/* FUNCTIONS */
private void renderFunction(
@NotNull FunctionDescriptor function, @NotNull StringBuilder builder) {
if (!startFromName) {
renderAnnotations(function, builder);
renderVisibility(function.getVisibility(), builder);
renderModalityForCallable(function, builder);
renderOverride(function, builder);
renderMemberKind(function, builder);
builder.append(renderKeyword("fun")).append(" ");
renderTypeParameters(function.getTypeParameters(), builder, true);
ReceiverParameterDescriptor receiver = function.getReceiverParameter();
if (receiver != null) {
builder.append(escape(renderType(receiver.getType()))).append(".");
}
}
renderName(function, builder);
renderValueParameters(function, builder);
JetType returnType = function.getReturnType();
if (unitReturnType || !KotlinBuiltIns.getInstance().isUnit(returnType)) {
builder.append(": ").append(returnType == null ? "[NULL]" : escape(renderType(returnType)));
}
renderWhereSuffix(function.getTypeParameters(), builder);
}
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");
}
}
}
@Override
public StackValue innerValue(
DeclarationDescriptor d,
LocalLookup localLookup,
GenerationState state,
MutableClosure closure,
Type classType) {
FunctionDescriptor vd = (FunctionDescriptor) d;
boolean idx = localLookup != null && localLookup.lookupLocal(vd);
if (!idx) return null;
BindingContext bindingContext = state.getBindingContext();
Type localType = asmTypeForAnonymousClass(bindingContext, vd);
MutableClosure localFunClosure =
bindingContext.get(CLOSURE, bindingContext.get(CLASS_FOR_FUNCTION, vd));
if (localFunClosure != null && JvmCodegenUtil.isConst(localFunClosure)) {
// This is an optimization: we can obtain an instance of a const closure simply by
// GETSTATIC ...$instance
// (instead of passing this instance to the constructor and storing as a field)
return StackValue.field(localType, localType, JvmAbi.INSTANCE_FIELD, true);
}
String fieldName = "$" + vd.getName();
StackValue innerValue = StackValue.field(localType, classType, fieldName, false);
closure.recordField(fieldName, localType);
closure.captureVariable(new EnclosedValueDescriptor(fieldName, d, innerValue, localType));
return innerValue;
}
public static int getMethodAsmFlags(FunctionDescriptor functionDescriptor, OwnerKind kind) {
int flags = getCommonCallableFlags(functionDescriptor);
if (functionDescriptor.getModality() == Modality.FINAL
&& !(functionDescriptor instanceof ConstructorDescriptor)) {
DeclarationDescriptor containingDeclaration = functionDescriptor.getContainingDeclaration();
if (!(containingDeclaration instanceof ClassDescriptor)
|| ((ClassDescriptor) containingDeclaration).getKind() != ClassKind.TRAIT) {
flags |= ACC_FINAL;
}
}
if (isStaticMethod(kind, functionDescriptor)) {
flags |= ACC_STATIC;
}
if (isAbstractMethod(functionDescriptor, kind)) {
flags |= ACC_ABSTRACT;
}
if (JetTypeMapper.isAccessor(functionDescriptor)) {
flags |= ACC_SYNTHETIC;
}
return flags;
}
@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);
}
public static boolean isLocalNamedFun(DeclarationDescriptor fd) {
if (fd instanceof FunctionDescriptor) {
FunctionDescriptor descriptor = (FunctionDescriptor) fd;
return descriptor.getVisibility() == Visibilities.LOCAL && !descriptor.getName().isSpecial();
}
return false;
}
@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;
}
@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;
}
@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;
}
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;
}
@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);
}
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);
}
}
@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);
}
private static int getVarargsFlag(FunctionDescriptor functionDescriptor) {
if (!functionDescriptor.getValueParameters().isEmpty()
&& functionDescriptor
.getValueParameters()
.get(functionDescriptor.getValueParameters().size() - 1)
.getVarargElementType()
!= null) {
return ACC_VARARGS;
}
return 0;
}
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());
}
@NotNull
private static FunctionDescriptor substituteSuperFunction(
@NotNull Map<ClassDescriptor, JetType> superclassToSupertype,
@NotNull FunctionDescriptor superFun) {
DeclarationDescriptor superFunContainer = superFun.getContainingDeclaration();
assert superFunContainer instanceof ClassDescriptor : superFunContainer;
JetType supertype = superclassToSupertype.get(superFunContainer);
assert supertype != null : "Couldn't find super type for super function: " + superFun;
TypeSubstitutor supertypeSubstitutor = TypeSubstitutor.create(supertype);
FunctionDescriptor substitutedSuperFun = superFun.substitute(supertypeSubstitutor);
assert substitutedSuperFun != null;
return substitutedSuperFun;
}
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;
}
@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;
}
@Nullable
public static FunctionDescriptor substituteFunctionDescriptor(
@NotNull List<JetType> typeArguments, @NotNull FunctionDescriptor functionDescriptor) {
Map<TypeConstructor, TypeProjection> substitutionContext =
createSubstitutionContext(functionDescriptor, typeArguments);
return functionDescriptor.substitute(TypeSubstitutor.create(substitutionContext));
}
@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);
}
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);
}
@Override
public Void visitFunctionDescriptor(FunctionDescriptor descriptor, StringBuilder builder) {
renderVisibility(descriptor.getVisibility(), builder);
renderModality(descriptor.getModality(), builder);
builder.append(renderKeyword("fun")).append(" ");
if (renderTypeParameters(descriptor.getTypeParameters(), builder)) {
builder.append(" ");
}
ReceiverDescriptor receiver = descriptor.getReceiverParameter();
if (receiver.exists()) {
builder.append(escape(renderType(receiver.getType()))).append(".");
}
renderName(descriptor, builder);
renderValueParameters(descriptor, builder);
builder.append(" : ").append(escape(renderType(descriptor.getReturnType())));
renderWhereSuffix(descriptor, builder);
return 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;
}
@Override
public StackValue generate(
ExpressionCodegen codegen,
InstructionAdapter v,
@NotNull Type expectedType,
PsiElement element,
List<JetExpression> arguments,
StackValue receiver,
@NotNull GenerationState state) {
receiver.put(AsmTypeConstants.OBJECT_TYPE, v);
JetCallExpression call = (JetCallExpression) element;
FunctionDescriptor funDescriptor =
(FunctionDescriptor)
codegen
.getBindingContext()
.get(
BindingContext.REFERENCE_TARGET,
(JetSimpleNameExpression) call.getCalleeExpression());
assert funDescriptor != null;
ClassDescriptor containingDeclaration =
(ClassDescriptor) funDescriptor.getContainingDeclaration().getOriginal();
if (containingDeclaration.equals(JetStandardLibrary.getInstance().getArray())) {
v.invokestatic(
"jet/runtime/ArrayIterator", "iterator", "([Ljava/lang/Object;)Ljava/util/Iterator;");
return StackValue.onStack(AsmTypeConstants.JET_ITERATOR_TYPE);
} else {
for (JvmPrimitiveType jvmPrimitiveType : JvmPrimitiveType.values()) {
PrimitiveType primitiveType = jvmPrimitiveType.getPrimitiveType();
if (primitiveType.getArrayClassName().is(containingDeclaration)) {
String methodSignature =
"(["
+ jvmPrimitiveType.getJvmLetter()
+ ")"
+ jvmPrimitiveType.getIterator().getDescriptor();
v.invokestatic("jet/runtime/ArrayIterator", "iterator", methodSignature);
return StackValue.onStack(jvmPrimitiveType.getIterator().getAsmType());
}
}
throw new UnsupportedOperationException(containingDeclaration.toString());
}
}
@Nullable
public static FunctionDescriptor getOverriddenDescriptor(
@NotNull FunctionDescriptor functionDescriptor) {
Set<? extends FunctionDescriptor> overriddenDescriptors =
functionDescriptor.getOverriddenDescriptors();
if (overriddenDescriptors.isEmpty()) {
return null;
} else {
// TODO: for now translator can't deal with multiple inheritance good enough
return overriddenDescriptors.iterator().next();
}
}
private List<TypeParameterDescriptor> modifyTypeParametersAccordingToSuperMethods(
List<TypeParameterDescriptor> autoTypeParameters) {
List<TypeParameterDescriptor> result = Lists.newArrayList();
for (TypeParameterDescriptor autoParameter : autoTypeParameters) {
int index = autoParameter.getIndex();
TypeParameterDescriptorImpl modifiedTypeParameter =
autoTypeParameterToModified.get(autoParameter);
List<Iterator<JetType>> upperBoundFromSuperFunctionsIterators = Lists.newArrayList();
for (FunctionDescriptor superFunction : superFunctions) {
upperBoundFromSuperFunctionsIterators.add(
superFunction.getTypeParameters().get(index).getUpperBounds().iterator());
}
for (JetType autoUpperBound : autoParameter.getUpperBounds()) {
List<TypeAndVariance> upperBoundsFromSuperFunctions = Lists.newArrayList();
for (Iterator<JetType> iterator : upperBoundFromSuperFunctionsIterators) {
assert iterator.hasNext();
upperBoundsFromSuperFunctions.add(new TypeAndVariance(iterator.next(), INVARIANT));
}
JetType modifiedUpperBound =
modifyTypeAccordingToSuperMethods(
autoUpperBound, upperBoundsFromSuperFunctions, UPPER_BOUND);
modifiedTypeParameter.addUpperBound(modifiedUpperBound);
}
for (Iterator<JetType> iterator : upperBoundFromSuperFunctionsIterators) {
assert !iterator.hasNext();
}
modifiedTypeParameter.setInitialized();
result.add(modifiedTypeParameter);
}
return result;
}
@Override
public void visitNamedFunction(JetNamedFunction function) {
FunctionDescriptor functionDescriptor =
(FunctionDescriptor) bindingContext.get(DECLARATION_TO_DESCRIPTOR, function);
// working around a problem with shallow analysis
if (functionDescriptor == null) return;
DeclarationDescriptor containingDeclaration = functionDescriptor.getContainingDeclaration();
if (containingDeclaration instanceof ClassDescriptor) {
nameStack.push(peekFromStack(nameStack) + '$' + function.getName());
super.visitNamedFunction(function);
nameStack.pop();
} else if (containingDeclaration instanceof NamespaceDescriptor) {
String peek = peekFromStack(nameStack);
if (peek.isEmpty()) {
peek = JvmAbi.PACKAGE_CLASS;
} else {
peek += "/" + JvmAbi.PACKAGE_CLASS;
}
nameStack.push(peek + '$' + function.getName());
super.visitNamedFunction(function);
nameStack.pop();
} else {
String name = inventAnonymousClassName(function);
ClassDescriptor classDescriptor = recordClassForFunction(functionDescriptor);
recordClosure(
bindingTrace,
function,
classDescriptor,
peekFromStack(classStack),
JvmClassName.byInternalName(name),
true);
classStack.push(classDescriptor);
nameStack.push(name);
super.visitNamedFunction(function);
nameStack.pop();
classStack.pop();
}
}
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;
}
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;
}
