@Override public PlanNode visitJoin(JoinNode node, RewriteContext<Set<Symbol>> context) { ImmutableSet.Builder<Symbol> leftInputsBuilder = ImmutableSet.builder(); leftInputsBuilder .addAll(context.get()) .addAll(Iterables.transform(node.getCriteria(), JoinNode.EquiJoinClause::getLeft)); if (node.getLeftHashSymbol().isPresent()) { leftInputsBuilder.add(node.getLeftHashSymbol().get()); } Set<Symbol> leftInputs = leftInputsBuilder.build(); ImmutableSet.Builder<Symbol> rightInputsBuilder = ImmutableSet.builder(); rightInputsBuilder .addAll(context.get()) .addAll(Iterables.transform(node.getCriteria(), JoinNode.EquiJoinClause::getRight)); if (node.getRightHashSymbol().isPresent()) { rightInputsBuilder.add(node.getRightHashSymbol().get()); } Set<Symbol> rightInputs = rightInputsBuilder.build(); PlanNode left = context.rewrite(node.getLeft(), leftInputs); PlanNode right = context.rewrite(node.getRight(), rightInputs); return new JoinNode( node.getId(), node.getType(), left, right, node.getCriteria(), node.getLeftHashSymbol(), node.getRightHashSymbol()); }
private Iterable<Artifact> getFilteredProtoSources() { // Transform the well known proto artifacts by removing the external/bazel_tools prefix if // present. Otherwise the comparison for filtering out the well known types is not possible. ImmutableSet.Builder<PathFragment> wellKnownProtoPathsBuilder = new ImmutableSet.Builder<>(); for (Artifact wellKnownProto : attributes.getWellKnownTypeProtos()) { PathFragment execPath = wellKnownProto.getExecPath(); if (execPath.startsWith(BAZEL_TOOLS_PREFIX)) { wellKnownProtoPathsBuilder.add(execPath.relativeTo(BAZEL_TOOLS_PREFIX)); } else { wellKnownProtoPathsBuilder.add(execPath); } } ImmutableSet<PathFragment> wellKnownProtoPaths = wellKnownProtoPathsBuilder.build(); // Filter out the well known types from being sent to be generated, as these protos have already // been generated and linked in libprotobuf.a. ImmutableSet.Builder<Artifact> filteredProtos = new ImmutableSet.Builder<>(); for (Artifact proto : getAllProtoSources()) { if (!wellKnownProtoPaths.contains(proto.getExecPath())) { filteredProtos.add(proto); } } return filteredProtos.build(); }
private void logHealthChecks() { final ImmutableSet.Builder<String> builder = ImmutableSet.builder(); for (HealthCheck healthCheck : healthChecks.build()) { builder.add(healthCheck.getClass().getCanonicalName()); } LOG.debug("health checks = {}", builder.build()); }
@Override public PlanNode visitIndexJoin(IndexJoinNode node, RewriteContext<Set<Symbol>> context) { ImmutableSet.Builder<Symbol> probeInputsBuilder = ImmutableSet.builder(); probeInputsBuilder .addAll(context.get()) .addAll(Iterables.transform(node.getCriteria(), IndexJoinNode.EquiJoinClause::getProbe)); if (node.getProbeHashSymbol().isPresent()) { probeInputsBuilder.add(node.getProbeHashSymbol().get()); } Set<Symbol> probeInputs = probeInputsBuilder.build(); ImmutableSet.Builder<Symbol> indexInputBuilder = ImmutableSet.builder(); indexInputBuilder .addAll(context.get()) .addAll(Iterables.transform(node.getCriteria(), IndexJoinNode.EquiJoinClause::getIndex)); if (node.getIndexHashSymbol().isPresent()) { indexInputBuilder.add(node.getIndexHashSymbol().get()); } Set<Symbol> indexInputs = indexInputBuilder.build(); PlanNode probeSource = context.rewrite(node.getProbeSource(), probeInputs); PlanNode indexSource = context.rewrite(node.getIndexSource(), indexInputs); return new IndexJoinNode( node.getId(), node.getType(), probeSource, indexSource, node.getCriteria(), node.getProbeHashSymbol(), node.getIndexHashSymbol()); }
/** * Returns the ShellCommand object that is supposed to generate a code coverage report from data * obtained during the test run. This method will also generate a set of source paths to the class * files tested during the test run. */ private static Step getReportCommand( ImmutableSet<JavaLibrary> rulesUnderTest, Optional<DefaultJavaPackageFinder> defaultJavaPackageFinderOptional, ProjectFilesystem filesystem, Path outputDirectory, CoverageReportFormat format) { ImmutableSet.Builder<String> srcDirectories = ImmutableSet.builder(); ImmutableSet.Builder<Path> pathsToClasses = ImmutableSet.builder(); // Add all source directories of java libraries that we are testing to -sourcepath. for (JavaLibrary rule : rulesUnderTest) { ImmutableSet<String> sourceFolderPath = getPathToSourceFolders(rule, defaultJavaPackageFinderOptional, filesystem); if (!sourceFolderPath.isEmpty()) { srcDirectories.addAll(sourceFolderPath); } Path pathToOutput = rule.getPathToOutput(); if (pathToOutput == null) { continue; } pathsToClasses.add(pathToOutput); } return new GenerateCodeCoverageReportStep( srcDirectories.build(), pathsToClasses.build(), outputDirectory, format); }
@Override public PlanNode visitSemiJoin(SemiJoinNode node, RewriteContext<Set<Symbol>> context) { ImmutableSet.Builder<Symbol> sourceInputsBuilder = ImmutableSet.builder(); sourceInputsBuilder.addAll(context.get()).add(node.getSourceJoinSymbol()); if (node.getSourceHashSymbol().isPresent()) { sourceInputsBuilder.add(node.getSourceHashSymbol().get()); } Set<Symbol> sourceInputs = sourceInputsBuilder.build(); ImmutableSet.Builder<Symbol> filteringSourceInputBuilder = ImmutableSet.builder(); filteringSourceInputBuilder.add(node.getFilteringSourceJoinSymbol()); if (node.getFilteringSourceHashSymbol().isPresent()) { filteringSourceInputBuilder.add(node.getFilteringSourceHashSymbol().get()); } Set<Symbol> filteringSourceInputs = filteringSourceInputBuilder.build(); PlanNode source = context.rewrite(node.getSource(), sourceInputs); PlanNode filteringSource = context.rewrite(node.getFilteringSource(), filteringSourceInputs); return new SemiJoinNode( node.getId(), source, filteringSource, node.getSourceJoinSymbol(), node.getFilteringSourceJoinSymbol(), node.getSemiJoinOutput(), node.getSourceHashSymbol(), node.getFilteringSourceHashSymbol()); }
private ImmutableSet<String> prepareDirectory( String dirname, Pattern filePattern, ImmutableSet<String> requiredHashes) throws Exception { try (TraceEventLogger ignored = TraceEventLogger.start(eventBus, "prepare_" + dirname)) { String dirPath = dataRoot.resolve(dirname).toString(); mkDirP(dirPath); String output = AdbHelper.executeCommandWithErrorChecking(device, "ls " + dirPath); ImmutableSet.Builder<String> foundHashes = ImmutableSet.builder(); ImmutableSet.Builder<String> filesToDelete = ImmutableSet.builder(); processLsOutput(output, filePattern, requiredHashes, foundHashes, filesToDelete); String commandPrefix = "cd " + dirPath + " && rm "; // Add a fudge factor for separators and error checking. final int overhead = commandPrefix.length() + 100; for (List<String> rmArgs : chunkArgs(filesToDelete.build(), MAX_ADB_COMMAND_SIZE - overhead)) { String command = commandPrefix + Joiner.on(' ').join(rmArgs); LOG.debug("Executing %s", command); AdbHelper.executeCommandWithErrorChecking(device, command); } return foundHashes.build(); } }
public ImmutableSet<ViewedDrawable> getViewed() { ImmutableSet<Drawable> draw = controller.watch(viewingRect); ImmutableSet.Builder<ViewedDrawable> viewed = ImmutableSet.builder(); for (Drawable d : draw) { viewed.add(ViewedDrawable.wrap(d, this)); } LOG.log(Level.INFO, viewed.build().toString()); return viewed.build(); }
static { ImmutableSet.Builder<Double> integralBuilder = ImmutableSet.builder(); ImmutableSet.Builder<Double> fractionalBuilder = ImmutableSet.builder(); integralBuilder.addAll(Doubles.asList(0.0, -0.0, Double.MAX_VALUE, -Double.MAX_VALUE)); // Add small multiples of MIN_VALUE and MIN_NORMAL for (int scale = 1; scale <= 4; scale++) { for (double d : Doubles.asList(Double.MIN_VALUE, Double.MIN_NORMAL)) { fractionalBuilder.add(d * scale).add(-d * scale); } } for (double d : Doubles.asList( 0, 1, 2, 7, 51, 102, Math.scalb(1.0, 53), Integer.MIN_VALUE, Integer.MAX_VALUE, Long.MIN_VALUE, Long.MAX_VALUE)) { for (double delta : Doubles.asList(0.0, 1.0, 2.0)) { integralBuilder.addAll(Doubles.asList(d + delta, d - delta, -d - delta, -d + delta)); } for (double delta : Doubles.asList(0.01, 0.1, 0.25, 0.499, 0.5, 0.501, 0.7, 0.8)) { double x = d + delta; if (x != Math.round(x)) { fractionalBuilder.add(x); } } } INTEGRAL_DOUBLE_CANDIDATES = integralBuilder.build(); fractionalBuilder.add(1.414).add(1.415).add(Math.sqrt(2)); fractionalBuilder.add(5.656).add(5.657).add(4 * Math.sqrt(2)); for (double d : INTEGRAL_DOUBLE_CANDIDATES) { double x = 1 / d; if (x != Math.rint(x)) { fractionalBuilder.add(x); } } FRACTIONAL_DOUBLE_CANDIDATES = fractionalBuilder.build(); FINITE_DOUBLE_CANDIDATES = Iterables.concat(FRACTIONAL_DOUBLE_CANDIDATES, INTEGRAL_DOUBLE_CANDIDATES); POSITIVE_FINITE_DOUBLE_CANDIDATES = Iterables.filter( FINITE_DOUBLE_CANDIDATES, new Predicate<Double>() { @Override public boolean apply(Double input) { return input.doubleValue() > 0.0; } }); DOUBLE_CANDIDATES_EXCEPT_NAN = Iterables.concat(FINITE_DOUBLE_CANDIDATES, INFINITIES); ALL_DOUBLE_CANDIDATES = Iterables.concat(DOUBLE_CANDIDATES_EXCEPT_NAN, asList(Double.NaN)); }
public Zone build() { return new Zone( super.id, super.creationTimestamp, super.selfLink, super.name, super.description, status, maintenanceWindows.build(), availableMachineTypes.build()); }
public Project build() { return new Project( super.id, super.creationTimestamp, super.selfLink, super.name, super.description, commonInstanceMetadata.build(), quotas.build(), externalIpAddresses.build()); }
public static ImmutableSet<Path> createPackageLookupPathSet(IjModuleGraph moduleGraph) { ImmutableSet.Builder<Path> builder = ImmutableSet.builder(); for (IjModule module : moduleGraph.getModuleNodes()) { for (IjFolder folder : module.getFolders()) { if (!folder.getWantsPackagePrefix()) { continue; } Optional<Path> firstJavaFile = FluentIterable.from(folder.getInputs()) .filter( new Predicate<Path>() { @Override public boolean apply(Path input) { return input.getFileName().toString().endsWith(".java"); } }) .first(); if (firstJavaFile.isPresent()) { builder.add(firstJavaFile.get()); } } } return builder.build(); }
static { ImmutableSet.Builder<String> builder = ImmutableSet.builder(); for (TrackerFilterEnum eventFilter : TrackerFilterEnum.values()) { builder.add(eventFilter.getValue()); } valuesSet = builder.build(); }
@Test public void testGetJobUpdateDiffWithUpdateRemove() throws Exception { TaskConfig task1 = defaultTask(false).setNumCpus(1.0); TaskConfig task2 = defaultTask(false).setNumCpus(2.0); TaskConfig task3 = defaultTask(false).setNumCpus(3.0); ImmutableSet.Builder<IScheduledTask> tasks = ImmutableSet.builder(); makeTasks(0, 10, task1, tasks); makeTasks(10, 20, task2, tasks); makeTasks(20, 30, task3, tasks); expect(storageUtil.jobStore.fetchJob(JOB_KEY)).andReturn(Optional.absent()); storageUtil.expectTaskFetch(Query.jobScoped(JOB_KEY).active(), tasks.build()); control.replay(); JobUpdateRequest request = new JobUpdateRequest() .setTaskConfig(defaultTask(false).setNumCpus(6.0)) .setInstanceCount(20) .setSettings(new JobUpdateSettings()); GetJobUpdateDiffResult expected = new GetJobUpdateDiffResult() .setRemove(ImmutableSet.of(group(task3, new Range(20, 29)))) .setUpdate( ImmutableSet.of(group(task1, new Range(0, 9)), group(task2, new Range(10, 19)))) .setAdd(ImmutableSet.of()) .setUnchanged(ImmutableSet.of()); Response response = assertOkResponse(thrift.getJobUpdateDiff(request)); assertEquals(expected, response.getResult().getGetJobUpdateDiffResult()); }
private void logManagedObjects() { final ImmutableSet.Builder<String> builder = ImmutableSet.builder(); for (Object bean : lifeCycle.getBeans()) { builder.add(bean.getClass().getCanonicalName()); } LOG.debug("managed objects = {}", builder.build()); }
/** Get the safe path strings for a list of paths to use in the build variables. */ private Collection<String> getSafePathStrings(Collection<PathFragment> paths) { ImmutableSet.Builder<String> result = ImmutableSet.builder(); for (PathFragment path : paths) { result.add(path.getSafePathString()); } return result.build(); }
/** * Returns the context for a LIPO compile action. This uses the include dirs and defines of the * library, but the declared inclusion dirs/srcs from both the library and the owner binary. * * <p>TODO(bazel-team): this might make every LIPO target have an unnecessary large set of * inclusion dirs/srcs. The correct behavior would be to merge only the contexts of actual * referred targets (as listed in .imports file). * * <p>Undeclared inclusion checking ({@link #getDeclaredIncludeDirs()}, {@link * #getDeclaredIncludeWarnDirs()}, and {@link #getDeclaredIncludeSrcs()}) needs to use the union * of the contexts of the involved source files. * * <p>For include and define command line flags ({@link #getIncludeDirs()} {@link * #getQuoteIncludeDirs()}, {@link #getSystemIncludeDirs()}, and {@link #getDefines()}) LIPO * compilations use the same values as non-LIPO compilation. * * <p>Include scanning is not handled by this method. See {@code * IncludeScannable#getAuxiliaryScannables()} instead. * * @param ownerContext the compilation context of the owner binary * @param libContext the compilation context of the library */ public static CppCompilationContext mergeForLipo( CppCompilationContext ownerContext, CppCompilationContext libContext) { ImmutableSet.Builder<Artifact> prerequisites = ImmutableSet.builder(); prerequisites.addAll(ownerContext.compilationPrerequisites); prerequisites.addAll(libContext.compilationPrerequisites); ModuleInfo.Builder moduleInfo = new ModuleInfo.Builder(); moduleInfo.merge(ownerContext.moduleInfo); moduleInfo.merge(libContext.moduleInfo); ModuleInfo.Builder picModuleInfo = new ModuleInfo.Builder(); picModuleInfo.merge(ownerContext.picModuleInfo); picModuleInfo.merge(libContext.picModuleInfo); return new CppCompilationContext( libContext.commandLineContext, prerequisites.build(), mergeSets(ownerContext.declaredIncludeDirs, libContext.declaredIncludeDirs), mergeSets(ownerContext.declaredIncludeWarnDirs, libContext.declaredIncludeWarnDirs), mergeSets(ownerContext.declaredIncludeSrcs, libContext.declaredIncludeSrcs), mergeSets(ownerContext.pregreppedHdrs, libContext.pregreppedHdrs), moduleInfo.build(), picModuleInfo.build(), mergeSets(ownerContext.transitiveModuleMaps, libContext.transitiveModuleMaps), mergeSets(ownerContext.directModuleMaps, libContext.directModuleMaps), libContext.cppModuleMap, libContext.provideTransitiveModuleMaps, libContext.useHeaderModules); }
@Override public AnswerKey apply(AnswerKey input) { final Set<Response> existingResponses = Sets.newHashSet(input.allResponses()); final ImmutableSet.Builder<AssessedResponse> newAssessedResponses = ImmutableSet.builder(); newAssessedResponses.addAll(input.annotatedResponses()); for (final AssessedResponse assessedResponse : input.annotatedResponses()) { if (assessedResponse.assessment().realis().isPresent()) { final Response responseWithAssessedRealis = assessedResponse .response() .copyWithSwappedRealis(assessedResponse.assessment().realis().get()); if (!existingResponses.contains(responseWithAssessedRealis)) { newAssessedResponses.add( AssessedResponse.from(responseWithAssessedRealis, assessedResponse.assessment())); existingResponses.add(responseWithAssessedRealis); } } } return AnswerKey.from( input.docId(), newAssessedResponses.build(), input.unannotatedResponses(), input.corefAnnotation()); }
static { ImmutableSet.Builder<Integer> intValues = ImmutableSet.builder(); // Add boundary values manually to avoid over/under flow (this covers 2^N for 0 and 31). intValues.add(Integer.MAX_VALUE - 1, Integer.MAX_VALUE); // Add values up to 40. This covers cases like "square of a prime" and such. for (int i = 1; i <= 40; i++) { intValues.add(i); } // Now add values near 2^N for lots of values of N. for (int exponent : asList(2, 3, 4, 9, 15, 16, 17, 24, 25, 30)) { int x = 1 << exponent; intValues.add(x, x + 1, x - 1); } intValues.add(9999).add(10000).add(10001).add(1000000); // near powers of 10 intValues.add(5792).add(5793); // sqrt(2^25) rounded up and down POSITIVE_INTEGER_CANDIDATES = intValues.build(); NEGATIVE_INTEGER_CANDIDATES = ImmutableList.copyOf( Iterables.concat( Iterables.transform(POSITIVE_INTEGER_CANDIDATES, NEGATE_INT), ImmutableList.of(Integer.MIN_VALUE))); NONZERO_INTEGER_CANDIDATES = ImmutableList.copyOf( Iterables.concat(POSITIVE_INTEGER_CANDIDATES, NEGATIVE_INTEGER_CANDIDATES)); ALL_INTEGER_CANDIDATES = Iterables.concat(NONZERO_INTEGER_CANDIDATES, ImmutableList.of(0)); }
public ImmutableSet<CxxInferCapture> createInferCaptureBuildRules( ImmutableMap<String, CxxSource> sources, CxxInferTools inferTools, CxxInferSourceFilter sourceFilter) { ImmutableSet.Builder<CxxInferCapture> objects = ImmutableSet.builder(); for (Map.Entry<String, CxxSource> entry : sources.entrySet()) { String name = entry.getKey(); CxxSource source = entry.getValue(); Preconditions.checkState( CxxSourceTypes.isPreprocessableType(source.getType()), "Only preprocessable source types are currently supported"); if (sourceFilter.isBlacklisted(source)) { continue; } CxxInferCapture rule = requireInferCaptureBuildRule(name, source, inferTools); objects.add(rule); } return objects.build(); }
public static Set<Sort> of(Collection<org.kframework.kil.Sort> sorts) { ImmutableSet.Builder<Sort> builder = ImmutableSet.builder(); for (org.kframework.kil.Sort name : sorts) { builder.add(Sort.of(name.getName())); } return builder.build(); }
private void ensureTagCache() { if (tagCache == null) { synchronized (this) { if (tagCache == null) { tagCache = new Long2ObjectOpenHashMap<List<String>>(); ImmutableSet.Builder<String> vocabBuilder = ImmutableSet.builder(); Cursor<String[]> lines = null; try { lines = new DelimitedTextCursor(tagFile, ","); } catch (FileNotFoundException e) { throw new DataAccessException("cannot open file", e); } try { for (String[] line : lines) { long mid = Long.parseLong(line[0]); List<String> tags = tagCache.get(mid); if (tags == null) { tags = new ArrayList<String>(); tagCache.put(mid, tags); } tags.add(line[1]); vocabBuilder.add(line[1]); } } finally { lines.close(); } vocabCache = vocabBuilder.build(); } } } }
@VisibleForTesting List<Module> createModulesForProjectConfigs() throws IOException { DependencyGraph dependencyGraph = partialGraph.getDependencyGraph(); List<Module> modules = Lists.newArrayList(); // Convert the project_config() targets into modules and find the union of all jars passed to // no_dx. ImmutableSet.Builder<Path> noDxJarsBuilder = ImmutableSet.builder(); for (BuildTarget target : partialGraph.getTargets()) { BuildRule buildRule = dependencyGraph.findBuildRuleByTarget(target); ProjectConfig projectConfig = (ProjectConfig) buildRule.getBuildable(); BuildRule srcRule = projectConfig.getSrcRule(); if (srcRule != null) { Buildable buildable = srcRule.getBuildable(); if (buildable instanceof AndroidBinary) { AndroidBinary androidBinary = (AndroidBinary) buildable; AndroidDexTransitiveDependencies binaryDexTransitiveDependencies = androidBinary.findDexTransitiveDependencies(); noDxJarsBuilder.addAll(binaryDexTransitiveDependencies.noDxClasspathEntries); } } Module module = createModuleForProjectConfig(projectConfig); modules.add(module); } ImmutableSet<Path> noDxJars = noDxJarsBuilder.build(); // Update module dependencies to apply scope="PROVIDED", where appropriate. markNoDxJarsAsProvided(modules, noDxJars); return modules; }
/** * Returns the configurable attribute conditions necessary to evaluate the given configured * target, or null if not all dependencies have yet been SkyFrame-evaluated. */ @Nullable private Set<ConfigMatchingProvider> getConfigurableAttributeConditions( TargetAndConfiguration ctg, Environment env) { if (!(ctg.getTarget() instanceof Rule)) { return ImmutableSet.of(); } Rule rule = (Rule) ctg.getTarget(); RawAttributeMapper mapper = RawAttributeMapper.of(rule); Set<SkyKey> depKeys = new LinkedHashSet<>(); for (Attribute attribute : rule.getAttributes()) { for (Label label : mapper.getConfigurabilityKeys(attribute.getName(), attribute.getType())) { if (!BuildType.Selector.isReservedLabel(label)) { depKeys.add(ConfiguredTargetValue.key(label, ctg.getConfiguration())); } } } Map<SkyKey, SkyValue> cts = env.getValues(depKeys); if (env.valuesMissing()) { return null; } ImmutableSet.Builder<ConfigMatchingProvider> conditions = ImmutableSet.builder(); for (SkyValue ctValue : cts.values()) { ConfiguredTarget ct = ((ConfiguredTargetValue) ctValue).getConfiguredTarget(); conditions.add(Preconditions.checkNotNull(ct.getProvider(ConfigMatchingProvider.class))); } return conditions.build(); }
static ImmutableSet<ObjectType> withPropertyRequired(Set<ObjectType> objs, String pname) { ImmutableSet.Builder<ObjectType> newObjs = ImmutableSet.builder(); for (ObjectType obj : objs) { newObjs.add(obj.withPropertyRequired(pname)); } return newObjs.build(); }
private ImmutableSet<AspectWithParameters> requiredAspects( AspectDefinition aspectDefinition, AspectParameters aspectParameters, Attribute attribute, Target target, Rule originalRule) { if (!(target instanceof Rule)) { return ImmutableSet.of(); } Set<AspectWithParameters> aspectCandidates = extractAspectCandidates(aspectDefinition, aspectParameters, attribute, originalRule); RuleClass ruleClass = ((Rule) target).getRuleClassObject(); ImmutableSet.Builder<AspectWithParameters> result = ImmutableSet.builder(); for (AspectWithParameters candidateClass : aspectCandidates) { ConfiguredAspectFactory candidate = (ConfiguredAspectFactory) AspectFactory.Util.create(candidateClass.getAspectFactory()); if (Sets.difference( candidate.getDefinition().getRequiredProviders(), ruleClass.getAdvertisedProviders()) .isEmpty()) { result.add(candidateClass); } } return result.build(); }
static Set<UUID> extractIndexes(List<ShardIndexInfo> inputShards, int... indexes) { ImmutableSet.Builder<UUID> builder = ImmutableSet.builder(); for (int index : indexes) { builder.add(inputShards.get(index).getShardUuid()); } return builder.build(); }
/** * List the remote's {@link Ref refs}. * * @param getHeads whether to return refs in the {@code refs/heads} namespace * @param getTags whether to return refs in the {@code refs/tags} namespace * @return an immutable set of refs from the remote */ @Override public ImmutableSet<Ref> listRefs(final boolean getHeads, final boolean getTags) { HttpURLConnection connection = null; ImmutableSet.Builder<Ref> builder = new ImmutableSet.Builder<Ref>(); try { String expanded = repositoryURL.toString() + "/repo/manifest"; connection = HttpUtils.connect(expanded); // Get Response InputStream is = HttpUtils.getResponseStream(connection); BufferedReader rd = new BufferedReader(new InputStreamReader(is)); String line; try { while ((line = rd.readLine()) != null) { if ((getHeads && line.startsWith("refs/heads")) || (getTags && line.startsWith("refs/tags"))) { builder.add(HttpUtils.parseRef(line)); } } } finally { rd.close(); } } catch (Exception e) { throw Throwables.propagate(e); } finally { HttpUtils.consumeErrStreamAndCloseConnection(connection); } return builder.build(); }
public Collection<ITrait> getAllTraits() { ImmutableSet.Builder<ITrait> builder = ImmutableSet.builder(); for (List<ITrait> traitlist : traits.values()) { builder.addAll(traitlist); } return builder.build(); }
public ResponseLinking copyWithFilteredResponses(final Predicate<Response> toKeepCondition) { final Set<Response> newIncompletes = Sets.filter(incompleteResponses(), toKeepCondition); final ImmutableSet.Builder<ResponseSet> newResponseSetsB = ImmutableSet.builder(); final ImmutableBiMap.Builder<String, ResponseSet> responseSetsIdB = ImmutableBiMap.builder(); // to account for ResponseSets merging due to lost annotation final Set<ResponseSet> alreadyAdded = Sets.newHashSet(); for (final ResponseSet responseSet : responseSets()) { final ImmutableSet<Response> okResponses = FluentIterable.from(responseSet.asSet()).filter(toKeepCondition).toSet(); if (!okResponses.isEmpty()) { final ResponseSet newResponseSet = ResponseSet.from(okResponses); if (alreadyAdded.contains(newResponseSet)) { continue; } alreadyAdded.add(newResponseSet); newResponseSetsB.add(newResponseSet); if (responseSetIds().isPresent()) { responseSetsIdB.put(responseSetIds().get().inverse().get(responseSet), newResponseSet); } } } final ImmutableSet<ResponseSet> newResponseSets = newResponseSetsB.build(); final ResponseLinking.Builder ret = ResponseLinking.builder() .docID(docID()) .responseSets(newResponseSets) .incompleteResponses(newIncompletes); if (responseSetIds().isPresent()) { ret.responseSetIds(responseSetsIdB.build()); } return ret.build(); }