Package ch.epfl.labos.iu.orm.queryll2.symbolic

Examples of ch.epfl.labos.iu.orm.queryll2.symbolic.ConstantValue$ShortConstant


            SymbExToColumns translator = new SymbExToColumns(metamodel,
                  new SelectFromWhereLambdaArgumentHandler(where, fromList));
            Condition methodExpr = null;
            for (int n = 0; n < where.symbolicAnalysis.paths.size(); n++)
            {
               PathAnalysis path = where.symbolicAnalysis.paths.get(n);

               TypedValue returnVal = PathAnalysisSimplifier.simplifyBoolean(path.getReturnValue(), Collections.emptyMap());
               ColumnExpressions<?> returnColumns = translator.transform(returnVal);
               if (!returnColumns.isSingleColumn()) throw new IllegalArgumentException("Where lambda should only return a single column of data");
               QueryPart returnExpr = returnColumns.getOnlyColumn();

               if (returnVal instanceof ConstantValue.BooleanConstant)
               {
                  if (((ConstantValue.BooleanConstant)returnVal).val)
                  {
                     // This path returns true, so it's redundant to actually
                     // put true into the final code.
                     returnExpr = null;
                  }
                  else
                  {
                     // This path returns false, so we can ignore it
                     continue;
                  }
               }
              
               // Handle where path conditions
               Condition conditionExpr = null;
               for (TypedValue cmp: path.getConditions())
               {
                  ColumnExpressions<?> col = translator.transform(cmp);
                  if (!col.isSingleColumn()) throw new IllegalArgumentException("Expecting a single column");
                  Condition expr = (Condition)col.getOnlyColumn();
                  if (conditionExpr != null)
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   }

   private static MethodAnalysisResults analyzeLambda(MetamodelUtil metamodel, ClassLoader alternateClassLoader, boolean isObjectEqualsSafe, String className, String methodName, String methodSignature) throws IOException, AnalyzerException
   {
      // Open up the corresponding class to analyze
      PathAnalysisFactory pathAnalysisFactory = new PathAnalysisFactory(
            metamodel.getMethodChecker(isObjectEqualsSafe));
      TransformationClassAnalyzer classAnalyzer =
            new TransformationClassAnalyzer(className, alternateClassLoader);
      MethodAnalysisResults analysis = classAnalyzer.analyzeLambdaMethod(methodName, methodSignature, pathAnalysisFactory);
      PathAnalysisSimplifier.cleanAndSimplify(analysis, metamodel.getComparisonMethods(isObjectEqualsSafe));
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      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));
      MethodAnalysisResults analysis = classAnalyzer.analyzeLambdaMethod(matchingMethod.getName(), Type.getMethodDescriptor(matchingMethod), pathAnalysisFactory);
      PathAnalysisSimplifier.cleanAndSimplify(analysis, metamodel.getComparisonMethods(isObjectEqualsSafe));
      return analysis;
   }
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   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());
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   private static MethodAnalysisResults analyzeLambda(MetamodelUtil metamodel, ClassLoader alternateClassLoader, boolean isObjectEqualsSafe, String className, String methodName, String methodSignature) throws IOException, AnalyzerException
   {
      // Open up the corresponding class to analyze
      PathAnalysisFactory pathAnalysisFactory = new PathAnalysisFactory(
            metamodel.getMethodChecker(isObjectEqualsSafe));
      TransformationClassAnalyzer classAnalyzer =
            new TransformationClassAnalyzer(className, alternateClassLoader);
      MethodAnalysisResults analysis = classAnalyzer.analyzeLambdaMethod(methodName, methodSignature, pathAnalysisFactory);
      PathAnalysisSimplifier.cleanAndSimplify(analysis, metamodel.getComparisonMethods(isObjectEqualsSafe));
      return analysis;
   }
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   }

   private static MethodAnalysisResults analyzeLambdaClass(Class<?> lambdaClass, MetamodelUtil metamodel, LambdaAsClassAnalysisConfig lambdaAsClass, ClassLoader alternateClassLoader, boolean isObjectEqualsSafe) 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));
      MethodAnalysisResults analysis = classAnalyzer.analyzeLambdaMethod(matchingMethod.getName(), Type.getMethodDescriptor(matchingMethod), pathAnalysisFactory);
      PathAnalysisSimplifier.cleanAndSimplify(analysis, metamodel.getComparisonMethods(isObjectEqualsSafe));
      return analysis;
   }
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   {
      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());
         return analysis;
      } catch (IOException e)
      {
         e.printStackTrace();
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   public void registerORMSimpleLink(String entityPackage, String map,
                                     String fromEntityName, String fromField, String fromCol,
                                     String toEntityName, String toField, String toCol)
   {
      ORMEntity fromEntity = entityFor(fromEntityName);
      ORMEntity toEntity = entityFor(toEntityName);
      String fromInternalName = makeInternalName(fromEntity.entityPackage, fromEntity.name);
      String toInternalName = makeInternalName(toEntity.entityPackage, toEntity.name);
      MethodSignature from1Signature =
         makeMethodSignature(entityPackage,
                             fromEntity.name,
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      }
      final List<MethodSignature> transformConstructorsCalled = new ArrayList<MethodSignature>();
      final DBSetSourceChecker checkDBSets = new DBSetSourceChecker(entityInfo);
      final Set<TypedValue> unresolvedDBSets = new HashSet<TypedValue>();
      ConditionRecorder pathConditions = new ConditionRecorder();
      BasicSymbolicInterpreter interpreter = new SymbolicInterpreterWithFieldAccess(Opcodes.ASM5);
      FrameWithHelpers frame = new FrameWithHelpers(cl, m, interpreter);
      interpreter.setFrameForAliasingFixups(frame);
      interpreter.setBranchHandler(pathConditions);
      interpreter.setMethodChecker(new BasicSymbolicInterpreter.MethodChecker() {
            public boolean isStaticMethodSafe(MethodSignature m)
               { return safeStaticMethods.contains(m); }
            public boolean isMethodSafe(MethodSignature m, TypedValue base, List<TypedValue> args)
               {
                  if (m.name.equals("<init>") && otherTransformClasses.contains(m.owner))
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            else
               conditions.add(ifTrueValue.inverseValue());
         }
      }
      ConditionRecorder pathConditions = new ConditionRecorder();
      BasicSymbolicInterpreter interpreter = new SymbolicInterpreterWithFieldAccess(Opcodes.ASM5);
      FrameWithHelpers frame = new FrameWithHelpers(cl, m, interpreter);
      interpreter.setFrameForAliasingFixups(frame);
      interpreter.setBranchHandler(pathConditions);
      interpreter.setMethodChecker(methodChecker);
     
      for (PathInstruction instruction: path)
      {
         // Skip "fake" instructions like Frame, LineNumber, and Label
         if (instruction.node.getOpcode() < 0) continue;
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