public static PsiType eliminateWildcards(PsiType type, final boolean eliminateInTypeArguments) {
    if (eliminateInTypeArguments && type instanceof PsiClassType) {
      PsiClassType classType = (PsiClassType) type;
      JavaResolveResult resolveResult = classType.resolveGenerics();
      PsiClass aClass = (PsiClass) resolveResult.getElement();
      if (aClass != null) {
        PsiManager manager = aClass.getManager();
        PsiTypeParameter[] typeParams = aClass.getTypeParameters();
        Map<PsiTypeParameter, PsiType> map = new HashMap<PsiTypeParameter, PsiType>();
        for (PsiTypeParameter typeParam : typeParams) {
          PsiType substituted = resolveResult.getSubstitutor().substitute(typeParam);
          if (substituted instanceof PsiWildcardType) {
            substituted = ((PsiWildcardType) substituted).getBound();
            if (substituted == null)
              substituted = TypeConversionUtil.typeParameterErasure(typeParam);
          }
          map.put(typeParam, substituted);
        }

        PsiElementFactory factory =
            JavaPsiFacade.getInstance(manager.getProject()).getElementFactory();
        PsiSubstitutor substitutor = factory.createSubstitutor(map);
        type = factory.createType(aClass, substitutor);
      }
    } else if (type instanceof PsiArrayType) {
      return eliminateWildcards(((PsiArrayType) type).getComponentType(), false).createArrayType();
    } else if (type instanceof PsiWildcardType) {
      final PsiType bound = ((PsiWildcardType) type).getBound();
      return bound != null ? bound : ((PsiWildcardType) type).getExtendsBound(); // object
    } else if (type instanceof PsiCapturedWildcardType && !eliminateInTypeArguments) {
      return eliminateWildcards(
          ((PsiCapturedWildcardType) type).getWildcard(), eliminateInTypeArguments);
    }
    return type;
  }
Beispiel #2
0
 @Nullable
 private static String getTypeName(PsiType type, boolean withIndices) {
   type = type.getDeepComponentType();
   if (type instanceof PsiClassType) {
     final PsiClassType classType = (PsiClassType) type;
     final String className = classType.getClassName();
     if (className != null || !withIndices) return className;
     final PsiClass aClass = classType.resolve();
     return aClass instanceof PsiAnonymousClass
         ? ((PsiAnonymousClass) aClass).getBaseClassType().getClassName()
         : null;
   } else if (type instanceof PsiPrimitiveType) {
     return type.getPresentableText();
   } else if (type instanceof PsiWildcardType) {
     return getTypeName(((PsiWildcardType) type).getExtendsBound(), withIndices);
   } else if (type instanceof PsiIntersectionType) {
     return getTypeName(((PsiIntersectionType) type).getRepresentative(), withIndices);
   } else if (type instanceof PsiCapturedWildcardType) {
     return getTypeName(((PsiCapturedWildcardType) type).getWildcard(), withIndices);
   } else if (type instanceof PsiDisjunctionType) {
     return getTypeName(((PsiDisjunctionType) type).getLeastUpperBound(), withIndices);
   } else {
     return null;
   }
 }
  private static Map<String, PsiType> getCompatibleTypeNames(
      @NotNull PsiType type, @Nullable PsiType min, PsiManager manager, GlobalSearchScope scope) {
    if (type instanceof PsiDisjunctionType) type = ((PsiDisjunctionType) type).getLeastUpperBound();

    // if initial type is not assignable to min type we don't take into consideration min type.
    if (min != null && !TypesUtil.isAssignable(min, type, manager, scope)) {
      min = null;
    }

    Map<String, PsiType> map = new LinkedHashMap<String, PsiType>();
    final PsiPrimitiveType unboxed = PsiPrimitiveType.getUnboxedType(type);
    if (unboxed != null) type = unboxed;
    final Set<PsiType> set = new LinkedHashSet<PsiType>();
    set.add(type);
    while (!set.isEmpty()) {
      PsiType cur = set.iterator().next();
      set.remove(cur);
      if (!map.containsValue(cur)
          && (min == null || TypesUtil.isAssignable(min, cur, manager, scope))) {
        if (isPartiallySubstituted(cur)) {
          LOG.assertTrue(cur instanceof PsiClassType);
          PsiClassType rawType = ((PsiClassType) cur).rawType();
          map.put(rawType.getPresentableText(), rawType);
        } else {
          map.put(cur.getPresentableText(), cur);
        }
        for (PsiType superType : cur.getSuperTypes()) {
          if (!map.containsValue(superType)) {
            set.add(superType);
          }
        }
      }
    }
    return map;
  }
  @Nullable
  public static PsiClass getSuperClass(@NotNull PsiClass psiClass) {
    PsiManager manager = psiClass.getManager();
    GlobalSearchScope resolveScope = psiClass.getResolveScope();

    final JavaPsiFacade facade = JavaPsiFacade.getInstance(manager.getProject());
    if (psiClass.isInterface()) {
      return facade.findClass(CommonClassNames.JAVA_LANG_OBJECT, resolveScope);
    }
    if (psiClass.isEnum()) {
      return facade.findClass(CommonClassNames.JAVA_LANG_ENUM, resolveScope);
    }

    if (psiClass instanceof PsiAnonymousClass) {
      PsiClassType baseClassReference = ((PsiAnonymousClass) psiClass).getBaseClassType();
      PsiClass baseClass = baseClassReference.resolve();
      if (baseClass == null || baseClass.isInterface())
        return facade.findClass(CommonClassNames.JAVA_LANG_OBJECT, resolveScope);
      return baseClass;
    }

    if (CommonClassNames.JAVA_LANG_OBJECT.equals(psiClass.getQualifiedName())) return null;

    final PsiClassType[] referenceElements = psiClass.getExtendsListTypes();

    if (referenceElements.length == 0)
      return facade.findClass(CommonClassNames.JAVA_LANG_OBJECT, resolveScope);

    PsiClass psiResoved = referenceElements[0].resolve();
    return psiResoved == null
        ? facade.findClass(CommonClassNames.JAVA_LANG_OBJECT, resolveScope)
        : psiResoved;
  }
Beispiel #5
0
    private void processListenerProperties(@NotNull PsiMethod method) {
      if (!method.getName().startsWith("add")
          || method.getParameterList().getParametersCount() != 1) return;

      final PsiParameter parameter = method.getParameterList().getParameters()[0];
      final PsiType type = parameter.getType();
      if (!(type instanceof PsiClassType)) return;

      final PsiClassType classType = (PsiClassType) type;
      final PsiClass listenerClass = classType.resolve();
      if (listenerClass == null) return;

      final PsiMethod[] listenerMethods = listenerClass.getMethods();
      if (!InheritanceUtil.isInheritorOrSelf(listenerClass, myEventListener, true)) return;

      for (PsiMethod listenerMethod : listenerMethods) {
        final String name = listenerMethod.getName();
        if (myPropertyNames.add(name)) {
          LookupElementBuilder builder =
              LookupElementBuilder.create(
                      generatePropertyResolveResult(name, listenerMethod, null, null), name)
                  .withIcon(JetgroovyIcons.Groovy.Property);
          myConsumer.consume(builder);
        }
      }
    }
  private void collectUncaughtExceptions(@NotNull PsiMethod method) {
    if (isExternalOverride()) return;
    if (getRefManager().isOfflineView()) return;
    @NonNls final String name = method.getName();
    if (getOwnerClass().isTestCase() && name.startsWith("test")) return;

    if (getSuperMethods().isEmpty()) {
      PsiClassType[] throwsList = method.getThrowsList().getReferencedTypes();
      if (throwsList.length > 0) {
        myUnThrownExceptions =
            throwsList.length == 1
                ? new SmartList<String>()
                : new ArrayList<String>(throwsList.length);
        for (final PsiClassType type : throwsList) {
          PsiClass aClass = type.resolve();
          String fqn = aClass == null ? null : aClass.getQualifiedName();
          if (fqn != null) {
            myUnThrownExceptions.add(fqn);
          }
        }
      }
    }

    final PsiCodeBlock body = method.getBody();
    if (body == null) return;

    final Collection<PsiClassType> exceptionTypes =
        ExceptionUtil.collectUnhandledExceptions(body, method, false);
    for (final PsiClassType exceptionType : exceptionTypes) {
      updateThrowsList(exceptionType);
    }
  }
  @NotNull
  private static Set<PsiClassType> filterInProjectExceptions(
      @Nullable PsiMethod targetMethod, @NotNull List<PsiClassType> unhandledExceptions) {
    if (targetMethod == null) return Collections.emptySet();

    Set<PsiClassType> result = new HashSet<PsiClassType>();

    if (targetMethod.getManager().isInProject(targetMethod)) {
      PsiMethod[] superMethods = targetMethod.findSuperMethods();
      for (PsiMethod superMethod : superMethods) {
        Set<PsiClassType> classTypes = filterInProjectExceptions(superMethod, unhandledExceptions);
        result.addAll(classTypes);
      }

      if (superMethods.length == 0) {
        result.addAll(unhandledExceptions);
      }
    } else {
      PsiClassType[] referencedTypes = targetMethod.getThrowsList().getReferencedTypes();
      for (PsiClassType referencedType : referencedTypes) {
        PsiClass psiClass = referencedType.resolve();
        if (psiClass == null) continue;
        for (PsiClassType exception : unhandledExceptions) {
          if (referencedType.isAssignableFrom(exception)) result.add(exception);
        }
      }
    }

    return result;
  }
  @NotNull
  public static PsiClassType[] getExtendsListTypes(GrTypeDefinition grType) {
    final PsiClassType[] extendsTypes = getReferenceListTypes(grType.getExtendsClause());
    if (grType.isInterface()) {
      return extendsTypes;
    }

    for (PsiClassType type : extendsTypes) {
      final PsiClass superClass = type.resolve();
      if (superClass instanceof GrTypeDefinition && !superClass.isInterface()
          || superClass != null
              && GroovyCommonClassNames.GROOVY_OBJECT_SUPPORT.equals(
                  superClass.getQualifiedName())) {
        return extendsTypes;
      }
    }

    PsiClass grObSupport =
        GroovyPsiManager.getInstance(grType.getProject())
            .findClassWithCache(
                GroovyCommonClassNames.GROOVY_OBJECT_SUPPORT, grType.getResolveScope());
    if (grObSupport != null) {
      final PsiClassType type =
          JavaPsiFacade.getInstance(grType.getProject())
              .getElementFactory()
              .createType(grObSupport);
      return ArrayUtil.append(extendsTypes, type, PsiClassType.ARRAY_FACTORY);
    }
    return extendsTypes;
  }
  @NotNull
  private static PsiClass[] resolveClassReferenceList(
      @NotNull PsiClassType[] listOfTypes,
      @NotNull PsiManager manager,
      @NotNull GlobalSearchScope resolveScope,
      boolean includeObject) {
    PsiClass objectClass =
        JavaPsiFacade.getInstance(manager.getProject())
            .findClass(CommonClassNames.JAVA_LANG_OBJECT, resolveScope);
    if (objectClass == null) includeObject = false;
    if (listOfTypes.length == 0) {
      if (includeObject) return new PsiClass[] {objectClass};
      return PsiClass.EMPTY_ARRAY;
    }

    int referenceCount = listOfTypes.length;
    if (includeObject) referenceCount++;

    PsiClass[] resolved = new PsiClass[referenceCount];
    int resolvedCount = 0;

    if (includeObject) resolved[resolvedCount++] = objectClass;
    for (PsiClassType reference : listOfTypes) {
      PsiClass refResolved = reference.resolve();
      if (refResolved != null) resolved[resolvedCount++] = refResolved;
    }

    if (resolvedCount < referenceCount) {
      PsiClass[] shorter = new PsiClass[resolvedCount];
      System.arraycopy(resolved, 0, shorter, 0, resolvedCount);
      resolved = shorter;
    }

    return resolved;
  }
  /**
   * Adds all code methods of clazz add its super classes to signatures. Doesn't walk into
   * interfaces because all methods from them will be overloaded in any case. Besides Some of
   * interfaces came from delegates and they should be visited during the following processing.
   *
   * @param clazz current class
   * @param substitutor super class substitutor of clazz
   * @param signatures map to initialize
   * @param classes already visited classes
   */
  private static void initializeSignatures(
      PsiClass clazz,
      PsiSubstitutor substitutor,
      Map<MethodSignature, PsiMethod> signatures,
      Set<PsiClass> classes) {
    if (clazz.isInterface()) return;

    if (classes.add(clazz)) {
      final List<PsiMethod> methods;
      if (clazz instanceof GrTypeDefinition) {
        methods = new ArrayList<PsiMethod>();
        GrClassImplUtil.collectMethodsFromBody((GrTypeDefinition) clazz, methods);
      } else {
        methods = Arrays.asList(clazz.getMethods());
      }

      for (PsiMethod method : methods) {
        addMethodChecked(signatures, method, substitutor, null);
      }

      for (PsiClassType type : getSuperTypes(clazz)) {
        final PsiClassType.ClassResolveResult result = type.resolveGenerics();
        final PsiClass superClass = result.getElement();
        if (superClass == null) continue;
        final PsiSubstitutor superClassSubstitutor =
            TypeConversionUtil.getSuperClassSubstitutor(superClass, clazz, substitutor);
        initializeSignatures(superClass, superClassSubstitutor, signatures, classes);
      }
    }
  }
 public static PsiClass[] getInterfaces(GrTypeDefinition grType) {
   final PsiClassType[] implementsListTypes = grType.getImplementsListTypes();
   List<PsiClass> result = new ArrayList<PsiClass>(implementsListTypes.length);
   for (PsiClassType type : implementsListTypes) {
     final PsiClass psiClass = type.resolve();
     if (psiClass != null) result.add(psiClass);
   }
   return result.toArray(new PsiClass[result.size()]);
 }
  @NotNull
  private static PsiClass[] getSupersInner(@NotNull PsiClass psiClass) {
    PsiClassType[] extendsListTypes = psiClass.getExtendsListTypes();
    PsiClassType[] implementsListTypes = psiClass.getImplementsListTypes();

    if (psiClass.isInterface()) {
      return resolveClassReferenceList(
          extendsListTypes, psiClass.getManager(), psiClass.getResolveScope(), true);
    }

    if (psiClass instanceof PsiAnonymousClass) {
      PsiAnonymousClass psiAnonymousClass = (PsiAnonymousClass) psiClass;
      PsiClassType baseClassReference = psiAnonymousClass.getBaseClassType();
      PsiClass baseClass = baseClassReference.resolve();
      if (baseClass != null) {
        if (baseClass.isInterface()) {
          PsiClass objectClass =
              JavaPsiFacade.getInstance(psiClass.getProject())
                  .findClass(CommonClassNames.JAVA_LANG_OBJECT, psiClass.getResolveScope());
          return objectClass != null
              ? new PsiClass[] {objectClass, baseClass}
              : new PsiClass[] {baseClass};
        }
        return new PsiClass[] {baseClass};
      }

      PsiClass objectClass =
          JavaPsiFacade.getInstance(psiClass.getProject())
              .findClass(CommonClassNames.JAVA_LANG_OBJECT, psiClass.getResolveScope());
      return objectClass != null ? new PsiClass[] {objectClass} : PsiClass.EMPTY_ARRAY;
    }
    if (psiClass instanceof PsiTypeParameter) {
      if (extendsListTypes.length == 0) {
        final PsiClass objectClass =
            JavaPsiFacade.getInstance(psiClass.getProject())
                .findClass(CommonClassNames.JAVA_LANG_OBJECT, psiClass.getResolveScope());
        return objectClass != null ? new PsiClass[] {objectClass} : PsiClass.EMPTY_ARRAY;
      }
      return resolveClassReferenceList(
          extendsListTypes, psiClass.getManager(), psiClass.getResolveScope(), false);
    }

    PsiClass[] interfaces =
        resolveClassReferenceList(
            implementsListTypes, psiClass.getManager(), psiClass.getResolveScope(), false);

    PsiClass superClass = getSuperClass(psiClass);
    if (superClass == null) return interfaces;
    PsiClass[] types = new PsiClass[interfaces.length + 1];
    types[0] = superClass;
    System.arraycopy(interfaces, 0, types, 1, interfaces.length);

    return types;
  }
    public Boolean visitClassType(final PsiClassType classType) {
      final PsiClass aClass = classType.resolve();
      if (aClass instanceof PsiTypeParameter && myTypeParams.contains((PsiTypeParameter) aClass))
        return true;

      final PsiType[] types = classType.getParameters();
      for (final PsiType psiType : types) {
        if (psiType.accept(this).booleanValue()) return true;
      }
      return false;
    }
 @Nullable
 private static PsiType getGenericElementType(PsiType collectionType) {
   if (collectionType instanceof PsiClassType) {
     PsiClassType classType = (PsiClassType) collectionType;
     PsiType[] parameters = classType.getParameters();
     if (parameters.length == 1) {
       return parameters[0];
     }
   }
   return null;
 }
Beispiel #15
0
 @Override
 public boolean process(PsiClass inheritor) {
   ProgressManager.checkCanceled();
   for (PsiClassType interfaceType : inheritor.getImplementsListTypes()) {
     ProgressManager.checkCanceled();
     PsiClass anInterface = interfaceType.resolveGenerics().getElement();
     if (anInterface != null && myCheckedInterfaces.add(PsiAnchor.create(anInterface))) {
       processInterface(inheritor, anInterface);
     }
   }
   return !myRemainingMethods.isEmpty();
 }
Beispiel #16
0
 private boolean caseForObject(@NotNull PsiMethod method) {
   PsiClass containing = method.getContainingClass();
   if (containing != null) {
     for (PsiClassType s : containing.getSuperTypes()) {
       String canonicalText = s.getCanonicalText();
       if (!canonicalText.equals(JAVA_LANG_OBJECT)
           && !getClassIdentifiers().contains(canonicalText)) {
         return true;
       }
     }
   }
   return false;
 }
  @NotNull
  public static PsiClass[] getSupers(GrTypeDefinition grType) {
    PsiClassType[] superTypes = grType.getSuperTypes();
    List<PsiClass> result = new ArrayList<PsiClass>();
    for (PsiClassType superType : superTypes) {
      PsiClass superClass = superType.resolve();
      if (superClass != null) {
        result.add(superClass);
      }
    }

    return result.toArray(new PsiClass[result.size()]);
  }
  private static void processMethod(
      @NotNull Project project,
      @NotNull PsiMethod targetMethod,
      @NotNull Set<PsiClassType> unhandledExceptions)
      throws IncorrectOperationException {
    for (PsiClassType unhandledException : unhandledExceptions) {
      PsiClass exceptionClass = unhandledException.resolve();
      if (exceptionClass != null) {
        PsiUtil.addException(targetMethod, exceptionClass);
      }
    }

    CodeStyleManager.getInstance(project).reformat(targetMethod.getThrowsList());
  }
 @NotNull
 public static PsiClass[] getInterfaces(@NotNull PsiTypeParameter typeParameter) {
   final PsiClassType[] referencedTypes = typeParameter.getExtendsListTypes();
   if (referencedTypes.length == 0) {
     return PsiClass.EMPTY_ARRAY;
   }
   final List<PsiClass> result = new ArrayList<PsiClass>(referencedTypes.length);
   for (PsiClassType referencedType : referencedTypes) {
     final PsiClass psiClass = referencedType.resolve();
     if (psiClass != null && psiClass.isInterface()) {
       result.add(psiClass);
     }
   }
   return result.toArray(new PsiClass[result.size()]);
 }
  // uses hierarchy signature tree if available, traverses class structure by itself otherwise
  public static boolean processDirectSuperMethodsSmart(
      @NotNull PsiMethod method, @NotNull Processor<PsiMethod> superMethodProcessor) {
    // boolean old = PsiSuperMethodUtil.isSuperMethod(method, superMethod);

    PsiClass aClass = method.getContainingClass();
    if (aClass == null) return false;

    if (!canHaveSuperMethod(method, true, false)) return false;

    Map<MethodSignature, HierarchicalMethodSignature> cachedMap =
        SIGNATURES_KEY.getCachedValueOrNull(aClass);
    if (cachedMap != null) {
      HierarchicalMethodSignature signature =
          cachedMap.get(method.getSignature(PsiSubstitutor.EMPTY));
      if (signature != null) {
        List<HierarchicalMethodSignature> superSignatures = signature.getSuperSignatures();
        for (HierarchicalMethodSignature superSignature : superSignatures) {
          if (!superMethodProcessor.process(superSignature.getMethod())) return false;
        }
        return true;
      }
    }

    PsiClassType[] directSupers = aClass.getSuperTypes();
    for (PsiClassType directSuper : directSupers) {
      PsiClassType.ClassResolveResult resolveResult = directSuper.resolveGenerics();
      if (resolveResult.getSubstitutor() != PsiSubstitutor.EMPTY) {
        // generics
        break;
      }
      PsiClass directSuperClass = resolveResult.getElement();
      if (directSuperClass == null) continue;
      PsiMethod[] candidates = directSuperClass.findMethodsBySignature(method, false);
      for (PsiMethod candidate : candidates) {
        if (PsiUtil.canBeOverriden(candidate)) {
          if (!superMethodProcessor.process(candidate)) return false;
        }
      }
      return true;
    }

    List<HierarchicalMethodSignature> superSignatures =
        method.getHierarchicalMethodSignature().getSuperSignatures();
    for (HierarchicalMethodSignature superSignature : superSignatures) {
      if (!superMethodProcessor.process(superSignature.getMethod())) return false;
    }
    return true;
  }
  public void updateThrowsList(PsiClassType exceptionType) {
    if (!getSuperMethods().isEmpty()) {
      for (RefMethod refSuper : getSuperMethods()) {
        ((RefMethodImpl) refSuper).updateThrowsList(exceptionType);
      }
    } else if (myUnThrownExceptions != null) {
      if (exceptionType == null) {
        myUnThrownExceptions = null;
        return;
      }
      PsiClass exceptionClass = exceptionType.resolve();
      JavaPsiFacade facade = JavaPsiFacade.getInstance(myManager.getProject());
      for (int i = myUnThrownExceptions.size() - 1; i >= 0; i--) {
        String exceptionFqn = myUnThrownExceptions.get(i);
        PsiClass classType =
            facade.findClass(
                exceptionFqn, GlobalSearchScope.allScope(getRefManager().getProject()));
        if (InheritanceUtil.isInheritorOrSelf(exceptionClass, classType, true)
            || InheritanceUtil.isInheritorOrSelf(classType, exceptionClass, true)) {
          myUnThrownExceptions.remove(i);
        }
      }

      if (myUnThrownExceptions.isEmpty()) myUnThrownExceptions = null;
    }
  }
 private static boolean acceptExtendsBound(PsiClassType extendsBound, int depth) {
   PsiType[] parameters = extendsBound.getParameters();
   if (parameters.length == 1) {
     PsiType argType = parameters[0];
     if (argType instanceof PsiCapturedWildcardType && depth == 0) {
       argType = ((PsiCapturedWildcardType) argType).getWildcard();
     }
     if (argType instanceof PsiWildcardType) {
       if (!((PsiWildcardType) argType).isBounded()) return true;
       final PsiType bound = ((PsiWildcardType) argType).getExtendsBound();
       if (bound instanceof PsiClassType
           && TypeConversionUtil.erasure(bound).equals(TypeConversionUtil.erasure(extendsBound))) {
         return acceptExtendsBound((PsiClassType) bound, depth + 1);
       }
       if (bound instanceof PsiIntersectionType) {
         for (PsiType extendsType : ((PsiIntersectionType) bound).getConjuncts()) {
           if (acceptExtendsBound(extendsBound, extendsType)) {
             return true;
           }
         }
       }
     }
   }
   return false;
 }
 @Override
 public Boolean visitClassType(PsiClassType classType) {
   boolean used = false;
   for (PsiType paramType : classType.getParameters()) {
     final Boolean paramAccepted = paramType.accept(this);
     used |= paramAccepted != null && paramAccepted.booleanValue();
   }
   final PsiClass resolve = classType.resolve();
   if (resolve instanceof PsiTypeParameter) {
     final PsiTypeParameter typeParameter = (PsiTypeParameter) resolve;
     if (check(typeParameter)) {
       myUsedTypeParams.add(typeParameter);
       return true;
     }
   }
   return used;
 }
  private static boolean hasSuperMethodsWithoutExceptions(
      @NotNull PsiMethod[] superMethods, @NotNull Set<PsiClassType> unhandledExceptions) {
    for (PsiMethod superMethod : superMethods) {
      PsiClassType[] referencedTypes = superMethod.getThrowsList().getReferencedTypes();

      Set<PsiClassType> exceptions = new HashSet<PsiClassType>(unhandledExceptions);
      for (PsiClassType referencedType : referencedTypes) {
        for (PsiClassType exception : unhandledExceptions) {
          if (referencedType.isAssignableFrom(exception)) exceptions.remove(exception);
        }
      }

      if (!exceptions.isEmpty()) return true;
    }

    return false;
  }
  private void markTypeParameterUsages(
      final PsiClass psiClass,
      PsiClassType migrationType,
      PsiReferenceParameterList referenceParameterList,
      final Map<PsiElement, Pair<PsiReference[], PsiType>> roots) {

    final PsiSubstitutor[] fullHierarchySubstitutor = {
      migrationType.resolveGenerics().getSubstitutor()
    };
    RefactoringHierarchyUtil.processSuperTypes(
        migrationType,
        new RefactoringHierarchyUtil.SuperTypeVisitor() {
          @Override
          public void visitType(PsiType aType) {
            fullHierarchySubstitutor[0] =
                fullHierarchySubstitutor[0].putAll(
                    ((PsiClassType) aType).resolveGenerics().getSubstitutor());
          }

          @Override
          public void visitClass(PsiClass aClass) {
            // do nothing
          }
        });

    final PsiClass resolvedClass =
        (PsiClass) ((PsiJavaCodeReferenceElement) referenceParameterList.getParent()).resolve();
    ;
    LOG.assertTrue(resolvedClass != null);
    final Set<PsiClass> superClasses = new HashSet<PsiClass>();
    superClasses.add(resolvedClass);
    InheritanceUtil.getSuperClasses(resolvedClass, superClasses, true);
    for (PsiClass superSuperClass : superClasses) {
      final TypeParameterSearcher parameterSearcher =
          new TypeParameterSearcher(superSuperClass.getTypeParameters());
      superSuperClass.accept(
          new JavaRecursiveElementVisitor() {
            @Override
            public void visitMethod(final PsiMethod method) {
              super.visitMethod(method);
              processMemberType(
                  method, parameterSearcher, psiClass, fullHierarchySubstitutor[0], roots);
              for (PsiParameter parameter : method.getParameterList().getParameters()) {
                processMemberType(
                    parameter, parameterSearcher, psiClass, fullHierarchySubstitutor[0], roots);
              }
            }

            @Override
            public void visitField(final PsiField field) {
              super.visitField(field);
              processMemberType(
                  field, parameterSearcher, psiClass, fullHierarchySubstitutor[0], roots);
            }
          });
    }
  }
  @NotNull
  public static PsiClass[] getInterfaces(@NotNull PsiClass psiClass) {
    if (psiClass.isInterface()) {
      final PsiClassType[] extendsListTypes = psiClass.getExtendsListTypes();
      return resolveClassReferenceList(
          extendsListTypes, psiClass.getManager(), psiClass.getResolveScope(), false);
    }

    if (psiClass instanceof PsiAnonymousClass) {
      PsiClassType baseClassReference = ((PsiAnonymousClass) psiClass).getBaseClassType();
      PsiClass baseClass = baseClassReference.resolve();
      return baseClass != null && baseClass.isInterface()
          ? new PsiClass[] {baseClass}
          : PsiClass.EMPTY_ARRAY;
    }

    final PsiClassType[] implementsListTypes = psiClass.getImplementsListTypes();
    return resolveClassReferenceList(
        implementsListTypes, psiClass.getManager(), psiClass.getResolveScope(), false);
  }
 @Override
 public PsiType visitClassType(PsiClassType classType) {
   final PsiClassType.ClassResolveResult resolveResult = classType.resolveGenerics();
   final PsiClass aClass = resolveResult.getElement();
   if (aClass == null) return classType;
   if (aClass instanceof PsiTypeParameter) {
     final PsiTypeParameter typeParameter = (PsiTypeParameter) aClass;
     if (containsInMap(typeParameter)) {
       return substituteTypeParameter(typeParameter);
     } else {
       return classType;
     }
   }
   final Map<PsiTypeParameter, PsiType> hashMap = new HashMap<PsiTypeParameter, PsiType>(2);
   if (!processClass(aClass, resolveResult.getSubstitutor(), hashMap)) {
     return null;
   }
   return JavaPsiFacade.getInstance(aClass.getProject())
       .getElementFactory()
       .createType(aClass, createSubstitutor(hashMap), classType.getLanguageLevel());
 }
 private static boolean processSuperTypes(
     @NotNull PsiClass aClass,
     @NotNull PsiScopeProcessor processor,
     @Nullable Set<PsiClass> visited,
     PsiElement last,
     @NotNull PsiElement place,
     @NotNull ResolveState state,
     boolean isRaw,
     @NotNull PsiElementFactory factory,
     @NotNull LanguageLevel languageLevel) {
   boolean resolved = false;
   for (final PsiClassType superType : aClass.getSuperTypes()) {
     final PsiClassType.ClassResolveResult superTypeResolveResult = superType.resolveGenerics();
     PsiClass superClass = superTypeResolveResult.getElement();
     if (superClass == null) continue;
     PsiSubstitutor finalSubstitutor =
         obtainFinalSubstitutor(
             superClass,
             superTypeResolveResult.getSubstitutor(),
             aClass,
             state.get(PsiSubstitutor.KEY),
             factory,
             languageLevel);
     if (aClass instanceof PsiTypeParameter
         && PsiUtil.isRawSubstitutor(superClass, finalSubstitutor)) {
       finalSubstitutor = PsiSubstitutor.EMPTY;
     }
     if (!processDeclarationsInClass(
         superClass,
         processor,
         state.put(PsiSubstitutor.KEY, finalSubstitutor),
         visited,
         last,
         place,
         isRaw)) {
       resolved = true;
     }
   }
   return !resolved;
 }
  @NotNull
  public static PsiClassType[] getSuperTypes(@NotNull PsiClass psiClass) {
    if (psiClass instanceof PsiAnonymousClass) {
      PsiClassType baseClassType = ((PsiAnonymousClass) psiClass).getBaseClassType();
      PsiClass baseClass = baseClassType.resolve();
      if (baseClass == null || !baseClass.isInterface()) {
        return new PsiClassType[] {baseClassType};
      } else {
        PsiClassType objectType =
            PsiType.getJavaLangObject(psiClass.getManager(), psiClass.getResolveScope());
        return new PsiClassType[] {objectType, baseClassType};
      }
    }

    PsiClassType[] extendsTypes = psiClass.getExtendsListTypes();
    PsiClassType[] implementsTypes = psiClass.getImplementsListTypes();
    boolean hasExtends = extendsTypes.length != 0;
    int extendsListLength = extendsTypes.length + (hasExtends ? 0 : 1);
    PsiClassType[] result = new PsiClassType[extendsListLength + implementsTypes.length];

    System.arraycopy(extendsTypes, 0, result, 0, extendsTypes.length);
    if (!hasExtends) {
      if (CommonClassNames.JAVA_LANG_OBJECT.equals(psiClass.getQualifiedName())) {
        return PsiClassType.EMPTY_ARRAY;
      }
      PsiManager manager = psiClass.getManager();
      PsiClassType objectType = PsiType.getJavaLangObject(manager, psiClass.getResolveScope());
      result[0] = objectType;
    }
    System.arraycopy(implementsTypes, 0, result, extendsListLength, implementsTypes.length);
    for (int i = 0; i < result.length; i++) {
      PsiClassType type = result[i];
      result[i] = (PsiClassType) PsiUtil.captureToplevelWildcards(type, psiClass);
    }
    return result;
  }
  private static void processClassInner(
      PsiClassType type,
      PsiSubstitutor superClassSubstitutor,
      boolean shouldProcessDeprecated,
      List<PsiMethod> result,
      GrTypeDefinition classToDelegateTo,
      Set<PsiClass> processedWithoutDeprecated,
      Set<PsiClass> processedAll,
      boolean keepParameterAnnotationsNew) {
    final PsiClassType.ClassResolveResult resolveResult = type.resolveGenerics();
    final PsiClass psiClass = resolveResult.getElement();
    if (psiClass == null) return;

    final String qname = psiClass.getQualifiedName();
    if (CommonClassNames.JAVA_LANG_OBJECT.equals(qname)) return;
    if (GroovyCommonClassNames.GROOVY_OBJECT.equals(qname)) return;
    if (GroovyCommonClassNames.GROOVY_OBJECT_SUPPORT.equals(qname)) return;

    final PsiSubstitutor substitutor =
        TypesUtil.composeSubstitutors(resolveResult.getSubstitutor(), superClassSubstitutor);

    if (processedAll.contains(psiClass)) return;
    if (!shouldProcessDeprecated && processedWithoutDeprecated.contains(psiClass)) return;

    if (shouldProcessDeprecated) {
      processedAll.add(psiClass);
    } else {
      processedWithoutDeprecated.add(psiClass);
    }

    collectMethods(
        psiClass,
        substitutor,
        shouldProcessDeprecated,
        classToDelegateTo,
        result,
        keepParameterAnnotationsNew);
    process(
        psiClass,
        substitutor,
        shouldProcessDeprecated,
        processedWithoutDeprecated,
        processedAll,
        result,
        classToDelegateTo,
        keepParameterAnnotationsNew);
  }