private void saveFilesComplexityDistribution(File sonarFile, SourceFile squidFile) { RangeDistributionBuilder complexityDistribution = new RangeDistributionBuilder( CoreMetrics.FILE_COMPLEXITY_DISTRIBUTION, FILES_DISTRIB_BOTTOM_LIMITS); complexityDistribution.add(squidFile.getDouble(FlexMetric.COMPLEXITY)); context.saveMeasure( sonarFile, complexityDistribution.build().setPersistenceMode(PersistenceMode.MEMORY)); }
@Override public void scanFile(JavaFileScannerContext context) { sonarFile = fs.inputFile(fs.predicates().is(context.getFile())); classTrees.clear(); methods = 0; complexityInMethods = 0; accessors = 0; classes = 0; PublicApiChecker publicApiChecker = PublicApiChecker.newInstanceWithAccessorsHandledAsMethods(); if (separateAccessorsFromMethods) { publicApiChecker = PublicApiChecker.newInstanceWithAccessorsSeparatedFromMethods(); } publicApiChecker.scan(context.getTree()); methodComplexityDistribution = new RangeDistributionBuilder( CoreMetrics.FUNCTION_COMPLEXITY_DISTRIBUTION, LIMITS_COMPLEXITY_METHODS); CommentLinesVisitor commentLinesVisitor = new CommentLinesVisitor(); commentLinesVisitor.analyzeCommentLines(context.getTree()); noSonarFilter.addComponent( sensorContext.getResource(sonarFile).getEffectiveKey(), commentLinesVisitor.noSonarLines()); super.scanFile(context); // leave file. int fileComplexity = context.getComplexityNodes(context.getTree()).size(); saveMetricOnFile(CoreMetrics.CLASSES, classes); saveMetricOnFile(CoreMetrics.FUNCTIONS, methods); saveMetricOnFile(CoreMetrics.ACCESSORS, accessors); saveMetricOnFile(CoreMetrics.COMPLEXITY_IN_FUNCTIONS, complexityInMethods); saveMetricOnFile(CoreMetrics.COMPLEXITY_IN_CLASSES, fileComplexity); saveMetricOnFile(CoreMetrics.COMPLEXITY, fileComplexity); saveMetricOnFile(CoreMetrics.PUBLIC_API, publicApiChecker.getPublicApi()); saveMetricOnFile( CoreMetrics.PUBLIC_DOCUMENTED_API_DENSITY, publicApiChecker.getDocumentedPublicApiDensity()); saveMetricOnFile( CoreMetrics.PUBLIC_UNDOCUMENTED_API, publicApiChecker.getUndocumentedPublicApi()); saveMetricOnFile(CoreMetrics.COMMENT_LINES, commentLinesVisitor.commentLinesMetric()); saveMetricOnFile( CoreMetrics.STATEMENTS, new StatementVisitor().numberOfStatements(context.getTree())); saveMetricOnFile(CoreMetrics.NCLOC, new LinesOfCodeVisitor().linesOfCode(context.getTree())); sensorContext.saveMeasure( sonarFile, methodComplexityDistribution.build(true).setPersistenceMode(PersistenceMode.MEMORY)); RangeDistributionBuilder fileComplexityDistribution = new RangeDistributionBuilder( CoreMetrics.FILE_COMPLEXITY_DISTRIBUTION, LIMITS_COMPLEXITY_FILES); sensorContext.saveMeasure( sonarFile, fileComplexityDistribution .add(fileComplexity) .build(true) .setPersistenceMode(PersistenceMode.MEMORY)); saveLinesMetric(); }
private void saveFunctionsComplexityDistribution(File sonarFile, SourceFile squidFile) { Collection<SourceCode> squidFunctionsInFile = scanner .getIndex() .search(new QueryByParent(squidFile), new QueryByType(SourceFunction.class)); RangeDistributionBuilder complexityDistribution = new RangeDistributionBuilder( CoreMetrics.FUNCTION_COMPLEXITY_DISTRIBUTION, FUNCTIONS_DISTRIB_BOTTOM_LIMITS); for (SourceCode squidFunction : squidFunctionsInFile) { complexityDistribution.add(squidFunction.getDouble(FlexMetric.COMPLEXITY)); } context.saveMeasure( sonarFile, complexityDistribution.build().setPersistenceMode(PersistenceMode.MEMORY)); }