private static MethodAnalysisResults analyzeLambda(MetamodelUtil metamodel, String className, String methodName, String methodSignature) { try { // Open up the corresponding class to analyze PathAnalysisFactory pathAnalysisFactory = new PathAnalysisFactory( new MethodChecker(metamodel)); TransformationClassAnalyzer classAnalyzer = new TransformationClassAnalyzer(className); MethodAnalysisResults analysis = classAnalyzer.analyzeLambdaMethod(methodName, methodSignature, pathAnalysisFactory); PathAnalysisSimplifier.cleanAndSimplify(analysis, Collections.emptyMap(), Collections.emptyMap(), false); return analysis; } catch (IOException e) { e.printStackTrace(); return null; } catch (AnalyzerException e) { e.printStackTrace(); return null; } }
private static MethodAnalysisResults analyzeLambdaClass(Class<?> lambdaClass, MetamodelUtil metamodel, LambdaAsClassAnalysisConfig lambdaAsClass, ClassLoader alternateClassLoader, boolean isObjectEqualsSafe, boolean isAllEqualsSafe, boolean isCollectionContainsSafe) throws IOException, AnalyzerException { // Open up the corresponding class to analyze TransformationClassAnalyzer classAnalyzer = new TransformationClassAnalyzer(lambdaClass.getName(), alternateClassLoader); Method matchingMethod = lambdaAsClass.findLambdaMethod(lambdaClass); if (matchingMethod == null) throw new AnalyzerException(null, "Could not find a lambda method with the expected name in the class"); PathAnalysisFactory pathAnalysisFactory = new PathAnalysisFactory( metamodel.getMethodChecker(isObjectEqualsSafe, isAllEqualsSafe, isCollectionContainsSafe)); MethodAnalysisResults analysis = classAnalyzer.analyzeLambdaMethod(matchingMethod.getName(), Type.getMethodDescriptor(matchingMethod), pathAnalysisFactory); PathAnalysisSimplifier.cleanAndSimplify(analysis, metamodel.getComparisonMethods(isObjectEqualsSafe), metamodel.getComparisonStaticMethods(isObjectEqualsSafe), isAllEqualsSafe); return analysis; }
private static MethodAnalysisResults analyzeLambda(MetamodelUtil metamodel, ClassLoader alternateClassLoader, boolean isObjectEqualsSafe, boolean isAllEqualsSafe, boolean isCollectionContainsSafe, String className, String methodName, String methodSignature) throws IOException, AnalyzerException { // Open up the corresponding class to analyze PathAnalysisFactory pathAnalysisFactory = new PathAnalysisFactory( metamodel.getMethodChecker(isObjectEqualsSafe, isAllEqualsSafe, isCollectionContainsSafe)); TransformationClassAnalyzer classAnalyzer = new TransformationClassAnalyzer(className, alternateClassLoader); MethodAnalysisResults analysis = classAnalyzer.analyzeLambdaMethod(methodName, methodSignature, pathAnalysisFactory); PathAnalysisSimplifier.cleanAndSimplify(analysis, metamodel.getComparisonMethods(isObjectEqualsSafe), metamodel.getComparisonStaticMethods(isObjectEqualsSafe), isAllEqualsSafe); return analysis; }
private static MethodAnalysisResults analyzeLambda(MetamodelUtil metamodel, String className, String methodName, String methodSignature) { try { // Open up the corresponding class to analyze PathAnalysisFactory pathAnalysisFactory = new PathAnalysisFactory( new MethodChecker(metamodel)); TransformationClassAnalyzer classAnalyzer = new TransformationClassAnalyzer(className); MethodAnalysisResults analysis = classAnalyzer.analyzeLambdaMethod(methodName, methodSignature, pathAnalysisFactory); PathAnalysisSimplifier.cleanAndSimplify(analysis, Collections.emptyMap(), Collections.emptyMap(), false); return analysis; } catch (IOException e) { e.printStackTrace(); return null; } catch (AnalyzerException e) { e.printStackTrace(); return null; } }