use of org.apache.accumulo.core.conf.ConfigurationCopy in project Gaffer by gchq.
the class BloomFilter18IT method testFilter.
private void testFilter(final AccumuloElementConverter elementConverter, final RangeFactory rangeFactory) throws AccumuloElementConversionException, RangeFactoryException, IOException {
// Create random data to insert, and sort it
final Random random = new Random();
final HashSet<Key> keysSet = new HashSet<>();
final HashSet<Entity> dataSet = new HashSet<>();
for (int i = 0; i < 100000; i++) {
final Entity source = new Entity(TestGroups.ENTITY);
source.setVertex("type" + random.nextInt(Integer.MAX_VALUE));
final Entity destination = new Entity(TestGroups.ENTITY);
destination.setVertex("type" + random.nextInt(Integer.MAX_VALUE));
dataSet.add(source);
dataSet.add(destination);
final Entity sourceEntity = new Entity(source.getGroup());
sourceEntity.setVertex(source.getVertex());
final Entity destinationEntity = new Entity(destination.getGroup());
destinationEntity.setVertex(destination.getVertex());
final Edge edge = new Edge(TestGroups.EDGE, source.getVertex(), destination.getVertex(), true);
keysSet.add(elementConverter.getKeyFromEntity(sourceEntity));
keysSet.add(elementConverter.getKeyFromEntity(destinationEntity));
final Pair<Key> edgeKeys = elementConverter.getKeysFromEdge(edge);
keysSet.add(edgeKeys.getFirst());
keysSet.add(edgeKeys.getSecond());
}
final ArrayList<Key> keys = new ArrayList<>(keysSet);
Collections.sort(keys);
final Properties property = new Properties();
property.put(AccumuloPropertyNames.COUNT, 10);
final Value value = elementConverter.getValueFromProperties(TestGroups.ENTITY, property);
final Value value2 = elementConverter.getValueFromProperties(TestGroups.EDGE, property);
// Create Accumulo configuration
final ConfigurationCopy accumuloConf = new ConfigurationCopy(AccumuloConfiguration.getDefaultConfiguration());
accumuloConf.set(Property.TABLE_BLOOM_ENABLED, "true");
accumuloConf.set(Property.TABLE_BLOOM_KEY_FUNCTOR, CoreKeyBloomFunctor.class.getName());
accumuloConf.set(Property.TABLE_FILE_TYPE, RFile.EXTENSION);
accumuloConf.set(Property.TABLE_BLOOM_LOAD_THRESHOLD, "1");
accumuloConf.set(Property.TSERV_BLOOM_LOAD_MAXCONCURRENT, "1");
// Create Hadoop configuration
final Configuration conf = CachedConfiguration.getInstance();
final FileSystem fs = FileSystem.get(conf);
// Open file
final String suffix = FileOperations.getNewFileExtension(accumuloConf);
final String filenameTemp = tempFolder.getRoot().getAbsolutePath();
final String filename = filenameTemp + "." + suffix;
final File file = new File(filename);
if (file.exists()) {
file.delete();
}
final FileSKVWriter writer = FileOperations.getInstance().newWriterBuilder().forFile(filename, fs, conf).withTableConfiguration(accumuloConf).build();
try {
// Write data to file
writer.startDefaultLocalityGroup();
for (final Key key : keys) {
if (elementConverter.getElementFromKey(key).getGroup().equals(TestGroups.ENTITY)) {
writer.append(key, value);
} else {
writer.append(key, value2);
}
}
} finally {
writer.close();
}
// Reader
final FileSKVIterator reader = FileOperations.getInstance().newReaderBuilder().forFile(filename, fs, conf).withTableConfiguration(accumuloConf).seekToBeginning(false).build();
try {
// Calculate random look up rate - run it 3 times and take best
final int numTrials = 5;
double maxRandomRate = -1.0;
for (int i = 0; i < numTrials; i++) {
final double rate = calculateRandomLookUpRate(reader, dataSet, random, rangeFactory);
if (rate > maxRandomRate) {
maxRandomRate = rate;
}
}
LOGGER.info("Max random rate = " + maxRandomRate);
// Calculate look up rate for items that were inserted
double maxCausalRate = -1.0;
for (int i = 0; i < numTrials; i++) {
double rate = calculateCausalLookUpRate(reader, dataSet, random, rangeFactory);
if (rate > maxCausalRate) {
maxCausalRate = rate;
}
}
LOGGER.info("Max causal rate = " + maxCausalRate);
// Random look up rate should be much faster
assertTrue(maxRandomRate > maxCausalRate);
} finally {
// Close reader
reader.close();
}
}
use of org.apache.accumulo.core.conf.ConfigurationCopy in project Gaffer by gchq.
the class BloomFilterIT method testFilter.
private void testFilter(final AccumuloElementConverter elementConverter, final RangeFactory rangeFactory) throws AccumuloElementConversionException, RangeFactoryException, IOException {
// Create random data to insert, and sort it
final Random random = new Random();
final HashSet<Key> keysSet = new HashSet<>();
final HashSet<Entity> dataSet = new HashSet<>();
for (int i = 0; i < 100000; i++) {
final Entity source = new Entity(TestGroups.ENTITY);
source.setVertex("type" + random.nextInt(Integer.MAX_VALUE));
final Entity destination = new Entity(TestGroups.ENTITY);
destination.setVertex("type" + random.nextInt(Integer.MAX_VALUE));
dataSet.add(source);
dataSet.add(destination);
final Entity sourceEntity = new Entity(source.getGroup());
sourceEntity.setVertex(source.getVertex());
final Entity destinationEntity = new Entity(destination.getGroup());
destinationEntity.setVertex(destination.getVertex());
final Edge edge = new Edge(TestGroups.EDGE, source.getVertex(), destination.getVertex(), true);
keysSet.add(elementConverter.getKeyFromEntity(sourceEntity));
keysSet.add(elementConverter.getKeyFromEntity(destinationEntity));
final Pair<Key> edgeKeys = elementConverter.getKeysFromEdge(edge);
keysSet.add(edgeKeys.getFirst());
keysSet.add(edgeKeys.getSecond());
}
final ArrayList<Key> keys = new ArrayList<>(keysSet);
Collections.sort(keys);
final Properties property = new Properties();
property.put(AccumuloPropertyNames.COUNT, 10);
final Value value = elementConverter.getValueFromProperties(TestGroups.ENTITY, property);
final Value value2 = elementConverter.getValueFromProperties(TestGroups.EDGE, property);
// Create Accumulo configuration
final ConfigurationCopy accumuloConf = new ConfigurationCopy(AccumuloConfiguration.getDefaultConfiguration());
accumuloConf.set(Property.TABLE_BLOOM_ENABLED, "true");
accumuloConf.set(Property.TABLE_BLOOM_KEY_FUNCTOR, CoreKeyBloomFunctor.class.getName());
accumuloConf.set(Property.TABLE_FILE_TYPE, RFile.EXTENSION);
accumuloConf.set(Property.TABLE_BLOOM_LOAD_THRESHOLD, "1");
accumuloConf.set(Property.TSERV_BLOOM_LOAD_MAXCONCURRENT, "1");
// Create Hadoop configuration
final Configuration conf = CachedConfiguration.getInstance();
final FileSystem fs = FileSystem.get(conf);
// Open file
final String suffix = FileOperations.getNewFileExtension(accumuloConf);
final String filenameTemp = tempFolder.getRoot().getAbsolutePath();
final String filename = filenameTemp + "." + suffix;
final File file = new File(filename);
if (file.exists()) {
file.delete();
}
final FileSKVWriter writer = FileOperations.getInstance().openWriter(filename, fs, conf, accumuloConf);
try {
// Write data to file
writer.startDefaultLocalityGroup();
for (final Key key : keys) {
if (elementConverter.getElementFromKey(key).getGroup().equals(TestGroups.ENTITY)) {
writer.append(key, value);
} else {
writer.append(key, value2);
}
}
} finally {
writer.close();
}
// Reader
final FileSKVIterator reader = FileOperations.getInstance().openReader(filename, false, fs, conf, accumuloConf);
try {
// Calculate random look up rate - run it 3 times and take best
final int numTrials = 5;
double maxRandomRate = -1.0;
for (int i = 0; i < numTrials; i++) {
final double rate = calculateRandomLookUpRate(reader, dataSet, random, rangeFactory);
if (rate > maxRandomRate) {
maxRandomRate = rate;
}
}
LOGGER.info("Max random rate = " + maxRandomRate);
// Calculate look up rate for items that were inserted
double maxCausalRate = -1.0;
for (int i = 0; i < numTrials; i++) {
double rate = calculateCausalLookUpRate(reader, dataSet, random, rangeFactory);
if (rate > maxCausalRate) {
maxCausalRate = rate;
}
}
LOGGER.info("Max causal rate = " + maxCausalRate);
// Random look up rate should be much faster
assertTrue(maxRandomRate > maxCausalRate);
} finally {
// Close reader
reader.close();
}
}
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