private void generateParameterAnnotations( @NotNull FunctionDescriptor functionDescriptor, @NotNull MethodVisitor mv, @NotNull JvmMethodSignature jvmSignature) { Iterator<ValueParameterDescriptor> iterator = functionDescriptor.getValueParameters().iterator(); List<JvmMethodParameterSignature> kotlinParameterTypes = jvmSignature.getValueParameters(); for (int i = 0; i < kotlinParameterTypes.size(); i++) { JvmMethodParameterSignature parameterSignature = kotlinParameterTypes.get(i); JvmMethodParameterKind kind = parameterSignature.getKind(); if (kind.isSkippedInGenericSignature()) { markEnumOrInnerConstructorParameterAsSynthetic(mv, i); continue; } if (kind == JvmMethodParameterKind.VALUE) { ValueParameterDescriptor parameter = iterator.next(); if (parameter.getIndex() != i) { v.getSerializationBindings().put(INDEX_FOR_VALUE_PARAMETER, parameter, i); } AnnotationCodegen annotationCodegen = AnnotationCodegen.forParameter(i, mv, typeMapper); if (functionDescriptor instanceof PropertySetterDescriptor) { PropertyDescriptor propertyDescriptor = ((PropertySetterDescriptor) functionDescriptor).getCorrespondingProperty(); Annotated targetedAnnotations = new AnnotatedWithOnlyTargetedAnnotations(propertyDescriptor); annotationCodegen.genAnnotations( targetedAnnotations, parameterSignature.getAsmType(), SETTER_PARAMETER); } if (functionDescriptor instanceof ConstructorDescriptor) { annotationCodegen.genAnnotations( parameter, parameterSignature.getAsmType(), CONSTRUCTOR_PARAMETER); } else { annotationCodegen.genAnnotations(parameter, parameterSignature.getAsmType()); } } else if (kind == JvmMethodParameterKind.RECEIVER) { ReceiverParameterDescriptor receiver = ((functionDescriptor instanceof PropertyAccessorDescriptor) ? ((PropertyAccessorDescriptor) functionDescriptor).getCorrespondingProperty() : functionDescriptor) .getExtensionReceiverParameter(); if (receiver != null) { AnnotationCodegen annotationCodegen = AnnotationCodegen.forParameter(i, mv, typeMapper); Annotated targetedAnnotations = new AnnotatedWithOnlyTargetedAnnotations(receiver.getType()); annotationCodegen.genAnnotations( targetedAnnotations, parameterSignature.getAsmType(), RECEIVER); } } } }
private static boolean isDefaultNeeded(FunctionDescriptor functionDescriptor) { boolean needed = false; if (functionDescriptor != null) { for (ValueParameterDescriptor parameterDescriptor : functionDescriptor.getValueParameters()) { if (parameterDescriptor.declaresDefaultValue()) { needed = true; break; } } } return needed; }
private void generateBridge(@NotNull Method bridge, @NotNull Method delegate) { if (bridge.equals(delegate)) return; MethodVisitor mv = v.newMethod( OtherOrigin(element, funDescriptor), ACC_PUBLIC | ACC_BRIDGE, bridge.getName(), bridge.getDescriptor(), null, ArrayUtil.EMPTY_STRING_ARRAY); if (state.getClassBuilderMode() != ClassBuilderMode.FULL) return; mv.visitCode(); InstructionAdapter iv = new InstructionAdapter(mv); ImplementationBodyCodegen.markLineNumberForSyntheticFunction( DescriptorUtils.getParentOfType(funDescriptor, ClassDescriptor.class), iv); iv.load(0, asmType); ReceiverParameterDescriptor receiver = funDescriptor.getExtensionReceiverParameter(); int count = 1; if (receiver != null) { StackValue.local(count, bridge.getArgumentTypes()[count - 1]) .put(typeMapper.mapType(receiver.getType()), iv); count++; } List<ValueParameterDescriptor> params = funDescriptor.getValueParameters(); for (ValueParameterDescriptor param : params) { StackValue.local(count, bridge.getArgumentTypes()[count - 1]) .put(typeMapper.mapType(param.getType()), iv); count++; } iv.invokevirtual( asmType.getInternalName(), delegate.getName(), delegate.getDescriptor(), false); StackValue.onStack(delegate.getReturnType()).put(bridge.getReturnType(), iv); iv.areturn(bridge.getReturnType()); FunctionCodegen.endVisit(mv, "bridge", element); }
private static void generateLocalVariableTable( @NotNull MethodVisitor mv, @NotNull JvmMethodSignature jvmMethodSignature, @NotNull FunctionDescriptor functionDescriptor, @Nullable Type thisType, @NotNull Label methodBegin, @NotNull Label methodEnd, @NotNull OwnerKind ownerKind) { Iterator<ValueParameterDescriptor> valueParameters = functionDescriptor.getValueParameters().iterator(); List<JvmMethodParameterSignature> params = jvmMethodSignature.getValueParameters(); int shift = 0; boolean isStatic = AsmUtil.isStaticMethod(ownerKind, functionDescriptor); if (!isStatic) { // add this if (thisType != null) { mv.visitLocalVariable( "this", thisType.getDescriptor(), null, methodBegin, methodEnd, shift); } else { // TODO: provide thisType for callable reference } shift++; } for (int i = 0; i < params.size(); i++) { JvmMethodParameterSignature param = params.get(i); JvmMethodParameterKind kind = param.getKind(); String parameterName; if (kind == JvmMethodParameterKind.VALUE) { ValueParameterDescriptor parameter = valueParameters.next(); parameterName = parameter.getName().asString(); } else { String lowercaseKind = kind.name().toLowerCase(); parameterName = needIndexForVar(kind) ? "$" + lowercaseKind + "$" + i : "$" + lowercaseKind; } Type type = param.getAsmType(); mv.visitLocalVariable( parameterName, type.getDescriptor(), null, methodBegin, methodEnd, shift); shift += type.getSize(); } }
public static void generateDefaultImplBody( @NotNull MethodContext methodContext, @NotNull FunctionDescriptor functionDescriptor, @NotNull MethodVisitor mv, @NotNull DefaultParameterValueLoader loadStrategy, @Nullable KtNamedFunction function, @NotNull MemberCodegen<?> parentCodegen, @NotNull Method defaultMethod) { GenerationState state = parentCodegen.state; JvmMethodSignature signature = state.getTypeMapper().mapSignature(functionDescriptor, methodContext.getContextKind()); boolean isStatic = isStaticMethod(methodContext.getContextKind(), functionDescriptor); FrameMap frameMap = createFrameMap(state, functionDescriptor, signature, isStatic); ExpressionCodegen codegen = new ExpressionCodegen( mv, frameMap, signature.getReturnType(), methodContext, state, parentCodegen); CallGenerator generator = codegen.getOrCreateCallGeneratorForDefaultImplBody(functionDescriptor, function); InstructionAdapter iv = new InstructionAdapter(mv); genDefaultSuperCallCheckIfNeeded(iv, defaultMethod); loadExplicitArgumentsOnStack(OBJECT_TYPE, isStatic, signature, generator); List<JvmMethodParameterSignature> mappedParameters = signature.getValueParameters(); int capturedArgumentsCount = 0; while (capturedArgumentsCount < mappedParameters.size() && mappedParameters.get(capturedArgumentsCount).getKind() != JvmMethodParameterKind.VALUE) { capturedArgumentsCount++; } int maskIndex = 0; List<ValueParameterDescriptor> valueParameters = functionDescriptor.getValueParameters(); for (int index = 0; index < valueParameters.size(); index++) { if (index % Integer.SIZE == 0) { maskIndex = frameMap.enterTemp(Type.INT_TYPE); } ValueParameterDescriptor parameterDescriptor = valueParameters.get(index); Type type = mappedParameters.get(capturedArgumentsCount + index).getAsmType(); int parameterIndex = frameMap.getIndex(parameterDescriptor); if (parameterDescriptor.declaresDefaultValue()) { iv.load(maskIndex, Type.INT_TYPE); iv.iconst(1 << (index % Integer.SIZE)); iv.and(Type.INT_TYPE); Label loadArg = new Label(); iv.ifeq(loadArg); StackValue.local(parameterIndex, type) .store(loadStrategy.genValue(parameterDescriptor, codegen), iv); iv.mark(loadArg); } generator.putValueIfNeeded(type, StackValue.local(parameterIndex, type)); } CallableMethod method = state.getTypeMapper().mapToCallableMethod(functionDescriptor, false); generator.genCallWithoutAssertions(method, codegen); iv.areturn(signature.getReturnType()); }