Exemplo n.º 1
0
  @Nullable
  private static InsertHandler<LookupElement> getInsertHandler(
      @NotNull DeclarationDescriptor descriptor) {
    if (descriptor instanceof FunctionDescriptor) {
      FunctionDescriptor functionDescriptor = (FunctionDescriptor) descriptor;

      if (functionDescriptor.getValueParameters().isEmpty()) {
        return EMPTY_FUNCTION_HANDLER;
      }

      if (functionDescriptor.getValueParameters().size() == 1
          && KotlinBuiltIns.getInstance()
              .isFunctionOrExtensionFunctionType(
                  functionDescriptor.getValueParameters().get(0).getType())) {
        return PARAMS_BRACES_FUNCTION_HANDLER;
      }

      return PARAMS_PARENTHESIS_FUNCTION_HANDLER;
    }

    if (descriptor instanceof ClassDescriptor) {
      return JetClassInsertHandler.INSTANCE;
    }

    return null;
  }
Exemplo n.º 2
0
 protected void renderValueParameters(FunctionDescriptor descriptor, StringBuilder builder) {
   if (descriptor.getValueParameters().isEmpty()) {
     renderEmptyValueParameters(builder);
   }
   for (Iterator<ValueParameterDescriptor> iterator = descriptor.getValueParameters().iterator();
       iterator.hasNext(); ) {
     renderValueParameter(iterator.next(), !iterator.hasNext(), builder);
   }
 }
Exemplo n.º 3
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 private static int getVarargsFlag(FunctionDescriptor functionDescriptor) {
   if (!functionDescriptor.getValueParameters().isEmpty()
       && functionDescriptor
               .getValueParameters()
               .get(functionDescriptor.getValueParameters().size() - 1)
               .getVarargElementType()
           != null) {
     return ACC_VARARGS;
   }
   return 0;
 }
Exemplo n.º 4
0
  private ClassDescriptor recordClassForFunction(FunctionDescriptor funDescriptor) {
    ClassDescriptor classDescriptor;
    int arity = funDescriptor.getValueParameters().size();

    classDescriptor =
        new ClassDescriptorImpl(
            funDescriptor.getContainingDeclaration(),
            Collections.<AnnotationDescriptor>emptyList(),
            Modality.FINAL,
            Name.special("<closure>"));
    ((ClassDescriptorImpl) classDescriptor)
        .initialize(
            false,
            Collections.<TypeParameterDescriptor>emptyList(),
            Collections.singleton(
                (funDescriptor.getReceiverParameter().exists()
                        ? JetStandardClasses.getReceiverFunction(arity)
                        : JetStandardClasses.getFunction(arity))
                    .getDefaultType()),
            JetScope.EMPTY,
            Collections.<ConstructorDescriptor>emptySet(),
            null);

    assert PsiCodegenPredictor.checkPredictedClassNameForFun(
        bindingContext, funDescriptor, classDescriptor);
    bindingTrace.record(CLASS_FOR_FUNCTION, funDescriptor, classDescriptor);
    return classDescriptor;
  }
Exemplo n.º 5
0
  @NotNull
  public Collection<JetType> getSupertypesForClosure(@NotNull FunctionDescriptor descriptor) {
    ReceiverParameterDescriptor receiverParameter = descriptor.getReceiverParameter();

    List<TypeProjection> typeArguments = new ArrayList<TypeProjection>(2);

    ClassDescriptor classDescriptor;
    if (receiverParameter != null) {
      classDescriptor = extensionFunctionImpl;
      typeArguments.add(new TypeProjectionImpl(receiverParameter.getType()));
    } else {
      classDescriptor = functionImpl;
    }

    //noinspection ConstantConditions
    typeArguments.add(new TypeProjectionImpl(descriptor.getReturnType()));

    JetType functionImplType =
        new JetTypeImpl(
            classDescriptor.getDefaultType().getAnnotations(),
            classDescriptor.getTypeConstructor(),
            false,
            typeArguments,
            classDescriptor.getMemberScope(typeArguments));

    JetType functionType =
        KotlinBuiltIns.getInstance()
            .getFunctionType(
                Annotations.EMPTY,
                receiverParameter == null ? null : receiverParameter.getType(),
                DescriptorUtils.getValueParametersTypes(descriptor.getValueParameters()),
                descriptor.getReturnType());

    return Arrays.asList(functionImplType, functionType);
  }
Exemplo n.º 6
0
  @NotNull
  private static Multimap<FqName, Pair<FunctionDescriptor, PsiMethod>>
      getSuperclassToFunctionsMultimap(
          @NotNull PsiMethodWrapper method,
          @NotNull BindingContext bindingContext,
          @NotNull ClassDescriptor containingClass) {
    Multimap<FqName, Pair<FunctionDescriptor, PsiMethod>> result = HashMultimap.create();

    Name functionName = Name.identifier(method.getName());
    int parameterCount = method.getParameters().size();

    for (JetType supertype : TypeUtils.getAllSupertypes(containingClass.getDefaultType())) {
      ClassifierDescriptor klass = supertype.getConstructor().getDeclarationDescriptor();
      assert klass != null;
      FqName fqName = DescriptorUtils.getFQName(klass).toSafe();

      for (FunctionDescriptor fun :
          klass.getDefaultType().getMemberScope().getFunctions(functionName)) {
        if (fun.getKind().isReal() && fun.getValueParameters().size() == parameterCount) {
          PsiElement declaration = BindingContextUtils.descriptorToDeclaration(bindingContext, fun);
          if (declaration instanceof PsiMethod) {
            result.put(fqName, Pair.create(fun, (PsiMethod) declaration));
          } // else declaration is null or JetNamedFunction: both cases are processed later
        }
      }
    }
    return result;
  }
Exemplo n.º 7
0
  public static void genNotNullAssertionsForParameters(
      @NotNull InstructionAdapter v,
      @NotNull GenerationState state,
      @NotNull FunctionDescriptor descriptor,
      @NotNull FrameMap frameMap) {
    if (!state.isGenerateNotNullParamAssertions()) return;

    // Private method is not accessible from other classes, no assertions needed
    if (getVisibilityAccessFlag(descriptor) == ACC_PRIVATE) return;

    for (ValueParameterDescriptor parameter : descriptor.getValueParameters()) {
      JetType type = parameter.getReturnType();
      if (type == null || isNullableType(type)) continue;

      int index = frameMap.getIndex(parameter);
      Type asmType = state.getTypeMapper().mapReturnType(type);
      if (asmType.getSort() == Type.OBJECT || asmType.getSort() == Type.ARRAY) {
        v.load(index, asmType);
        v.visitLdcInsn(descriptor.getName().asString());
        v.invokestatic(
            "jet/runtime/Intrinsics",
            "checkParameterIsNotNull",
            "(Ljava/lang/Object;Ljava/lang/String;)V");
      }
    }
  }
 @Nullable
 public static List<ValueParameterDescriptor> getSubstitutedValueParameters(
     FunctionDescriptor substitutedDescriptor,
     @NotNull FunctionDescriptor functionDescriptor,
     @NotNull TypeSubstitutor substitutor) {
   List<ValueParameterDescriptor> result = new ArrayList<ValueParameterDescriptor>();
   List<ValueParameterDescriptor> unsubstitutedValueParameters =
       functionDescriptor.getValueParameters();
   for (int i = 0, unsubstitutedValueParametersSize = unsubstitutedValueParameters.size();
       i < unsubstitutedValueParametersSize;
       i++) {
     ValueParameterDescriptor unsubstitutedValueParameter = unsubstitutedValueParameters.get(i);
     // TODO : Lazy?
     JetType substitutedType =
         substitutor.substitute(unsubstitutedValueParameter.getType(), Variance.IN_VARIANCE);
     JetType varargElementType = unsubstitutedValueParameter.getVarargElementType();
     JetType substituteVarargElementType =
         varargElementType == null
             ? null
             : substitutor.substitute(varargElementType, Variance.IN_VARIANCE);
     if (substitutedType == null) return null;
     result.add(
         new ValueParameterDescriptorImpl(
             substitutedDescriptor,
             unsubstitutedValueParameter,
             unsubstitutedValueParameter.getAnnotations(),
             unsubstitutedValueParameter.isVar(),
             substitutedType,
             substituteVarargElementType));
   }
   return result;
 }
 @NotNull
 public static JetScope getFunctionInnerScope(
     @NotNull JetScope outerScope,
     @NotNull FunctionDescriptor descriptor,
     @NotNull BindingTrace trace) {
   WritableScope parameterScope =
       new WritableScopeImpl(
           outerScope,
           descriptor,
           new TraceBasedRedeclarationHandler(trace),
           "Function inner scope");
   ReceiverParameterDescriptor receiver = descriptor.getReceiverParameter();
   if (receiver != null) {
     parameterScope.setImplicitReceiver(receiver);
   }
   for (TypeParameterDescriptor typeParameter : descriptor.getTypeParameters()) {
     parameterScope.addTypeParameterDescriptor(typeParameter);
   }
   for (ValueParameterDescriptor valueParameterDescriptor : descriptor.getValueParameters()) {
     parameterScope.addVariableDescriptor(valueParameterDescriptor);
   }
   parameterScope.addLabeledDeclaration(descriptor);
   parameterScope.changeLockLevel(WritableScope.LockLevel.READING);
   return parameterScope;
 }
Exemplo n.º 10
0
    public void serialize(FunctionDescriptor fun) {
      serialize(fun.getModality());
      sb.append(" ");

      if (!fun.getAnnotations().isEmpty()) {
        new Serializer(sb).serializeSeparated(fun.getAnnotations(), " ");
        sb.append(" ");
      }

      if (!fun.getOverriddenDescriptors().isEmpty()) {
        sb.append("override /*" + fun.getOverriddenDescriptors().size() + "*/ ");
      }

      if (fun instanceof ConstructorDescriptor) {
        sb.append("/*constructor*/ ");
      }
      sb.append("fun ");
      if (!fun.getTypeParameters().isEmpty()) {
        sb.append("<");
        new Serializer(sb).serializeCommaSeparated(fun.getTypeParameters());
        sb.append(">");
      }

      if (fun.getReceiverParameter().exists()) {
        new TypeSerializer(sb).serialize(fun.getReceiverParameter());
        sb.append(".");
      }

      sb.append(fun.getName());
      sb.append("(");
      new TypeSerializer(sb).serializeCommaSeparated(fun.getValueParameters());
      sb.append("): ");
      new TypeSerializer(sb).serialize(fun.getReturnType());
    }
Exemplo n.º 11
0
  @NotNull
  public JetTypeInfo getSimpleNameExpressionTypeInfo(
      @NotNull JetSimpleNameExpression nameExpression,
      @NotNull ReceiverValue receiver,
      @Nullable ASTNode callOperationNode,
      @NotNull ResolutionContext context) {
    boolean[] result = new boolean[1];

    TemporaryBindingTrace traceForVariable =
        TemporaryBindingTrace.create(context.trace, "trace to resolve as variable", nameExpression);
    JetType type =
        getVariableType(
            nameExpression,
            receiver,
            callOperationNode,
            context.replaceBindingTrace(traceForVariable),
            result);
    if (result[0]) {
      traceForVariable.commit();
      if (type instanceof NamespaceType && context.expressionPosition == ExpressionPosition.FREE) {
        type = null;
      }
      return JetTypeInfo.create(type, context.dataFlowInfo);
    }

    Call call =
        CallMaker.makeCall(
            nameExpression,
            receiver,
            callOperationNode,
            nameExpression,
            Collections.<ValueArgument>emptyList());
    TemporaryBindingTrace traceForFunction =
        TemporaryBindingTrace.create(context.trace, "trace to resolve as function", nameExpression);
    ResolvedCall<FunctionDescriptor> resolvedCall =
        getResolvedCallForFunction(
            call,
            nameExpression,
            receiver,
            context,
            ResolveMode.TOP_LEVEL_CALL,
            ResolutionResultsCache.create(),
            result);
    if (result[0]) {
      FunctionDescriptor functionDescriptor =
          resolvedCall != null ? resolvedCall.getResultingDescriptor() : null;
      traceForFunction.commit();
      boolean hasValueParameters =
          functionDescriptor == null || functionDescriptor.getValueParameters().size() > 0;
      context.trace.report(
          FUNCTION_CALL_EXPECTED.on(nameExpression, nameExpression, hasValueParameters));
      type = functionDescriptor != null ? functionDescriptor.getReturnType() : null;
      return JetTypeInfo.create(type, context.dataFlowInfo);
    }

    traceForVariable.commit();
    return JetTypeInfo.create(null, context.dataFlowInfo);
  }
Exemplo n.º 12
0
 private void renderValueParameters(
     @NotNull FunctionDescriptor function, @NotNull StringBuilder builder) {
   handler.appendBeforeValueParameters(function, builder);
   for (ValueParameterDescriptor parameter : function.getValueParameters()) {
     handler.appendBeforeValueParameter(parameter, builder);
     renderValueParameter(parameter, builder, false);
     handler.appendAfterValueParameter(parameter, builder);
   }
   handler.appendAfterValueParameters(function, builder);
 }
Exemplo n.º 13
0
  @NotNull
  private VarargCheckResult checkVarargInSuperFunctions(
      @NotNull ValueParameterDescriptor originalParam) {
    boolean someSupersVararg = false;
    boolean someSupersNotVararg = false;
    for (FunctionDescriptor superFunction : superFunctions) {
      if (superFunction.getValueParameters().get(originalParam.getIndex()).getVarargElementType()
          != null) {
        someSupersVararg = true;
      } else {
        someSupersNotVararg = true;
      }
    }

    JetType originalVarargElementType = originalParam.getVarargElementType();
    JetType originalType = originalParam.getType();

    if (someSupersVararg && someSupersNotVararg) {
      reportError("Incompatible super methods: some have vararg parameter, some have not");
      return new VarargCheckResult(originalType, originalVarargElementType != null);
    }

    KotlinBuiltIns builtIns = KotlinBuiltIns.getInstance();
    if (someSupersVararg && originalVarargElementType == null) {
      // convert to vararg

      assert isArrayType(originalType);

      if (builtIns.isPrimitiveArray(originalType)) {
        // replace IntArray? with IntArray
        return new VarargCheckResult(TypeUtils.makeNotNullable(originalType), true);
      }

      // replace Array<out Foo>? with Array<Foo>
      JetType varargElementType = builtIns.getArrayElementType(originalType);
      return new VarargCheckResult(builtIns.getArrayType(INVARIANT, varargElementType), true);
    } else if (someSupersNotVararg && originalVarargElementType != null) {
      // convert to non-vararg

      assert isArrayType(originalType);

      if (builtIns.isPrimitiveArray(originalType)) {
        // replace IntArray with IntArray?
        return new VarargCheckResult(TypeUtils.makeNullable(originalType), false);
      }

      // replace Array<Foo> with Array<out Foo>?
      return new VarargCheckResult(
          TypeUtils.makeNullable(
              builtIns.getArrayType(Variance.OUT_VARIANCE, originalVarargElementType)),
          false);
    }

    return new VarargCheckResult(originalType, originalVarargElementType != null);
  }
 @NotNull
 private List<ValueParameterDescriptor> copyValueParameters(
     @NotNull FunctionDescriptor descriptor) {
   List<ValueParameterDescriptor> valueParameters = descriptor.getValueParameters();
   List<ValueParameterDescriptor> result =
       new ArrayList<ValueParameterDescriptor>(valueParameters.size());
   for (ValueParameterDescriptor valueParameter : valueParameters) {
     result.add(valueParameter.copy(this, valueParameter.getName()));
   }
   return result;
 }
Exemplo n.º 15
0
  public static SimpleFunctionDescriptor createInvoke(FunctionDescriptor fd) {
    int arity = fd.getValueParameters().size();
    SimpleFunctionDescriptorImpl invokeDescriptor =
        new SimpleFunctionDescriptorImpl(
            fd.getExpectedThisObject().exists()
                ? JetStandardClasses.getReceiverFunction(arity)
                : JetStandardClasses.getFunction(arity),
            Collections.<AnnotationDescriptor>emptyList(),
            Name.identifier("invoke"),
            CallableMemberDescriptor.Kind.DECLARATION);

    invokeDescriptor.initialize(
        fd.getReceiverParameter().exists() ? fd.getReceiverParameter().getType() : null,
        fd.getExpectedThisObject(),
        Collections.<TypeParameterDescriptorImpl>emptyList(),
        fd.getValueParameters(),
        fd.getReturnType(),
        Modality.FINAL,
        Visibilities.PUBLIC,
        /*isInline = */ false);
    return invokeDescriptor;
  }
 private static String renderNamedFunction(FunctionDescriptor descriptor) {
   String name = descriptor.getName().asString();
   String paramTypes =
       StringUtil.join(
           descriptor.getValueParameters(),
           new Function<ValueParameterDescriptor, String>() {
             @Override
             public String fun(ValueParameterDescriptor descriptor) {
               return DescriptorRenderer.SHORT_NAMES_IN_TYPES.renderType(descriptor.getType());
             }
           },
           ", ");
   return name + "(" + paramTypes + ")";
 }
 @NotNull
 private static JetType getFunctionTypeForSamType(@NotNull JetType samType) {
   FunctionDescriptor function = getAbstractMethodOfSamType(samType);
   JetType returnType = function.getReturnType();
   assert returnType != null : "function is not initialized: " + function;
   List<JetType> parameterTypes = Lists.newArrayList();
   for (ValueParameterDescriptor parameter : function.getValueParameters()) {
     parameterTypes.add(parameter.getType());
   }
   JetType functionType =
       KotlinBuiltIns.getInstance()
           .getFunctionType(
               Collections.<AnnotationDescriptor>emptyList(), null, parameterTypes, returnType);
   return TypeUtils.makeNullableAsSpecified(functionType, samType.isNullable());
 }
Exemplo n.º 18
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  @NotNull
  public Collection<JetType> getSupertypesForCallableReference(
      @NotNull FunctionDescriptor descriptor) {
    ReceiverParameterDescriptor receiverParameter = descriptor.getReceiverParameter();
    ReceiverParameterDescriptor expectedThisObject = descriptor.getExpectedThisObject();

    List<TypeProjection> typeArguments = new ArrayList<TypeProjection>(2);

    ClassDescriptor classDescriptor;
    JetType receiverType;
    if (receiverParameter != null) {
      classDescriptor = kExtensionFunctionImpl;
      receiverType = receiverParameter.getType();
      typeArguments.add(new TypeProjectionImpl(receiverType));
    } else if (expectedThisObject != null) {
      classDescriptor = kMemberFunctionImpl;
      receiverType = expectedThisObject.getType();
      typeArguments.add(new TypeProjectionImpl(receiverType));
    } else {
      classDescriptor = kFunctionImpl;
      receiverType = null;
    }

    //noinspection ConstantConditions
    typeArguments.add(new TypeProjectionImpl(descriptor.getReturnType()));

    JetType kFunctionImplType =
        new JetTypeImpl(
            classDescriptor.getDefaultType().getAnnotations(),
            classDescriptor.getTypeConstructor(),
            false,
            typeArguments,
            classDescriptor.getMemberScope(typeArguments));

    JetType kFunctionType =
        reflectionTypes.getKFunctionType(
            Annotations.EMPTY,
            receiverType,
            DescriptorUtils.getValueParametersTypes(descriptor.getValueParameters()),
            descriptor.getReturnType(),
            receiverParameter != null);

    return Arrays.asList(kFunctionImplType, kFunctionType);
  }
Exemplo n.º 19
0
  private void resolveFunctionBody(
      @NotNull BindingTrace trace,
      @NotNull JetDeclarationWithBody function,
      @NotNull FunctionDescriptor functionDescriptor,
      @NotNull JetScope declaringScope) {
    if (!context.completeAnalysisNeeded(function)) return;

    JetExpression bodyExpression = function.getBodyExpression();
    JetScope functionInnerScope =
        FunctionDescriptorUtil.getFunctionInnerScope(declaringScope, functionDescriptor, trace);
    if (bodyExpression != null) {
      expressionTypingServices.checkFunctionReturnType(
          functionInnerScope, function, functionDescriptor, trace);
    }

    List<JetParameter> valueParameters = function.getValueParameters();
    List<ValueParameterDescriptor> valueParameterDescriptors =
        functionDescriptor.getValueParameters();

    checkDefaultParameterValues(valueParameters, valueParameterDescriptors, functionInnerScope);

    assert functionDescriptor.getReturnType() != null;
  }
Exemplo n.º 20
0
  public static boolean containsErrorType(@NotNull FunctionDescriptor function) {
    if (containsErrorType(function.getReturnType())) {
      return true;
    }
    ReceiverParameterDescriptor receiverParameter = function.getReceiverParameter();
    if (receiverParameter != null && containsErrorType(receiverParameter.getType())) {
      return true;
    }
    for (ValueParameterDescriptor parameter : function.getValueParameters()) {
      if (containsErrorType(parameter.getType())) {
        return true;
      }
    }
    for (TypeParameterDescriptor parameter : function.getTypeParameters()) {
      for (JetType upperBound : parameter.getUpperBounds()) {
        if (containsErrorType(upperBound)) {
          return true;
        }
      }
    }

    return false;
  }
Exemplo n.º 21
0
 private static int valueParametersCount(@NotNull FunctionDescriptor functionDescriptor) {
   return functionDescriptor.getValueParameters().size();
 }
  @NotNull
  public TypeInfoForCall getCallExpressionTypeInfoForCallWithoutFinalTypeCheck(
      @NotNull JetCallExpression callExpression,
      @NotNull ReceiverValue receiver,
      @Nullable ASTNode callOperationNode,
      @NotNull ResolutionContext context,
      @NotNull ResolveMode resolveMode) {
    boolean[] result = new boolean[1];
    Call call = CallMaker.makeCall(receiver, callOperationNode, callExpression);

    TemporaryBindingTrace traceForFunction =
        TemporaryBindingTrace.create(
            context.trace, "trace to resolve as function call", callExpression);
    ResolvedCall<FunctionDescriptor> resolvedCall =
        getResolvedCallForFunction(
            call,
            callExpression,
            receiver,
            context.replaceBindingTrace(traceForFunction),
            resolveMode,
            result);
    if (result[0]) {
      FunctionDescriptor functionDescriptor =
          resolvedCall != null ? resolvedCall.getResultingDescriptor() : null;
      traceForFunction.commit();
      if (callExpression.getValueArgumentList() == null
          && callExpression.getFunctionLiteralArguments().isEmpty()) {
        // there are only type arguments
        boolean hasValueParameters =
            functionDescriptor == null || functionDescriptor.getValueParameters().size() > 0;
        context.trace.report(
            FUNCTION_CALL_EXPECTED.on(callExpression, callExpression, hasValueParameters));
      }
      if (functionDescriptor == null) {
        return TypeInfoForCall.create(null, context.dataFlowInfo);
      }
      JetType type = functionDescriptor.getReturnType();

      return TypeInfoForCall.create(
          type, resolvedCall.getDataFlowInfo(), resolvedCall, call, context, resolveMode);
    }

    JetExpression calleeExpression = callExpression.getCalleeExpression();
    if (calleeExpression instanceof JetSimpleNameExpression
        && callExpression.getTypeArgumentList() == null) {
      TemporaryBindingTrace traceForVariable =
          TemporaryBindingTrace.create(
              context.trace, "trace to resolve as variable with 'invoke' call", callExpression);
      JetType type =
          getVariableType(
              (JetSimpleNameExpression) calleeExpression,
              receiver,
              callOperationNode,
              context.replaceBindingTrace(traceForVariable),
              result);
      if (result[0]) {
        traceForVariable.commit();
        context.trace.report(
            FUNCTION_EXPECTED.on(
                (JetReferenceExpression) calleeExpression,
                calleeExpression,
                type != null ? type : ErrorUtils.createErrorType("")));
        return TypeInfoForCall.create(null, context.dataFlowInfo);
      }
    }
    traceForFunction.commit();
    return TypeInfoForCall.create(null, context.dataFlowInfo);
  }
  @Override
  public void updateUI(
      Pair<? extends FunctionDescriptor, CancelableResolveSession> itemToShow,
      ParameterInfoUIContext context) {
    // todo: when we will have ability to pass Array as vararg, implement such feature here too?
    if (context == null
        || context.getParameterOwner() == null
        || !context.getParameterOwner().isValid()) {
      context.setUIComponentEnabled(false);
      return;
    }

    PsiElement parameterOwner = context.getParameterOwner();
    if (!(parameterOwner instanceof JetValueArgumentList)) {
      context.setUIComponentEnabled(false);
      return;
    }

    JetValueArgumentList argumentList = (JetValueArgumentList) parameterOwner;

    FunctionDescriptor functionDescriptor = itemToShow.first;
    CancelableResolveSession resolveSession = itemToShow.second;

    List<ValueParameterDescriptor> valueParameters = functionDescriptor.getValueParameters();
    List<JetValueArgument> valueArguments = argumentList.getArguments();

    int currentParameterIndex = context.getCurrentParameterIndex();
    int boldStartOffset = -1;
    int boldEndOffset = -1;
    boolean isGrey = false;
    boolean isDeprecated = false; // todo: add deprecation check

    boolean[] usedIndexes = new boolean[valueParameters.size()];
    Arrays.fill(usedIndexes, false);

    boolean namedMode = false;

    if (!isIndexValid(valueParameters, currentParameterIndex)) {
      isGrey = true;
    }

    StringBuilder builder = new StringBuilder();

    PsiElement owner = context.getParameterOwner();
    BindingContext bindingContext = resolveSession.resolveToElement((JetElement) owner);

    for (int i = 0; i < valueParameters.size(); ++i) {
      if (i != 0) {
        builder.append(", ");
      }

      boolean highlightParameter =
          i == currentParameterIndex
              || (!namedMode
                  && i < currentParameterIndex
                  && Iterables.getLast(valueParameters).getVarargElementType() != null);

      if (highlightParameter) {
        boldStartOffset = builder.length();
      }

      if (!namedMode) {
        if (valueArguments.size() > i) {
          JetValueArgument argument = valueArguments.get(i);
          if (argument.isNamed()) {
            namedMode = true;
          } else {
            ValueParameterDescriptor param = valueParameters.get(i);
            builder.append(renderParameter(param, false, bindingContext));
            if (i <= currentParameterIndex
                && !isArgumentTypeValid(bindingContext, argument, param)) {
              isGrey = true;
            }
            usedIndexes[i] = true;
          }
        } else {
          ValueParameterDescriptor param = valueParameters.get(i);
          builder.append(renderParameter(param, false, bindingContext));
        }
      }

      if (namedMode) {
        boolean takeAnyArgument = true;
        if (valueArguments.size() > i) {
          JetValueArgument argument = valueArguments.get(i);
          if (argument.isNamed()) {
            for (int j = 0; j < valueParameters.size(); ++j) {
              JetSimpleNameExpression referenceExpression =
                  argument.getArgumentName().getReferenceExpression();
              ValueParameterDescriptor param = valueParameters.get(j);
              if (referenceExpression != null
                  && !usedIndexes[j]
                  && param.getName().equals(referenceExpression.getReferencedNameAsName())) {
                takeAnyArgument = false;
                usedIndexes[j] = true;
                builder.append(renderParameter(param, true, bindingContext));
                if (i < currentParameterIndex
                    && !isArgumentTypeValid(bindingContext, argument, param)) {
                  isGrey = true;
                }
                break;
              }
            }
          }
        }

        if (takeAnyArgument) {
          if (i < currentParameterIndex) {
            isGrey = true;
          }

          for (int j = 0; j < valueParameters.size(); ++j) {
            ValueParameterDescriptor param = valueParameters.get(j);
            if (!usedIndexes[j]) {
              usedIndexes[j] = true;
              builder.append(renderParameter(param, true, bindingContext));
              break;
            }
          }
        }
      }

      if (highlightParameter) {
        boldEndOffset = builder.length();
      }
    }

    if (valueParameters.size() == 0) {
      builder.append(CodeInsightBundle.message("parameter.info.no.parameters"));
    }

    assert !builder.toString().isEmpty()
        : "A message about 'no parameters' or some parameters should be present: "
            + functionDescriptor;

    Color color =
        isResolvedToDescriptor(argumentList, functionDescriptor, bindingContext)
            ? GREEN_BACKGROUND
            : context.getDefaultParameterColor();
    context.setupUIComponentPresentation(
        builder.toString(), boldStartOffset, boldEndOffset, isGrey, isDeprecated, false, color);
  }
  @Override
  public void updateUI(Object descriptor, ParameterInfoUIContext context) {
    // todo: when we will have ability to pass Array as vararg, implement such feature here too?
    if (context == null
        || context.getParameterOwner() == null
        || !context.getParameterOwner().isValid()) {
      return;
    }
    PsiElement parameterOwner = context.getParameterOwner();
    if (parameterOwner instanceof JetValueArgumentList) {
      JetValueArgumentList argumentList = (JetValueArgumentList) parameterOwner;
      if (descriptor instanceof FunctionDescriptor) {
        JetFile file = (JetFile) argumentList.getContainingFile();
        BindingContext bindingContext = AnalyzeSingleFileUtil.getContextForSingleFile(file);
        FunctionDescriptor functionDescriptor = (FunctionDescriptor) descriptor;
        StringBuilder builder = new StringBuilder();
        List<ValueParameterDescriptor> valueParameters = functionDescriptor.getValueParameters();
        List<JetValueArgument> valueArguments = argumentList.getArguments();
        int currentParameterIndex = context.getCurrentParameterIndex();
        int boldStartOffset = -1;
        int boldEndOffset = -1;
        boolean isGrey = false;
        boolean isDeprecated = false; // todo: add deprecation check
        Color color = context.getDefaultParameterColor();
        PsiElement parent = argumentList.getParent();
        if (parent instanceof JetCallElement) {
          JetCallElement callExpression = (JetCallElement) parent;
          JetExpression calleeExpression = callExpression.getCalleeExpression();
          JetSimpleNameExpression refExpression = null;
          if (calleeExpression instanceof JetSimpleNameExpression) {
            refExpression = (JetSimpleNameExpression) calleeExpression;
          } else if (calleeExpression instanceof JetConstructorCalleeExpression) {
            JetConstructorCalleeExpression constructorCalleeExpression =
                (JetConstructorCalleeExpression) calleeExpression;
            if (constructorCalleeExpression.getConstructorReferenceExpression()
                instanceof JetSimpleNameExpression) {
              refExpression =
                  (JetSimpleNameExpression)
                      constructorCalleeExpression.getConstructorReferenceExpression();
            }
          }
          if (refExpression != null) {
            DeclarationDescriptor declarationDescriptor =
                bindingContext.get(BindingContext.REFERENCE_TARGET, refExpression);
            if (declarationDescriptor != null) {
              if (declarationDescriptor == functionDescriptor) {
                color = GREEN_BACKGROUND;
              }
            }
          }
        }

        boolean[] usedIndexes = new boolean[valueParameters.size()];
        boolean namedMode = false;
        Arrays.fill(usedIndexes, false);
        if ((currentParameterIndex >= valueParameters.size()
                && (valueParameters.size() > 0 || currentParameterIndex > 0))
            && (valueParameters.size() == 0
                || valueParameters.get(valueParameters.size() - 1).getVarargElementType()
                    == null)) {
          isGrey = true;
        }
        if (valueParameters.size() == 0)
          builder.append(CodeInsightBundle.message("parameter.info.no.parameters"));
        for (int i = 0; i < valueParameters.size(); ++i) {
          if (i != 0) builder.append(", ");
          boolean highlightParameter =
              i == currentParameterIndex
                  || (!namedMode
                      && i < currentParameterIndex
                      && valueParameters.get(valueParameters.size() - 1).getVarargElementType()
                          != null);
          if (highlightParameter) boldStartOffset = builder.length();
          if (!namedMode) {
            if (valueArguments.size() > i) {
              JetValueArgument argument = valueArguments.get(i);
              if (argument.isNamed()) {
                namedMode = true;
              } else {
                ValueParameterDescriptor param = valueParameters.get(i);
                builder.append(renderParameter(param, false, bindingContext));
                if (i < currentParameterIndex) {
                  if (argument.getArgumentExpression() != null) {
                    // check type
                    JetType paramType = getActualParameterType(param);
                    JetType exprType =
                        bindingContext.get(
                            BindingContext.EXPRESSION_TYPE, argument.getArgumentExpression());
                    if (exprType != null
                        && !JetTypeChecker.INSTANCE.isSubtypeOf(exprType, paramType)) isGrey = true;
                  } else isGrey = true;
                }
                usedIndexes[i] = true;
              }
            } else {
              ValueParameterDescriptor param = valueParameters.get(i);
              builder.append(renderParameter(param, false, bindingContext));
            }
          }
          if (namedMode) {
            boolean takeAnyArgument = true;
            if (valueArguments.size() > i) {
              JetValueArgument argument = valueArguments.get(i);
              if (argument.isNamed()) {
                for (int j = 0; j < valueParameters.size(); ++j) {
                  JetSimpleNameExpression referenceExpression =
                      argument.getArgumentName().getReferenceExpression();
                  ValueParameterDescriptor param = valueParameters.get(j);
                  if (referenceExpression != null
                      && !usedIndexes[j]
                      && param.getName().equals(referenceExpression.getReferencedNameAsName())) {
                    takeAnyArgument = false;
                    usedIndexes[j] = true;
                    builder.append(renderParameter(param, true, bindingContext));
                    if (i < currentParameterIndex) {
                      if (argument.getArgumentExpression() != null) {
                        // check type
                        JetType paramType = getActualParameterType(param);
                        JetType exprType =
                            bindingContext.get(
                                BindingContext.EXPRESSION_TYPE, argument.getArgumentExpression());
                        if (exprType != null
                            && !JetTypeChecker.INSTANCE.isSubtypeOf(exprType, paramType))
                          isGrey = true;
                      } else isGrey = true;
                    }
                    break;
                  }
                }
              }
            }

            if (takeAnyArgument) {
              if (i < currentParameterIndex) isGrey = true;

              for (int j = 0; j < valueParameters.size(); ++j) {
                ValueParameterDescriptor param = valueParameters.get(j);
                if (!usedIndexes[j]) {
                  usedIndexes[j] = true;
                  builder.append(renderParameter(param, true, bindingContext));
                  break;
                }
              }
            }
          }
          if (highlightParameter) boldEndOffset = builder.length();
        }
        if (builder.toString().isEmpty()) context.setUIComponentEnabled(false);
        else
          context.setupUIComponentPresentation(
              builder.toString(),
              boldStartOffset,
              boldEndOffset,
              isGrey,
              isDeprecated,
              false,
              color);
      } else context.setUIComponentEnabled(false);
    }
  }