueContainer.addValue(id, value);
}
}
}
}
}
return valueContainer;
}
public boolean isDirty() {
return (myAdded != null && myAdded.size() > 0)
|| (myInvalidated != null && !myInvalidated.isEmpty())
|| needsCompacting();
}
