public void testComplexBuilder() {
List<Integer> colorElem = asList(0x00, 0x33, 0x66, 0x99, 0xCC, 0xFF);
// javac won't compile this without "this.<Integer>"
ImmutableSet.Builder<Integer> webSafeColorsBuilder = this.<Integer>builder();
for (Integer red : colorElem) {
for (Integer green : colorElem) {
for (Integer blue : colorElem) {
webSafeColorsBuilder.add((red << 16) + (green << 8) + blue);
}
}
}
ImmutableSet<Integer> webSafeColors = webSafeColorsBuilder.build();
assertEquals(216, webSafeColors.size());
Integer[] webSafeColorArray = webSafeColors.toArray(new Integer[webSafeColors.size()]);
assertEquals(0x000000, (int) webSafeColorArray[0]);
assertEquals(0x000033, (int) webSafeColorArray[1]);
assertEquals(0x000066, (int) webSafeColorArray[2]);
assertEquals(0x003300, (int) webSafeColorArray[6]);
assertEquals(0x330000, (int) webSafeColorArray[36]);
ImmutableSet<Integer> addedColor = webSafeColorsBuilder.add(LAST_COLOR_ADDED).build();
assertEquals(
"Modifying the builder should not have changed any already built sets",
216,
webSafeColors.size());
assertEquals("the new array should be one bigger than webSafeColors", 217, addedColor.size());
Integer[] appendColorArray = addedColor.toArray(new Integer[addedColor.size()]);
assertEquals(getComplexBuilderSetLastElement(), (int) appendColorArray[216]);
}
private static <K, V> ImmutableSetMultimap<K, V> copyOf(
Multimap<? extends K, ? extends V> multimap, Comparator<? super V> valueComparator) {
checkNotNull(multimap); // eager for GWT
if (multimap.isEmpty() && valueComparator == null) {
return of();
}
if (multimap instanceof ImmutableSetMultimap) {
@SuppressWarnings("unchecked") // safe since multimap is not writable
ImmutableSetMultimap<K, V> kvMultimap = (ImmutableSetMultimap<K, V>) multimap;
if (!kvMultimap.isPartialView()) {
return kvMultimap;
}
}
ImmutableMap.Builder<K, ImmutableSet<V>> builder = ImmutableMap.builder();
int size = 0;
for (Entry<? extends K, ? extends Collection<? extends V>> entry :
multimap.asMap().entrySet()) {
K key = entry.getKey();
Collection<? extends V> values = entry.getValue();
ImmutableSet<V> set =
(valueComparator == null)
? ImmutableSet.copyOf(values)
: ImmutableSortedSet.copyOf(valueComparator, values);
if (!set.isEmpty()) {
builder.put(key, set);
size += set.size();
}
}
return new ImmutableSetMultimap<K, V>(builder.build(), size, valueComparator);
}
@Test
public void searchBioentityIdentifiers() {
ImmutableSet<String> result =
subject.searchBioentityIdentifiers(query, condition, species.getReferenceName());
assertThat(result.size(), greaterThan(0));
}
/** Verify that owners are correctly detected: - one owner, multiple inputs */
@Test
public void verifyInputsWithOneOwnerAreCorrectlyReported()
throws CmdLineException, IOException, InterruptedException {
FakeProjectFilesystem filesystem =
new FakeProjectFilesystem() {
@Override
public File getFileForRelativePath(String pathRelativeToProjectRoot) {
return new ExistingFile(getRootPath(), pathRelativeToProjectRoot);
}
};
ImmutableSet<String> inputs =
ImmutableSet.of(
"java/somefolder/badfolder/somefile.java",
"java/somefolder/perfect.java",
"com/test/subtest/random.java");
ImmutableSet<Path> inputPaths = MorePaths.asPaths(inputs);
BuildTarget target = BuildTargetFactory.newInstance("//base:name");
TargetNode<?> targetNode = createTargetNode(target, inputPaths);
CommandRunnerParams params = createAuditOwnerCommandRunnerParams(filesystem);
AuditOwnerCommand.OwnersReport report =
AuditOwnerCommand.generateOwnersReport(params, targetNode, inputs, false);
assertTrue(report.nonFileInputs.isEmpty());
assertTrue(report.nonExistentInputs.isEmpty());
assertTrue(report.inputsWithNoOwners.isEmpty());
assertEquals(inputs.size(), report.owners.size());
assertTrue(report.owners.containsKey(targetNode));
assertEquals(targetNode.getInputs(), report.owners.get(targetNode));
}
public static void testSuppressingSuppressorIfPossible() throws IOException {
// can't test the JDK7 suppressor when not running on JDK7
if (!Closer.SuppressingSuppressor.isAvailable()) {
return;
}
Closer closer = new Closer(new Closer.SuppressingSuppressor());
IOException thrownException = new IOException();
IOException c1Exception = new IOException();
RuntimeException c2Exception = new RuntimeException();
TestCloseable c1 = closer.register(TestCloseable.throwsOnClose(c1Exception));
TestCloseable c2 = closer.register(TestCloseable.throwsOnClose(c2Exception));
try {
try {
throw thrownException;
} catch (Throwable e) {
throw closer.rethrow(thrownException, IOException.class);
} finally {
assertEquals(0, getSuppressed(thrownException).length);
closer.close();
}
} catch (IOException expected) {
assertSame(thrownException, expected);
}
assertTrue(c1.isClosed());
assertTrue(c2.isClosed());
ImmutableSet<Throwable> suppressed = ImmutableSet.copyOf(getSuppressed(thrownException));
assertEquals(2, suppressed.size());
assertEquals(ImmutableSet.of(c1Exception, c2Exception), suppressed);
}
public boolean isIdentical(BuildEntity b) {
ImmutableSet<BuildProperty> oprops = b.getProperties();
if (oprops.size() != getProperties().size()) {
return false;
}
for (BuildProperty prop : properties) {
boolean foundIdentical = false;
for (BuildProperty oprop : oprops) {
if (oprop.isIdentical(prop)) {
foundIdentical = true;
}
}
if (!foundIdentical) {
return false;
}
}
return Objects.equal(promotions, b.promotions)
&& StringUtils.equals(buildName, b.buildName)
&& StringUtils.equals(buildNumber, b.buildNumber)
&& buildDate == b.buildDate
&& StringUtils.equals(ciUrl, b.ciUrl)
&& created == b.created
&& StringUtils.equals(createdBy, b.createdBy)
&& modified == b.modified
&& StringUtils.equals(modifiedBy, b.modifiedBy);
}
@Test
public void fetchExperimentTypes3() {
ImmutableSet<String> result =
subject.fetchExperimentTypes(query, condition, species.getReferenceName());
assertThat(result.size(), greaterThan(0));
}
public boolean isInterfaceDefinition() {
if (objs == null || objs.size() > 1) {
return false;
}
FunctionType ft = Iterables.getOnlyElement(objs).getFunType();
return ft != null && ft.isInterfaceDefinition();
}
@Value.Lazy
public List<TypeElement> includedTypes() {
Optional<IncludeMirror> includes = include();
ImmutableList<TypeMirror> typeMirrors =
includes.isPresent()
? ImmutableList.copyOf(includes.get().valueMirror())
: ImmutableList.<TypeMirror>of();
FluentIterable<TypeElement> typeElements =
FluentIterable.from(typeMirrors)
.filter(DeclaredType.class)
.transform(DeclatedTypeToElement.FUNCTION);
ImmutableSet<String> uniqueTypeNames =
typeElements.filter(IsPublic.PREDICATE).transform(ElementToName.FUNCTION).toSet();
if (uniqueTypeNames.size() != typeMirrors.size()) {
report()
.annotationNamed(IncludeMirror.simpleName())
.warning(
"Some types were ignored, non-supported for inclusion: duplicates, non declared reference types, non-public");
}
return typeElements.toList();
}
/**
* Returns a scenario definition created from all possible combinations of the mappings.
* <p>
* The mappings can have any number of perturbations, they do not need to have the same number as each other.
* Each scenario contain one perturbation from each mapping. One scenario is created for each
* possible combination of perturbations formed by taking one from each mapping.
* <p>
* The number of scenarios in the definition will be equal to the product of the number of perturbations
* in the mappings.
* <p>
* Given three mappings, A, B and C, each containing two perturbations, 1 and 2, there will be eight
* scenarios generated:
* <pre>
* | | A | B | C |
* |------------|------|------|------|
* | Scenario 1 | A[1] | B[1] | C[1] |
* | Scenario 2 | A[1] | B[1] | C[2] |
* | Scenario 3 | A[1] | B[2] | C[1] |
* | Scenario 4 | A[1] | B[2] | C[2] |
* | Scenario 5 | A[2] | B[1] | C[1] |
* | Scenario 6 | A[2] | B[1] | C[2] |
* | Scenario 7 | A[2] | B[2] | C[1] |
* | Scenario 8 | A[2] | B[2] | C[2] |
* </pre>
* For example, consider the following perturbation mappings:
* <ul>
* <li>Filter: USD Curves, Shocks: [-10bp, 0, +10bp]</li>
* <li>Filter: EUR/USD Rate, Shocks: [+5%, 0, -5%]</li>
* </ul>
* The scenario definition would contain the following nine scenarios:
* <pre>
* | | USD Curves | EUR/USD Rate |
* |------------|------------|--------------|
* | Scenario 1 | -10bp | +5% |
* | Scenario 2 | -10bp | 0 |
* | Scenario 3 | -10bp | -5% |
* | Scenario 4 | 0 | +5% |
* | Scenario 5 | 0 | 0 |
* | Scenario 6 | 0 | -5% |
* | Scenario 7 | +10bp | +5% |
* | Scenario 8 | +10bp | 0 |
* | Scenario 9 | +10bp | -5% |
*
* @param mappings the filters and perturbations that define the scenarios. They can contain any number
* of perturbations, and they do not need to have the same number of perturbations
* @return a scenario definition containing the perturbations in the mappings
*/
public static ScenarioDefinition ofAllCombinations(
ImmutableSet<String> scenarioNames, List<? extends PerturbationMapping<?>> mappings) {
ArgumentChecker.notEmpty(scenarioNames, "scenarioNames");
ArgumentChecker.notEmpty(mappings, "mappings");
int numScenarios = countScenarios(mappings, true);
if (numScenarios != scenarioNames.size()) {
throw new IllegalArgumentException(
"The number of scenario names provided is "
+ scenarioNames.size()
+ " but "
+ "the number of scenarios is "
+ numScenarios);
}
return new ScenarioDefinition(createScenarios(scenarioNames, mappings, true));
}
public Optional<Charset> charset() {
ImmutableSet<String> charsetValues = ImmutableSet.copyOf(this.parameters.get("charset"));
switch (charsetValues.size()) {
case 0:
return Optional.absent();
case 1:
return Optional.of(Charset.forName((String) Iterables.getOnlyElement(charsetValues)));
}
throw new IllegalStateException("Multiple charset values defined: " + charsetValues);
}
@Test
public void should_generate_unique_integers() {
int numberCount = 10;
NumberGenerator generator = new NumberGenerator();
ArrayList<Integer> numberList = generator.generate1(numberCount);
ImmutableSet<Integer> set = ImmutableSet.copyOf(numberList);
assertThat(set.size(), is(numberList.size()));
}
public TermsShortOrdinalsFacetCollector(
String facetName,
String fieldName,
int size,
TermsFacet.ComparatorType comparatorType,
boolean allTerms,
SearchContext context,
ImmutableSet<String> excluded) {
super(facetName);
this.fieldDataCache = context.fieldDataCache();
this.size = size;
this.comparatorType = comparatorType;
this.numberOfShards = context.numberOfShards();
MapperService.SmartNameFieldMappers smartMappers = context.smartFieldMappers(fieldName);
if (smartMappers == null || !smartMappers.hasMapper()) {
throw new ElasticSearchIllegalArgumentException(
"Field ["
+ fieldName
+ "] doesn't have a type, can't run terms short facet collector on it");
}
// add type filter if there is exact doc mapper associated with it
if (smartMappers.explicitTypeInNameWithDocMapper()) {
setFilter(context.filterCache().cache(smartMappers.docMapper().typeFilter()));
}
if (smartMappers.mapper().fieldDataType() != FieldDataType.DefaultTypes.SHORT) {
throw new ElasticSearchIllegalArgumentException(
"Field ["
+ fieldName
+ "] is not of short type, can't run terms short facet collector on it");
}
this.indexFieldName = smartMappers.mapper().names().indexName();
this.fieldDataType = smartMappers.mapper().fieldDataType();
if (excluded == null || excluded.isEmpty()) {
this.excluded = null;
} else {
this.excluded = new TShortHashSet(excluded.size());
for (String s : excluded) {
this.excluded.add(Short.parseShort(s));
}
}
// minCount is offset by -1
if (allTerms) {
minCount = -1;
} else {
minCount = 0;
}
this.aggregators = new ArrayList<ReaderAggregator>(context.searcher().subReaders().length);
}
@Override
public ImmutableSet<IComponent> getComponents() {
// Clones all of the components.
List<IComponent> clonedList = new ArrayList<IComponent>(components.size());
for (IComponent component : this.components) {
IComponent clone = (IComponent) component.clone();
clonedList.add(clone);
}
return ImmutableSet.copyOf(clonedList);
}
static ImmutableSet<Parameter> forParameterList(List<? extends VariableElement> variables) {
ImmutableSet.Builder<Parameter> builder = ImmutableSet.builder();
Set<String> names = Sets.newHashSetWithExpectedSize(variables.size());
for (VariableElement variable : variables) {
Parameter parameter = forVariableElement(variable);
checkArgument(names.add(parameter.name));
builder.add(parameter);
}
ImmutableSet<Parameter> parameters = builder.build();
checkArgument(variables.size() == parameters.size());
return parameters;
}
@Test
public void testListSubnets() {
ImmutableSet<Subnet> subnets = api().list().toSet();
getAnonymousLogger().info("subnets: " + subnets.size());
for (Subnet subnet : subnets) {
checkSubnet(subnet);
assertEquals(
api().filter(new SubnetFilterBuilder().subnetId(subnet.getSubnetId()).build()).get(0),
subnet);
}
}
public void testBuilderWithDuplicateElements() {
ImmutableSet<String> set =
this.<String>builder()
.add("a")
.add("a", "a")
.add("a", "a", "a")
.add("a", "a", "a", "a")
.build();
assertTrue(set.contains("a"));
assertFalse(set.contains("b"));
assertEquals(1, set.size());
}
/**
* Hydrates configured {@literal @CmdLine} arg fields and selects a desired set with the supplied
* {@code filter}.
*
* @param configuration The configuration to find candidate {@literal @CmdLine} arg fields in.
* @param filter A predicate to select fields with.
* @return The desired hydrated {@literal @CmdLine} arg fields and optional {@literal @Positional}
* arg field.
*/
static ArgumentInfo fromConfiguration(Configuration configuration, Predicate<Field> filter) {
ImmutableSet<Field> positionalFields =
ImmutableSet.copyOf(filterFields(configuration.positionalInfo(), filter));
if (positionalFields.size() > 1) {
throw new IllegalArgumentException(
String.format(
"Found %d fields marked for @Positional Args after applying filter - "
+ "only 1 is allowed:\n\t%s",
positionalFields.size(), Joiner.on("\n\t").join(positionalFields)));
}
Optional<PositionalInfo> positionalInfo =
Optional.fromNullable(
Iterables.getOnlyElement(
Iterables.transform(positionalFields, TO_POSITIONALINFO), null));
Iterable<OptionInfo> optionInfos =
Iterables.transform(filterFields(configuration.optionInfo(), filter), TO_OPTIONINFO);
return new ArgumentInfo(positionalInfo, optionInfos);
}
public FunctionType getFunType() {
if (objs == null) {
return null;
}
if (objs.size() == 1) { // The common case is fast
return Iterables.getOnlyElement(objs).getFunType();
}
FunctionType result = FunctionType.TOP_FUNCTION;
for (ObjectType obj : objs) {
result = FunctionType.meet(result, obj.getFunType());
}
return result;
}
@SuppressWarnings("deprecation")
@Test
public void testExceptionsAreGood() throws Exception {
ImmutableSet<ClassInfo> classes =
ClassPath.from(Thread.currentThread().getContextClassLoader())
.getTopLevelClasses(BaseServerResponseException.class.getPackage().getName());
assertTrue(classes.size() > 5);
for (ClassInfo classInfo : classes) {
ourLog.info("Scanning {}", classInfo.getName());
Class<?> next = Class.forName(classInfo.getName());
assertNotNull(next);
if (next == getClass()) {
continue;
}
if (next == BaseServerResponseException.class) {
continue;
}
if (next == UnclassifiedServerFailureException.class) {
continue;
}
if (next == ResourceVersionNotSpecifiedException.class) {
// This one is deprocated
continue;
}
assertTrue(
"Type " + next + " is not registered",
BaseServerResponseException.isExceptionTypeRegistered(next));
if (next == AuthenticationException.class) {
continue;
}
try {
next.getConstructor(String.class, IBaseOperationOutcome.class);
} catch (NoSuchMethodException e) {
fail(
classInfo.getName()
+ " has no constructor with params: (String, IBaseOperationOutcome)");
}
}
}
private ImmutableSet<String> appendDefaultDBPriv(
ImmutableSet<String> privileges, Authorizable[] authorizables) {
// Only for switch db
if ((authorizables != null)
&& (authorizables.length == 4)
&& (authorizables[2].getName().equals("+"))) {
if ((privileges.size() == 1) && hasOnlyServerPrivilege(privileges.asList().get(0))) {
// Assuming authorizable[0] will always be the server
// This Code is only reachable only when user fires a 'use default'
// and the user has a privilege on atleast 1 privilized Object
String defaultPriv =
"Server="
+ authorizables[0].getName()
+ "->Db=default->Table=*->Column=*->action=select";
HashSet<String> newPrivs = Sets.newHashSet(defaultPriv);
return ImmutableSet.copyOf(newPrivs);
}
}
return privileges;
}
/**
* Returns a scenario definition containing the perturbations in {@code mappings}.
* <p>
* Each mapping must contain the same number of perturbations. The definition will contain the
* same number of scenarios as the number of perturbations in each mapping.
* <p>
* The first scenario contains the first perturbation from each mapping, the second scenario contains
* the second perturbation from each mapping, and so on.
* <p>
* The set of scenario names must contain the same number of elements as the mappings.
* <p>
* Given three mappings, A, B and C, each containing two perturbations, 1 and 2, there will be two
* scenarios generated:
* <pre>
* | | A | B | C |
* |------------|------|------|------|
* | Scenario 1 | A[1] | B[1] | C[1] |
* | Scenario 2 | A[2] | B[2] | C[2] |
* </pre>
* For example, consider the following perturbation mappings:
* <ul>
* <li>Filter: USD Curves, Shocks: [-10bp, 0, +10bp]</li>
* <li>Filter: EUR/USD Rate, Shocks: [+5%, 0, -5%]</li>
* </ul>
* The scenario definition would contain the following three scenarios:
* <pre>
* | | USD Curves | EUR/USD Rate |
* |------------|------------|--------------|
* | Scenario 1 | -10bp | +5% |
* | Scenario 2 | 0 | 0 |
* | Scenario 3 | +10bp | -5% |
*
* @param mappings the filters and perturbations that define the scenario. Each mapping must contain the same
* number of perturbations
* @param scenarioNames the names of the scenarios. This must be the same size as the list of perturbations
* in each mapping
* @return a scenario definition containing the perturbations in the mappings
*/
public static ScenarioDefinition ofMappings(
ImmutableSet<String> scenarioNames, List<? extends PerturbationMapping<?>> mappings) {
ArgumentChecker.notNull(scenarioNames, "scenarioNames");
int numScenarios = scenarioNames.size();
for (int i = 0; i < mappings.size(); i++) {
if (mappings.get(i).getPerturbations().size() != numScenarios) {
throw new IllegalArgumentException(
"Each mapping must contain the same number of perturbations as there are scenarios. There are "
+ numScenarios
+ " scenarios, mapping "
+ i
+ " has "
+ mappings.get(i).getPerturbations().size()
+ " perturbations.");
}
}
return new ScenarioDefinition(createScenarios(scenarioNames, mappings, false));
}
private static String generateLanguageAcceptCheck(
String expression,
ImmutableSet<CtClass> acceptedLanguages,
HashMap<CtClass, String> acceptedLanguageMap) {
if (acceptedLanguages.isEmpty()) {
return "false";
}
StringBuilder sb = new StringBuilder();
int i = 0;
for (CtClass l : acceptedLanguages) {
sb.append(expression).append(".isAcceptedBy(").append(acceptedLanguageMap.get(l)).append(")");
if (i < acceptedLanguages.size() - 1) {
sb.append(" || ");
}
i++;
}
return sb.toString();
}
@Test
public void fetchExperimentTypes1() {
ImmutableSet<String> result = subject.fetchExperimentTypes("ENSG00000006432");
assertThat(result.size(), greaterThan(0));
}
public FunctionType getFunTypeIfSingletonObj() {
if (mask != NON_SCALAR_MASK || objs.size() > 1) {
return null;
}
return Iterables.getOnlyElement(objs).getFunType();
}
private BLANCResult scoreSets(
final Iterable<Set<Object>> predicted, final Iterable<Set<Object>> gold) {
final Multimap<Object, Set<Object>> predictedItemToGroup =
CollectionUtils.makeSetElementsToContainersMultimap(predicted);
final Multimap<Object, Set<Object>> goldItemToGroup =
CollectionUtils.makeSetElementsToContainersMultimap(gold);
final Set<Object> keyItems = goldItemToGroup.keySet();
final Set<Object> responseItems = predictedItemToGroup.keySet();
final ImmutableSet<Object> itemsInBoth =
Sets.intersection(keyItems, responseItems).immutableCopy();
// |C_k \cap C_r|
int corefLinksInBoth = 0;
// |C_k|
int corefLinksInKey = 0;
// |C_r|
int corefLinksInResponse = 0;
// |N_K \cap N_r|
int nonCorefInBoth = 0;
// |N_k|
int nonCorefLinksInKey = 0;
// |N_r|
int nonCorefLinksInResponse = 0;
final Set<Object> allItems = Sets.union(responseItems, keyItems).immutableCopy();
for (final Object item : allItems) {
final boolean inKey = keyItems.contains(item);
final boolean inResponse = responseItems.contains(item);
final Collection<Set<Object>> predictedClusters = predictedItemToGroup.get(item);
final Collection<Set<Object>> goldClusters = goldItemToGroup.get(item);
final Predicate<Object> SELF_ADJUSTMENT_FILTER;
if (useSelfEdges) {
SELF_ADJUSTMENT_FILTER = Predicates.alwaysTrue();
} else {
SELF_ADJUSTMENT_FILTER = not(equalTo(item));
}
final int selfAdjustment = useSelfEdges ? 0 : -1;
final ImmutableSet<Object> predictedNeighbors =
FluentIterable.from(concat(predictedClusters)).filter(SELF_ADJUSTMENT_FILTER).toSet();
final ImmutableSet<Object> goldNeighbors =
FluentIterable.from(concat(goldClusters)).filter(SELF_ADJUSTMENT_FILTER).toSet();
// The contribution for this item is the size of the intersection
// of the gold and predicted neighbor sets.
corefLinksInBoth += Sets.intersection(predictedNeighbors, goldNeighbors).size();
corefLinksInResponse += predictedNeighbors.size();
corefLinksInKey += goldNeighbors.size();
if (inKey) {
nonCorefLinksInKey += keyItems.size() - goldNeighbors.size() + selfAdjustment;
}
if (inResponse) {
nonCorefLinksInResponse +=
responseItems.size() - predictedNeighbors.size() + selfAdjustment;
}
if (inKey && inResponse) {
final ImmutableSet<Object> neighborsInEither =
Sets.union(predictedNeighbors, goldNeighbors).immutableCopy();
// -1 = don't count this item itself as a link
nonCorefInBoth += Sets.difference(itemsInBoth, neighborsInEither).size() + selfAdjustment;
}
}
return BLANCResult.fromSetCounts(
keyItems.equals(responseItems),
corefLinksInBoth,
corefLinksInKey,
corefLinksInResponse,
nonCorefInBoth,
nonCorefLinksInKey,
nonCorefLinksInResponse);
}
NominalType getNominalTypeIfUnique() {
if (objs == null || objs.size() > 1) {
return null;
}
return Iterables.getOnlyElement(objs).getNominalType();
}
public Map<String, Object> toElasticSearchObject(@Nonnull final Meter invalidTimestampMeter) {
final Map<String, Object> obj =
Maps.newHashMapWithExpectedSize(REQUIRED_FIELDS.size() + fields.size());
for (Map.Entry<String, Object> entry : fields.entrySet()) {
final String key = entry.getKey();
// Elasticsearch does not allow "." characters in keys since version 2.0.
// See:
// https://www.elastic.co/guide/en/elasticsearch/reference/2.0/breaking_20_mapping_changes.html#_field_names_may_not_contain_dots
if (key != null && key.contains(".")) {
final String newKey = key.replace('.', KEY_REPLACEMENT_CHAR);
// If the message already contains the transformed key, we skip the field and emit a
// warning.
// This is still not optimal but better than implementing expensive logic with multiple
// replacement
// character options. Conflicts should be rare...
if (!obj.containsKey(newKey)) {
obj.put(newKey, entry.getValue());
} else {
LOG.warn(
"Keys must not contain a \".\" character! Ignoring field \"{}\"=\"{}\" in message [{}] - Unable to replace \".\" with a \"{}\" because of key conflict: \"{}\"=\"{}\"",
key,
entry.getValue(),
getId(),
KEY_REPLACEMENT_CHAR,
newKey,
obj.get(newKey));
LOG.debug("Full message with \".\" in message key: {}", this);
}
} else {
if (key != null && obj.containsKey(key)) {
final String newKey = key.replace(KEY_REPLACEMENT_CHAR, '.');
// Deliberate warning duplicates because the key with the "." might be transformed before
// reaching
// the duplicate original key with a "_". Otherwise we would silently overwrite the
// transformed key.
LOG.warn(
"Keys must not contain a \".\" character! Ignoring field \"{}\"=\"{}\" in message [{}] - Unable to replace \".\" with a \"{}\" because of key conflict: \"{}\"=\"{}\"",
newKey,
fields.get(newKey),
getId(),
KEY_REPLACEMENT_CHAR,
key,
entry.getValue());
LOG.debug("Full message with \".\" in message key: {}", this);
}
obj.put(key, entry.getValue());
}
}
obj.put(FIELD_MESSAGE, getMessage());
obj.put(FIELD_SOURCE, getSource());
final Object timestampValue = getField(FIELD_TIMESTAMP);
DateTime dateTime;
if (timestampValue instanceof Date) {
dateTime = new DateTime(timestampValue);
} else if (timestampValue instanceof DateTime) {
dateTime = (DateTime) timestampValue;
} else if (timestampValue instanceof String) {
// if the timestamp value is a string, we try to parse it in the correct format.
// we fall back to "now", this avoids losing messages which happen to have the wrong timestamp
// format
try {
dateTime = ES_DATE_FORMAT_FORMATTER.parseDateTime((String) timestampValue);
} catch (IllegalArgumentException e) {
LOG.trace(
"Invalid format for field timestamp '{}' in message {}, forcing to current time.",
timestampValue,
getId());
invalidTimestampMeter.mark();
dateTime = Tools.nowUTC();
}
} else {
// don't allow any other types for timestamp, force to "now"
LOG.trace(
"Invalid type for field timestamp '{}' in message {}, forcing to current time.",
timestampValue.getClass().getSimpleName(),
getId());
invalidTimestampMeter.mark();
dateTime = Tools.nowUTC();
}
if (dateTime != null) {
obj.put(FIELD_TIMESTAMP, buildElasticSearchTimeFormat(dateTime.withZone(UTC)));
}
// Manually converting stream ID to string - caused strange problems without it.
if (getStreams().isEmpty()) {
obj.put(FIELD_STREAMS, Collections.emptyList());
} else {
final List<String> streamIds = Lists.newArrayListWithCapacity(streams.size());
for (Stream stream : streams) {
streamIds.add(stream.getId());
}
obj.put(FIELD_STREAMS, streamIds);
}
return obj;
}
@Override
public int concreteSize() {
return elements.size();
}
@Test
public void fetchExperimentTypesInAnyField() {
ImmutableSet<String> result = subject.fetchExperimentTypesInAnyField(query);
assertThat(result.size(), greaterThan(0));
}
