use of org.neo4j.values.storable.ValueGroup in project neo4j by neo4j.
the class NativeIndexAccessorTests method respectIndexOrder.
@Test
void respectIndexOrder() throws Exception {
// given
int nUpdates = 10000;
ValueType[] types = supportedTypesExcludingNonOrderable();
Iterator<ValueIndexEntryUpdate<IndexDescriptor>> randomUpdateGenerator = valueCreatorUtil.randomUpdateGenerator(random, types);
// noinspection unchecked
ValueIndexEntryUpdate<IndexDescriptor>[] someUpdates = new ValueIndexEntryUpdate[nUpdates];
for (int i = 0; i < nUpdates; i++) {
someUpdates[i] = randomUpdateGenerator.next();
}
processAll(someUpdates);
Value[] allValues = ValueCreatorUtil.extractValuesFromUpdates(someUpdates);
// when
try (var reader = accessor.newValueReader()) {
ValueGroup valueGroup = random.among(allValues).valueGroup();
PropertyIndexQuery.RangePredicate<?> supportedQuery = PropertyIndexQuery.range(0, valueGroup);
IndexOrderCapability supportedOrders = indexCapability().orderCapability(valueGroup.category());
if (supportedOrders.supportsAsc()) {
expectIndexOrder(allValues, valueGroup, reader, IndexOrder.ASCENDING, supportedQuery);
}
if (supportedOrders.supportsDesc()) {
expectIndexOrder(allValues, valueGroup, reader, IndexOrder.DESCENDING, supportedQuery);
}
}
}
use of org.neo4j.values.storable.ValueGroup in project neo4j by neo4j.
the class NativeIndexAccessorTests method getValues.
@Test
void getValues() throws IndexEntryConflictException, IndexNotApplicableKernelException {
// given
int nUpdates = 10000;
Iterator<ValueIndexEntryUpdate<IndexDescriptor>> randomUpdateGenerator = valueCreatorUtil.randomUpdateGenerator(random);
// noinspection unchecked
ValueIndexEntryUpdate<IndexDescriptor>[] someUpdates = new ValueIndexEntryUpdate[nUpdates];
for (int i = 0; i < nUpdates; i++) {
someUpdates[i] = randomUpdateGenerator.next();
}
processAll(someUpdates);
Value[] allValues = ValueCreatorUtil.extractValuesFromUpdates(someUpdates);
// Pick one out of all added values and do a range query for the value group of that value
Value value = random.among(allValues);
ValueGroup valueGroup = value.valueGroup();
IndexValueCapability valueCapability = indexCapability().valueCapability(valueGroup.category());
if (!valueCapability.equals(IndexValueCapability.YES)) {
// We don't need to do this test
return;
}
PropertyIndexQuery.RangePredicate<?> supportedQuery;
List<Value> expectedValues;
if (Values.isGeometryValue(value)) {
// Unless it's a point value in which case we query for the specific coordinate reference system instead
CoordinateReferenceSystem crs = ((PointValue) value).getCoordinateReferenceSystem();
supportedQuery = PropertyIndexQuery.range(0, crs);
expectedValues = Arrays.stream(allValues).filter(v -> v.valueGroup() == ValueGroup.GEOMETRY).filter(v -> ((PointValue) v).getCoordinateReferenceSystem() == crs).collect(Collectors.toList());
} else {
supportedQuery = PropertyIndexQuery.range(0, valueGroup);
expectedValues = Arrays.stream(allValues).filter(v -> v.valueGroup() == valueGroup).collect(Collectors.toList());
}
// when
try (var reader = accessor.newValueReader()) {
SimpleEntityValueClient client = new SimpleEntityValueClient();
reader.query(NULL_CONTEXT, client, unorderedValues(), supportedQuery);
// then
while (client.next()) {
Value foundValue = client.values[0];
assertTrue(expectedValues.remove(foundValue), "found value that was not expected " + foundValue);
}
assertThat(expectedValues.size()).as("did not find all expected values").isEqualTo(0);
}
}
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