public static void registerClassNameForScript(
      BindingTrace bindingTrace,
      @NotNull ScriptDescriptor scriptDescriptor,
      @NotNull JvmClassName className) {
    bindingTrace.record(SCRIPT_NAMES, className);

    ClassDescriptorImpl classDescriptor =
        new ClassDescriptorImpl(
            scriptDescriptor,
            Collections.<AnnotationDescriptor>emptyList(),
            Modality.FINAL,
            Name.special("<script-" + className + ">"));
    classDescriptor.initialize(
        false,
        Collections.<TypeParameterDescriptor>emptyList(),
        Collections.singletonList(KotlinBuiltIns.getInstance().getAnyType()),
        JetScope.EMPTY,
        Collections.<ConstructorDescriptor>emptySet(),
        null,
        false);

    recordClosure(bindingTrace, null, classDescriptor, null, className, false);

    assert PsiCodegenPredictor.checkPredictedClassNameForFun(
        bindingTrace.getBindingContext(), scriptDescriptor, classDescriptor);
    bindingTrace.record(CLASS_FOR_SCRIPT, scriptDescriptor, classDescriptor);
  }
Example #2
0
  @NotNull
  private Collection<PsiElement> getDeclarationsByDescriptor(
      @NotNull DeclarationDescriptor declarationDescriptor) {
    Collection<PsiElement> declarations;
    if (declarationDescriptor instanceof PackageViewDescriptor) {
      final PackageViewDescriptor aPackage = (PackageViewDescriptor) declarationDescriptor;
      Collection<JetFile> files = trace.get(BindingContext.PACKAGE_TO_FILES, aPackage.getFqName());

      if (files == null) {
        return Collections
            .emptyList(); // package can be defined out of Kotlin sources, e. g. in library or Java
        // code
      }

      declarations =
          Collections2.transform(
              files,
              new Function<JetFile, PsiElement>() {
                @Override
                public PsiElement apply(@Nullable JetFile file) {
                  assert file != null : "File is null for aPackage " + aPackage;
                  return file.getPackageDirective().getNameIdentifier();
                }
              });
    } else {
      declarations =
          Collections.singletonList(
              BindingContextUtils.descriptorToDeclaration(
                  trace.getBindingContext(), declarationDescriptor));
    }
    return declarations;
  }
Example #3
0
 @NotNull
 @Override
 public Collection<? extends JetType> getSupertypes() {
   if (supertypes == null) {
     if (resolveSession.isClassSpecial(DescriptorUtils.getFQName(LazyClassDescriptor.this))) {
       this.supertypes = Collections.emptyList();
     } else {
       JetClassOrObject classOrObject =
           declarationProvider.getOwnerInfo().getCorrespondingClassOrObject();
       if (classOrObject == null) {
         this.supertypes = Collections.emptyList();
       } else {
         List<JetType> allSupertypes =
             resolveSession
                 .getInjector()
                 .getDescriptorResolver()
                 .resolveSupertypes(
                     getScopeForClassHeaderResolution(),
                     LazyClassDescriptor.this,
                     classOrObject,
                     resolveSession.getTrace());
         List<JetType> validSupertypes =
             Lists.newArrayList(Collections2.filter(allSupertypes, VALID_SUPERTYPE));
         this.supertypes = validSupertypes;
         findAndDisconnectLoopsInTypeHierarchy(validSupertypes);
       }
     }
   }
   return supertypes;
 }
                  @Override
                  public Collection<JetType> invoke() {
                    if (resolveSession.isClassSpecial(
                        DescriptorUtils.getFQName(LazyClassDescriptor.this))) {
                      return Collections.emptyList();
                    } else {
                      JetClassOrObject classOrObject =
                          declarationProvider.getOwnerInfo().getCorrespondingClassOrObject();
                      if (classOrObject == null) {
                        return Collections.emptyList();
                      } else {
                        List<JetType> allSupertypes =
                            resolveSession
                                .getInjector()
                                .getDescriptorResolver()
                                .resolveSupertypes(
                                    getScopeForClassHeaderResolution(),
                                    LazyClassDescriptor.this,
                                    classOrObject,
                                    resolveSession.getTrace());

                        return Lists.newArrayList(
                            Collections2.filter(allSupertypes, VALID_SUPERTYPE));
                      }
                    }
                  }
Example #5
0
 static {
   ERROR_CLASS.initialize(
       true,
       Collections.<TypeParameterDescriptor>emptyList(),
       Collections.<JetType>emptyList(),
       createErrorScope("ERROR_CLASS"),
       ERROR_CONSTRUCTOR_GROUP,
       ERROR_CONSTRUCTOR,
       false);
 }
Example #6
0
 private static JetType createErrorTypeWithCustomDebugName(
     JetScope memberScope, String debugName) {
   return new ErrorTypeImpl(
       new TypeConstructorImpl(
           ERROR_CLASS,
           Collections.<AnnotationDescriptor>emptyList(),
           false,
           debugName,
           Collections.<TypeParameterDescriptorImpl>emptyList(),
           Collections.singleton(KotlinBuiltIns.getInstance().getAnyType())),
       memberScope);
 }
Example #7
0
 public static ConstructorDescriptor createErrorConstructor(
     int typeParameterCount, List<JetType> positionedValueParameterTypes) {
   ConstructorDescriptorImpl r =
       new ConstructorDescriptorImpl(
           ERROR_CLASS, Collections.<AnnotationDescriptor>emptyList(), false);
   r.initialize(
       Collections.<TypeParameterDescriptor>emptyList(), // TODO
       Collections.<ValueParameterDescriptor>emptyList(), // TODO
       Visibilities.INTERNAL);
   r.setReturnType(createErrorType("<ERROR RETURN TYPE>"));
   return r;
 }
Example #8
0
 private static SimpleFunctionDescriptor createErrorFunction(ErrorScope ownerScope) {
   ErrorSimpleFunctionDescriptorImpl function = new ErrorSimpleFunctionDescriptorImpl(ownerScope);
   function.initialize(
       null,
       ReceiverParameterDescriptor.NO_RECEIVER_PARAMETER,
       Collections.<TypeParameterDescriptorImpl>emptyList(), // TODO
       Collections.<ValueParameterDescriptor>emptyList(), // TODO
       createErrorType("<ERROR FUNCTION RETURN TYPE>"),
       Modality.OPEN,
       Visibilities.INTERNAL,
       /*isInline = */ false);
   return function;
 }
  @NotNull
  public static Collection<ClassDescriptor> getClassOrObjectDescriptorsByFqName(
      @NotNull ResolveSession resolveSession,
      @NotNull FqName fqName,
      boolean includeObjectDeclarations) {
    if (fqName.isRoot()) {
      return Collections.emptyList();
    }

    Collection<ClassDescriptor> classDescriptors = Lists.newArrayList();

    FqName packageFqName = fqName.parent();
    while (true) {
      NamespaceDescriptor packageDescriptor =
          resolveSession.getPackageDescriptorByFqName(packageFqName);
      if (packageDescriptor != null) {
        FqName classInPackagePath = new FqName(QualifiedNamesUtil.tail(packageFqName, fqName));
        Collection<ClassDescriptor> descriptors =
            getClassOrObjectDescriptorsByFqName(
                packageDescriptor, classInPackagePath, includeObjectDeclarations);
        classDescriptors.addAll(descriptors);
      }

      if (packageFqName.isRoot()) {
        break;
      } else {
        packageFqName = packageFqName.parent();
      }
    }

    return classDescriptors;
  }
  private static List<FunctionDescriptor> getSuperFunctionsForMethod(
      @NotNull PsiMethodWrapper method,
      @NotNull BindingTrace trace,
      @NotNull ClassDescriptor containingClass) {
    List<FunctionDescriptor> superFunctions = Lists.newArrayList();

    Map<ClassDescriptor, JetType> superclassToSupertype =
        getSuperclassToSupertypeMap(containingClass);

    Multimap<FqName, Pair<FunctionDescriptor, PsiMethod>> superclassToFunctions =
        getSuperclassToFunctionsMultimap(method, trace.getBindingContext(), containingClass);

    for (HierarchicalMethodSignature superSignature :
        method.getPsiMethod().getHierarchicalMethodSignature().getSuperSignatures()) {
      PsiMethod superMethod = superSignature.getMethod();

      PsiClass psiClass = superMethod.getContainingClass();
      assert psiClass != null;
      String classFqNameString = psiClass.getQualifiedName();
      assert classFqNameString != null;
      FqName classFqName = new FqName(classFqNameString);

      if (!JavaToKotlinClassMap.getInstance().mapPlatformClass(classFqName).isEmpty()) {
        for (FunctionDescriptor superFun :
            JavaToKotlinMethodMap.INSTANCE.getFunctions(superMethod, containingClass)) {
          superFunctions.add(substituteSuperFunction(superclassToSupertype, superFun));
        }
        continue;
      }

      DeclarationDescriptor superFun =
          superMethod instanceof JetClsMethod
              ? trace.get(
                  BindingContext.DECLARATION_TO_DESCRIPTOR,
                  ((JetClsMethod) superMethod).getOrigin())
              : findSuperFunction(superclassToFunctions.get(classFqName), superMethod);
      if (superFun == null) {
        reportCantFindSuperFunction(method);
        continue;
      }

      assert superFun instanceof FunctionDescriptor : superFun.getClass().getName();

      superFunctions.add(
          substituteSuperFunction(superclassToSupertype, (FunctionDescriptor) superFun));
    }

    // sorting for diagnostic stability
    Collections.sort(
        superFunctions,
        new Comparator<FunctionDescriptor>() {
          @Override
          public int compare(FunctionDescriptor fun1, FunctionDescriptor fun2) {
            FqNameUnsafe fqName1 = getFQName(fun1.getContainingDeclaration());
            FqNameUnsafe fqName2 = getFQName(fun2.getContainingDeclaration());
            return fqName1.getFqName().compareTo(fqName2.getFqName());
          }
        });
    return superFunctions;
  }
  private void createTypeConstructors(@NotNull TopDownAnalysisContext c) {
    for (Map.Entry<JetClassOrObject, ClassDescriptorWithResolutionScopes> entry :
        c.getClasses().entrySet()) {
      JetClassOrObject classOrObject = entry.getKey();
      MutableClassDescriptor descriptor = (MutableClassDescriptor) entry.getValue();
      if (classOrObject instanceof JetClass) {
        descriptorResolver.resolveMutableClassDescriptor(
            (JetClass) classOrObject, descriptor, trace);
      } else if (classOrObject instanceof JetObjectDeclaration) {
        descriptor.setModality(Modality.FINAL);
        descriptor.setVisibility(
            resolveVisibilityFromModifiers(classOrObject, getDefaultClassVisibility(descriptor)));
        descriptor.setTypeParameterDescriptors(Collections.<TypeParameterDescriptor>emptyList());
      }

      descriptor.createTypeConstructor();

      ClassKind kind = descriptor.getKind();
      if (kind == ClassKind.ENUM_ENTRY
          || kind == ClassKind.OBJECT
          || kind == ClassKind.ENUM_CLASS) {
        MutableClassDescriptorLite classObject = descriptor.getClassObjectDescriptor();
        assert classObject != null
            : "Enum entries and named objects should have class objects: "
                + classOrObject.getText();

        JetType supertype;
        if (kind == ClassKind.ENUM_CLASS) {
          supertype = KotlinBuiltIns.getInstance().getAnyType();
        } else {
          // This is a clever hack: each enum entry and object declaration (i.e. singleton) has a
          // synthetic class object.
          // We make this class object inherit from the singleton here, thus allowing to use the
          // singleton's class object where
          // the instance of the singleton is applicable. Effectively all members of the singleton
          // would be present in its class
          // object as fake overrides, so you can access them via standard class object notation:
          // ObjectName.memberName()
          supertype = descriptor.getDefaultType();
        }
        classObject.setSupertypes(Collections.singleton(supertype));
        classObject.createTypeConstructor();
      }
    }
  }
 private List<DeclarationDescriptor> sortDeclarations(Collection<DeclarationDescriptor> input) {
   ArrayList<DeclarationDescriptor> r = new ArrayList<DeclarationDescriptor>(input);
   Collections.sort(
       r,
       new Comparator<DeclarationDescriptor>() {
         @Override
         public int compare(DeclarationDescriptor o1, DeclarationDescriptor o2) {
           return o1.getName().compareTo(o2.getName());
         }
       });
   return r;
 }
Example #13
0
 @NotNull
 private List<AnnotationDescriptor> resolveAnnotations() {
   JetClassLikeInfo classInfo = declarationProvider.getOwnerInfo();
   JetModifierList modifierList = classInfo.getModifierList();
   if (modifierList != null) {
     AnnotationResolver annotationResolver = resolveSession.getInjector().getAnnotationResolver();
     JetScope scopeForDeclaration =
         getScopeProvider().getResolutionScopeForDeclaration(classInfo.getScopeAnchor());
     return annotationResolver.resolveAnnotationsWithArguments(
         scopeForDeclaration, modifierList, resolveSession.getTrace());
   } else {
     return Collections.emptyList();
   }
 }
  public static Map<TypeConstructor, TypeProjection> createSubstitutionContext(
      @NotNull FunctionDescriptor functionDescriptor, List<JetType> typeArguments) {
    if (functionDescriptor.getTypeParameters().isEmpty()) return Collections.emptyMap();

    Map<TypeConstructor, TypeProjection> result = new HashMap<TypeConstructor, TypeProjection>();

    int typeArgumentsSize = typeArguments.size();
    List<TypeParameterDescriptor> typeParameters = functionDescriptor.getTypeParameters();
    assert typeArgumentsSize == typeParameters.size();
    for (int i = 0; i < typeArgumentsSize; i++) {
      TypeParameterDescriptor typeParameterDescriptor = typeParameters.get(i);
      JetType typeArgument = typeArguments.get(i);
      result.put(typeParameterDescriptor.getTypeConstructor(), new TypeProjection(typeArgument));
    }
    return result;
  }
 private static BodyResolver createBodyResolver(
     DelegatingBindingTrace trace,
     JetFile file,
     BodyResolveContextForLazy bodyResolveContext,
     ModuleConfiguration moduleConfiguration) {
   TopDownAnalysisParameters parameters =
       new TopDownAnalysisParameters(
           Predicates.<PsiFile>alwaysTrue(),
           false,
           true,
           Collections.<AnalyzerScriptParameter>emptyList());
   InjectorForBodyResolve bodyResolve =
       new InjectorForBodyResolve(
           file.getProject(), parameters, trace, bodyResolveContext, moduleConfiguration);
   return bodyResolve.getBodyResolver();
 }
Example #16
0
 private static List<ValueParameterDescriptor> getValueParameters(
     FunctionDescriptor functionDescriptor, List<JetType> argumentTypes) {
   List<ValueParameterDescriptor> result = new ArrayList<ValueParameterDescriptor>();
   for (int i = 0, argumentTypesSize = argumentTypes.size(); i < argumentTypesSize; i++) {
     result.add(
         new ValueParameterDescriptorImpl(
             functionDescriptor,
             i,
             Collections.<AnnotationDescriptor>emptyList(),
             Name.special("<ERROR VALUE_PARAMETER>"),
             ERROR_PARAMETER_TYPE,
             false,
             null));
   }
   return result;
 }
  public static void initializeFromFunctionType(
      @NotNull FunctionDescriptorImpl functionDescriptor,
      @NotNull JetType functionType,
      @Nullable ReceiverParameterDescriptor expectedThisObject,
      @NotNull Modality modality,
      @NotNull Visibility visibility) {

    assert KotlinBuiltIns.getInstance().isFunctionOrExtensionFunctionType(functionType);
    functionDescriptor.initialize(
        KotlinBuiltIns.getInstance().getReceiverType(functionType),
        expectedThisObject,
        Collections.<TypeParameterDescriptorImpl>emptyList(),
        KotlinBuiltIns.getInstance().getValueParameters(functionDescriptor, functionType),
        KotlinBuiltIns.getInstance().getReturnTypeFromFunctionType(functionType),
        modality,
        visibility);
  }
    @NotNull
    private MutableClassDescriptor createSyntheticClassObject(
        @NotNull ClassDescriptor classDescriptor) {
      MutableClassDescriptor classObject =
          new MutableClassDescriptor(
              classDescriptor,
              outerScope,
              ClassKind.CLASS_OBJECT,
              false,
              getClassObjectName(classDescriptor.getName()));

      classObject.setModality(Modality.FINAL);
      classObject.setVisibility(DescriptorUtils.getSyntheticClassObjectVisibility());
      classObject.setTypeParameterDescriptors(Collections.<TypeParameterDescriptor>emptyList());
      createPrimaryConstructorForObject(null, classObject);
      return classObject;
    }
  private static String serializedDeclarationSets(Collection<? extends DeclarationDescriptor> ds) {
    List<String> strings = new ArrayList<String>();
    for (DeclarationDescriptor d : ds) {
      StringBuilder sb = new StringBuilder();
      new Serializer(sb).serialize(d);
      strings.add(sb.toString());
    }

    Collections.sort(strings, new MemberComparator());

    StringBuilder r = new StringBuilder();
    for (String string : strings) {
      r.append(string);
      r.append("\n");
    }
    return r.toString();
  }
  @NotNull
  public static Collection<JetFile> allFilesInNamespaces(
      BindingContext bindingContext, Collection<JetFile> files) {
    // todo: we use Set and add given files but ignoring other scripts because something non-clear
    // kept in binding
    // for scripts especially in case of REPL

    HashSet<FqName> names = new HashSet<FqName>();
    for (JetFile file : files) {
      if (!file.isScript()) {
        names.add(JetPsiUtil.getFQName(file));
      }
    }

    HashSet<JetFile> answer = new HashSet<JetFile>();
    answer.addAll(files);

    for (FqName name : names) {
      NamespaceDescriptor namespaceDescriptor =
          bindingContext.get(BindingContext.FQNAME_TO_NAMESPACE_DESCRIPTOR, name);
      Collection<JetFile> jetFiles = bindingContext.get(NAMESPACE_TO_FILES, namespaceDescriptor);
      if (jetFiles != null) answer.addAll(jetFiles);
    }

    List<JetFile> sortedAnswer = new ArrayList<JetFile>(answer);
    Collections.sort(
        sortedAnswer,
        new Comparator<JetFile>() {
          @NotNull
          private String path(JetFile file) {
            VirtualFile virtualFile = file.getVirtualFile();
            assert virtualFile != null : "VirtualFile is null for JetFile: " + file.getName();
            return virtualFile.getPath();
          }

          @Override
          public int compare(JetFile first, JetFile second) {
            return path(first).compareTo(path(second));
          }
        });

    return sortedAnswer;
  }
Example #21
0
 @Override
 public List<AnnotationDescriptor> getAnnotations() {
   if (annotations == null) {
     JetClassLikeInfo classInfo = declarationProvider.getOwnerInfo();
     JetModifierList modifierList = classInfo.getModifierList();
     if (modifierList != null) {
       AnnotationResolver annotationResolver =
           resolveSession.getInjector().getAnnotationResolver();
       annotations =
           annotationResolver.resolveAnnotations(
               resolveSession.getResolutionScope(classInfo.getScopeAnchor()),
               modifierList,
               resolveSession.getTrace());
     } else {
       annotations = Collections.emptyList();
     }
   }
   return annotations;
 }
Example #22
0
 protected Void visitVariableDescriptor(
     VariableDescriptor descriptor, StringBuilder builder, boolean skipValVar) {
   JetType type = descriptor.getType();
   if (descriptor instanceof ValueParameterDescriptor) {
     JetType varargElementType = ((ValueParameterDescriptor) descriptor).getVarargElementType();
     if (varargElementType != null) {
       builder.append(renderKeyword("vararg")).append(" ");
       type = varargElementType;
     }
   }
   String typeString =
       renderPropertyPrefixAndComputeTypeString(
           builder,
           skipValVar ? null : descriptor.isVar(),
           Collections.<TypeParameterDescriptor>emptyList(),
           ReceiverDescriptor.NO_RECEIVER,
           type);
   renderName(descriptor, builder);
   builder.append(" : ").append(escape(typeString));
   return null;
 }
  private static Collection<ClassDescriptor> getClassOrObjectDescriptorsByFqName(
      NamespaceDescriptor packageDescriptor, FqName path, boolean includeObjectDeclarations) {
    if (path.isRoot()) {
      return Collections.emptyList();
    }

    Collection<JetScope> scopes = Arrays.asList(packageDescriptor.getMemberScope());

    List<Name> names = path.pathSegments();
    if (names.size() > 1) {
      for (Name subName : path.pathSegments().subList(0, names.size() - 1)) {
        Collection<JetScope> tempScopes = Lists.newArrayList();
        for (JetScope scope : scopes) {
          ClassifierDescriptor classifier = scope.getClassifier(subName);
          if (classifier instanceof ClassDescriptorBase) {
            ClassDescriptorBase classDescriptor = (ClassDescriptorBase) classifier;
            tempScopes.add(classDescriptor.getUnsubstitutedInnerClassesScope());
          }
        }
        scopes = tempScopes;
      }
    }

    Name shortName = path.shortName();
    Collection<ClassDescriptor> resultClassifierDescriptors = Lists.newArrayList();
    for (JetScope scope : scopes) {
      ClassifierDescriptor classifier = scope.getClassifier(shortName);
      if (classifier instanceof ClassDescriptor) {
        resultClassifierDescriptors.add((ClassDescriptor) classifier);
      }
      if (includeObjectDeclarations) {
        ClassDescriptor objectDescriptor = scope.getObjectDescriptor(shortName);
        if (objectDescriptor != null) {
          resultClassifierDescriptors.add(objectDescriptor);
        }
      }
    }

    return resultClassifierDescriptors;
  }
Example #24
0
  @NotNull
  public Collection<ClassDescriptor> getTopLevelObjectsByName(
      @NotNull String name,
      @NotNull JetSimpleNameExpression expression,
      @NotNull ResolveSession resolveSession,
      @NotNull GlobalSearchScope scope) {
    BindingContext context = ResolveSessionUtils.resolveToExpression(resolveSession, expression);
    JetScope jetScope = context.get(BindingContext.RESOLUTION_SCOPE, expression);

    if (jetScope == null) {
      return Collections.emptyList();
    }

    Set<ClassDescriptor> result = Sets.newHashSet();

    Collection<JetObjectDeclaration> topObjects =
        JetTopLevelShortObjectNameIndex.getInstance().get(name, project, scope);
    for (JetObjectDeclaration objectDeclaration : topObjects) {
      FqName fqName = JetPsiUtil.getFQName(objectDeclaration);
      assert fqName != null
          : "Local object declaration in JetTopLevelShortObjectNameIndex:"
              + objectDeclaration.getText();
      result.addAll(
          ResolveSessionUtils.getClassOrObjectDescriptorsByFqName(resolveSession, fqName, true));
    }

    for (PsiClass psiClass :
        JetFromJavaDescriptorHelper.getCompiledClassesForTopLevelObjects(
            project, GlobalSearchScope.allScope(project))) {
      String qualifiedName = psiClass.getQualifiedName();
      if (qualifiedName != null) {
        FqName fqName = new FqName(qualifiedName);
        result.addAll(
            ResolveSessionUtils.getClassOrObjectDescriptorsByFqName(resolveSession, fqName, true));
      }
    }

    return result;
  }
Example #25
0
  @NotNull
  private String renderClassName(@NotNull ClassDescriptor klass) {
    if (ErrorUtils.isError(klass)) {
      return klass.getTypeConstructor().toString();
    }
    if (shortNames) {
      List<Name> qualifiedNameElements = Lists.newArrayList();

      // for nested classes qualified name should be used
      DeclarationDescriptor current = klass;
      do {
        if (((ClassDescriptor) current).getKind() != ClassKind.CLASS_OBJECT) {
          qualifiedNameElements.add(current.getName());
        }
        current = current.getContainingDeclaration();
      } while (current instanceof ClassDescriptor);

      Collections.reverse(qualifiedNameElements);
      return renderFqName(qualifiedNameElements);
    }
    return renderFqName(DescriptorUtils.getFQName(klass));
  }
 public void serialize(TypeParameterDescriptor param) {
   sb.append("/*");
   sb.append(param.getIndex());
   if (param.isReified()) {
     sb.append(",r");
   }
   sb.append("*/ ");
   serialize(param.getVariance());
   sb.append(param.getName());
   if (!param.getUpperBounds().isEmpty()) {
     sb.append(" : ");
     List<String> list = new ArrayList<String>();
     for (JetType upper : param.getUpperBounds()) {
       StringBuilder sb = new StringBuilder();
       new TypeSerializer(sb).serialize(upper);
       list.add(sb.toString());
     }
     Collections.sort(list);
     serializeSeparated(list, " & "); // TODO: use where
   }
   // TODO: lower bounds
 }
Example #27
0
  public JvmFunctionImplTypes(@NotNull ReflectionTypes reflectionTypes) {
    this.reflectionTypes = reflectionTypes;

    ModuleDescriptor fakeModule =
        new ModuleDescriptorImpl(
            Name.special("<fake module for functions impl>"),
            Collections.<ImportPath>emptyList(),
            JavaToKotlinClassMap.getInstance());

    PackageFragmentDescriptor kotlinJvmInternal =
        new MutablePackageFragmentDescriptor(fakeModule, new FqName("kotlin.jvm.internal"));
    PackageFragmentDescriptor kotlinReflectJvmInternal =
        new MutablePackageFragmentDescriptor(fakeModule, new FqName("kotlin.reflect.jvm.internal"));

    this.functionImpl = createClass(kotlinJvmInternal, "FunctionImpl", "out R");
    this.extensionFunctionImpl =
        createClass(kotlinJvmInternal, "ExtensionFunctionImpl", "in T", "out R");
    this.kFunctionImpl = createClass(kotlinReflectJvmInternal, "KFunctionImpl", "out R");
    this.kExtensionFunctionImpl =
        createClass(kotlinReflectJvmInternal, "KExtensionFunctionImpl", "in T", "out R");
    this.kMemberFunctionImpl =
        createClass(kotlinReflectJvmInternal, "KMemberFunctionImpl", "in T", "out R");
  }
 @NotNull
 @Override
 public Set<? extends Class> getArgListStopSearchClasses() {
   return Collections.singleton(JetFunction.class);
 }
 @NotNull
 @Override
 public Set<Class> getArgumentListAllowedParentClasses() {
   return Collections.singleton((Class) JetCallElement.class);
 }
Example #30
0
 @Override
 public List<AnnotationDescriptor> getAnnotations() {
   return Collections.emptyList(); // TODO
 }