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Operation/
|-- AbstractStatementOperation
| |-- AbstractOperation
| | |-- AbstractFilterOperation
| | | |-- CountOperation
| | | |-- DeleteOperation
| | | `-- UpdateOperation
| | |-- BoundOperation
| | `-- InsertOperation
| |-- AbstractOptionalOperation
| | |-- AbstractFilterOptionalOperation
| | | |-- SelectFirstOperation
| | | `-- SelectFirstTransformingOperation
| | `-- BoundOptionalOperation
| `-- AbstractStreamOperation
| |-- AbstractFilterStreamOperation
| | |-- SelectOperation
| | `-- SelectTransformingOperation
| `-- BoundStreamOperation
|-- PreparedOperation
|-- PreparedOptionalOperation
`-- PreparedStreamOperation
----
@CompoundIndex()
create a new col in the same table called __idx_a_b_c that the hash of the concatenated values in that order is stored, create a normal index for that (CREATE INDEX ...)
if a query matches that set of columns then use that indexed col to fetch the desired results from that table
could also work with .in() query if materialized view exists
----
// TODO(gburd): create a statement that matches one that wasn't prepared
//String key =
// "use " + preparedStatement.getQueryKeyspace() + "; " + preparedStatement.getQueryString();
//for (Object param : params) {
// key = key.replaceFirst(Pattern.quote("?"), param.toString());
//}
primitive types have default values, (e.g. boolean, int, ...) but primative wrapper classes do not and can be null (e.g. Boolean, Integer, ...)
create table wal {
id timeuuid,
follows timeuuid,
read <Counting Quotient Filter, Set<{keyspace, col, schema generation, timestamp}>>
write <Counting Quotient Filter, Set<{keyspace, col, schema generation, timestamp}>>
primary key (id, follows)
}
begin:
- insert into wal (timeuuid, parent timeuuid,
// NOTE: Update operations have no meaning when they only contain primary key components, so
// given that `properties` is ordered with the keys first if we find that the last element
// is either a partition key or clustering column then we know we should just skip this operation.
ColumnType ct = ((HelenusProperty) properties.toArray()[properties.size() - 1]).getColumnType();
if (ct != ColumnType.PARTITION_KEY && ct != ColumnType.CLUSTERING_COLUMN) {
return;
}
public Stream<E> sync() {
ListenableFuture<Stream<E>> future = async();
Futures.addCallback(future, new FutureCallback<String>() {
@Override
public void onSuccess(String contents) {
//...process web site contents
}
@Override
public void onFailure(Throwable throwable) {
log.error("Exception in task", throwable);
}
});
}
-------
private mergeCache(Map<String, Set<Object>>
private static <E> Iterable<E> concat(
Iterable<? extends E> i1,
Iterable<? extends E> i2) {
return new Iterable<E>() {
public Iterator<E> iterator() {
return new Iterator<E>() {
Iterator<? extends E> listIterator = i1.iterator();
Boolean checkedHasNext;
E nextValue;
private boolean startTheSecond;
void theNext() {
if (listIterator.hasNext()) {
checkedHasNext = true;
nextValue = listIterator.next();
} else if (startTheSecond)
checkedHasNext = false;
else {
startTheSecond = true;
listIterator = i2.iterator();
theNext();
}
}
public boolean hasNext() {
if (checkedHasNext == null)
theNext();
return checkedHasNext;
}
public E next() {
if (!hasNext())
throw new NoSuchElementException();
checkedHasNext = null;
return nextValue;
}
public void remove() {
listIterator.remove();
}
};
}
};
}
----------------------------------
if ("ttl".equals(methodName) && method.getParameterCount() == 1 && method.getReturnType() == int.class) {
Getter getter = (Getter) args[0];
if (getter == null) {
return false;
}
HelenusProperty prop = MappingUtil.resolveMappingProperty(getter).getProperty();
String getterName = prop.getPropertyName();
String ttlKeyForProperty = prop.getColumnName().toCql() + "_ttl";
if (src.containsKey(ttlKeyForProperty)) {
return src.get(ttlKeyForProperty);
} else {
return 0;
}
}
if ("written".equals(methodName) && method.getParameterCount() == 1 && method.getReturnType() == int.class) {
Getter getter = (Getter) args[0];
if (getter == null) {
return false;
}
HelenusProperty prop = MappingUtil.resolveMappingProperty(getter).getProperty();
String getterName = prop.getPropertyName();
String ttlKeyForProperty = prop.getColumnName().toCql() + "_ttl";
if (src.containsKey(ttlKeyForProperty)) {
return src.get(ttlKeyForProperty);
} else {
return 0;
}
}
-----------------
/*else {
Cache<String, Object> cache = session.getSessionCache();
Map<String, Object> rowMap = this.cache.rowMap();
for (String rowKey : rowMap.keySet()) {
String keys = flattenFacets(facets);
for (String key : keys) {
Object value = cache.getIfPresent(key);
if (value != null) {
result = Optional.of(value);
break;
}
}
}
cache.put
}
*/
------------------
InsertOperation
Class<?> iface = entity.getMappingInterface();
boolean includesNonIdentityValues = values.stream().map(t -> {
ColumnType type = t._1.getProperty().getColumnType();
return !((type == ColumnType.PARTITION_KEY) || (type == ColumnType.CLUSTERING_COLUMN));
})
.reduce(false, (acc, t) -> acc || t);
if (resultType == iface) {
if (values.size() > 0 && includesNonIdentityValues) {
boolean immutable = iface.isAssignableFrom(Drafted.class);
-------------------
final Object value;
if (method.getParameterCount() == 1 && args[0] instanceof Boolean && src instanceof ValueProviderMap) {
value = ((ValueProviderMap)src).get(methodName, (Boolean)args[0]);
} else {
value = src.get(methodName);
}
--------------------
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